CN213127332U - Oil-used peony seedling device capable of quickly taking out seedling raising tray - Google Patents

Abstract

The utility model provides a can take out fast and educate tree peony seedling device for oil of seedling tray, it relates to the plant technical field of growing seedlings. The utility model provides a current vertical multilayer breeding device exist not convenient for take out seedling tray from the incubator, work efficiency is low, and in the transportation, spills over the culture solution easily and causes extravagant problem. The utility model discloses a multiunit is cultivated unit from top to bottom the level setting on incubator support frame and nutrition box support frame, the buffering subassembly sets up on the incubator space bar of incubator support frame, the incubator is installed on buffering subassembly upper portion, the nutrition box is installed on the nutrition box space bar of nutrition box support frame, the feed pipe sets up between incubator and nutrition box, it installs in the incubator to educate the seedling tray, the nutrition box with educate and be equipped with the lift unit between the seedling tray, the lower part of lift unit is fixed on the buffering subassembly, the guide bar respectively with two lift unit's power take off end sliding fit. The utility model is used for plant seedling's high-efficient cultivation.

Description

Oil-used peony seedling device capable of quickly taking out seedling raising tray

Technical Field

The utility model relates to a plant seedling growing technical field, concretely relates to can take out fast and educate tree peony seedling device for oil of seedling tray.

Background

Due to the high nutritional value of the peony oil, the demand of China for oil peonies is getting larger and larger, and therefore the planting amount of the oil peonies is also getting larger and larger. The peony seedling cultivation is mostly large-area cultivation, at present, in the oil peony planting, the method adopted mostly is to firstly cultivate the peony seedlings, and then transplant the cultivated peony seedlings for planting. In order to increase the seedling yield, a vertical multi-layer cultivation device is generally used for cultivating plant seedlings. However, when the height of the incubator is high, it is inconvenient to take out the tray for raising seedlings from the incubator, which takes time and labor, and reduces work efficiency. In addition, because the incubator is open structure, when vertical multilayer breeding device was transported to needs, the culture solution in the incubator spilled over easily, caused the waste.

To sum up, current vertical multilayer breeding device exists and is not convenient for take out seedling tray from the incubator, and work efficiency is low, and in the transportation, overflows the problem that the culture solution caused the waste easily.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current vertical multilayer breeding device and having the tray of will growing seedlings of not being convenient for take out from the incubator in, work efficiency is low, and in the transportation, spills over the culture solution easily and causes extravagant problem, and then provides one kind and can take out the oily tree peony seedling device who grows seedlings tray fast.

The technical scheme of the utility model is that:

an oil peony seedling device capable of quickly taking out a seedling raising tray comprises a supporting assembly and a plurality of groups of cultivation units, wherein the supporting assembly comprises a base 11, an incubator supporting frame 12 and a nutrition box supporting frame 13, the base 11 is horizontally arranged, and the incubator supporting frame 12 and the nutrition box supporting frame 13 are arranged on the base 11 side by side; the multiple groups of cultivation units are horizontally arranged on the incubator support frame 12 and the nutrient box support frame 13 from top to bottom, each group of cultivation unit comprises a buffer component 21, a seedling growing component 22 and a liquid supply component 23, the buffer component 21 is arranged on an incubator partition plate 123 of the incubator support frame 12, the liquid supply component 23 comprises an incubator 231, a liquid supply pipe 232 and a nutrient box 233, the incubator 231 is arranged on the upper portion of the buffer component 21, an opening is arranged above the incubator 231, the nutrient box 233 is arranged on a nutrient box partition plate 133 of the nutrient box support frame 13, the liquid supply pipe 232 is arranged between the incubator 231 and the nutrient box 233, one end of the liquid supply pipe 232 is communicated with the incubator 231, the other end of the liquid supply pipe 232 is communicated with the nutrient box 233, the seedling growing component 22 comprises a seedling growing disc 221, two guide rails 222, two lifting units 223 and four guide rods 224, the seedling growing disc 221 is arranged in the incubator 231, two ends of the seedling growing disc 221 extend outwards, two vertical settings of elevating unit 223 are in the both sides of educating seedling tray 221, two guide rails 222 are fixed at the power take off end on two elevating unit 223 upper portions along the width direction level of educating seedling tray 221 respectively, educate the boss at seedling tray 221 both ends respectively with two guide rails 222 sliding connection, the lower part of two elevating unit 223 is fixed on buffering subassembly 21, educate two vertical fixes on the buffering subassembly 21 in two elevating unit 223 outsides of guide bar 224 of educating seedling tray 221, the inboard of guide bar 224 is equipped with the spout, guide bar 224 respectively with the power take off end sliding fit of two elevating unit 223.

