CN110731255B

CN110731255B - Deep root fertilizing equipment for rice

Info

Publication number: CN110731255B
Application number: CN201810789671.9A
Authority: CN
Inventors: 刘化云
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-07-18
Filing date: 2018-07-18
Publication date: 2022-10-04
Anticipated expiration: 2038-07-18
Also published as: CN110731255A

Abstract

The invention mainly relates to the field of agricultural production equipment, in particular to rice deep-root fertilizing equipment which comprises a sliding plate, a rack, a supporting beam, a box body and power equipment, wherein the sliding plate is fixedly connected below the rack, a material conveying port is formed in the sliding plate, a furrow opener and a soil covering device are fixedly connected to the lower surface of the sliding plate, the furrow opener is arranged in front of a material conveying port, the soil covering device is arranged behind the material conveying port, the rack is connected with the supporting beam, the box body is fixedly connected above the rack, a material discharging port is formed in the box body, and the material discharging port is connected with the material conveying port in the sliding plate.

Description

Deep root fertilizing equipment for rice

Technical Field

The invention mainly relates to the field of agricultural production equipment, in particular to deep-root fertilization equipment for rice.

Background

In the existing agricultural planting production, the crop yield is usually improved in a fertilizing mode, for rice, the traditional fertilizing mode is that throwing type fertilizing is manually or mechanically adopted, manual fertilizing needs a large amount of manpower, and the operation intensity is high; the traditional mechanical fertilizer applicator has high energy consumption, high emission and environmental pollution, and the self weight of mechanical equipment is too large, so that the damage to seedlings and rice fields can be caused in the working process. The fertilizer is sprayed in water of a rice field, the fertilizer is absorbed by straw leaves of rice seedlings, the rice is insufficiently absorbed, the fertilizer is seriously volatilized along with the evaporation of water in the rice field in high temperature in summer, so that the utilization rate of the fertilizer is low, the seedling growth needs can be met only by applying the fertilizer for two to three times, and the volatilized fertilizer can cause pollution to the ecological environment; the throwing type fertilization also easily causes underdevelopment of rice root systems, and the phenomena of greedy and lodging occur, thereby affecting the high yield of rice.

Disclosure of Invention

The purpose of the invention is as follows:

in order to solve the above problems, designers propose a rice deep-root fertilizing device, aiming at: realize automatic fertilization in paddy field, realize the fertilization of dark root, make the rice seedling directly rely on the root to absorb fertilizer nutrient, avoid volatilizing, the waste of fertilizer, improve the fertilizer utilization ratio, the fertilization of dark root is favorable to promoting the development of rice root system simultaneously, promotes the ability of rice lodging resistance, and automatic fertilization can use manpower sparingly, material resources, and equipment weight is little simultaneously, can not cause the damage to seedling and paddy field soil property.

The specific technical scheme is as follows:

the deep root fertilization equipment of rice, its characterized in that: including the slide board, the frame, the strutbeam, the box, power equipment, frame below fixed connection slide board, set up the conveying mouth on the slide board, slide board lower surface fixed connection furrow opener and covering device, the furrow opener sets up in conveying mouth the place ahead, covering device sets up at conveying mouth rear, the frame is connected with the strutbeam, box fixed connection is in the frame top, the feed opening is opened to the box, the feed opening is connected with the conveying mouth on the slide board.

Preferably, the power plant comprises: the power system comprises a fixed support, a power supply, a motor, a transmission belt, a steel cable shaft and a traction steel cable, wherein the motor is connected with the steel cable shaft through a transmission belt, the steel cable shaft is connected with the traction steel cable, the fixed support is provided with a bottom plate, the power supply is placed on the bottom plate, an oscillating rod is arranged on the fixed support and is connected with the fixed support through a second rotating shaft and a second shaft hole, one end of the oscillating rod is provided with a handle, the other end of the oscillating rod is provided with a T-shaped arm, the two ends of the T-shaped arm are provided with a first pulley, one end of the traction steel cable is fixedly connected with the steel cable shaft, the other end of the traction steel cable penetrates through the first pulley and then is fixedly connected with a clamping hook, the traction steel cable is provided with a second pulley, the second pulley is arranged between the first pulley and the clamping hook, the power supply, the motor, the transmission belt, the steel cable shaft, the traction steel cable shaft, the first pulley, the second pulley and the clamping hook form a power system which comprises two groups, and the motor and the fixed support is connected with the steel cable shaft.

