CN216367437U - Plant nutrient solution flash mixed production facility is used to agricultural - Google Patents

Abstract

The utility model relates to plant nutrient solution production equipment, in particular to agricultural plant nutrient solution rapid mixing production equipment. The utility model aims to provide agricultural plant nutrient solution rapid mixing production equipment which is uniformly mixed and can rapidly dissolve fertilizer. In order to solve the above technical problems, the present invention provides an agricultural plant nutrient solution rapid mixing production apparatus, comprising: the first support frame is rotatably connected with a roller. Thereby artifical manual second fixed plate of grabbing removes left and opens first receipts material frame, and then it is spacing with first receipts material frame through the baffle to reach the effect of opening first receipts material frame always, and then make that people can be better take out the plant nutrient solution that mixes.

Description

Plant nutrient solution flash mixed production facility is used to agricultural

Technical Field

The utility model relates to plant nutrient solution production equipment, in particular to agricultural plant nutrient solution rapid mixing production equipment.

Background

The plant nutrient solution can be used for promoting the germination, weighing, flowering and maturation of crops, accelerating the growth of plants and improving the yield and quality of grains, and the plant nutrient solution has few impurities and is easy to be absorbed by the plants, so that the plant nutrient solution is usually used for accelerating the growth of the plants when the plants are planted, the plant nutrient solution can be used for agriculture, and the plant nutrient solution can be added into the crops to accelerate the growth of the crops.

At present, the plant nutrient solution produced by people is generally the plant nutrient solution required by plants formed by mixing solid fertilizers and water manually, a large amount of time is consumed to dissolve the fertilizers when the solid fertilizers and the water are mixed, and the mixing is not uniform enough, so that the nutrient components of the nutrient solution have deviation, and the plant growth is influenced.

Therefore, the agricultural plant nutrient solution rapid mixing production equipment which can be uniformly mixed and can rapidly dissolve the fertilizer needs to be designed.

SUMMERY OF THE UTILITY MODEL

(1) Technical problem to be solved

The utility model aims to overcome the defects that a large amount of time is consumed for dissolving a fertilizer and the mixing is not uniform enough in the traditional plant nutrient solution production equipment, and the technical problem to be solved by the utility model is to provide agricultural plant nutrient solution rapid mixing production equipment which is uniform in mixing and can rapidly dissolve the fertilizer.

(2) Technical scheme

In order to solve the above technical problems, the present invention provides an agricultural plant nutrient solution rapid mixing production apparatus, comprising: the first support frame is rotatably connected with a roller; a handle connected to the first support frame; the stirring mechanism is connected to the first support frame and is used for accelerating mixing; and the material blocking mechanism is connected to the stirring mechanism and used for closing the stirring mechanism.

Preferably, the stirring mechanism includes: the second support frame is connected to the first support frame; the first material receiving frame is connected to the second supporting frame; the third support frame is connected to the first support frame; a motor mounted on the third support frame; the puddler, it is connected on the motor output shaft, and the puddler is used for stirring plant nutrient solution.

Preferably, the stock stop comprises: the first sliding rail is connected to the first material receiving frame; the striker plate is connected to the first sliding rail in a sliding manner and is used for blocking the first material receiving frame; the first spring is connected between the striker plate and the first sliding rail.

Preferably, a clamping mechanism is further included, and the clamping mechanism includes: the fourth supporting frame is connected to the first material receiving frame; the baffle is connected to the fourth support frame in a sliding mode and used for clamping the material baffle; and the second spring is connected between the baffle plate and the fourth support frame.

