CN218006979U - Automatic fertilizer seed supplementing and carrying equipment - Google Patents

Abstract

The utility model discloses a fertilizer seed automatic supplement carrying device, which comprises a seed fertilizer feeding connecting component, wherein the seed fertilizer feeding connecting component comprises a material conveying shell with an upward feeding hole, a seed fertilizer feeding box is fixedly connected to the upper side of the material conveying shell, the seed fertilizer feeding box is provided with a first feeding cavity and a second feeding cavity which are mutually independent, and the first feeding cavity and the second feeding cavity can be respectively and independently communicated with the feeding hole; the seed fertilizer conveying assembly comprises a first conveying auger which is arranged below the feed inlet and is rotatably connected to a conveying shell, a first middle transition pipe is fixedly connected to the rear side of the conveying shell, a second conveying pipe and a third conveying pipe which are connected together are connected to the upper side of the first middle transition pipe, a discharge outlet is formed in the downward side of the third conveying pipe, and a third conveying auger which is in transmission connection with the first conveying auger is rotatably connected to the second conveying pipe and the third conveying pipe; the utility model discloses can realize the online reseeding benefit fertile of seeding fertilizer distributor, improve the operating efficiency.

Description

Automatic fertilizer seed supplementing and carrying equipment

Technical Field

The utility model relates to the technical field of agricultural machinery, especially an automatic delivery equipment that supplements of fertilizer seed.

Background

The combined operation of sowing and fertilizing a farmland is frequently carried out by using a fertilizing and seeding machine in the prior art, wherein the fertilizing and seeding machine comprises a walking device, the walking device comprises a rack, a sowing box is connected to the rear of the rack in a liftable manner, a fertilizing box is fixedly connected to the rack behind the sowing box, a plurality of electric seed sowing devices are arranged at the bottom of the sowing box, a plurality of electric fertilizer applicators are arranged at the bottom of the fertilizing box, automatic seed sowing and fertilizer application are respectively realized by controlling the actions of the electric seed sowing devices and the electric fertilizer applicators, under the normal condition, the electric seed sowing devices and the electric fertilizer applicators are staggered in the left and right directions, fertilizers fall on the farmland at two ends of the seeds, when the seeds in the sowing box or the fertilizers in the fertilizing box are insufficient, the walking device is driven to the head of the farmland, corresponding materials can be respectively supplemented into corresponding boxes, online material supplementing can not be carried out in the fertilizing process, the material supplementing is troublesome, and the operation efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section and in the abstract of the specification and the title of the application to avoid obscuring the purpose of this section, the abstract of the specification and the title of the application, and such simplifications or omissions are not intended to limit the scope of the invention.

In view of the above and/or the problems existing in the prior sowing and fertilizing, the utility model is provided.

Therefore, the utility model aims at providing an automatic delivery equipment that supplyes of fertilizer seed, it can supply fertilizer or seed on line according to actual need in fertilization or seeding process, improves the operating efficiency.

In order to solve the technical problem, the utility model provides a following technical scheme: the automatic fertilizer seed supplementing and carrying equipment comprises a seed and fertilizer feeding connecting assembly, wherein the seed and fertilizer feeding connecting assembly comprises a material conveying shell with an upward feeding hole, a seed and fertilizer feeding box is fixedly connected to the upper side of the material conveying shell, the seed and fertilizer feeding box is provided with a first feeding cavity and a second feeding cavity which are independent of each other, and the first feeding cavity and the second feeding cavity can be respectively and independently communicated with the feeding hole;