Preferably, the feed opening is connected with the material conveying opening through a hose, the feed opening is provided with a feed opening switch, the feed opening switch comprises a second cover plate, a threaded rod and an adjusting plate, the second cover plate is provided with a through hole, the threaded rod is fixedly connected with the second cover plate, the threaded rod is provided with external threads, the threaded rod is connected with the adjusting plate through a nut, the material conveying opening is provided with a material conveying opening switch, and the material conveying opening switch is a first cover plate.

Preferably, feed opening switch and defeated material mouthful switch are equipped with on-off controller, on-off controller includes the control lever, the spring, fixed plate one, the driving medium, and the control rope, defeated material mouth switch is connected to the control lever lower extreme, and the driving medium is connected to the control lever upper end, the feed opening switch is connected to the driving medium, a fixed plate one end and frame fixed connection, a fixed plate other end are connected with the control lever through the round pin axle, spring one end and frame fixed connection, the spring other end and control lever fixed connection, the spring sets up the below at fixed plate one, be provided with the limiting plate in the frame, the limiting plate sets up in fixed plate one top, control rope fixed connection control lever.

Preferably, in the switch controller, the driving medium includes connecting plate one, connecting plate two, connecting plate three, pivot one, fixed plate two, the one end fixed connection back beam of fixed plate two, the other end of fixed plate two is equipped with shaft hole one, shaft hole one is passed to pivot one, a connecting plate fixed connection is in pivot one, and feed opening switch is connected to the connecting plate one other end, two one end fixed connection of connecting plate are in pivot one, and two other ends of connecting plate are through the one end rotatable coupling of round pin axle with connecting plate three, the other end and the control lever fixed connection of connecting plate three.

Preferably, the sliding plate is provided with a stressed support, two ends of the control rope are fixedly connected with the control rod, the middle of the control rope penetrates through the support beam and the stressed support, a buckle ring is formed at the front end of the stressed support, and the control rope forms a stable triangle.

Preferably, the front ends of the sliding plates are tilted upwards, a ship bow type design is adopted, and the distance between the sliding plates is set to be 15-25 cm.

Preferably, the box is equipped with the fixed orifices, the box passes through bolt and U type leg joint, the feed opening sets up at the box lower extreme, the feed opening is equipped with the apron groove.

Preferably, the rack is detachably connected with the support beams through bolts, and the support beams of the multiple rice deep root fertilizing devices are detachably connected through bolts.

Preferably, the furrow opener is designed in a shuttle body sliding mode and comprises a front end furrow opening edge, a tail protection groove and protection groove walls, the furrow opener is fixedly connected with the soil coverers, and the two groups of soil coverers are distributed on two sides of the bottom surface of the sliding plate.

Has the beneficial effects that: the invention discloses a rice deep-root fertilizing device, wherein the front end of a sliding plate is designed in a bow type, the device is prevented from being sunk into muddy water when the device travels in the field and damaging soil in a rice field, seedlings can be poked, a furrow opener is arranged at the front end of a material conveying opening, a soil covering device is arranged at the rear end of the material conveying opening, deep-root fertilization of a fertilizer is realized, the use efficiency of the fertilizer is improved, volatilization waste is avoided, the deep-root fertilization is favorable for promoting the growth of a rice root system, the lodging resistance of the rice is improved, and the device is pulled to work by adopting the power of a motor, so that automation is realized and manpower is saved.