Preferably, also including the mechanism that draws water, the mechanism that draws water includes: the fifth supporting frame is connected to the third supporting frame; the sixth supporting frame is connected to the third supporting frame; the first rotating shaft is rotatably connected to the fifth supporting frame; the second rotating shaft is rotatably connected to the sixth supporting frame; the first bevel gears are connected to the stirring rod and the first rotating shaft, and the two first bevel gears are matched with each other; the second bevel gears are connected to the first rotating shaft and the second rotating shaft and are matched with each other; the seventh supporting frame is connected to the first material receiving frame; the third rotating shaft is rotatably connected to the seventh supporting frame; the first gear lack is connected to the third rotating shaft; the first straight gear is connected to the third rotating shaft; the fourth rotating shaft is rotatably connected to the sixth supporting frame; the second straight gear is connected to the fourth rotating shaft; the first belt is sleeved between the second rotating shaft and the fourth rotating shaft; the second sliding rail is connected to the first support frame; the movable rod is connected to the second slide rail in a sliding manner; the third spring is connected between the movable rod and the first support frame; the third straight gear is rotatably connected to the movable rod and matched with the second straight gear; the first wedge-shaped block is connected to the third straight gear; the second wedge-shaped block is connected to the striker plate and matched with the first wedge-shaped block; the fifth rotating shaft is rotatably connected to the seventh supporting frame; the fourth straight gear is connected to the fifth rotating shaft and matched with the first gear lacking; a cam connected to the fifth rotating shaft; the water tank is connected to the first support frame; the water pipe is connected between the water tank and the first material receiving frame; the water pump is connected to the water pipe, and a water pump switch is matched with the cam; and the torsional spring is connected between the fifth rotating shaft and the seventh supporting frame.

Preferably, still including the fertilizer mechanism under the ration, the fertilizer mechanism includes under the ration: the first supporting column is connected to the first material receiving frame; the second material receiving frame is connected to the first supporting column and used for storing fertilizer; the eighth support frame is connected to the second support frame; a sixth rotating shaft rotatably connected to the eighth supporting frame; the second supporting column is connected to the fourth supporting frame; the seventh rotating shaft is rotatably connected with the second supporting column; the second belt is sleeved between the third rotating shaft and the seventh rotating shaft; the third bevel gears are connected to the seventh rotating shaft and the sixth rotating shaft, and the two third bevel gears are matched with each other; the second gear lack is connected to the sixth rotating shaft; the first material shifting plate is rotatably connected to the second material receiving frame; and the fifth straight gear is connected to the first material shifting plate and matched with the second gear lack.

Preferably, a quantitative lower dissolving agent mechanism is further included, and the quantitative lower dissolving agent mechanism includes: the third supporting column is connected to the first material receiving frame; the third material receiving frame is connected to the third supporting column and used for storing a dissolving agent; the eighth rotating shaft is rotatably connected to the eighth supporting frame; the third belt is sleeved between the eighth rotating shaft and the sixth rotating shaft; the third gear lack is connected to the eighth rotating shaft; the second material shifting plate is rotatably connected to the third material receiving frame; and the sixth straight gear is connected to the second material shifting plate and matched with the third gear-lacking wheel.

Preferably, a plurality of blanking ports are formed in the upper portion of the first material receiving frame.

(3) Advantageous effects

1. Thereby artifical manual second fixed plate of grabbing removes left and opens first receipts material frame, and then it is spacing with first receipts material frame through the baffle to reach the effect of opening first receipts material frame always, and then make that people can be better take out the plant nutrient solution that mixes.

2. Thereby the cam rotates and starts the water pump to in the first material frame of receiving of water suction in with the water tank, and then need not artifical manual pouring water into first material frame in, use manpower sparingly.

3. Thereby the clearance of first switch-plate and second switch-plate rotates and pours quantitative fertilizer and dissolving agent into first material receiving frame in to need not artifical manual fertilizer and dissolving agent and pour into first material receiving frame, further use manpower sparingly, improve the production efficiency of plant nutrient solution.

Drawings

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

Fig. 2 is a schematic perspective view of the stirring mechanism of the present invention.

Fig. 3 is a schematic perspective view of the stock stop of the present invention.

Fig. 4 is a schematic perspective view of the chucking mechanism of the present invention.

Fig. 5 is a schematic perspective view of the water pumping mechanism of the present invention.

Fig. 6 is a schematic perspective view of a part of the water pumping mechanism of the present invention.

Fig. 7 is a schematic perspective view of a first part of the quantitative fertilizing mechanism of the present invention.

Fig. 8 is a perspective view of a second part of the quantitative fertilizing mechanism according to the present invention.

FIG. 9 is a perspective view of a first portion of a quantitative dissolver mechanism according to the present invention.

FIG. 10 is a perspective view of a second portion of the quantitative dissolver mechanism according to the present invention.