the fertile subassembly of carrying, the fertile subassembly of carrying includes just rotationally the first transport auger of connecting on the conveying shell body in the feed inlet below, the transition pipe in the middle of the rear side fixedly connected with of conveying shell body, the upper portion of transition pipe is connected with the first conveyer pipe of vertical setting in the middle of the first, the transition pipe in the middle of the upside fixedly connected with second of first conveyer pipe, the one end that first conveyer pipe was kept away from to the transition pipe in the middle of the second rotationally is connected with the angle modulation pipe, the one end fixedly connected with second conveyer pipe of transition pipe in the middle of the second is kept away from to the angle modulation pipe, the second conveyer pipe is in kind fertile charging box top and is crossed a fertile charging box, the one end fixedly connected with third conveyer pipe of transition pipe in the middle of the second is kept away from to the second conveyer pipe, third conveyer pipe down one side is opened has the bin gate, the one end of first transport auger is stretched into in the transition pipe in the middle of the first, rotationally be connected with the second transport auger on the second conveyer pipe, the lower extreme and the one end of first transport auger of second transport the one end of auger and the one end of second transport auger and rotationally be connected with the third transport the one end of third transport auger, the third transport auger and transport the one end of second transport the third transport auger and the one end of third transport the third transport pipe and the angle modulation pipe is connected with the third transport auger.

Seeds and fertilizers to be supplemented are respectively filled in the first feeding cavity and the second feeding cavity, and the feeding hole is mutually separated from the first feeding cavity and the second feeding cavity in an initial state; the seed and fertilizer feeding box is fixedly connected to the rear part of the walking frame through at least two connecting rods, the rear side of the lower part of the walking frame is fixedly connected with a connecting bracket, the connecting bracket is fixedly connected with a conveying motor, and the conveying motor is in transmission connection with the other end of the first conveying auger; when seeds need to be conveyed, the driving walking device runs to the side edge of the sowing and fertilizing machine, the discharge port is aligned to a sowing box of the sowing and fertilizing machine, the first feeding cavity is communicated with the feed port, the seeds fall into a conveying shell where the first conveying auger is located through the feed port, the conveying motor acts, the first conveying auger rotates, the action direction of the conveying motor is controlled, the seeds are conveyed towards the direction of the first middle transition pipe, the first conveying auger drives the second conveying auger to rotate, the seeds entering the first middle transition pipe are conveyed upwards under the action of the second conveying auger, the seeds conveyed to the second middle transition pipe by the second conveying auger are conveyed to the discharge port under the action of the third conveying auger, and the seeds are discharged into the operation box from the discharge port

In the sowing box, online seed supplement is realized; when fertilizer needs to be conveyed, the first feeding cavity is separated from the feed inlet, the second feeding cavity is communicated with the feed inlet, and the fertilizer conveying process and the seed conveying process are the same and are not repeated herein; the utility model discloses can realize the online benefit of seeding fertilization operation in-process and reseed fertile, the feed supplement side

The operation efficiency is not influenced; can be applied to the work of reseeding and fertilizer supplementing in the seeding and fertilizing operation.

In order to further realize the transport work of each auger, the first support housing of fixedly connected with in the transition tube in the middle of the first, rotationally be connected with intermeshing's first transmission bevel gear and second transmission bevel gear on the first support housing, first transmission bevel gear and first transport auger are connected, the lower extreme that auger was carried to second transmission bevel gear and second is connected, the intraductal fixedly connected with second support housing of transition in the middle of the second, rotationally be connected with intermeshing's first driven bevel gear and second driven bevel gear in the second support housing, the upper end of auger is connected to first driven bevel gear and second transport, be connected with the transition transport auger on the second driven bevel gear, the one end that the second support housing was kept away from to the transition transport auger stretches into in the angle modulation pipe, fixedly connected with third support housing in the angle modulation pipe, be connected with intermeshing's first rotation bevel gear and second rotation bevel gear in the third support housing, the one end that the second supported the housing was kept away from to first rotation bevel gear and transition transport the auger and connect, the second rotates auger and connects the auger.

To further facilitate the angular adjustment of the first transfer pipe, the first transfer pipe is rotatably connected to an upper portion of the first intermediate transition pipe.

In order to further realize the angle modulation of first conveyer pipe, the outside fixedly connected with driven gear of first conveyer pipe lower part, the outside fixedly connected with fixing base of first intermediate transition pipe, fixing base upside fixedly connected with angle accommodate motor, the last driving gear that is connected with of angle accommodate motor, driving gear and driven gear meshing.