Drawings

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

FIG. 2 is a schematic view of the structure of the sliding plate, the furrow opener and the soil covering device of the present invention

FIG. 3 is a schematic view showing the connection between the feed opening and the driving member according to the present invention

FIG. 4 is a schematic view of the connection between the feed opening and the delivery opening of the present invention

FIG. 5 is a schematic view of the connection structure of the switch controller, the transmission member and the feed opening switch of the present invention

FIG. 6 is a schematic view of the connection structure of the switch controller and the material delivery port switch of the present invention

FIG. 7 is a schematic view of the structure of the power equipment of the invention

FIG. 8 is a schematic view of a swing lever structure of the power plant of the present invention

FIG. 9 is a schematic view of the working condition of the present invention

Wherein: 1. the device comprises a sliding plate 101, a furrow opener 104, a front end furrow opening edge 105, a tail protection groove 106, a protection groove wall 102, a material conveying opening 103, a soil covering device 2, a frame 3, a U-shaped support 4, a box body 401, a feed opening 402, a cover plate groove 5, a support beam 6, a control rope 7, a stressed support 8, a switch controller 801, a cover plate I802, a control rod 803, a spring 804, a fixing plate I805, a connecting plate I806, a connecting plate II 807, a connecting plate III 808, a rotating shaft I809, a fixing plate II 810, a connecting rod 901, an adjusting plate 902, a threaded rod 903, a through hole 904, a cover plate II 905, a nut 10, power equipment 1001, a power supply 1002, a motor 1003, a conveyor belt 1004, a steel cable shaft 1005, a limiting block 1006, a bearing 1007, a traction steel cable 1008, a pulley I1009, a clamping hook 1010, a rotating shaft II 1011, a T-shaped arm 1012, a rib plate 1013, a swinging rod 1014, a handle 1011015, a supporting rod 1016, a fixing support 7, a shaft sleeve 1018, a bottom plate 1019, a pulley II 11, a fixing column 103, a fixing column 106, a fixing column

Detailed Description

The present invention will be described in detail with reference to FIGS. 1 to 9

The rice deep root fertilizing equipment comprises power equipment 10, a rack 2, a sliding plate 1 and a box body 4, wherein the rack 2 is formed by welding angle irons, the rack 2 is divided into a plurality of groups, the groups can be determined according to actual use conditions, and the rack 2 is connected through a supporting beam 5. The front end of the sliding plate 1 is designed in a warbow manner, the upper surface of the sliding plate 1 is fixedly connected below the rack 2, the lower surface of the sliding plate 1 is fixedly connected with a furrow opener 101, a material conveying port 102 is arranged behind the furrow opener 101, the rear end of the material conveying port 202 is fixedly connected with a soil covering device 103, the furrow opener 101 comprises a front end furrowing edge 104, a tail protection groove 105 and a protection groove wall 106, the soil covering devices are divided into two groups, and the soil covering devices are distributed on two sides of the bottom surface of the sliding plate and are fixedly connected with stressed supports 7. Frame 2 top fixed connection U type support 3, be equipped with four groups bolt hole on the U type support 3, box 4 be provided with U type support 3 on bolt hole assorted fixed orifices 403, box 4 passes through bolt fixed connection with U type support 3. The lower end of the box body 4 is provided with a feed opening 401, the feed opening 401 is provided with a cover plate groove 402, and the feed opening 401 is connected with the feed conveying opening 102 on the sliding plate 1 through a hose 104. The feed opening 401 is provided with a feed opening switch, the feed opening switch comprises a second cover plate 904, a threaded rod 902 and an adjusting plate 901, the second cover plate 904 is provided with a through hole 903, the threaded rod 902 is fixedly connected with the second cover plate 904, the threaded rod 902 is provided with an external thread, and the threaded rod 902 is connected with the adjusting plate 901 through a nut 905. The material conveying port 102 is provided with a material conveying port switch, and the material conveying port switch is a cover plate I801. The lower end of the control rod 802 is fixedly connected with a first cover plate 801, the upper end of the control rod 802 is fixedly connected with one end of a first connecting plate 805, the other end of the first connecting plate 805 is connected with a second connecting plate 806 through a pin shaft, the second connecting plate 806 is fixedly connected with a first rotating shaft 808, the first rotating shaft 808 is further fixedly connected with a third connecting plate 807, and the third connecting plate 807 is rotatably connected with the adjusting plate 901 through a pin shaft. One end of the second fixing plate 809 is fixedly connected with the first support beam 5, the second fixing plate 809 is provided with a shaft hole, the first rotating shaft 808 penetrates through the shaft hole, and the second rotating shaft 808 and the second fixing plate 809 are rotatably connected. One end of the first fixing plate 804 is fixedly connected with the rack 2, the other end of the first fixing plate 804 is connected with the control rod 802 through a pin shaft, one end of the spring 803 is fixedly connected with the rack 2, the other end of the spring 803 is fixedly connected with the control rod 802, the control rope 6 penetrates through the support beam 5 and the stressed support 7 to form a retaining ring 601 at the front end of the stressed support 7, the limiting plate 811 is fixedly connected with the rack 2, the control rod 802 is a plurality of groups and can be determined according to actual use conditions, and the control rod 802 is connected through a connecting rod 810.

