CN210352127U - Nutrition pot sowing and burying device - Google Patents

Abstract

The utility model discloses a nutrition pot sowing and burying device, which comprises a furrow plough, a plough share, a soil covering wheel and a sowing pipe, wherein the top of the furrow plough is fixedly connected with a fixed plate, the two sides of the rear part are respectively movably connected with the plough share through a loose leaf A, the fixed plate is provided with a traction hole and an adjusting hole A, the side surface of the sowing pipe is fixedly connected with a connecting lug with a connecting hole at the middle part, and the connecting lug penetrates through the adjusting hole A through a bolt to be connected with the fixed plate; the inner side of the rear part of the plough share is connected with an adjusting rod through a hinge B, and the middle part of the adjusting rod is rotatably connected with a soil covering wheel through a connecting rod A. The utility model discloses a by the integrated configuration of furrow opener, seeding pipe, earthing wheel, realized ditching, seeding, earthing function in step, effectively improved the transplantation efficiency of nutrition alms bowl, reduced personnel's input to show and reduced agricultural production cost.

Description

Nutrition pot sowing and burying device

Technical Field

The utility model relates to a bury the device field, specifically a nutrition alms bowl is planted and is buried device.

Background

The nutrition pot has become a common means for raising seedlings, sowing and cultivating in the modern agricultural development, and the preparation technology of the nutrition pot is mature day by day, but the transplanting and sowing technology is still blank. At present, the transplanting and seeding of the nutrition pot mainly adopts a manual mode, namely, a seeding ditch is dug manually, manual transplanting, manual soil covering and the like are carried out manually, the mode has low operation efficiency, large personnel investment and high labor cost, further, the agricultural production cost is obviously increased, and the quick development of modern agriculture is difficult to adapt.

In addition, after the existing nutrition pot is sowed manually, manual film mulching and manual irrigation are needed, so that the farming season is wasted, the labor cost is increased, and the popularization and the application of the nutrition pot technology are not facilitated.

Therefore, it is necessary to design a planting and burying device which can not only realize synchronous and rapid ditching, seeding and soil covering of the nutrition pot, but also simultaneously realize film covering and drip irrigation belt burying, so as to solve the technical problems, thereby promoting the wide application of the nutrition pot industry in modern agriculture.

SUMMERY OF THE UTILITY MODEL

To the technical problem above, the utility model aims to solve the technical problem that a nutrition alms bowl that can realize synchronous quick ditching, seeding, earthing is broadcast and is buried device is provided.

In order to solve the technical problem, the nutrition pot planting device comprises a furrow plough, a plough share, a soil covering wheel and a planting pipe, wherein the top of the furrow plough is fixedly connected with a fixed plate, two sides of the rear part of the furrow plough are respectively movably connected with the plough share through hinges A, the fixed plate is provided with a plurality of traction holes and a plurality of adjusting holes A, the side surface of the planting pipe is fixedly connected with a connecting lug, and the connecting lug is connected with the adjusting holes A through bolts; the inner side of the rear part of any plough share is connected with an adjusting rod through a hinge B, and the middle part of the adjusting rod is rotatably connected with a soil covering wheel through a connecting rod A.

Furthermore, the adjusting rods are provided with adjusting holes B which are uniformly distributed, and the adjusting rods positioned at the rear sides of the two ploughshares are connected through the adjusting holes B by adjusting bolts.

Furthermore, connecting rod A one end with adjust the pole and can dismantle to rotate and be connected, the other end pass through the bearing with the earthing wheel rotates and is connected.

Further, the structure of the seeding pipe can be a hollow cylinder or a hollow cuboid according to the properties of the seeding nutrition pot, namely when the seeding nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe can be in a hollow cuboid structure.

Further, still include the tectorial membrane frame, the tectorial membrane frame passes through the traction lever regulation hole A with the fixed plate is connected.

Further, the film covering frame is provided with a furrow opener, a film spreading roller, a film pressing wheel and a soil covering share sequentially from front to back below the film covering frame through the furrow opening frame, the film spreading frame, the film pressing frame and the soil covering frame.

Further, travelling wheels are arranged below the film coating frame through a support frame, and a support table is fixedly arranged above the middle part of the film coating frame; the supporting table is provided with a liquid storage tank and a pump body, the top of the liquid storage tank is provided with a liquid feeding port, the bottom of the liquid storage tank is connected with the pump body through a liquid pumping pipe, the end part of a power shaft at one side of the pump body is fixedly connected with a driving wheel, a liquid outlet of the pump body is fixedly connected with a liquid conveying pipe, the port of the liquid conveying pipe is communicated with a liquid spraying pipe, and the lower side of the liquid spraying pipe is uniformly provided with a plurality of nozzles; the support frame is rotationally connected with a wheel shaft of the travelling wheel.

The device further comprises a pipe coiling disc, wherein two ends of the pipe coiling disc are fixedly connected with supporting shafts; the laminating frame is fixedly connected with a vertical upward supporting plate, the top of the supporting plate is provided with a clamping groove, and the supporting shaft is clamped and embedded in the clamping groove.

Furthermore, the two ends of the traction rod are connected with the film coating frame through nuts, and the two sides of the film coating frame are fixedly connected through a connecting rod B.

Further, furrow opener fixed connection in the ditching frame lower extreme, exhibition membrane roller through exhibition membrane axle swivelling joint in exhibition membrane frame lower extreme, press mold wheel through press mold axle swivelling joint in press mold frame lower extreme, earthing share fixed connection in earthing frame lower extreme.

Furthermore, fastening threads are respectively arranged in the middle and at two ends of the traction rod.

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

(1) the utility model discloses a by the integrated configuration of furrow opener, seeding pipe, earthing wheel, realized ditching, seeding, earthing function in step, effectively improved the transplantation efficiency of nutrition alms bowl, reduced personnel's input to show and reduced agricultural production cost.

(2) The utility model discloses adopt loose-leaf A to be connected between the ditching plough of furrow opener and the share to be provided with the regulation pole in share rear portion inboard, realized the adjustable of share aperture, realized the nimble control to the ditching width, can be adapted to the nutrition alms bowl of multiple specification and transplant the operation.