In order to further realize the altitude mixture control of discharge gate, the outside of transition pipe is fixed with two hinge eyes in the middle of the second, it has the connecting rod to articulate between two hinge eyes, the one end that the transition pipe was managed in the middle of the second was kept away from to the connecting rod articulates there is the angle modulation driver, be connected with the angle modulation pole that can be reciprocal rectilinear movement on the angle modulation driver, the second conveyer pipe outside is fixed with the connecting block, the outer end of angle modulation pole articulates on the connecting block, rotationally be connected with the intermediate lever on the connecting block, the one end that the connecting block was kept away from to the intermediate lever articulates the outer end at the angle modulation pole.

In order to realize control of supplement of seeds or fertilizers, a first sealing plate and a second sealing plate are slidably connected to the left end and the right end of the material conveying shell, the first sealing plate can separate a first feeding cavity from a feeding port, the second sealing plate can separate a second feeding cavity from the feeding port, and the first sealing plate and the second sealing plate are arranged above the first conveying auger.

In order to further realize the control of the supplement of seeds or fertilizers, a first linear actuator is fixedly connected with the left end of the material conveying shell in the outward direction, a first push-pull rod capable of performing reciprocating linear movement in the left-right direction is connected onto the first linear actuator, the outer end of the first push-pull rod is fixedly connected with one end, extending out of the material conveying shell, of the first sealing plate, a second linear actuator is fixedly connected with the right end of the material conveying shell in the outward direction, a second push-pull rod capable of performing reciprocating linear movement in the left-right direction is connected onto the second linear actuator, and the outer end of the second push-pull rod is fixedly connected with one end, extending out of the material conveying shell, of the second sealing plate.

As a further improvement, be fixed with the baffle between the inner wall of both sides around the reinforced box, the baffle falls into first feeding chamber and second feeding chamber with reinforced box, during the contact of the inner end of first shrouding and baffle left side, first feeding chamber and feed inlet are blocked, during the contact of the inner end of second shrouding and baffle right side, second feeding chamber and feed inlet are blocked.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein:

fig. 1 is a first perspective view of the present invention.

Fig. 2 is a second perspective view of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 1.

Fig. 4 is a three-dimensional structure diagram of the present invention.

Fig. 5 is a partially enlarged view of fig. 4 at B.

Fig. 6 is a top view of the present invention.

Fig. 7 is a view along the line C-C in fig. 6.

Fig. 8 is a partial enlarged view of fig. 7 at D.

Fig. 9 is a partially enlarged view of fig. 7 at E.

Fig. 10 is a perspective view of the fourth embodiment of the present invention.

Fig. 11 is a partial enlarged view of fig. 10 at F.

Fig. 12 is a view from direction G-G in fig. 6.

In the figure, 100 walking devices, 101 walking frames, 200 fertilizer feeding connecting components, 201 a first supporting bracket, 202 fertilizer feeding boxes, 202a first feeding cavity, 202b a second feeding cavity, 202c feeding holes, 203 connecting rods, 204 clapboards, 205 material conveying shells, 206 connecting brackets, 300 fertilizer feeding components, 301a third conveying pipe, 301a discharging hole, 302 second conveying pipe, 303 connecting blocks, 304 angle adjusting pipes, 305 second middle transition pipes, 306 first conveying pipes, 307 angle adjusting motors, 308 first middle transition pipes, 309 first rollers, 310 first linear drivers, 311 first push-pull rods, 312 first sealing plates, 313 second sealing plates, 314 second linear driver, 315 second push-pull rod, 316 second roller, 317 transition conveying auger, 318 second conveying auger, 319 second driven bevel gear, 320 second supporting shell, 321 first driven bevel gear, 322 first rotating bevel gear, 323 third supporting shell, 324 second rotating bevel gear, 325 first conveying auger, 326 conveying motor, 327 driven gear, 328 driving gear, 329 third conveying auger, 330 connecting rod, 331 angle adjusting driver, 332 angle adjusting rod, 333 intermediate rod, 334 first driving bevel gear, 335 second driving bevel gear, 336 first supporting shell, 337 fixing seat.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanying the present invention are described in detail below with reference to the accompanying drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, the references herein to "one embodiment" or "an embodiment" refer to a particular feature, structure, or characteristic that may be included in at least one implementation of the present invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 and 6-9, for the first embodiment of the present invention, this embodiment provides a fertilizer seed automatic supplement carrying device, which can realize the on-line supplement of fertilizer or seeds, and improve the operation efficiency.