The power plant 10 includes: fixed support 1016, power 1001, motor 1002, drive belt 1003, cable shaft 1004, traction cable 1007. The motor 1002 is connected with a steel cable shaft 1005 through a conveyor belt 1002, the steel cable shaft 1005 is connected with a traction steel cable 1007, the fixed support 1016 is provided with a bottom plate 1018, and the power supply 1001 is placed on the bottom plate 1018. Set up the swinging arms 1013 on the fixed bolster 1016, two 1010 of swinging arms 1013 fixed connection pivot, two 1017 in fixed bolster 1016 fixed connection shaft holes, be equipped with gusset 1012 between two 1017 in shaft hole and the fixed bolster 1016, but two 1010 and two 1017 in shaft hole realize swivelling joint, swinging arms 1013 one end is equipped with handle 1014 swinging arms other end and is equipped with T type arm 1011, T type arm 1011 both ends all are equipped with pulley 1008. One end of the traction steel cable 1007 is fixedly connected with the steel cable shaft 1004, the other end of the traction steel cable 1007 passes through the first pulley 1008 and then is fixedly connected with the hook 1009, the traction steel cable 1007 is provided with a second pulley 1019, and the second pulley 1019 is arranged between the first pulley 1008 and the hook 1009. The power system formed by the power supply 1001, the motor 1002, the transmission belt 1003, the steel cable shaft 1004, the traction steel cable 1007, the first pulley 1008, the second pulley 1019 and the hook 1009 has two groups, the motor 1002 is fixedly connected with the fixed support 1016, and the steel cable shaft 1004 is rotatably connected with the fixed support 1016 through the bearing 1006.

The specific working principle is as follows:

rice fertilizer injection equipment deeply rooted, before the work, put the fertilizer prepared to box 4 in, adjust the regulating plate 901 of feed opening switch, through knob nut 905, adjust the through-hole 903 on the apron two 904 and the relative position of feed opening 401. The method comprises the steps that fixed columns 11 are respectively arranged at the initial point and the final point of the rice field, two groups of traction steel cables of the power equipment 10 are fixedly connected with the fixed columns 11 through bidirectional pulleys, the traction steel cables are called as a first power set connected with the final point fixed columns, the traction steel cables connected with the initial point fixed columns are called as a second power set, the traction steel cables of the first power set are connected to a buckle 601 formed by a control rope 6 through a clamping hook, the traction steel cables of the second power set are connected to a connecting rod 810 behind a rack 2 through the clamping hook, the first power set is started, the second power set is closed, and the equipment fertilization operation is achieved. Because the two ends of the control rope 6 are fixedly connected with the control rods 802, the middle of the control rope passes through the supporting beam 5 to form a retaining ring 601 in front of the stress bracket 7, and the control rope 6 forms a stable triangular structure in the rice deep-root fertilizing equipment rack 2, the stability of the equipment is ensured when power runs. Before the power equipment is started, the control rod 802 is pulled by the pulling force generated by the spring 803, and the limiting plate 811 is used for limiting the rotation limit position of the control rod 802. At this time, the first cover plate 801 seals the feed port 101, and the second cover plate 904 seals the feed port 401, so as to prevent fertilizer from leaking. Starting power equipment, pulling a control rope 6 by a traction steel cable, pulling a control rod 802 by the control rope 6, wherein the pulling force of the control rope 6 is greater than the pulling force generated by a spring 803 6, rotating the control rod 802, and at the moment, keeping a cover plate I801 away from a material conveying port 102, opening the material conveying port 102, pushing a connecting plate I805 to move by the control rod 802, driving a rotating shaft I808 to rotate by the connecting plate I805, driving a connecting plate III 807 to push an adjusting plate 901 by the rotating shaft I808, moving a cover plate II 904, and realizing the passage between a through hole 903 on the cover plate II 904 and a feed opening 401 at the moment, and opening the feed opening. The fertilizer is discharged from the feed opening 401, passes through the hose 104, and is discharged from the feed opening 102. At the moment, the sliding plate 1 adopts a bow type design, and seedlings can be pulled open. When the sliding plate 1 slides, the furrow opener 101 on the sliding plate 1 can clear away impurities such as weeds on the path by the front end furrowing edge 104, a muddy water ditch is opened on the muddy water path, the tail protection groove 105 and the protection groove wall 106 protect the conveying port 102 from being polluted by the muddy water obtained by furrowing, the fertilizer at the conveying port 401 can be directly scattered in the deep soil and is closer to the root of rice, which is beneficial to absorption, the soil covering device 103 behind the conveying port 102 covers the muddy water on the muddy water applied with the fertilizer, the fertilizer is buried in the muddy water, the fertilizer is prevented from being volatilized and wasted in the water, and the soil has the closure property, the fertilizer can be stored at the root of the rice seedling, which is beneficial to continuous and effective absorption of the rice. The fertilization equipment works to the terminal point, the power equipment 10 stops working at the moment, the tension of the control rope 6 is smaller than that of the spring 803, the control rod 802 resets at the moment, the first cover plate 801 seals the material conveying port 102, and the second cover plate 904 seals the material discharging port 401, so that fertilizer is prevented from leaking.