Further, incubator support frame 12 includes incubator top cap 121, two incubators support riser 122 and a plurality of incubator intermediate wall 123, two incubators support riser 122 and vertically fix side by side on the up end of base 11, a plurality of incubator intermediate wall 123 from top to bottom horizontal equipartition supports between riser 122 at two incubators, the both ends of incubator intermediate wall 123 are fixed respectively on the medial extremity face that two incubators supported riser 122, the both ends horizontal overlap joint of incubator top cap 121 supports the upper end of riser 122 at two incubators.

Further, nutrition box support frame 13 includes nutrition box top cap 131, two nutrition boxes support riser 132 and a plurality of nutrition box intermediate spacer 133, two nutrition boxes support riser 132 and vertically fix side by side on the up end of base 11, a plurality of nutrition box intermediate spacer 133 from top to bottom horizontal equipartition supports between riser 132 at two nutrition boxes, the both ends of intermediate spacer 133 are fixed respectively on the medial extremity face that two nutrition boxes supported riser 132 in the nutrition box, the horizontal overlap joint in the upper end that two nutrition boxes supported riser 132 at the both ends of nutrition box top cap 131.

Further, buffer unit 21 includes upper supporting seat 211, lower supporting seat 212 and a plurality of buffer unit 213, upper supporting seat 211 and lower supporting seat 212 from top to bottom level setting are on middle culture box compartment board 123 upper portion, lower supporting seat 212 is fixed on the up end of middle culture box compartment board 123, the vertical equipartition of a plurality of buffer unit 213 is between upper supporting seat 211 and lower supporting seat 212, the upper end of buffer unit 213 is connected with the lower terminal surface of upper supporting seat 211, the lower extreme of buffer unit 213 and the up end rigid coupling of lower supporting seat 212.

Further, the buffer unit 213 includes a spring 2131, a positioning bolt 2132, a locking nut 2133 and a positioning sleeve 2134, a plurality of threaded holes are uniformly distributed on the lower support base 212, the locking nut 2133 is installed at the lower end of the positioning bolt 2132 in a threaded manner, the upper end of the positioning bolt 2132 penetrates through the threaded hole of the lower support base 212 and is in threaded fit with the lower support base 212, the lower end of the spring 2131 is vertically sleeved on the upper end of the positioning bolt 2132, the upper end of the spring 2131 is inserted into the lower end inner hole of the positioning sleeve 2134, and the upper end of the positioning sleeve 2134 is fixed on the lower end face of the upper support base 211.

Further, the lifting unit 223 includes a servo motor 2231, a transmission shaft 2232, two gears 2233, two connecting keys, two racks 2234, two bearings and two bearing seats 2235, the transmission shaft 2232 is horizontally disposed above the buffer assembly 21 along the width direction of the seedling raising tray 221, two ends of the transmission shaft 2232 are respectively installed on the buffer assembly 21 through the two bearing seats 2235, a bearing is disposed between a shaft end of the transmission shaft 2232 and the bearing seat 2235, the two gears 2233 are sleeved on the transmission shaft 2232, a connecting key is disposed between the gear 2233 and the transmission shaft 2232, the two racks 2234 are respectively vertically disposed between the two gears 2233 and the two guide rods 224, one side of the rack 2234 is engaged with the rack 2234, the other side of the rack 2234 is in sliding fit with a sliding groove on the inner side of the guide rod 224, the servo motor 2231 is located at an end of the transmission shaft 2232, and an output shaft of the servo.

Further, the supporting assembly further comprises four casters 14, and the four casters 14 are uniformly distributed at four corners below the base 11.