A fertilizer seed automatic supplement carrying device comprises a seed and fertilizer feeding connecting assembly 200, wherein the seed and fertilizer feeding connecting assembly 200 comprises a feeding shell 205 with an upward feeding hole 202c, a seed and fertilizer feeding box 202 is fixedly connected to the upper side of the feeding shell 205, the seed and fertilizer feeding box 202 is provided with a first feeding cavity 202a and a second feeding cavity 202b which are independent from each other, and the first feeding cavity 202a and the second feeding cavity 202b can be respectively and independently communicated with the feeding hole 202 c; the feed delivery shell 205 and the seed manure feeding box 202 are connected with a seed manure conveying assembly 300 for conveying materials.

In order to further realize the transportation of seeds or fertilizers, the seed fertilizer transportation assembly 300 comprises a first transportation auger 325 which is connected to the material conveying shell 205 below the feed inlet 202c and can rotate, a first intermediate transition pipe 308 is fixedly connected to the rear side of the material conveying shell 205, a first transportation pipe 306 which is vertically arranged is connected to the upper part of the first intermediate transition pipe 308, a second intermediate transition pipe 305 is fixedly connected to the upper side of the first transportation pipe 306, an angle adjustment pipe 304 is rotatably connected to one end of the second intermediate transition pipe 305 which is far away from the first transportation pipe 306 (the structure that the angle adjustment pipe 304 is rotatably connected to the second intermediate transition pipe 305 is the prior art, the specific structure that the angle adjustment pipe is rotatably connected thereto is not described in detail), a second transportation pipe 302 is fixedly connected to one end of the angle adjustment pipe 304 which is far away from the second intermediate transition pipe 305, the second transportation pipe 302 is above the seed fertilizer feeding box 202 and traverses the fertilizer feeding box 202, a third transportation pipe 301 is fixedly connected to one end of the second transportation pipe 302 which is far away from the second intermediate transition pipe 305, a discharge port 301 is opened on one side of the third transportation pipe 301 which is downward, one end of the first transportation pipe 325 extends into the first transportation pipe, and one end of the third transportation auger 301 which is rotatably connected to the second transportation pipe 329 which is rotatably connected to the third transportation auger 301 which is connected to the second transportation pipe 329, and one end of the third transportation auger 301 which is rotatably connected to the third transportation pipe 329 which is connected to the second transportation pipe 329 which is rotatably connected to the second transportation auger 301, and the third transportation pipe 329 which is connected to the third transportation pipe 329 which is rotatably connected to the second transportation pipe 301, one end of the third transportation pipe 301 which is connected to the second transportation auger 301, and the second transportation pipe 329 which is connected to the third transportation pipe 301 which is rotatably connected to the second transportation pipe 301, the third transportation pipe 329 which is connected to the second transportation pipe 301, the third transportation pipe 301, one end of the third transportation auger 301, the third transportation pipe 301 which is connected to the third transportation auger 301, the third transportation auger.

In order to further realize the conveying work of each auger, a first supporting shell 336 is fixedly connected in the first intermediate transition pipe 308, a first transmission bevel gear 334 and a second transmission bevel gear 335 which are mutually meshed are rotatably connected on the first supporting shell 336, the first transmission bevel gear 334 is connected with the first conveying auger 325, the second transmission bevel gear 335 is connected with the lower end of the second conveying auger 318, a second supporting shell 320 is fixedly connected in the second intermediate transition pipe 305, a first driven bevel gear 321 and a second driven bevel gear 319 which are mutually meshed are rotatably connected in the second supporting shell 320, the upper ends of the first driven bevel gear 321 and the second conveying auger 318 are connected, a transition conveying auger 317 is connected on the second driven bevel gear 319, one end of the transition conveying auger 317, which is far away from the second supporting shell 320, extends into the angle adjusting pipe 304, a third supporting shell 323 is fixedly connected in the angle adjusting pipe 304, a first rotation bevel gear 322 and a second rotation bevel gear 324 which are mutually meshed are connected in the third supporting shell 323, one end of the first rotation bevel gear 322 and one end of the transition conveying auger 320, which is far away from the second supporting shell, is connected with the second transmission bevel gear 324, and the third transmission bevel gear 324.