(3) The utility model is fixedly connected with a fixed plate at the top of the ditching plow, and a plurality of traction holes and adjusting holes A which are uniformly distributed according to the height are arranged on the fixed plate, wherein, the traction holes with proper height are connected with traction machinery, so that the whole height of the nutrition pot planting device can be adjusted, and the adjustment control of the ditching depth is realized; the sowing pipe is connected through the adjusting hole A, so that the ground clearance at the bottom end of the sowing pipe can be adjusted, and the nutrition bowls of various specifications can be accurately sown into the sowing ditch.

(4) The utility model discloses be provided with the earthing wheel through the connecting rod on the regulation pole of share for the interval that opens and shuts of earthing wheel changes along with the change of share aperture, can ensure throughout that the earthing wheel buries the seeding ditch with the soil that digger plough and share opened, and then has reached the level and smooth earthing effect of earth's surface.

(5) The utility model discloses when using, can connect suitable tectorial membrane frame at the rear portion of earthing wheel through the regulation hole A of fixed plate, set up the shop's membrane device of constituteing by ditching mechanism, exhibition membrane mechanism, film pressing mechanism, earthing mechanism simultaneously on suitable tectorial membrane frame to this has realized triple efficiency such as nutrition alms bowl seeding, earthing, shop's membrane, and to practicing thrift the farming season, it has important meaning to improve agricultural production efficiency.

(6) The utility model discloses when using, the accessible sets up the liquid reserve tank in tectorial membrane frame top to be connected on with liquid reserve tank and liquid transportation, blowout pipeline through the pump body, only need add water, fertilizer or liquid plastic film solution in the liquid reserve tank as required with this, can realize irrigating for the first time, fertilize for the first time or liquid plastic film to sow back nutrition alms bowl lays, and popularization prospect is wide.

(6) The utility model discloses be provided with the coil pipe dish in tectorial membrane frame top to can need to change the coil pipe dish and set up the different tectorial membrane frame in position, thereby realize laying of drip irrigation zone or epimembranal drip irrigation zone under the membrane, and then on the basis of multiple functions such as nutrition alms bowl seeding, earthing, tectorial membrane, realize that drip irrigation zone lays the function.

(7) The utility model discloses only need adopt the traction frame that has a plurality of traction plates and the nutrition alms bowl of equal quantity to broadcast the fixed plate that buries the device and be connected to after being connected traction frame and traction machine, can realize that the multirow transplants seeding, earthing, tectorial membrane, drip irrigation zone simultaneously and lay, can further improve and transplant seeding efficiency, be applied to modern agriculture's industrialization production to promoting the nutrition alms bowl and have important meaning, the agricultural popularization prospect is wide.

Drawings

Fig. 1 is a schematic structural diagram of embodiment 1 of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a schematic structural diagram of embodiment 2 of the present invention.

Fig. 4 is a top view of fig. 3.

Fig. 5 is a schematic structural diagram of embodiment 3 of the present invention.

Fig. 6 is a top view of fig. 5.

Fig. 7 is a schematic structural view of embodiment 4 of the present invention.

Fig. 8 is a top view of fig. 7.

Fig. 9 is a schematic structural view of embodiment 5 of the present invention.

Fig. 10 is a top view of fig. 9.

Fig. 11 is a schematic structural view of embodiment 6 of the present invention.

Fig. 12 is a top view of fig. 11.

Fig. 13 is a schematic structural view of a traction rod according to embodiments 2 to 6 of the present invention.

Fig. 14 is a schematic view of a connection structure of a traction rod, a fixing plate and a film coating frame in embodiments 2 to 6 of the present invention.

In the figure: 1. ditching plow, 2, ploughshare, 3, connecting rod A, 4, soil covering wheel, 5, seeding tube, 6, adjusting hole A, 7, fixing plate, 8, drawing hole, 9, connecting lug, 10, bolt, 11, loose leaf A, 12, adjusting rod, 13, loose leaf B, 14, adjusting hole B, 15, adjusting bolt, 16, bearing, 17, film covering frame, 18, ditching frame, 19, film spreading frame, 20, film pressing frame, 21, tube rolling disc, 22, supporting shaft, 23, clamping groove, 24, supporting plate, 25, soil covering frame, 26, soil covering ploughshare, 27, film pressing wheel, 28, film pressing shaft, 29, film spreading roller, 30, film spreading shaft, 31, ditcher, 32, liquid storage tank, 33, liquid adding opening, 34, liquid pumping tube, 35, pump body, 36, liquid conveying tube, 37, liquid spraying tube, 38, supporting frame, 39, wheel shaft, 40, nozzle, 41, traction rod, 42, nut, 43, traction wheel, 44. connecting rods B, 45, power shafts, 46, driving wheels, 47, supporting tables, 48 and fastening threads.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

Example 1:

as shown in fig. 1 and 2, the nutrition pot burying device comprises a furrow plough 1, a plough share 2, a soil covering wheel 4 and a seeding pipe 5, wherein the top of the furrow plough 1 is fixedly connected with a fixing plate 7, two sides of the rear part are respectively movably connected with a plough share 2 through hinges A11, the fixing plate 7 is provided with a plurality of traction holes 8 and a plurality of adjusting holes A6, the side surface of the seeding pipe 5 is fixedly connected with a connecting lug 9, and the connecting lug 9 is connected with an adjusting hole A6 through a bolt 10; the inner side of the rear part of any plough share 2 is connected with an adjusting rod 12 through a hinge B13, and the middle part of the adjusting rod 12 is rotationally connected with a soil covering wheel 4 through a connecting rod A3.

In order to realize the length adjustment of the adjusting rods 12 and further realize the opening degree of the ploughshares 2, the adjusting rods 12 corresponding to each ploughshare 2 are provided with adjusting holes B14 which are uniformly distributed, and the adjusting rods 12 positioned at the rear sides of the two ploughshares 2 are connected through adjusting holes B14 which penetrate through proper distances by adjusting bolts 15.

In order to adjust the opening and closing distance and the opening and closing angle of the soil covering wheel 4, one end of the connecting rod A3 is detachably and rotatably connected with the adjusting rod 12 through a screw, and in order to ensure that the soil covering wheel 4 flexibly rotates, the other end of the connecting rod A3 is rotatably connected with the soil covering wheel 4 through a bearing 16.

Preferably, the structure of the seeding pipe 5 can be a corresponding structure along with the structure of the sowed nutrition pot, that is, the structure of the seeding pipe 5 can be a hollow cylinder or a hollow cuboid according to the properties of the sowed nutrition pot, that is, when the sowed nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe 5 can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe 5 can be in a hollow cuboid structure.