The labels in the figures are: 1-a first support frame, 2-a roller, 3-a handle, 4-a stirring mechanism, 41-a second support frame, 42-a first material receiving frame, 43-a third support frame, 44-a motor, 45-a stirring rod, 5-a material blocking mechanism, 51-a first sliding rail, 52-a first spring, 53-a material blocking plate, 6-a clamping mechanism, 61-a fourth support frame, 62-a baffle, 63-a second spring, 7-a water pumping mechanism, 71-a fifth support frame, 72-a sixth support frame, 73-a first rotating shaft, 74-a second rotating shaft, 75-a first bevel gear, 76-a second bevel gear, 77-a seventh support frame, 78-a third rotating shaft, 79-a first gear lacking, 710-a first straight gear, 711-a fourth rotating shaft, 712-a second spur gear, 713-a first belt, 714-a second slide rail, 715-a movable rod, 716-a third spring, 717-a third spur gear, 718-a first wedge block, 719-a second wedge block, 720-a fifth rotating shaft, 721-a fourth spur gear, 722-a cam, 723-a water pipe, 724-a water pump, 725-a water tank, 726-a torsion spring, 8-a quantitative fertilizer discharging mechanism, 81-a first supporting column, 82-a second material collecting frame, 83-an eighth supporting frame, 84-a sixth rotating shaft, 85-a second supporting column, 86-a seventh rotating shaft, 87-a second belt, 88-a third bevel gear, 89-a second missing gear, 810-a first material shifting plate, 811-a fifth spur gear, 9-a quantitative solvent discharging mechanism, 91-a third supporting column, 92-a third material receiving frame, 93-an eighth rotating shaft, 94-a third belt, 95-a third gear lack, 96-a sixth spur gear and 97-a second material shifting plate.

Detailed Description

The utility model is further described below with reference to the figures and examples.

Example 1

The utility model provides an agricultural plant nutrient solution flash mixed production facility, as shown in fig. 1-4, including first support frame 1, gyro wheel 2, handle 3, rabbling mechanism 4 and stock stop 5, the equal rotary type in the left and right sides of both sides is connected with gyro wheel 2 around first support frame 1 lower part, and first support frame 1 upper portion right side is connected with handle 3, and first support frame 1 upper portion is connected with rabbling mechanism 4, and rabbling mechanism 4 upper portion is connected with stock stop 5.

The stirring mechanism 4 comprises a second support frame 41, a first material receiving frame 42, a third support frame 43, a motor 44 and a stirring rod 45, the right side of the upper portion of the first support frame is connected with the second support frame 41, the second support frame 41 is positioned on the left side of the handle 3, the first material receiving frame 42 is connected in the middle of the upper portion of the second support frame 41, the left side of the upper portion of the first support frame is connected with the third support frame 43, the motor 44 is installed in the middle of the upper side of the third support frame 43, an output shaft of the motor 44 is connected with the stirring rod 45, and the right side of the stirring rod 45 is positioned in the first material receiving frame 42.

The material blocking mechanism 5 comprises a first slide rail 51, a first spring 52 and a material blocking plate 53, the left side of the middle of the first material receiving frame 42 is connected with the first slide rail 51, the stirring rod 45 penetrates through the middle of the first slide rail 51, the middle of the first slide rail 51 is connected with the material blocking plate 53 in a sliding mode, and the first spring 52 is connected between the front side and the rear side of the right part of the material blocking plate 53 and the first slide rail 51.

When people need to produce the plant nutrient solution, firstly, the handle 3 is manually grasped to move leftwards, the first support frame 1 is driven to move leftwards through the rotation of the roller 2, the equipment moves leftwards, people pour the fertilizer, the water and the dissolving agent into the first material receiving frame 42 through the material discharging through hole on the first material receiving frame 42, then the motor 44 is manually started, the output shaft of the motor 44 rotates to drive the stirring rod 45 to rotate, the stirring rod 45 rotates to accelerate the dissolving agent to dissolve the fertilizer, so that the fertilizer and the water form the plant nutrient solution, after the plant nutrient solution is stirred and mixed, the motor 44 is manually turned off, then the material baffle plate 53 is manually grasped to move leftwards, the material baffle plate 53 moves leftwards, so as to stretch the first spring 52 and open the first material receiving frame 42, then the plant nutrient solution in the first material receiving frame 42 is manually collected, after the collection is finished, the material baffle plate 53 is manually released, the stretched first spring 52 resets to drive the striker plate 53 to reset rightwards, and the striker plate 53 resets rightwards to close the first material receiving frame 42, so that the plant nutrient solution does not flow out of the first material receiving frame 42 any more.