Compared with the prior art, the utility model has the following effect:

the utility model discloses a can take out oil of educating seedling tray fast and use tree peony seedling device, through establishing the formula structure with the device design, the area of equipment has been solved, through set up multiunit cultivation unit from top to bottom in the device is inside, the area of growing seedlings has been increased effectively, the output of growing seedlings has been improved, educate seedling tray and adopt pull formula structure, and set up the buffering subassembly between educating seedling tray and incubator, on the basis of realizing the high-efficient breeding of plant, can realize educating seedling tray's quick extraction, the efficiency of growing seedlings is improved, time saving and labor saving, and the human cost is reduced. Four corners department below the base is equipped with four truckles, and the transport and the removal of the equipment of being convenient for are equipped with the buffering subassembly in the incubator bottom of installation seedling tray simultaneously, and when whole equipment removed, the buffering subassembly played buffering and absorbing effect to the incubator, and the nutrient solution of avoiding in the incubator overflows, avoids causing the waste.

Drawings

FIG. 1 is a schematic structural view of an oil peony seedling device capable of quickly taking out a seedling tray of the present invention;

fig. 2 is a schematic structural view of the support assembly of the present invention;

FIG. 3 is a schematic view of a set of cultivation units according to the present invention;

FIG. 4 is a schematic structural view of the buffering assembly and the seedling raising assembly of the present invention;

FIG. 5 is a schematic view of the buffer assembly and the liquid supply assembly of the present invention;

fig. 6 is a schematic structural view of the lifting unit of the present invention.

Detailed Description

The first embodiment is as follows: the embodiment is described with reference to fig. 1 to 6, and the oil peony seedling device capable of quickly taking out a seedling tray of the embodiment comprises a support assembly and a plurality of groups of cultivation units, wherein the support assembly comprises a base 11, an incubator support frame 12 and a nutrition box support frame 13, the support assembly is horizontally arranged on the base 11, and the incubator support frame 12 and the nutrition box support frame 13 are arranged on the base 11 side by side; the multiple groups of cultivation units are horizontally arranged on the incubator support frame 12 and the nutrient box support frame 13 from top to bottom, each group of cultivation unit comprises a buffer component 21, a seedling growing component 22 and a liquid supply component 23, the buffer component 21 is arranged on an incubator partition plate 123 of the incubator support frame 12, the liquid supply component 23 comprises an incubator 231, a liquid supply pipe 232 and a nutrient box 233, the incubator 231 is arranged on the upper portion of the buffer component 21, an opening is arranged above the incubator 231, the nutrient box 233 is arranged on a nutrient box partition plate 133 of the nutrient box support frame 13, the liquid supply pipe 232 is arranged between the incubator 231 and the nutrient box 233, one end of the liquid supply pipe 232 is communicated with the incubator 231, the other end of the liquid supply pipe 232 is communicated with the nutrient box 233, the seedling growing component 22 comprises a seedling growing disc 221, two guide rails 222, two lifting units 223 and four guide rods 224, the seedling growing disc 221 is arranged in the incubator 231, two ends of the seedling growing disc 221 extend outwards, two vertical settings of elevating unit 223 are in the both sides of educating seedling tray 221, two guide rails 222 are fixed at the power take off end on two elevating unit 223 upper portions along the width direction level of educating seedling tray 221 respectively, educate the boss at seedling tray 221 both ends respectively with two guide rails 222 sliding connection, the lower part of two elevating unit 223 is fixed on buffering subassembly 21, educate two vertical fixes on the buffering subassembly 21 in two elevating unit 223 outsides of guide bar 224 of educating seedling tray 221, the inboard of guide bar 224 is equipped with the spout, guide bar 224 respectively with the power take off end sliding fit of two elevating unit 223.

The liquid supply tube 232 of this embodiment is provided with a valve for controlling the start, stop, and flow rate of the nutrient solution in the nutrient tank 233 to be injected into the incubator 231.

In the present embodiment, the bottom of the seedling tray 221 is provided with a plurality of liquid through holes, so that the nutrient solution in the incubator 231 can enter the seedling tray 221, and provide nutrition for the plants in the seedling tray 221.