The utility model discloses a concrete working process as follows:

before use, the utility model is connected with a rear hydraulic system of a traction machine such as a tractor and the like through a traction hole 8 to obtain forward power, after the optimal ground clearance of the bottom end of the seeding pipe 5 is determined according to the specification of a nutrition pot to be sowed, a connecting hole on a connecting lug 9 of a bolt 10 is connected with an adjusting hole A6 with proper height, and after the reasonable opening degree of the plough share 2 is determined, an adjusting bolt 15 is adopted to penetrate through the adjusting hole B14 with proper distance for fixation; at the moment, the traction machine is started to drive the utility model to move forward, in the operation process, the ditching plow 1 and the plough share 2 must dig out the soil into a sowing ditch with proper size, at the moment, the nutrition pot pre-embedded with seeds or pre-planted with crop seedlings is manually thrown into from the top of the sowing pipe 5 according to the sowing requirement, the nutrition pot moves down along the sowing pipe 5 and is sowed into the sowing ditch, because the traction machine drives the utility model in the process, the soil covering wheel 4 must bury the dug-out soil into the sowing ditch after the nutrition pot is sowed, thereby realizing the burying of the nutrition pot; and repeating the operations until the whole sowing area is finished with the continuous forward operation of the traction machine.

Example 2:

as shown in fig. 3, 4, 13 and 14, the nutrition pot burying device comprises a furrow plough 1, a plough share 2, a soil covering wheel 4 and a seeding pipe 5, wherein the top of the furrow plough 1 is fixedly connected with a fixing plate 7, two sides of the rear part are respectively movably connected with a plough share 2 through hinges A11, the fixing plate 7 is provided with a plurality of traction holes 8 and a plurality of adjusting holes A6, the side surface of the seeding pipe 5 is fixedly connected with a connecting lug 9, and the connecting lug 9 is connected with the adjusting holes A6 through bolts 10; the inner side of the rear part of any plough share 2 is connected with an adjusting rod 12 through a hinge B13, and the middle part of the adjusting rod 12 is rotationally connected with a soil covering wheel 4 through a connecting rod A3.

In order to realize the length adjustment of the adjusting rods 12 and further realize the opening degree of the ploughshares 2, the adjusting rods 12 corresponding to each ploughshare 2 are provided with adjusting holes B14 which are uniformly distributed, and the adjusting rods 12 positioned at the rear sides of the two ploughshares 2 are connected through adjusting holes B14 which penetrate through proper distances by adjusting bolts 15.

In order to adjust the opening and closing distance and the opening and closing angle of the soil covering wheel 4, one end of the connecting rod A3 is detachably and rotatably connected with the adjusting rod 12 through a screw, and in order to ensure that the soil covering wheel 4 flexibly rotates, the other end of the connecting rod A3 is rotatably connected with the soil covering wheel 4 through a bearing 16.

Preferably, the structure of the seeding pipe 5 can be a corresponding structure along with the structure of the sowed nutrition pot, that is, the structure of the seeding pipe 5 can be a hollow cylinder or a hollow cuboid according to the properties of the sowed nutrition pot, that is, when the sowed nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe 5 can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe 5 can be in a hollow cuboid structure.

In order to realize the mulching of the sowed nutrition pots, the film mulching device further comprises a film mulching frame 17, and the film mulching frame 17 penetrates through the adjusting hole A6 through the traction rod 43 to be connected with the fixing plate 7.

In order to smoothly realize the mulching of the nutrition pots after the sowing and ensure the mulching effect, a furrow opener 31, a film spreading roller 29, a film pressing wheel 27 and a soil covering share 26 are arranged below the mulching frame 17 from front to back in sequence through the furrow opening frame 18, the film spreading frame 19, the film pressing frame 20 and the soil covering frame 25 respectively.

For the convenience of disassembly, two ends of the traction rod 43 are connected with the film covering frame 17 through nuts 42, and in order to ensure the stability of the film covering frame 17 in the operation process, two sides of the film covering frame 17 are fixedly connected through a connecting rod B44.

In order to ensure the firm connection between the traction rod 43 and the fixing plate 7, fastening threads 48 are respectively arranged in the middle and at two ends of the traction rod 43, after the traction rod 43 penetrates through the adjusting hole A6, nuts 42 are respectively screwed into two sides of the film covering frame 17 at the connection part of the film covering frame 17 and the two ends of the traction rod 43, the directions of internal threads of the nuts 42 at two sides of the film covering frame 17 are opposite, and the film covering frame 17 is fastened at the end part of the traction rod 43 by the nuts 42 at two sides; meanwhile, nuts 42 are respectively screwed into two sides of the joint of the middle part of the traction rod 43 and the fixing plate 7, the internal thread directions of the nuts 42 positioned on two sides of the fixing plate 7 are opposite, and the nuts 42 on two sides fasten the fixing plate 7 in the middle part of the traction rod 43.

The working process of the embodiment is as follows:

before use, the utility model is connected with a rear hydraulic system of a traction machine such as a tractor and the like through a traction hole 8 to obtain forward power, after the optimal ground clearance of the bottom end of the seeding pipe 5 is determined according to the specification of a nutrition pot to be seeded, a connecting hole on a connecting lug 9 is connected with an adjusting hole A6 with proper height by a bolt 10, and after the reasonable opening degree of the plough share 2 is determined, an adjusting bolt 15 is adopted to penetrate through the adjusting hole B14 with proper distance for fixation; meanwhile, the mulching film is sleeved on the film spreading roller 29; before the operation is started, the mulching film is pulled out and unfolded backwards from the film spreading roller 29, the film edges are arranged under the film pressing wheels 27 on the two sides, the mulching film head is buried in the working ground head, the traction machinery is started to drive the utility model to operate forwards, in the operation process, the ditching plow 1 and the plough share 2 must dig a sowing ditch with proper size for the soil, at the moment, the nutrition pot pre-embedded with seeds or pre-planted with crop seedlings is manually thrown from the top of the sowing pipe 5 according to the sowing requirement, the nutrition pot moves downwards along the sowing pipe 5 and is sowed into the sowing ditch, and the traction machinery drives the utility model to continuously operate forwards, so after the nutrition pot is sowed, the soil covering wheel 4 must bury the dug soil into the sowing ditch, thereby realizing the burying of the nutrition pot, and forming a ridge; with the continuous advance of the traction machinery, the furrow opener 31 arranged below the mulching film frame 17 respectively opens a mulching film ditch at two sides of the formed ridge, the film spreading roller 29 rolls along the ridge surface to enable the mulching film to be continuously drawn out backwards and spread on the ridge surface, and the two sides of the spread mulching film are also pressed into the mulching film ditches by the film pressing wheel 27 and then buried by soil scraped by the soil covering ploughshare 26, so that the double effects of nutrition pot seeding and surface mulching film laying are completed at one time.