The first feeding cavity 202a and the second feeding cavity 202b are respectively filled with seeds and fertilizers to be replenished, and in an initial state, the feed inlet 202c is separated from the first feeding cavity 202a and the second feeding cavity 202 b; the traveling frame 101 and the seed and fertilizer feeding box 202 of the traveling device 100 (which is a prior art, and is preferably a tractor in general) are connected, the seed and fertilizer feeding box 202 is fixedly connected to the rear of the traveling frame 101 through at least two connecting rods 203, the rear side of the lower part of the traveling frame 101 is fixedly connected with a connecting bracket 206, the connecting bracket 206 is fixedly connected with a conveying motor 326, and the conveying motor 326 is in transmission connection with the other end of a first conveying auger 325; when seeds need to be conveyed, the driving walking device 100 drives to the side edge of the sowing and fertilizing machine, the discharge opening 301a is aligned with a sowing box of the sowing and fertilizing machine, the first feeding cavity 202a is communicated with the feed opening 202c, the seeds fall into the conveying shell 205 where the first conveying auger 325 is located through the feed opening 202c, the conveying motor 326 acts, the first conveying auger 325 rotates, the action direction of the conveying motor 326 is controlled, the seeds are conveyed towards the direction where the first intermediate transition pipe 308 is located, the first conveying auger 325 drives the first driving bevel gear 334 to rotate, the first driving bevel gear 334 drives the second driving bevel gear 335 to rotate, the second driving bevel gear 335 drives the second conveying auger 318 to rotate, the seeds entering the first intermediate transition pipe 308 are conveyed upwards under the action of the second conveying auger 318, the second conveying auger 318 drives the first driven bevel gear 321 to rotate, the first driven bevel gear 321 drives the second driven bevel gear 319 to rotate, the second driven bevel gear drives the transition conveying auger 317 to rotate, the seeds conveyed into the second intermediate transition pipe 305 by the second conveying auger 318, the seeds are conveyed into the conveying auger 302 under the action of the transition pipe 305, the conveying auger 324, the seeds are conveyed into the second conveying auger 302, and the third conveying auger 324 rotates; when fertilizer needs to be conveyed, the first feeding cavity 202a is separated from the feeding hole 202c, the second feeding cavity 202b is communicated with the feeding hole 202c, the fertilizer conveying process is the same as the seed conveying process, and the description is omitted; which realizes the on-line delivery of seeds or fertilizers.

In order to further facilitate the angle adjustment of the first delivery pipe 306, the first delivery pipe 306 is rotatably connected to the upper portion of the first middle transition pipe 308, a driven gear 327 is fixedly connected to the outer side of the lower portion of the first delivery pipe 306, a fixed seat 337 is fixedly connected to the outer side of the first middle transition pipe 308, an angle adjustment motor 307 is fixedly connected to the upper side of the fixed seat 337, a driving gear 328 is connected to the angle adjustment motor 307, and the driving gear 328 is meshed with the driven gear 327.

In an initial state, the third conveying pipe 301 extends forwards, so that the running width of the whole walking device 100 is reduced; the angle of the first delivery pipe 306 in the horizontal plane needs to be adjusted, when the discharge port 301a is aligned with a seeding box or a fertilizing box on the seeding and fertilizing machine, the angle adjusting motor 307 acts, the driving gear 328 rotates, the driving gear 328 drives the driven gear 327 to rotate, the driven gear 327 drives the first delivery pipe 306 to rotate, the first delivery pipe 306 sequentially drives the second delivery pipe 302 and the third delivery pipe 301 to rotate through the second intermediate transition pipe 305 and the angle adjusting pipe 304, and when the discharge port 301a is aligned with a corresponding box, the angle adjusting motor 307 stops acting.