The second embodiment is as follows: the embodiment is described with reference to fig. 1 and fig. 2, the incubator support frame 12 of the embodiment includes an incubator top cover 121, two incubator support vertical plates 122, and a plurality of incubator intermediate partition plates 123, the two incubator support vertical plates 122 are vertically fixed on the upper end surface of the base 11 side by side, the intermediate partition plates 123 in the plurality of incubator intermediate partition plates 123 are horizontally and uniformly distributed between the two incubator support vertical plates 122 from top to bottom, two ends of the incubator intermediate partition plates 123 are respectively fixed on the inner side end surfaces of the two incubator support vertical plates 122, and two ends of the incubator top cover 121 are horizontally lapped on the upper ends of the two incubator support vertical plates 122. So set up, the quantity of space bar 123 is unanimous with the quantity of culture element in the incubator, through set up multiunit culture element from top to bottom in the device is inside, has increased the area of growing seedlings effectively, has improved the output of growing seedlings. Other components and connections are the same as in the first embodiment.

The third concrete implementation mode: the embodiment is described with reference to fig. 1 and fig. 2, the nutrition box support frame 13 of the embodiment includes a nutrition box top cover 131, two nutrition box support vertical plates 132 and a plurality of nutrition box middle partition plates 133, the two nutrition box support vertical plates 132 are vertically fixed on the upper end surface of the base 11 side by side, the plurality of nutrition box middle partition plates 133 are horizontally and uniformly distributed between the two nutrition box support vertical plates 132 from top to bottom, two ends of the nutrition box middle partition plates 133 are respectively fixed on the inner side end surfaces of the two nutrition box support vertical plates 132, and two ends of the nutrition box top cover 131 are horizontally lapped on the upper ends of the two nutrition box support vertical plates 132. So set up, the quantity of space bar 133 is unanimous with the quantity of culture unit in the nutrition box, through set up multiunit culture unit from top to bottom in the device is inside, has increased the area of growing seedlings effectively, has improved the output of growing seedlings. Other compositions and connections are the same as in the first or second embodiments.

The fourth concrete implementation mode: the embodiment is described with reference to fig. 1 and fig. 3, the buffer assembly 21 of the embodiment includes an upper support seat 211, a lower support seat 212, and a plurality of buffer units 213, the upper support seat 211 and the lower support seat 212 are horizontally disposed on the upper portion of the partition board 123 in the incubator from top to bottom, the lower support seat 212 is fixed on the upper end surface of the partition board 123 in the incubator, the plurality of buffer units 213 are vertically and uniformly distributed between the upper support seat 211 and the lower support seat 212, the upper end of the buffer unit 213 is connected with the lower end surface of the upper support seat 211, and the lower end of the buffer unit 213 is fixedly connected with the upper end surface of the lower support seat 212. So set up, buffering subassembly 21 plays buffering and absorbing effect to incubator 231, avoids the nutrient solution in incubator 231 to overflow, avoids causing the waste. Other compositions and connection relationships are the same as in the first, second or third embodiment.

The fifth concrete implementation mode: the embodiment is described with reference to fig. 1 and 3, the buffer unit 213 of the embodiment includes a spring 2131, a positioning bolt 2132, a locking nut 2133 and a positioning sleeve 2134, a plurality of threaded holes are uniformly distributed on the lower support base 212, the locking nut 2133 is installed at the lower end of the positioning bolt 2132 in a threaded manner, the upper end of the positioning bolt 2132 penetrates through the threaded hole of the lower support base 212 and is in threaded engagement with the lower support base 212, the lower end of the spring 2131 is vertically sleeved on the upper end of the positioning bolt 2132, the upper end of the spring 2131 is inserted into the lower end inner hole of the positioning sleeve 2134, and the upper end of the positioning sleeve 2134 is fixed on the lower end face of the upper. So set up, location sleeve 2134 and positioning bolt 2132 play spacing effect to spring 2131, adopt threaded connection's mode, are convenient for realize the change of part. Other compositions and connection relationships are the same as those in the first, second, third or fourth embodiment.

The sixth specific implementation mode: the present embodiment is described with reference to fig. 1 and 6, and the lifting unit 223 of the present embodiment includes a servo motor 2231, a transmission shaft 2232, and two gears 2233, two connecting keys, two racks 2234, two bearings and two bearing seats 2235, the transmission shaft 2232 is horizontally arranged above the buffer component 21 along the width direction of the seedling raising tray 221, two ends of the transmission shaft 2232 are respectively installed on the buffer component 21 through the two bearing seats 2235, a bearing is arranged between the shaft end of the transmission shaft 2232 and the bearing seats 2235, the two gears 2233 are sleeved on the transmission shaft 2232, a connecting key is arranged between the gear 2233 and the transmission shaft 2232, the two racks 2234 are respectively vertically arranged between the two gears 2233 and the two guide rods 224, one side of each rack 2234 is meshed with the rack 2234, the other side of each rack 2234 is in sliding fit with the sliding groove on the inner side of the guide rod 224, the servo motor 2231 is located at the end part of the transmission shaft 2232, and the output shaft of the servo motor. So set up, start servo motor 2231, servo motor 2231 drives the transmission shaft 2232 and rotates, and two gears 2233 on the transmission shaft 2232 mesh with two racks 2234 respectively, drive two racks 2234 and do linear motion along guide bar 224, and then realize the rising or the decline of guide rail 222. Other compositions and connection relationships are the same as in the first, second, third, fourth or fifth embodiment.