Example 3:

as shown in fig. 5, 6, 13 and 14, the nutrition pot burying device comprises a furrow plough 1, a plough share 2, a soil covering wheel 4 and a seeding pipe 5, wherein the top of the furrow plough 1 is fixedly connected with a fixing plate 7, two sides of the rear part are respectively movably connected with a plough share 2 through hinges A11, the fixing plate 7 is provided with a plurality of traction holes 8 and a plurality of adjusting holes A6, the side surface of the seeding pipe 5 is fixedly connected with a connecting lug 9, and the connecting lug 9 is connected with the adjusting holes A6 through bolts 10; the inner side of the rear part of any plough share 2 is connected with an adjusting rod 12 through a hinge B13, and the middle part of the adjusting rod 12 is rotationally connected with a soil covering wheel 4 through a connecting rod A3.

In order to realize the length adjustment of the adjusting rods 12 and further realize the opening degree of the ploughshares 2, the adjusting rods 12 corresponding to each ploughshare 2 are provided with adjusting holes B14 which are uniformly distributed, and the adjusting rods 12 positioned at the rear sides of the two ploughshares 2 are connected through adjusting holes B14 which penetrate through proper distances by adjusting bolts 15.

In order to adjust the opening and closing distance and the opening and closing angle of the soil covering wheel 4, one end of the connecting rod A3 is detachably and rotatably connected with the adjusting rod 12 through a screw, and in order to ensure that the soil covering wheel 4 flexibly rotates, the other end of the connecting rod A3 is rotatably connected with the soil covering wheel 4 through a bearing 16.

Preferably, the structure of the seeding pipe 5 can be a corresponding structure along with the structure of the sowed nutrition pot, that is, the structure of the seeding pipe 5 can be a hollow cylinder or a hollow cuboid according to the properties of the sowed nutrition pot, that is, when the sowed nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe 5 can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe 5 can be in a hollow cuboid structure.

In order to realize the mulching of the sowed nutrition pots, the film mulching device further comprises a film mulching frame 17, and the film mulching frame 17 penetrates through the adjusting hole A6 through the traction rod 43 to be connected with the fixing plate 7.

In order to keep the film coating frame 17 running stably in the working process, travelling wheels 41 are arranged below the film coating frame 17 through a support frame 38, and a support table 47 is fixedly arranged above the middle part of the film coating frame 17 in order to install the liquid storage tank 32 and the pump body 35; the supporting table 47 is provided with a liquid storage tank 32 and a pump body 35, the top of the liquid storage tank 32 is provided with a liquid feeding port 33, the bottom of the liquid storage tank is connected with the pump body 35 through a liquid pumping pipe 34, the end part of a power shaft 45 at one side of the pump body 35 is fixedly connected with a driving wheel 46, a liquid outlet of the pump body 35 is fixedly connected with a liquid conveying pipe 36, the port of the liquid conveying pipe 36 is communicated with a liquid spraying pipe 37, and the lower side of the liquid spraying pipe 37 is uniformly; the support frame 38 is rotatably connected with the axle 39 of the road wheel 41.

For the convenience of disassembly, two ends of the traction rod 43 are connected with the film covering frame 17 through nuts 42, and in order to ensure the stability of the film covering frame 17 in the operation process, two sides of the film covering frame 17 are fixedly connected through a connecting rod B44.

In order to ensure the firm connection between the traction rod 43 and the fixing plate 7, fastening threads 48 are respectively arranged in the middle and at two ends of the traction rod 43, after the traction rod 43 penetrates through the adjusting hole A6, nuts 42 are respectively screwed into two sides of the film covering frame 17 at the connection part of the film covering frame 17 and the two ends of the traction rod 43, the directions of internal threads of the nuts 42 at two sides of the film covering frame 17 are opposite, and the film covering frame 17 is fastened at the end part of the traction rod 43 by the nuts 42 at two sides; meanwhile, nuts 42 are respectively screwed into two sides of the joint of the middle part of the traction rod 43 and the fixing plate 7, the internal thread directions of the nuts 42 positioned on two sides of the fixing plate 7 are opposite, and the nuts 42 on two sides fasten the fixing plate 7 in the middle part of the traction rod 43.

The working process of the embodiment is as follows:

before use, the utility model is connected with a rear hydraulic system of a traction machine such as a tractor and the like through a traction hole 8 to obtain forward power, after the optimal ground clearance of the bottom end of the seeding pipe 5 is determined according to the specification of a nutrition pot to be sowed, a connecting hole on a connecting lug 9 of a bolt 10 is connected with an adjusting hole A6 with proper height, and after the reasonable opening degree of the plough share 2 is determined, an adjusting bolt 15 is adopted to penetrate through the adjusting hole B14 with proper distance for fixation; a driving wheel 46 at the end part of a power shaft 45 at one side of the pump body 35 is connected with a power output wheel of a traction machine to obtain power, and water, liquid organic fertilizer or liquid mulching film solution is added into the liquid storage tank 32 from the liquid feeding port 33 according to actual requirements; at the moment, the traction machine is started to drive the utility model to move forward, in the operation process, the ditching plow 1 and the plough share 2 must dig out the soil into a sowing ditch with proper size, at the moment, the nutrition pot pre-embedded with seeds or pre-planted with crop seedlings is manually thrown into from the top of the sowing pipe 5 according to the sowing requirement, the nutrition pot moves downwards along the sowing pipe 5 and is sowed into the sowing ditch, because the traction machine drives the utility model in the process, the soil covering wheel 4 must bury the dug-out soil into the sowing ditch after the nutrition pot is sowed, thereby realizing the burying of the nutrition pot and forming a ridge; along with the continuous work of the traction machine, the pump body 35 also continuously works, water or liquid mulching film in the liquid storage tank 32 is beaten out by the pump body 35 in the process and enters the liquid spraying pipe 37 from the liquid conveying pipe 36, and then is sprayed on the ridge surface through the nozzle 40, so that double effects of nutrition pot seeding, first irrigation (water in the liquid storage tank 32) or first fertilization (organic fertilizer solution in the liquid storage tank 32) or liquid mulching film covering (liquid mulching film solution in the liquid storage tank 32) and the like are completed at one time.