In order to further realize the height adjustment of the discharge port, two hinge lugs are fixed on the outer side of the second middle transition pipe 305, a connecting rod 330 is hinged between the two hinge lugs, one end, away from the second middle transition pipe 305, of the connecting rod 330 is hinged with an angle adjustment driver 331, the angle adjustment driver 331 is connected with an angle adjustment rod 332 capable of performing reciprocating linear movement, a connecting block 303 is fixed on the outer side of the second conveying pipe 302, the outer end of the angle adjustment rod 332 is hinged on the connecting block 303, an intermediate rod 333 is rotatably connected on the connecting block 303, and one end, away from the connecting block 303, of the intermediate rod 333 is hinged on the outer end of the angle adjustment rod 332.

When seeds or fertilizer needs to be supplemented, the angle adjusting driver 331 acts, the angle adjusting rod 332 moves, the angle adjusting rod 332 drives the connecting block 303 to swing in the height direction through the middle rod 333, the connecting block 303 drives the second conveying pipe 302 and the angle adjusting pipe 304 to rotate, and when the discharge opening 301a rotates up and down to a proper seed or fertilizer supplementing height, the angle adjusting driver 331 stops acting.

Therefore, the device in the embodiment can realize on-line supplement of seeds or fertilizers, is convenient to supplement materials, and is beneficial to improving the operation efficiency of seeding and fertilizing; the utility model discloses can be applied to in the fertile work of automatic benefit seed.

Example 2

Referring to fig. 2 to 5, in order to provide a second embodiment of the present invention, the present embodiment provides a fertilizer seed automatic supplement carrying device, which can further realize the transportation of seeds or fertilizer.

A fertilizer seed automatic supplement carrying device is disclosed, wherein a first sealing plate 312 and a second sealing plate 313 are slidably connected to the left end and the right end of a material conveying shell 205, the first sealing plate 312 can separate a first feeding cavity 202a from a feeding hole 202c, the second sealing plate 313 can separate a second feeding cavity 202b from the feeding hole 202c, the first sealing plate 312 and the second sealing plate 313 are both arranged above a first conveying auger 325, and the position adjustment of the first sealing plate 312 and the second sealing plate 313 is realized by the structure that a first linear driver 310 is fixedly connected to the left end of the material conveying shell 205 in the outward direction, a first push-pull rod 311 capable of linearly moving in the left-right direction is connected to the first linear driver 310, the outer end of the first sealing plate 311 is fixedly connected to one end, extending out of the material conveying shell 205, of a second linear driver is fixedly connected to the right end of the material conveying shell 205 in the outward direction, a second push-pull rod 315 capable of linearly moving in the left-right direction is connected to the second linear driver 314, and the outer end of the second push-pull rod 315 is fixedly connected to one end, extending out of the material conveying shell 205; a partition plate 204 is fixed between the inner walls of the front and rear sides of the charging box body, the charging box body is divided into a first charging chamber 202a and a second charging chamber 202b by the partition plate 204, when the inner end of the first cover plate 312 contacts with the left side of the partition plate 204, the first charging chamber 202a and the feed port 202c are blocked, and when the inner end of the second cover plate 313 contacts with the right side of the partition plate 204, the second charging chamber 202b and the feed port 202c are blocked.

When the seeds need to be replenished, the first linear actuator 310 acts to enable the first push-pull rod 311 to retract, the first push-pull rod 311 drives the first sealing plate 312 to move, the first sealing plate 312 leaves the partition plate 204, the seeds fall into the feeding hole 202c, the seeds are fed, when the fertilizer needs to be replenished, the first linear actuator 310 acts reversely, the first push-pull rod 311 extends out, the first push-pull rod 311 props against the partition plate 204, and at the moment, the first feeding cavity 202a is isolated from the feeding hole 202 c; the second linear driver 314 operates to retract the second push-pull rod 315, the second sealing plate 313 leaves the partition plate 204, and the waste falls into the feed inlet 202c to feed the fertilizer; the controlled feeding of seeds or fertilizers is realized through the structure.

