CN107398382B - Method for assembling secondary pressurized spraying device of self-walking air-assisted sprayer - Google Patents

Abstract

The assembly method of the secondary pressurized sprinkler of the self-traveling air-assisted sprayer comprises the steps that a motor transmission shaft is provided with a motor transmission wheel, the middle part of a central shaft is provided with a motor driven wheel, the middle part of a water pump transmission shaft is provided with a water pump driven wheel, the rear end of the central shaft is provided with a water pump transmission wheel, the front end of the central shaft is fixed in a central hole of a fan, the front end of a fan cover is provided with an annular support plate, two wind direction positioning device plates are arranged between the annular support plate and the top end of a circular outer baffle plate, a branch pipe is arranged above the annular support plate and the circular outer baffle plate, the middle part of the branch pipe is provided with water valves, a guide plate is arranged between two adjacent water valves, the fan is fixed at the rear end in the fan cover, and a water tank is arranged on one side of the water pump; the invention solves the problems of small spraying range, short spraying distance, improved working efficiency, cost saving, time saving, labor saving and labor saving of the existing pressurized spraying device of the air-assisted sprayer, and has the advantages of simple structure, ingenious design, low production cost, convenient operation and safe use.

Description

Method for assembling secondary pressurized spraying device of self-walking air-assisted sprayer

Technical Field

The invention relates to the field of air-assisted sprayers, in particular to an assembly method of a secondary pressurized spraying device of a self-propelled air-assisted sprayer.

Background

At present, current air-assisted sprayer, because pressure is insufficient in the use, the scope that leads to spraying is little, and the spraying distance is short, has still wasted a lot of water simultaneously, sprays the during operation in places such as some big orchards in area, nursery, need long time just can spray once, has wasted a large amount of time, manpower, material resources. Therefore, how to increase the pressure of the pressurizing device of the air-assisted sprayer and to expand the spraying range and distance have long been difficult to solve.

For the above reasons, a method of assembling a secondary pressurized spray device from a traveling air-fed sprayer has been developed.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides an assembling method of a secondary pressurizing spraying device of a self-moving air-assisted sprayer, wherein a water pump is used for pressurizing a nozzle of a water valve for the first time, an inner wind direction plate is used for guiding wind power generated by a fan, so that the wind power is directly blown to the nozzle of the water valve, the secondary pressurizing is realized, the problem that the existing pressurizing spraying device of the air-assisted sprayer is small in spraying range and short in spraying distance is solved, and the working efficiency is improved.

In order to achieve the above purpose, the invention adopts the following technical scheme: the assembly method of the secondary pressurized spraying device of the self-traveling air-assisted sprayer comprises the following steps: the device comprises a motor, a motor transmission shaft, a motor driving wheel, a motor driven wheel, a central shaft, a transmission belt, a water pump driving wheel, a water pump driven wheel, a water pump transmission shaft, a water tank, a fan cover, a branch pipe, a water valve, an inner pillar, an inner wind direction plate, a circular outer baffle, an annular support plate, a water supply pipe, a return pipe, a connecting pipe, a guide plate and a wind direction positioning device plate; the fan cover is of a cylindrical structure, a fan is arranged at the inner rear end of the fan cover, an annular support plate is arranged at the periphery of the front end of the fan cover, two wind direction positioning device plates are arranged between the annular support plate and the top end of a circular outer baffle plate through fasteners, a central shaft of each fastener penetrates through the lower ends of the two wind direction positioning device plates, the two wind direction positioning device plates rotate by taking the central shaft of each fastener as a center, semicircular uniformly-distributed branch pipes are arranged above the annular support plate and the circular outer baffle plate, water valves are arranged on the branch pipes, nozzles are arranged in the middle of the upper parts of the water valves, connecting pipes are arranged between the adjacent two water valves, water valves on the two wind direction positioning device plates are respectively provided with a water valve, connecting pipes are arranged between the water valves on the two wind direction positioning device plates and the adjacent water valves, guide plates are arranged between the adjacent two water valves, inner struts are uniformly distributed between the circular outer baffle plates and the peripheral edges of the inner wind direction plates, and the center of the inner wind direction plates are of a convex structure towards the center of the fan; the front end of the central shaft is arranged in a central hole of the fan, the middle part of the central shaft is provided with a motor driven wheel, the rear end of the central shaft is provided with a water pump driving wheel, a motor driving shaft of the motor is parallel to the central shaft, the front end of the motor driving wheel is provided with a driving belt between the motor driving wheel and the periphery of the motor driven wheel, the water pump driving shaft of the water pump is parallel to the central shaft, the front end of the water pump driving shaft is provided with a water pump driven wheel, the periphery of the water pump driving wheel and the periphery of the water pump driven wheel are provided with the driving belt, the other side of the water pump is provided with a water tank, a water supply pipe is arranged between a water outlet of the water tank and a water inlet of the water pump, a water supply pipe is arranged between a water outlet of the water pump and one end of a semicircular distributed water valve, and a backflow pipe is arranged between the semicircular distributed water valve and the backflow port of the water tank;