Example 4:

as shown in fig. 7, 8, 13 and 14, the nutrition pot burying device comprises a furrow plough 1, a plough share 2, a soil covering wheel 4 and a seeding pipe 5, wherein the top of the furrow plough 1 is fixedly connected with a fixing plate 7, two sides of the rear part are respectively movably connected with a plough share 2 through hinges A11, the fixing plate 7 is provided with a plurality of traction holes 8 and a plurality of adjusting holes A6, the side surface of the seeding pipe 5 is fixedly connected with a connecting lug 9, and the connecting lug 9 is connected with the adjusting holes A6 through bolts 10; the inner side of the rear part of any plough share 2 is connected with an adjusting rod 12 through a hinge B13, and the middle part of the adjusting rod 12 is rotationally connected with a soil covering wheel 4 through a connecting rod A3.

In order to realize the length adjustment of the adjusting rods 12 and further realize the opening degree of the ploughshares 2, the adjusting rods 12 corresponding to each ploughshare 2 are provided with adjusting holes B14 which are uniformly distributed, and the adjusting rods 12 positioned at the rear sides of the two ploughshares 2 are connected through adjusting holes B14 which penetrate through proper distances by adjusting bolts 15.

In order to adjust the opening and closing distance and the opening and closing angle of the soil covering wheel 4, one end of the connecting rod A3 is detachably and rotatably connected with the adjusting rod 12 through a screw, and in order to ensure that the soil covering wheel 4 flexibly rotates, the other end of the connecting rod A3 is rotatably connected with the soil covering wheel 4 through a bearing 16.

Preferably, the structure of the seeding pipe 5 can be a corresponding structure along with the structure of the sowed nutrition pot, that is, the structure of the seeding pipe 5 can be a hollow cylinder or a hollow cuboid according to the properties of the sowed nutrition pot, that is, when the sowed nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe 5 can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe 5 can be in a hollow cuboid structure.

In order to realize the mulching of the sowed nutrition pots, the film mulching device further comprises a film mulching frame 17, and the film mulching frame 17 penetrates through the adjusting hole A6 through the traction rod 43 to be connected with the fixing plate 7.

In order to smoothly realize the mulching of the nutrition pots after the sowing and ensure the mulching effect, a furrow opener 31, a film spreading roller 29, a film pressing wheel 27 and a soil covering share 26 are arranged below the mulching frame 17 from front to back in sequence through the furrow opening frame 18, the film spreading frame 19, the film pressing frame 20 and the soil covering frame 25 respectively.

For the convenience of disassembly, two ends of the traction rod 43 are connected with the film covering frame 17 through nuts 42, and in order to ensure the stability of the film covering frame 17 in the operation process, two sides of the film covering frame 17 are fixedly connected through a connecting rod B44.

In order to ensure the firm connection between the traction rod 43 and the fixing plate 7, fastening threads 48 are respectively arranged in the middle and at two ends of the traction rod 43, after the traction rod 43 penetrates through the adjusting hole A6, nuts 42 are respectively screwed into two sides of the film covering frame 17 at the connection part of the film covering frame 17 and the two ends of the traction rod 43, the directions of internal threads of the nuts 42 at two sides of the film covering frame 17 are opposite, and the film covering frame 17 is fastened at the end part of the traction rod 43 by the nuts 42 at two sides; meanwhile, nuts 42 are respectively screwed into two sides of the joint of the middle part of the traction rod 43 and the fixing plate 7, the internal thread directions of the nuts 42 positioned on two sides of the fixing plate 7 are opposite, and the nuts 42 on two sides fasten the fixing plate 7 in the middle part of the traction rod 43.

In order to facilitate the laying of the drip irrigation pipeline, the drip irrigation pipeline further comprises a pipe coiling disc 21, and two ends of the pipe coiling disc 21 are fixedly connected with supporting shafts 22; in order to conveniently install the pipe coiling disc 21, a vertically upward supporting plate 24 is fixedly connected to the film covering frame 17, a clamping groove 23 is formed in the top of the supporting plate 24, and the supporting shaft 22 is clamped and embedded in the clamping groove 23; in order to realize the laying of the drip irrigation pipe on the film, in the present embodiment, the pipe coiling disc 21 is arranged at the tail end of the film covering frame 17 through the supporting plate 24.

The working process of the embodiment is as follows:

before use, the utility model is connected with a rear hydraulic system of a traction machine such as a tractor and the like through a traction hole 8 to obtain forward power, after the optimal ground clearance of the bottom end of the seeding pipe 5 is determined according to the specification of a nutrition pot to be seeded, a connecting hole on a connecting lug 9 is connected with an adjusting hole A6 with proper height by a bolt 10, and after the reasonable opening degree of the plough share 2 is determined, an adjusting bolt 15 is adopted to penetrate through the adjusting hole B14 with proper distance for fixation; meanwhile, the mulching film is sleeved on the film spreading roller 29, and the drip irrigation pipeline is coiled on the pipe coiling disc 21; before the operation is started, the mulching film is pulled out and unfolded backwards from the film spreading roller 29, the film edge is placed under the film pressing wheels 27 on the two sides, the head of the mulching film is embedded in the working ground, meanwhile, the drip irrigation pipeline is pulled out backwards from the pipe coiling disc 21, and the head of the drip irrigation pipeline is embedded in the working ground; the utility model discloses move forward to start the traction machinery drive the utility model discloses move forward, in operation process, ditching plough 1, share 2 must cut out the seeding ditch of suitable size with soil, at this moment, according to the seeding requirement, the manual work drops into the nutrition alms bowl that has pre-buried seed or has pre-planted crop seedling from seeding pipe 5 top, and the nutrition alms bowl will move down along seeding pipe 5 and sow in the seeding ditch, because the traction machinery is driven in this process the utility model discloses move forward continuously, so after the nutrition alms bowl is sowed, earthing wheel 4 must bury the soil of cutting out in the seeding ditch, thereby realize burying to the nutrition alms bowl, thereby form the ridge; with the continuous advance of the traction machine, the furrow opener 31 arranged below the film covering frame 17 respectively opens a film covering ditch at two sides of the formed ridge, the film spreading roller 29 rolls along the ridge surface to enable the mulching film to be continuously drawn out backwards and spread on the ridge surface, the two sides of the spread mulching film are also required to be pressed into the film covering ditches by the film pressing wheel 27 and covered with soil scraped by the soil ploughshare 26 for burying, and with the forward operation of the traction machine, the drip irrigation pipeline is required to be continuously drawn out backwards and spread in the middle of the surface of the mulching film, and after the spreading is finished, the drip irrigation pipeline is connected with a pipeline of a preset irrigation system in the field, so that multiple effects of nutrition seeding bowls, surface mulching film spreading, on-film drip tank pipeline spreading and the like are completed at one time.