The rice deep root fertilizing equipment drives the steel cable shaft 1004 to rotate when the motor 1002 is started, the steel cable shaft 1004 winds the traction steel cable 1007 on the steel cable shaft 1004, and the swinging rod 1013 swings left and right to adjust the relative position of the pulley 1008 on the T-shaped arm 1011 and the steel cable shaft 1004. So that the traction cable 1007 can be wound around the cable shaft 1004 at different positions, said traction cable 1007 can be wound evenly around the cable shaft 1004. The traction cable 1007 is prevented from being wound around one end of the cable shaft 1004 to cause excessive damage to the traction cable 1007.

When the deep-root rice fertilizing equipment works, fixing columns 11 are respectively arranged at the initial point and the final point of a rice field, two groups of traction steel cables of the power equipment 10 are fixedly connected with the fixing columns 11 through bidirectional pulleys, the traction steel cables are connected with the fixing columns at the final point and are called first power sets, the traction steel cables are connected with the fixing columns at the initial point and are called second power sets, the traction steel cables of the first power sets are connected to a buckle 601 formed by a control rope 6 through a clamping hook, the traction steel cables of the second power sets and a connecting rod 810 connected to the back of a rack 2 through the clamping hook are connected, the first power sets are started, and the second power sets are closed. When the first power group pulls the fertilizing equipment to work, the traction steel cable of the second power group can also be pulled to the terminal point along with the fertilizing equipment. When the fertilizer applying equipment adjusts the operation advancing direction, the fertilizer applying equipment is adjusted only by detaching the traction steel cables of the first power set and the second power set, turning the fertilizer applying equipment, meanwhile, connecting the traction steel cable of the first power set to the connecting rod 810 at the back of the rack 2 through the clamping hook, connecting the traction steel cable of the second power set to the clamping ring 601 formed by the control rope 6 through the clamping hook, starting the second power set, and closing the first power set. Therefore, the automatic reciprocating work is realized.

The dark root fertilizer injection unit of rice, connect through the strutbeam between the frame 2, frame 2 adopts bolted connection with strutbeam 5, realizes dismantling, and the user can select the frame of different radical and corresponding sliding plate according to the actual conditions in self field, when many equipment combination work that establish of needs, will many the connection can be dismantled to the strutbeam of the dark root fertilizer injection unit of rice, and then the realization can both realize the fertilization operation to the field of different width.

In conclusion, the invention achieves the expected effect.