Example 2

On the basis of embodiment 1, as shown in fig. 1 and 4, the material receiving device further includes a clamping mechanism 6, the clamping mechanism 6 includes a fourth supporting frame 61, a baffle plate 62 and a second spring 63, the fourth supporting frame 61 is connected to the left side of the top of the first material receiving frame 42, the baffle plate 62 is slidably connected to the lower portion of the left side of the fourth supporting frame 61, and the second spring 63 is connected between the front and rear sides of the top of the baffle plate 62 and the bottom of the fourth supporting frame 61.

When people need to open the first material receiving frame 42 all the time, the person manually grasps the striker plate 53 to move leftwards and contact with the arc-shaped plane at the left part of the baffle plate 62, the first spring 52 is stretched, the baffle plate 62 moves upwards and compresses the second spring 63, the striker plate 53 continues to move leftwards and passes through the baffle plate 62, the compressed second spring 63 resets to drive the baffle plate 62 to reset downwards, then the striker plate 53 is manually loosened, the right-angle plane on the right side of the striker plate 53 is contacted with the reset baffle plate 62, so that the baffle plate 62 clamps the striker plate 53, thereby achieving the effect of opening the first material receiving frame 42 all the time, better discharging the plant nutrient solution, when people need to close the first material receiving frame 42, the baffle 62 is manually grabbed to move upwards, the baffle 62 moves upwards to eliminate the limit of the material baffle 53, the stretched first spring 52 resets to drive the material baffle 53 to reset, and the material baffle 53 resets to close the first material receiving frame 42.

Example 3

On the basis of embodiment 2, as shown in fig. 1, 5 and 6, the water pumping device 7 further includes a water pumping mechanism 7, the water pumping mechanism 7 includes a fifth support frame 71, a sixth support frame 72, a first rotating shaft 73, a second rotating shaft 74, a first bevel gear 75, a second bevel gear 76, a seventh support frame 77, a third rotating shaft 78, a first missing gear 79, a first straight gear 710, a fourth rotating shaft 711, a second straight gear 712, a first belt 713, a second sliding rail 714, a movable rod 715, a third spring 716, a third straight gear 717, a first wedge block 718, a second wedge block 719, a fifth rotating shaft 720, a fourth straight gear 721, a cam 722, a water pipe 723, a water pump 724, a water tank 725 and a torsion spring 726, the front side of the upper portion of the third support frame 43 is connected to the fifth support frame 71, the front side of the middle portion of the third support frame 43 is connected to the sixth support frame 72, the middle portion of the right side of the fifth support frame 71 is rotatably connected to the first rotating shaft 73, a second rotating shaft 74 is rotatably connected to the left part of the front side of the sixth supporting frame 72, first bevel gears 75 are respectively connected to the middle part of the left side of the stirring rod 45 and the middle part of the rear side of the first rotating shaft 73, the two first bevel gears 75 are mutually matched, second bevel gears 76 are respectively connected to the middle part of the front side of the first rotating shaft 73 and the upper part of the second rotating shaft 74, the two second bevel gears 76 are mutually matched, a seventh supporting frame 77 is connected to the front side of the lower part of the left side of the first material receiving frame 42, a third rotating shaft 78 is rotatably connected to the right side of the middle part of the seventh supporting frame 77, a first missing gear 79 is connected to the lower side of the middle part of the third rotating shaft 78, a first straight gear 710 is connected to the bottom of the third rotating shaft 78, a fourth rotating shaft 711 is rotatably connected to the right part of the front side of the sixth supporting frame 72, a second straight gear 712 is connected to the lower part of the fourth rotating shaft 711, a first belt 713 is wound between the lower part of the second rotating shaft 74 and the lower part of the middle part of the fourth rotating shaft 711 by a driving wheel, a second slide rail 714 is connected with the middle part of the front side of the first support frame 1, a movable rod 715 is connected with the middle part of the second slide rail 714 in a sliding way, a third spring 716 is connected between the rear side of the movable rod 715 and the first support frame 1, a third straight gear 717 is connected with the upper part of the movable rod 715 in a rotating way, the third straight gear 717 is matched with the second straight gear 712, a first wedge-shaped block 718 is connected with the upper part of the third straight gear 717, a second wedge-shaped block 719 is connected with the middle part of the front side of the striker plate 53, the second wedge-shaped block 719 is matched with the first wedge-shaped block 718, a fifth rotating shaft 720 is connected with the front side of the right part of the seventh support frame 77 in a rotating way, a fourth straight gear 721 is connected with the lower part of the fifth rotating shaft 720, the fourth straight gear 721 is matched with the first lacking gear 79, a cam 722 is connected with the upper part of the fifth rotating shaft 720, a water tank 725 is connected between the right side of the middle part of the first support frame 1, a water pipe 723 is connected between the front side of the lower part of the water tank 725 and the left side of the upper part of the first receiving frame 42, a water pump 724 is connected to the middle of the water pipe 723, a switch of the water pump 724 is matched with the cam 722, and a torsion spring 726 is connected between the fifth rotating shaft 720 and the upper part of the seventh supporting frame 77.