A first supporting bracket 201 and a second supporting bracket are respectively fixed on the left side and the right side of the material conveying shell 205, a first linear actuator 310 is fixedly connected to one end, far away from the material conveying shell 205, of the first supporting bracket 201, a second linear actuator 314 is fixedly connected to the other end, far away from the material conveying shell 205, of the second supporting bracket, a plurality of rotatable first rollers 309 are distributed on the first supporting bracket 201, the lower side of a first sealing plate 312 outside the material conveying shell 205 is in contact with the upper edges of the first rollers 309, and the upper edges of the plurality of first rollers 309 are flush; a plurality of second rotatable rollers 316 are arranged on the second support bracket, the lower side of a second closing plate 313 outside the feed delivery shell 205 can be contacted with the upper edges of the second rollers 316, and the upper edges of the plurality of second rollers 316 are flush.

When the first sealing plate 312 moves, the lower side of the first sealing plate 312 is contacted with the upper edge of the first roller 309, and the first roller 309 rolls to keep the first sealing plate 312 moving stably; when the second sealing plate 313 moves, the lower side of the second sealing plate 313 contacts with the upper edge of the second roller 316, and the second roller 316 rolls, so that the movement of the second sealing plate 313 is kept smooth.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a fertilizer seed automatic replenishment delivery is equipped which characterized in that: which comprises the steps of preparing a mixture of a plurality of raw materials,

the seed manure feeding connecting assembly (200) comprises a feed conveying shell (205) with an upward feed inlet (202 c), a seed manure feeding box (202) is fixedly connected to the upper side of the feed conveying shell (205), the seed manure feeding box (202) is provided with a first feeding cavity (202 a) and a second feeding cavity (202 b) which are mutually independent, and the first feeding cavity (202 a) and the second feeding cavity (202 b) can be respectively and independently communicated with the feed inlet (202 c);

fertilizer delivery assembly (300), fertilizer delivery assembly (300) includes in feed inlet (202 c) below and rotationally connects first transport auger (325) on defeated material casing (205), transition pipe (308) in the middle of the rear side fixedly connected with of defeated material casing (205), the upper portion of transition pipe (308) in the middle of the first is connected with first conveyer pipe (306) of vertical setting, transition pipe (305) in the middle of the upside fixedly connected with second of first conveyer pipe (306), the one end that first conveyer pipe (306) was kept away from in the middle of transition pipe (305) of the second rotationally is connected with angle modulation pipe (304), the one end fixedly connected with second conveyer pipe (302) of transition pipe (305) in the middle of the second is kept away from in angle modulation pipe (304), second conveyer pipe (302) just crosses fertile filling box (202) in the middle of the second, the one end fixedly connected with third conveyer pipe (301) of transition pipe (305) in the middle of the second is kept away from in the second, third conveyer pipe (301) open one side of going down has first bin (301), the one end of transition pipe (308 a) is connected with second transport auger (325) in the second, the second conveyer pipe (318) and the transmission pipe (301) is connected with the one end of first transport auger (325), the upper end that auger (318) was carried to the second stretches into in the middle of the second transition pipe (305), rotationally be connected with third transport auger (329) in second conveyer pipe (302) and third conveyer pipe (301), the one end that auger (329) was carried to the third stretches into in angle modulation pipe (304), the other end that auger (329) was carried to the third rotationally connects the one end of keeping away from angle modulation pipe (304) in third conveyer pipe (301), the upper end that auger (318) was carried to the second and the one end transmission connection that auger (329) was carried to the third are carried to the third.