Example 5:

as shown in fig. 9, 10, 13 and 14, the nutrition pot burying device comprises a furrow plough 1, a plough share 2, a soil covering wheel 4 and a seeding pipe 5, wherein the top of the furrow plough 1 is fixedly connected with a fixing plate 7, two sides of the rear part are respectively movably connected with a plough share 2 through hinges A11, the fixing plate 7 is provided with a plurality of traction holes 8 and a plurality of adjusting holes A6, the side surface of the seeding pipe 5 is fixedly connected with a connecting lug 9, and the connecting lug 9 is connected with the adjusting holes A6 through bolts 10; the inner side of the rear part of any plough share 2 is connected with an adjusting rod 12 through a hinge B13, and the middle part of the adjusting rod 12 is rotationally connected with a soil covering wheel 4 through a connecting rod A3.

In order to realize the length adjustment of the adjusting rods 12 and further realize the opening degree of the ploughshares 2, the adjusting rods 12 corresponding to each ploughshare 2 are provided with adjusting holes B14 which are uniformly distributed, and the adjusting rods 12 positioned at the rear sides of the two ploughshares 2 are connected through adjusting holes B14 which penetrate through proper distances by adjusting bolts 15.

In order to adjust the opening and closing distance and the opening and closing angle of the soil covering wheel 4, one end of the connecting rod A3 is detachably and rotatably connected with the adjusting rod 12 through a screw, and in order to ensure that the soil covering wheel 4 flexibly rotates, the other end of the connecting rod A3 is rotatably connected with the soil covering wheel 4 through a bearing 16.

Preferably, the structure of the seeding pipe 5 can be a corresponding structure along with the structure of the sowed nutrition pot, that is, the structure of the seeding pipe 5 can be a hollow cylinder or a hollow cuboid according to the properties of the sowed nutrition pot, that is, when the sowed nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe 5 can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe 5 can be in a hollow cuboid structure.

In order to realize the mulching of the sowed nutrition pots, the film mulching device further comprises a film mulching frame 17, and the film mulching frame 17 penetrates through the adjusting hole A6 through the traction rod 43 to be connected with the fixing plate 7.

In order to smoothly realize the mulching of the nutrition pots after the sowing and ensure the mulching effect, a furrow opener 31, a film spreading roller 29, a film pressing wheel 27 and a soil covering share 26 are arranged below the mulching frame 17 from front to back in sequence through the furrow opening frame 18, the film spreading frame 19, the film pressing frame 20 and the soil covering frame 25 respectively.

For the convenience of disassembly, two ends of the traction rod 43 are connected with the film covering frame 17 through nuts 42, and in order to ensure the stability of the film covering frame 17 in the operation process, two sides of the film covering frame 17 are fixedly connected through a connecting rod B44.

In order to ensure the firm connection between the traction rod 43 and the fixing plate 7, fastening threads 48 are respectively arranged in the middle and at two ends of the traction rod 43, after the traction rod 43 penetrates through the adjusting hole A6, nuts 42 are respectively screwed into two sides of the film covering frame 17 at the connection part of the film covering frame 17 and the two ends of the traction rod 43, the directions of internal threads of the nuts 42 at two sides of the film covering frame 17 are opposite, and the film covering frame 17 is fastened at the end part of the traction rod 43 by the nuts 42 at two sides; meanwhile, nuts 42 are respectively screwed into two sides of the joint of the middle part of the traction rod 43 and the fixing plate 7, the internal thread directions of the nuts 42 positioned on two sides of the fixing plate 7 are opposite, and the nuts 42 on two sides fasten the fixing plate 7 in the middle part of the traction rod 43.

In order to facilitate the laying of the drip irrigation pipeline, the drip irrigation pipeline further comprises a pipe coiling disc 21, and two ends of the pipe coiling disc 21 are fixedly connected with supporting shafts 22; in order to conveniently install the pipe coiling disc 21, a vertically upward supporting plate 24 is fixedly connected to the film covering frame 17, a clamping groove 23 is formed in the top of the supporting plate 24, and the supporting shaft 22 is clamped and embedded in the clamping groove 23; in order to implement the drip irrigation pipe laying under the film, in the present embodiment, the pipe coiling disc 21 is arranged on the film covering frame 17 through the support plate 24 at a position before the connection between the film spreading roller 29 and the film covering frame 17.

The working process of the embodiment is as follows:

before use, the utility model is connected with a rear hydraulic system of a traction machine such as a tractor and the like through a traction hole 8 to obtain forward power, after the optimal ground clearance of the bottom end of the seeding pipe 5 is determined according to the specification of a nutrition pot to be seeded, a connecting hole on a connecting lug 9 is connected with an adjusting hole A6 with proper height by a bolt 10, and after the reasonable opening degree of the plough share 2 is determined, an adjusting bolt 15 is adopted to penetrate through the adjusting hole B14 with proper distance for fixation; meanwhile, the mulching film is sleeved on the film spreading roller 29, and the drip irrigation pipeline is coiled on the pipe coiling disc 21; before the operation is started, the drip irrigation pipeline is drawn out backwards from the pipe coiling disc 21, the head of the drip irrigation pipeline is embedded in the working ground, the mulching film is drawn out backwards from the film spreading roller 29 and spread, the mulching film is covered above the drip irrigation pipeline, the film edges are placed under the film pressing wheels 27 on the two sides, and the mulching film head is embedded in the working ground; the utility model discloses move forward to start the traction machinery drive the utility model discloses move forward, in operation process, ditching plough 1, share 2 must cut out the seeding ditch of suitable size with soil, at this moment, according to the seeding requirement, the manual work drops into the nutrition alms bowl that has pre-buried seed or has pre-planted crop seedling from seeding pipe 5 top, and the nutrition alms bowl will move down along seeding pipe 5 and sow in the seeding ditch, because the traction machinery is driven in this process the utility model discloses move forward continuously, so after the nutrition alms bowl is sowed, earthing wheel 4 must bury the soil of cutting out in the seeding ditch, thereby realize burying to the nutrition alms bowl, thereby form the ridge; along with the continuous advance of the traction machine, the drip irrigation pipeline is required to be continuously drawn out backwards and paved in the middle of the ridge surface, meanwhile, the furrow openers 31 arranged below the mulching film frame 17 are used for respectively forming a mulching film ditch on two sides of the formed ridge, the film spreading rollers 29 roll along the ridge surface to enable the mulching film to be continuously drawn out backwards and paved on the drip irrigation pipeline, the two sides of the unfolded mulching film are also required to be pressed into the mulching film ditches by the film pressing wheels 27 and buried by soil scraped by the soil covering ploughshares 26, and after the paving is finished, the drip irrigation pipeline is connected with a pipeline of a field preset irrigation system, so that multiple effects of seeding the nutrition pot, paving the surface mulching film, paving the under-film drip tank pipeline and the like are finished at one time.