When the stirring rod 45 rotates, the stirring rod 45 rotates to drive the first bevel gear 75 to rotate, the first bevel gear 75 rotates to drive the second rotating shaft 74 to rotate, the second rotating shaft 74 rotates to drive the first belt 713 to rotate, the first belt 713 rotates to drive the fourth rotating shaft 711 to rotate, the fourth rotating shaft 711 rotates to drive the second spur gear 712 to rotate, the second spur gear 712 rotates to drive the third spur gear 717 to rotate, the third spur gear 717 rotates to drive the first spur gear 710 to rotate, the first spur gear 710 rotates to drive the third rotating shaft 78 to rotate, the third rotating shaft 78 rotates to drive the first missing gear 79 to rotate, the first missing gear 79 rotates to drive the fourth spur gear 721 to rotate in a clearance mode, the fourth spur gear 721 rotates in a clearance mode to drive the fifth rotating shaft 720 to rotate in a clearance mode, the fifth rotating shaft 720 rotates in a clearance mode to drive the cam 722 to rotate in a clearance mode, when the cam 722 rotates, the cam 722 rotates to contact with a water pump 724 switch and compresses a torsion spring 726, the water pump 724 pumps water in the water tank 725 and flows out through the water pipe 723, then the water pipe 723 flows into the first material receiving frame 42 through a discharging port of the first material receiving frame 42, when the cam 722 stops rotating, the torsion spring 726 resets to drive the cam 722 to reset, the cam 722 resets to be out of contact with a switch of the water pump 724, so that water pumping is stopped, when the material blocking plate 53 moves leftwards, the material blocking plate 53 moves leftwards to drive the second wedge-shaped block 719 to move leftwards, the second wedge-shaped block 719 moves leftwards to cancel limiting of the first wedge-shaped block 718, the force of the reset of the third spring 716 compressed in the initial state drives the movable rod 715 to move forwards, the movable rod 715 moves forwards to drive the third spur gear 717 to move forwards so as to be out of engagement with the second spur gear 712, the cam 722 does not rotate any more, and the effect of stopping water pumping is achieved.

Example 4

On the basis of embodiment 3, as shown in fig. 1, 7, 8, 9 and 10, the fertilizer quantitative discharging device 8 is further included, the fertilizer quantitative discharging device 8 includes a first support column 81, a second material receiving frame 82, an eighth support frame 83, a sixth rotating shaft 84, a second support column 85, a seventh rotating shaft 86, a second belt 87, a third bevel gear 88, a second missing gear 89, a first material-shifting plate 810 and a fifth spur gear 811, the first support column 81 is connected to the right front side of the first material receiving frame 42, the second material receiving frame 82 is connected to the left upper portion of the first support column 81, the eighth support frame 83 is connected to the middle of the upper portion of the second support frame 41, the sixth rotating shaft 84 is connected to the front side of the upper portion of the eighth support frame 83 in a rotating manner, the second support column 85 is connected to the right top of the fourth support frame 61, the seventh rotating shaft 86 is connected to the middle front side of the second support column 85 in a rotating manner, the second belt 87 is wound between the upper portion of the third rotating shaft 78 and the lower portion of the seventh rotating shaft 86 through a belt pulley, the upper portion of the seventh rotating shaft 86 and the left side of the middle portion of the sixth rotating shaft 84 are both connected with third bevel gears 88, the two third bevel gears 88 are matched with each other, the right side of the middle portion of the sixth rotating shaft 84 is connected with a second missing gear 89, the middle portion of the second material receiving frame 82 is rotatably connected with a first material shifting plate 810, the left side of the first material shifting plate 810 is connected with a fifth straight gear 811, and the fifth straight gear 811 is matched with the second missing gear 89.