2. The fertilizer seed automatic replenishment carrying equipment of claim 1, characterized in that: the internal fixedly connected with first support casing (336) of first middle transition pipe (308), rotationally be connected with intermeshing's first transmission bevel gear (334) and second transmission bevel gear (335) on first support casing (336), first transmission bevel gear (334) and first transport auger (325) are connected, second transmission bevel gear (335) and the lower extreme of second transport auger (318) are connected, fixedly connected with second support casing (320) in second middle transition pipe (305), rotationally be connected with intermeshing's first driven bevel gear (321) and second driven bevel gear (319) in second support casing (320), the upper end that first driven bevel gear (321) and second transport auger (318) are connected, be connected with transitionally transport auger (319) on second driven bevel gear (319), the one end that transitionally transport auger (317) kept away from second support casing (320) stretches into in angle regulation pipe (304), fixedly connected with first support casing (323) in angle regulation pipe (304), third transition support casing (323) and second transport auger (322) are connected with each other rotation bevel gear (324), second transmission bevel gear (323) and second transport auger (322) are connected, the second rotating bevel gear (324) is connected with the third conveying auger (329).

3. The fertilizer seed automatic replenishment carrying equipment of claim 1 or 2, wherein: the first delivery pipe (306) is rotatably connected to an upper portion of a first intermediate transition pipe (308).

4. Fertilizer seed auto-replenishment handling equipment according to claim 3, characterized in that: the outer side fixedly connected with driven gear (327) of first conveyer pipe (306) lower part, the outside fixedly connected with fixing base (337) of transition pipe (308) in the middle of the first, fixing base (337) upside fixedly connected with angle modulation motor (307), be connected with driving gear (328) on angle modulation motor (307), driving gear (328) and driven gear (327) meshing.

5. The fertilizer seed automatic replenishment carrying equipment of claim 1 or 2, wherein: the outside of transition pipe (305) in the middle of the second is fixed with two articulated ears, it has connecting rod (330) to articulate between two articulated ears, the one end of transition pipe (305) in the middle of the second is kept away from in connecting rod (330) articulates there is angle modulation driver (331), be connected with angle modulation pole (332) that can do reciprocal rectilinear movement on angle modulation driver (331), the second conveyer pipe (302) outside is fixed with connecting block (303), the outer end of angle modulation pole (332) articulates on connecting block (303), rotationally be connected with intermediate lever (333) on connecting block (303), the one end that connecting block (303) were kept away from in intermediate lever (333 articulates the outer end of angle modulation pole (332).

6. The fertilizer seed automatic replenishment carrying equipment of claim 5, wherein: the left end and the right end of the material conveying shell (205) are slidably connected with a first sealing plate (312) and a second sealing plate (313), the first sealing plate (312) can separate a first feeding cavity (202 a) from a feeding hole (202 c), the second sealing plate (313) can separate a second feeding cavity (202 b) from the feeding hole (202 c), and the first sealing plate (312) and the second sealing plate (313) are arranged above the first conveying packing auger (325).

7. The fertilizer seed auto-replenishment carrying equipment of claim 6 wherein: defeated material casing (205) left end is fixedly connected with first linear actuator (310) in the outside direction, be connected with first push-and-pull rod (311) that can make reciprocal rectilinear movement in the left and right directions on first linear actuator (310), the outer end and the first shrouding (312) of first push-and-pull rod (311) stretch out defeated material casing (205) outer one end fixed connection, defeated material casing (205) right-hand member is fixedly connected with second linear actuator (314) in the outside direction, be connected with second push-and-pull rod (315) that can make reciprocal rectilinear movement in the left and right directions on second linear actuator (314), the outer end and the second shrouding (313) of second push-and-pull rod (315) stretch out defeated material casing (205) outer one end fixed connection.

8. The fertilizer seed auto-replenishment carrying equipment of claim 6 wherein: a partition plate (204) is fixed between the inner walls of the front side and the rear side of the feeding box body, the feeding box body is divided into a first feeding cavity (202 a) and a second feeding cavity (202 b) by the partition plate (204), when the inner end of the first sealing plate (312) contacts with the left side of the partition plate (204), the first feeding cavity (202 a) is blocked with the feeding port (202 c), and when the inner end of the second sealing plate (313) contacts with the right side of the partition plate (204), the second feeding cavity (202 b) is blocked with the feeding port (202 c).

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