The seventh embodiment: referring to fig. 1, the supporting assembly of the present embodiment further includes four casters 14, and the four casters 14 are uniformly distributed at four corners below the base 11. So set up, be convenient for the removal of equipment. Other compositions and connection relationships are the same as in the first, second, third, fourth, fifth or sixth embodiment.

Principle of operation

The working principle of the oil peony seedling device capable of quickly taking out the seedling raising tray of the utility model is described with reference to fig. 1 to 6: before working, nutrient solution is injected into the incubator 231, and the valve arranged on the liquid supply pipe 232 is opened, so that the nutrient solution in the nutrient box 233 is injected into the incubator 231 through the liquid supply pipe 232. Meanwhile, the servo motors 2231 on the two sides of the seedling raising tray 221 are started, the servo motors 2231 drive the transmission shafts 2232 to rotate, the two gears 2233 on the transmission shafts 2232 are respectively meshed with the two racks 2234 to drive the two racks 2234 to do linear motion along the guide rod 224, and then the guide rail 222 descends until the bottom of the seedling raising tray 221 is completely immersed below the liquid level of the nutrient solution in the incubator 231. After the plants in the seedling raising tray 221 are raised, the servo motors 2231 on both sides of the seedling raising tray 221 are simultaneously started to realize the ascending of the guide rails 222 until the bottom of the seedling raising tray 221 is completely separated from the incubator 231, and the seedling raising trays 221 on the two guide rails 222 are pulled to realize the separation of the seedling raising tray 221 and the incubator 231.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a can take out fast and educate tree peony seedling device for oil of seedling tray which characterized in that: the cultivation device comprises a supporting component and a plurality of groups of cultivation units, wherein the supporting component comprises a base (11), an incubator supporting frame (12) and a nutrition box supporting frame (13), the base (11) is horizontally arranged, and the incubator supporting frame (12) and the nutrition box supporting frame (13) are arranged on the base (11) side by side; the multiple groups of cultivation units are horizontally arranged on the incubator support frame (12) and the nutrient box support frame (13) from top to bottom, each group of cultivation unit comprises a buffer component (21), a seedling raising component (22) and a liquid supply component (23), the buffer component (21) is arranged on an incubator partition plate (123) of the incubator support frame (12), the liquid supply component (23) comprises an incubator (231), a liquid supply pipe (232) and a nutrient box (233), the incubator (231) is arranged on the upper portion of the buffer component (21), an opening is formed in the upper portion of the incubator (231), the nutrient box (233) is arranged on a nutrient box partition plate (133) of the nutrient box support frame (13), the liquid supply pipe (232) is arranged between the incubator (231) and the nutrient box (233), one end of the liquid supply pipe (232) is communicated with the incubator (231), and the other end of the liquid supply pipe (232) is communicated with the nutrient box (233), the seedling raising component (22) comprises a seedling raising disk (221), two guide rails (222), two lifting units (223) and four guide rods (224), the seedling raising disk (221) is installed in an incubator (231), bosses extend outwards along the horizontal direction at two ends of the seedling raising disk (221), the two lifting units (223) are vertically arranged at two sides of the seedling raising disk (221), the two guide rails (222) are horizontally fixed at power output ends at the upper parts of the two lifting units (223) along the width direction of the seedling raising disk (221), the bosses at two ends of the seedling raising disk (221) are in sliding connection with the two guide rails (222), the lower parts of the two lifting units (223) are fixed on the buffer component (21), the two guide rods (224) at each side of the seedling raising disk (221) are vertically fixed on the buffer component (21) at the outer sides of the two lifting units (223), sliding grooves are formed in the inner sides of the guide rods (224), the guide rods (224) are respectively in sliding fit with the power output ends of the two lifting units (223).