When people need to quantitatively feed fertilizer, the fertilizer is manually poured into the second material receiving frame 82, the third rotating shaft 78 can drive the second belt 87 to rotate when rotating, the second belt 87 rotates to drive the seventh rotating shaft 86 to rotate, the seventh rotating shaft 86 rotates to drive the third bevel gear 88 to rotate, the third bevel gear 88 rotates to drive the sixth rotating shaft 84 to rotate, the sixth rotating shaft 84 rotates to drive the second missing gear 89 to rotate for one circle to drive the fifth straight gear 811 to rotate for one third, the fifth straight gear 811 rotates for one third to drive the first material shifting plate 810 to rotate for one third, and the first material shifting plate 810 rotates for one third to achieve the effect of intermittent equivalent fertilizer feeding.

The quantitative lower dissolving agent mechanism 9 is further included, the quantitative lower dissolving agent mechanism 9 comprises a third supporting column 91, a third material receiving frame 92, an eighth rotating shaft 93, a third belt 94, a third lack gear 95, a sixth straight gear 96 and a second material shifting plate 97, the rear side of the right part of the first material receiving frame 42 is connected with the third supporting column 91, the left side of the upper part of the third supporting column 91 is connected with the third material receiving frame 92, the rear side of the upper part of the eighth supporting frame 83 is connected with the eighth rotating shaft 93 in a rotating mode, the third belt 94 is wound between the left side of the eighth rotating shaft 93 and the middle part of the sixth rotating shaft 84 through a belt pulley, the right side of the middle part of the eighth rotating shaft 93 is connected with the third lack gear 95, the middle part of the third material receiving frame 92 is connected with the second material shifting plate 97 in a rotating mode, the middle part of the left side of the second material shifting plate 97 is connected with the sixth straight gear 96, and the sixth straight gear 96 is matched with the third lack gear 95.

When people need to quantitatively pour the dissolving agent, the dissolving agent is manually poured into the third material receiving frame 92, when the sixth rotating shaft 84 rotates, the third belt 94 is driven to rotate, the third belt 94 rotates to drive the eighth rotating shaft 93 to rotate, the eighth rotating shaft 93 rotates to drive the third missing gear 95 to rotate, the third missing gear 95 rotates for one circle to drive the sixth spur gear 96 to rotate for one sixth, the sixth spur gear 96 rotates for one sixth to drive the second material shifting plate 97 to rotate for one sixth, and the second material shifting plate 97 rotates for one sixth, so that the effect of intermittently and equivalently pouring the dissolving agent is achieved.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The utility model provides an agricultural is with plant nutrient solution flash mixed production facility which characterized in that includes:

the first support frame (1) is rotatably connected with a roller (2);

a handle (3) connected to the first support frame (1);

the stirring mechanism (4) is connected to the first support frame (1), and the stirring mechanism (4) is used for accelerating mixing;

and the material blocking mechanism (5) is connected to the stirring mechanism (4), and the material blocking mechanism (5) is used for closing the stirring mechanism (4).

2. The agricultural plant nutrient solution rapid mixing production equipment according to claim 1, wherein the stirring mechanism (4) comprises:

a second support frame (41) connected to the first support frame (1);

a first material receiving frame (42) connected to the second support frame (41);

a third support frame (43) connected to the first support frame (1);

a motor (44) mounted on the third support frame (43);

and the stirring rod (45) is connected to an output shaft of the motor (44), and the stirring rod (45) is used for stirring the plant nutrient solution.

3. The agricultural plant nutrient solution rapid mixing production equipment according to claim 2, wherein the material blocking mechanism (5) comprises:

a first slide rail (51) connected to the first material receiving frame (42);

the material blocking plate (53) is connected to the first sliding rail (51) in a sliding mode, and the material blocking plate (53) is used for blocking the first material receiving frame (42);

and a first spring (52) connected between the striker plate (53) and the first slide rail (51).

4. The agricultural plant nutrient solution rapid mixing production equipment according to claim 3, further comprising a clamping mechanism (6), wherein the clamping mechanism (6) comprises:

a fourth support frame (61) connected to the first material receiving frame (42);

the baffle plate (62) is connected to the fourth supporting frame (61) in a sliding mode, and the baffle plate (62) is used for clamping the material baffle plate (53);

and a second spring (63) connected between the stopper (62) and the fourth support frame (61).