Claims

1. Dark root fertilizer injection unit of rice, its characterized in that: the device comprises a sliding plate, a rack, a support beam, a box body and power equipment, wherein the sliding plate is fixedly connected below the rack, a material conveying port is formed in the sliding plate, the lower surface of the sliding plate is fixedly connected with a furrow opener and a soil covering device, the furrow opener is arranged in front of the material conveying port, the soil covering device is arranged behind the material conveying port, the rack is connected with the support beam, the box body is fixedly connected above the rack, the box body is provided with a feed port, and the feed port is connected with the material conveying port in the sliding plate;

the power equipment comprises a fixed support, a power supply, a motor, a transmission belt, a steel cable shaft and a traction steel cable, wherein the motor is connected with the steel cable shaft through the transmission belt, the steel cable shaft is connected with the traction steel cable, the fixed support is provided with a bottom plate, the bottom plate is used for placing the power supply, the fixed support is provided with a swing rod, one end of the swing rod is provided with a handle, the other end of the swing rod is provided with a T-shaped arm, two ends of the T-shaped arm are respectively provided with a first pulley, one end of the traction steel cable is fixedly connected with the steel cable shaft, the other end of the traction steel cable penetrates through the first pulley and then is fixedly connected with a clamping hook, the traction steel cable is provided with a second pulley, the second pulley is arranged between the first pulley and the clamping hook, a power system formed by the power supply, the motor, the transmission belt, the steel cable shaft, the traction steel cable, the first pulley, the second pulley and the clamping hook comprises two groups, and the motor and the fixed support are connected with the steel cable shaft;

the feeding hole is connected with the material conveying hole through a hose, the feeding hole is provided with a feeding hole switch, the feeding hole switch comprises a second cover plate, a threaded rod and an adjusting plate, a through hole is formed in the second cover plate, the threaded rod is fixedly connected with the second cover plate, external threads are arranged on the threaded rod, the threaded rod is connected with the adjusting plate through a nut, the material conveying hole is provided with a material conveying hole switch, and the material conveying hole switch is a first cover plate;

feed opening switch and defeated material mouthful switch are equipped with on-off controller, on-off controller includes control lever, spring, fixed plate one, driving medium and control rope, defeated material mouth switch is connected to the control lever lower extreme, and the driving medium is connected to the control lever upper end, the feed opening switch is connected to the driving medium, a fixed plate one end and frame fixed connection, a fixed plate other end are connected with the control lever through the round pin axle, spring one end and frame fixed connection, the spring other end and control lever fixed connection, the spring sets up the below at fixed plate one, be provided with the limiting plate in the frame, the limiting plate sets up in fixed plate one top, control rope fixed connection control lever, the traction cable passes through the pothook and connects on the buckle that the control rope formed.

2. The deep root fertilizing apparatus for rice as claimed in claim 1, wherein: the front ends of the sliding plates are tilted upwards, a ship bow type design is adopted, and the distance between the sliding plates is set to be 15-25 cm.

3. The rice deep root fertilizing apparatus as claimed in claim 1, wherein: the sliding plate is provided with a stressed bracket, two ends of the control rope are fixedly connected with the control rod, the middle of the control rope penetrates through the support beam and the stressed bracket, a retaining ring is formed at the front end of the stressed bracket, and the control rope forms a stable triangle.

4. The rice deep root fertilizing apparatus as claimed in claim 1, wherein: the frame is detachably connected with the supporting beams through bolts, and the supporting beams of the rice deep root fertilizing equipment are detachably connected through bolts.

5. The deep root fertilizing apparatus for rice as claimed in claim 1, wherein: the furrow opener is designed in a shuttle body sliding mode and comprises a front end furrow opening edge, a tail protection groove and protection groove walls, the furrow opener is fixedly connected with the soil coverers, and the soil coverers are divided into two groups and distributed on two sides of the bottom surface of the sliding plate.

6. The deep root fertilizing apparatus for rice as claimed in claim 1, wherein: the driving medium includes connecting plate one, connecting plate two, connecting plate three, pivot one and fixed plate two, the one end fixed connection corbel of fixed plate two, the other end of fixed plate two is equipped with shaft hole one, pivot one passes shaft hole one, connecting plate one fixed connection is in pivot one, and the feed opening switch is connected to connecting plate one other end, two one end fixed connection of connecting plate are in pivot one, and two other ends of connecting plate are through the one end rotatable coupling of round pin axle with connecting plate three, the other end and the control lever fixed connection of connecting plate three.