Example 6:

as shown in fig. 11, 12, 13 and 14, the nutrition pot burying device comprises a furrow plough 1, a plough share 2, a soil covering wheel 4 and a seeding pipe 5, wherein the top of the furrow plough 1 is fixedly connected with a fixing plate 7, two sides of the rear part are respectively movably connected with a plough share 2 through hinges A11, the fixing plate 7 is provided with a plurality of traction holes 8 and a plurality of adjusting holes A6, the side surface of the seeding pipe 5 is fixedly connected with a connecting lug 9, and the connecting lug 9 is connected with the adjusting holes A6 through bolts 10; the inner side of the rear part of any plough share 2 is connected with an adjusting rod 12 through a hinge B13, and the middle part of the adjusting rod 12 is rotationally connected with a soil covering wheel 4 through a connecting rod A3.

In order to realize the length adjustment of the adjusting rods 12 and further realize the opening degree of the ploughshares 2, the adjusting rods 12 corresponding to each ploughshare 2 are provided with adjusting holes B14 which are uniformly distributed, and the adjusting rods 12 positioned at the rear sides of the two ploughshares 2 are connected through adjusting holes B14 which penetrate through proper distances by adjusting bolts 15.

In order to adjust the opening and closing distance and the opening and closing angle of the soil covering wheel 4, one end of the connecting rod A3 is detachably and rotatably connected with the adjusting rod 12 through a screw, and in order to ensure that the soil covering wheel 4 flexibly rotates, the other end of the connecting rod A3 is rotatably connected with the soil covering wheel 4 through a bearing 16.

Preferably, the structure of the seeding pipe 5 can be a corresponding structure along with the structure of the sowed nutrition pot, that is, the structure of the seeding pipe 5 can be a hollow cylinder or a hollow cuboid according to the properties of the sowed nutrition pot, that is, when the sowed nutrition pot is a sphere, a cylinder or a conical cylinder, the seeding pipe 5 can be a hollow cylinder structure; if the seeding nutrition pot is a cuboid or a polygonal prism, the seeding pipe 5 can be in a hollow cuboid structure.

In order to realize the mulching of the sowed nutrition pots, the film mulching device further comprises a film mulching frame 17, and the film mulching frame 17 penetrates through the adjusting hole A6 through the traction rod 43 to be connected with the fixing plate 7.

In order to keep the film coating frame 17 running stably in the working process, travelling wheels 41 are arranged below the film coating frame 17 through a support frame 38, and a support table 47 is fixedly arranged above the middle part of the film coating frame 17 in order to install the liquid storage tank 32 and the pump body 35; the supporting table 47 is provided with a liquid storage tank 32 and a pump body 35, the top of the liquid storage tank 32 is provided with a liquid feeding port 33, the bottom of the liquid storage tank is connected with the pump body 35 through a liquid pumping pipe 34, the end part of a power shaft 45 at one side of the pump body 35 is fixedly connected with a driving wheel 46, a liquid outlet of the pump body 35 is fixedly connected with a liquid conveying pipe 36, the port of the liquid conveying pipe 36 is communicated with a liquid spraying pipe 37, and the lower side of the liquid spraying pipe 37 is uniformly; the support frame 38 is rotatably connected with the axle 39 of the road wheel 41.

For the convenience of disassembly, two ends of the traction rod 43 are connected with the film covering frame 17 through nuts 42, and in order to ensure the stability of the film covering frame 17 in the operation process, two sides of the film covering frame 17 are fixedly connected through a connecting rod B44.

In order to ensure the firm connection between the traction rod 43 and the fixing plate 7, fastening threads 48 are respectively arranged in the middle and at two ends of the traction rod 43, after the traction rod 43 penetrates through the adjusting hole A6, nuts 42 are respectively screwed into two sides of the film covering frame 17 at the connection part of the film covering frame 17 and the two ends of the traction rod 43, the directions of internal threads of the nuts 42 at two sides of the film covering frame 17 are opposite, and the film covering frame 17 is fastened at the end part of the traction rod 43 by the nuts 42 at two sides; meanwhile, nuts 42 are respectively screwed into two sides of the joint of the middle part of the traction rod 43 and the fixing plate 7, the internal thread directions of the nuts 42 positioned on two sides of the fixing plate 7 are opposite, and the nuts 42 on two sides fasten the fixing plate 7 in the middle part of the traction rod 43.

In order to facilitate the laying of the drip irrigation pipeline, the drip irrigation pipeline further comprises a pipe coiling disc 21, and two ends of the pipe coiling disc 21 are fixedly connected with supporting shafts 22; in order to conveniently install the pipe coiling disc 21, a vertical upward supporting plate 24 is fixedly connected to the film covering frame 17, a clamping groove 23 is formed in the top of the supporting plate 24, and the supporting shaft 22 is clamped and embedded in the clamping groove 23.