5. The agricultural plant nutrient solution rapid mixing production equipment according to claim 3, further comprising a water pumping mechanism (7), wherein the water pumping mechanism (7) comprises:

a fifth support frame (71) connected to the third support frame (43);

a sixth support frame (72) connected to the third support frame (43);

a first rotating shaft (73) which is rotatably connected to the fifth supporting frame (71);

a second rotating shaft (74) rotatably connected to the sixth supporting frame (72);

the first bevel gears (75) are connected to the stirring rod (45) and the first rotating shaft (73), and the two first bevel gears (75) are matched with each other;

the second bevel gears (76) are connected to the first rotating shaft (73) and the second rotating shaft (74), and the two second bevel gears (76) are matched with each other;

a seventh support frame (77) connected to the first material receiving frame (42);

a third rotating shaft (78) rotatably connected to the seventh supporting frame (77);

a first missing gear (79) connected to the third rotating shaft (78);

a first straight gear (710) connected to the third rotating shaft (78);

a fourth rotating shaft (711) rotatably connected to the sixth supporting frame (72);

a second spur gear (712) connected to the fourth rotation shaft (711);

a first belt (713) fitted between the second rotation shaft (74) and the fourth rotation shaft (711);

a second slide rail (714) connected to the first support frame (1);

a movable rod (715) slidably connected to the second slide rail (714);

a third spring 716 connected between the movable rod 715 and the first support frame 1;

a third spur gear (717) rotatably coupled to the movable rod (715), the third spur gear (717) cooperating with the second spur gear (712);

a first wedge block (718) connected to the third spur gear (717);

the second wedge block (719) is connected to the material baffle plate (53), and the second wedge block (719) is matched with the first wedge block (718);

a fifth rotating shaft (720) rotatably connected to the seventh supporting frame (77);

the fourth straight gear (721) is connected to the fifth rotating shaft (720), and the fourth straight gear (721) is matched with the first missing gear (79);

a cam (722) connected to the fifth rotating shaft (720);

a water tank (725) connected to the first support frame (1);

a water pipe (723) connected between the water tank (725) and the first material receiving frame (42);

the water pump (724) is connected to the water pipe (723), and a switch of the water pump (724) is matched with the cam (722);

and a torsion spring (726) connected between the fifth rotating shaft (720) and the seventh supporting frame (77).

6. The agricultural plant nutrient solution rapid mixing production equipment according to claim 5, further comprising a quantitative fertilizer discharging mechanism (8), wherein the quantitative fertilizer discharging mechanism (8) comprises:

a first support column (81) connected to the first material receiving frame (42);

a second receiving frame (82) connected to the first support column (81), the second receiving frame (82) being used for storing fertilizer;

an eighth support frame (83) connected to the second support frame (41);

a sixth rotating shaft (84) rotatably connected to the eighth supporting frame (83);

a second support column (85) connected to the fourth support frame (61);

a seventh rotating shaft (86) which is rotatably connected with the second supporting column (85);

a second belt (87) which is sleeved between the third rotating shaft (78) and the seventh rotating shaft (86);

the third bevel gears (88) are connected to the seventh rotating shaft (86) and the sixth rotating shaft (84), and the two third bevel gears (88) are matched with each other;

a second missing gear (89) connected to the sixth rotating shaft (84);

a first material shifting plate (810) which is rotatably connected to the second material receiving frame (82);

and the fifth spur gear (811) is connected to the first material shifting plate (810), and the fifth spur gear (811) is matched with the second missing gear (89).

7. The agricultural plant nutrient solution rapid mixing production equipment according to claim 6, further comprising a quantitative lower dissolving agent mechanism (9), wherein the quantitative lower dissolving agent mechanism (9) comprises:

a third support column (91) connected to the first material receiving frame (42);

a third material receiving frame (92) connected to the third support column (91), the third material receiving frame (92) storing a dissolving agent;

an eighth rotating shaft (93) rotatably connected to the eighth supporting frame (83);

a third belt (94) which is sleeved between the eighth rotating shaft (93) and the sixth rotating shaft (84);

a third missing gear (95) connected to the eighth rotating shaft (93);

a second material shifting plate (97) which is rotatably connected to the third material receiving frame (92);

and the sixth spur gear (96) is connected to the second material shifting plate (97), and the sixth spur gear (96) is matched with the third missing gear (95).

8. The agricultural plant nutrient solution rapid mixing production device as claimed in claim 2, wherein a plurality of feeding ports are formed at the upper part of the first feeding frame (42).

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