2. The oil-used peony seedling device capable of quickly taking out a seedling tray as claimed in claim 1, wherein: incubator support frame (12) are including incubator top cap (121), two incubators support riser (122) and a plurality of incubator intermediate spacer (123), two incubators support riser (122) and vertically fix on the up end of base (11) side by side, spacer (123) from top to bottom horizontal equipartition supports between riser (122) at two incubators in a plurality of incubators, the both ends of spacer (123) are fixed respectively on the medial surface that two incubators supported riser (122) in the incubator, the horizontal overlap joint in both ends of incubator top cap (121) supports the upper end of riser (122) at two incubators.

3. The oil-used peony seedling device capable of quickly taking out a seedling tray as claimed in claim 1 or 2, wherein: nutrition box support frame (13) are including nutrition box top cap (131), two nutrition boxes support riser (132) and a plurality of nutrition box intermediate space board (133), two nutrition boxes support riser (132) and vertically fix on the up end of base (11) side by side, spacer board (133) from top to bottom horizontal equipartition supports between riser (132) at two nutrition boxes in a plurality of nutrition boxes, the both ends of spacer board (133) are fixed respectively on the medial surface that two nutrition boxes supported riser (132) in the nutrition box, the both ends horizontal overlap joint of nutrition box top cap (131) supports the upper end of riser (132) at two nutrition boxes.

4. The oil-used peony seedling device capable of quickly taking out a seedling tray as claimed in claim 3, wherein: buffer unit (21) includes supporting seat (211), lower supporting seat (212) and a plurality of buffer cell (213), go up supporting seat (211) and lower supporting seat (212) from top to bottom level setting on middle-sized compartment board (123) upper portion in the incubator, lower supporting seat (212) are fixed on the up end of middle-sized compartment board (123) in the incubator, a plurality of buffer cell (213) vertical equipartitions are between last supporting seat (211) and lower supporting seat (212), the upper end of buffer cell (213) is connected with the lower terminal surface of last supporting seat (211), the lower extreme of buffer cell (213) and the up end rigid coupling of lower supporting seat (212).

5. The oil-used peony seedling device capable of quickly taking out a seedling tray as claimed in claim 4, wherein: buffer unit (213) includes spring (2131), positioning bolt (2132), lock nut (2133) and locating sleeve (2134), a plurality of screw holes of equipartition are gone up in lower support seat (212), the lower extreme at positioning bolt (2132) is installed to lock nut (2133) screw thread, the screw hole of lower support seat (212) is passed and with lower support seat (212) screw-thread fit in the upper end of spring (2131) vertical suit, the upper end cartridge of spring (2131) is in the lower extreme hole of locating sleeve (2134), the upper end of locating sleeve (2134) is fixed on the lower terminal surface of upper support seat (211).

6. The oil-used peony seedling device capable of quickly taking out a seedling tray as claimed in claim 5, wherein: the lifting unit (223) comprises a servo motor (2231), a transmission shaft (2232), two gears (2233), two connecting keys, two racks (2234), two bearings and two bearing seats (2235), the transmission shaft (2232) is horizontally arranged above the buffer assembly (21) along the width direction of the seedling raising tray (221), two ends of the transmission shaft (2232) are respectively arranged on the buffer assembly (21) through the two bearing seats (2235), a bearing is arranged between the shaft end of the transmission shaft (2232) and the bearing seats (2235), the two gears (2233) are sleeved on the transmission shaft (2232), the connecting keys are arranged between the gears (2233) and the transmission shaft (2232), the two racks (2234) are respectively vertically arranged between the two gears (2233) and the two guide rods (224), one side of each rack (2234) is meshed with the corresponding rack (2234), the other side of each rack (2234) is in sliding fit with the sliding groove on the inner side of the corresponding guide rod (224), the servo motor (2231) is positioned at the end part of the transmission shaft (2232), and the output shaft of the servo motor (2231) is connected with the transmission shaft (2232).

7. An oil peony seedling device capable of quickly taking out a seedling tray as claimed in claim 1, 2, 4, 5 or 6, wherein: the supporting component also comprises four trundles (14), and the four trundles (14) are uniformly distributed at four corners below the base (11).

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