The working process of the embodiment is as follows:

before use, the utility model is connected with a rear hydraulic system of a traction machine such as a tractor and the like through a traction hole 8 to obtain forward power, after the optimal ground clearance of the bottom end of the seeding pipe 5 is determined according to the specification of a nutrition pot to be sowed, a connecting hole on a connecting lug 9 of a bolt 10 is connected with an adjusting hole A6 with proper height, and after the reasonable opening degree of the plough share 2 is determined, an adjusting bolt 15 is adopted to penetrate through the adjusting hole B14 with proper distance for fixation; a driving wheel 46 at the end part of a power shaft 45 at one side of the pump body 35 is connected with a power output wheel of a traction machine to obtain power, and water, liquid organic fertilizer or liquid mulching film solution is added into the liquid storage tank 32 from the liquid feeding port 33 according to actual requirements; before the operation is started, the drip irrigation pipeline is drawn out backwards from the pipe coiling disc 21, the head part of the drip irrigation pipeline is buried in the working ground, at the moment, a traction machine is started to drive the utility model to move forwards, in the operation process, the ditching plow 1 and the plough share 2 must dig out a sowing ditch with proper size on the soil, at the moment, according to the sowing requirement, a nutrition pot pre-embedded with seeds or pre-planted with crop seedlings is manually put into from the top of the sowing pipe 5, the nutrition pot is moved downwards along the sowing pipe 5 and sowed into the sowing ditch, because the traction machine drives the utility model in the process, the utility model continuously moves forwards, after the nutrition pot is sowed, the soil covered by the soil covering wheel 4 must dig out into the sowing ditch, so as to bury the nutrition pot and form a ridge; along with the continuous work of the traction machine, the pump body 35 also continuously works, water or liquid mulching films in the liquid storage tank 32 are thrown out by the pump body 35 and enter the liquid spraying pipe 37 from the liquid conveying pipe 36 in the process, and then the water or liquid mulching films are sprayed on the ridge surface through the nozzle 40, so that the first irrigation or the covering of the liquid mulching films is realized, in the process, along with the continuous advance of the traction machine, the drip irrigation pipeline is required to be continuously drawn out backwards and laid in the middle of the ridge surface, and after the laying is finished, the drip irrigation pipeline is connected with a pipeline of a preset field irrigation system, so that the multiple effects of nutrition pot seeding, first irrigation (water in the liquid storage tank 32) or first fertilization (organic fertilizer solution in the liquid storage tank 32) or liquid mulching film covering (liquid mulching solution in the liquid storage tank 32), the laying of the drip irrigation pipeline and the like are finished at one.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and are not limited. Although the present invention has been described in detail with reference to the embodiments, those skilled in the art will understand that modifications and equivalent substitutions can be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution of the present invention, and all of them shall fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a nutrition bowl is planted and is buried device which characterized in that: the device comprises a furrow plough (1), a plough share (2), an earth covering wheel (4) and a seeding pipe (5), wherein the top of the furrow plough (1) is fixedly connected with a fixing plate (7), two sides of the rear part are respectively movably connected with the plough share (2) through hinges A (11), the fixing plate (7) is provided with a plurality of traction holes (8) and a plurality of adjusting holes A (6), the side surface of the seeding pipe (5) is fixedly connected with a connecting lug (9), and the connecting lug (9) is connected with the adjusting holes A (6) through bolts (10); the inner side of the rear part of any one of the ploughshares (2) is connected with an adjusting rod (12) through a hinge B (13), and the middle part of the adjusting rod (12) is rotatably connected with a soil covering wheel (4) through a connecting rod A (3).

2. The nutrition pot burying device as claimed in claim 1, wherein: the adjusting rods (12) are provided with adjusting holes B (14) which are uniformly distributed, and the adjusting rods (12) positioned at the rear sides of the two plowshares (2) are connected through the adjusting holes B (14) through adjusting bolts (15).

3. The nutrition pot burying device as claimed in claim 2, wherein: one end of the connecting rod A (3) is detachably and rotatably connected with the adjusting rod (12), and the other end of the connecting rod A is rotatably connected with the soil covering wheel (4) through a bearing (16).

4. The nutrition pot burying device as claimed in claim 3, wherein: the film coating device is characterized by further comprising a film coating frame (17), wherein the film coating frame (17) penetrates through the adjusting hole A (6) through a traction rod (43) and is connected with the fixing plate (7).

5. The nutrition pot burying device as claimed in claim 4, wherein: the film covering frame (17) is provided with a furrow opener (31), a film spreading roller (29), a film pressing wheel (27) and an earth covering ploughshare (26) from front to back in sequence through a furrowing frame (18), a film spreading frame (19), a film pressing frame (20) and an earth covering frame (25).

6. The nutrition pot burying device as claimed in claim 4, wherein: a travelling wheel (41) is arranged below the film coating frame (17) through a support frame (38), and a support table (47) is fixedly arranged above the middle part of the film coating frame; a liquid storage tank (32) and a pump body (35) are arranged on the support table (47), a liquid feeding port (33) is formed in the top of the liquid storage tank (32), the bottom of the liquid storage tank is connected with the pump body (35) through a liquid pumping pipe (34), a driving wheel (46) is fixedly connected to the end portion of a power shaft (45) on one side of the pump body (35), a liquid conveying pipe (36) is fixedly connected to a liquid outlet of the pump body (35), a port of the liquid conveying pipe (36) is communicated with a liquid spraying pipe (37), and a plurality of nozzles (40) communicated with the liquid spraying pipe (37) are uniformly arranged on the lower; the supporting frame (38) is rotatably connected with a wheel shaft (39) of the travelling wheel (41).

7. A nutrition pot burying device as claimed in claim 5 or 6, wherein: the pipe coiling device is characterized by also comprising a pipe coiling disc (21), wherein two ends of the pipe coiling disc (21) are fixedly connected with supporting shafts (22); the laminating frame (17) is fixedly connected with a vertical upward supporting plate (24), the top of the supporting plate (24) is provided with a clamping groove (23), and the supporting shaft (22) is clamped in the clamping groove (23).

8. The nutrition pot burying device as claimed in claim 4, wherein: two ends of the traction rod (43) are connected with the film coating frame (17) through nuts (42), and two sides of the film coating frame (17) are fixedly connected through a connecting rod B (44).

9. The nutrition pot burying device as claimed in claim 5, wherein: furrow opener (31) fixed connection in ditching frame (18) lower extreme, exhibition membrane roller (29) through exhibition membrane axle (30) rotate connect in exhibition membrane frame (19) lower extreme, press mold wheel (27) through press mold axle (28) rotate connect in press mold frame (20) lower extreme, earthing share (26) fixed connection in earthing frame (25) lower extreme.

10. The nutrition pot burying device as claimed in claim 4, wherein: fastening threads (48) are respectively arranged in the middle and at two ends of the traction rod (43).

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