the assembly method of the secondary pressurizing spraying device of the self-traveling air-conveying sprayer comprises the steps that a motor driving wheel is arranged at the front end of a motor driving shaft of a motor, a motor driven wheel is arranged in the middle of a central shaft, a driving belt is arranged between the motor driving wheel and the periphery of the motor driven wheel, a water pump driven wheel is arranged at the front end of a water pump driving shaft of a water pump, a water pump driving wheel is arranged at the rear end of the central shaft, a driving belt is arranged between the water pump driving wheel and the periphery of the water pump driven wheel, the water pump is driven to operate, the front end of the central shaft is fixed in a central hole of a fan, an annular support plate is arranged at the periphery of the front end of a fan cover, two wind direction positioning device plates are arranged between the annular support plate and the top end of a circular outer baffle plate through fasteners, the central shaft of each fastener penetrates through the lower ends of the two wind direction positioning device plates, and the two wind direction positioning device plates rotate by taking the central shaft of each fastener as the center, a branch pipe which is semi-circular and uniformly distributed is arranged above the annular support plate and the circular outer baffle plate, a water valve is arranged in the middle of the branch pipe, a nozzle is positioned in the middle of the upper part of the water valve, a connecting pipe is arranged between two adjacent water valves, water valves are arranged in the middle of two wind direction positioning device plates, a connecting pipe is arranged between the water valves on the two wind direction positioning device plates and the adjacent water valves, a guide plate is arranged between the adjacent two water valves, the cross section of the guide plate is L-shaped, the center of the vertical short surface of the guide plate is arranged on the circular outer baffle plate through a locking component, the guide plate rotates by taking the locking component as the center, an inner support column which is circular and uniformly distributed is arranged between the circular outer baffle plate and the outer peripheral edge of the inner wind direction plate, the edge of the horn-shaped inner wind direction plate and the nozzle of the semi-circular water valve are arranged on the same plane, the fan is fixed at the rear end in the fan housing, the water tank is placed on one side of the water pump, the water supply pipe is arranged between the water tank water outlet and the water pump water inlet, the water supply pipe is arranged between the water pump water outlet and one end of the semicircular distributed water valve, and the return pipe is arranged between the semicircular distributed water valve and the return port of the water tank.

The diameter of the inner wind direction plate is smaller than the inner diameter of the annular support plate.

The length of the wind direction positioning device plate is smaller than or equal to the radius of the circular outer baffle plate.

The working principle is that the kinetic energy generated by the motor drives a motor driving wheel to rotate by a motor transmission shaft, and the motor driving wheel drives a motor driven wheel arranged in the middle of a central shaft to rotate by a transmission belt, so that the central shaft rotates to complete the transmission process; the water pump driving wheel arranged at the rear end of the central shaft and the fan arranged at the front end of the central shaft synchronously rotate along with the central shaft, the water pump driving wheel drives the water pump driven wheel arranged on the water pump driving shaft to rotate through a driving belt, the water pump driven wheel drives the water pump driving shaft to rotate, the water pump driving shaft drives the water pump to operate, water in the water tank enters the water pump through the water supply pipe, the water pump pumps the water into the water valves distributed in a semicircular mode, the water sprayed out by the nozzles of the water valves distributed in the semicircular mode is fan-shaped, water supply of the water valves by the water pump is completed, wind power generated by the fan is blown to the nozzles of the water valves through the trumpet-shaped inner wind direction plates, and secondary pressurization is completed, so that the sprayed water range is larger and the distance is farther; the locking assembly at the center of the vertical short surface of the guide plate is loosened, the guide plate rotates by taking the locking assembly as the center, the angle of the air guide plate is adjusted, the locking assembly is screwed down again, the purpose of adjusting the guide plate to change the wind direction is achieved, the fastening piece on the wind direction positioning device plate is loosened, the wind direction positioning device plate rotates by taking the central shaft of the fastening piece as the center, the angle of the wind direction positioning device plate is adjusted, and the fastening piece is screwed down again, so that the purpose of adjusting the wind direction positioning device plate to change the spraying angle is achieved.

The invention has the beneficial effects that: the invention solves the problems of small spraying range, short spraying distance, improved working efficiency, saved cost, time and labor, simple structure, ingenious design, low production cost, convenient operation, good use effect, safe use, firmness and durability, difficult damage after long-term use, time and labor saving, and good consistency and appreciation of wide users, and is suitable for general popularization and application.

Drawings

The invention is further described below with reference to the accompanying drawings:

FIG. 1 is a schematic diagram of a general assembly structure;

FIG. 2 is a schematic view of the cross-sectional structure of the A-A direction in FIG. 1;

in fig. 1 and 2: the motor 1, the motor transmission shaft 2, the motor transmission wheel 3, the motor driven wheel 4, the central shaft 5, the transmission belt 6, the water pump transmission wheel 7, the water pump driven wheel 8, the water pump 9, the water pump transmission shaft 10, the water tank 11, the fan 12, the fan cover 13, the branch pipe 14, the water valve 15, the inner support column 16, the inner wind direction plate 17, the round outer baffle 18, the annular support plate 19, the water supply pipe 20, the return pipe 21, the connecting pipe 22, the guide plate 23 and the wind direction positioning device plate 24.

Detailed Description

The invention is further described in detail below with reference to examples and embodiments:

example 1

The fan cover 13 is of a cylindrical structure, the fan 12 is arranged at the inner rear end of the fan cover 13, the annular support plate 19 is arranged at the periphery of the front end of the fan cover 13, the two wind direction positioning device plates 24 are arranged between the annular support plate 19 and the top ends of the circular outer baffle plates 18 through fasteners, the central shaft of the fasteners passes through the lower ends of the two wind direction positioning device plates 24, the two wind direction positioning device plates 24 rotate by taking the central shaft of the fasteners as the center, the upper part between the annular support plate 19 and the circular outer baffle plates 18 is provided with semicircular uniformly distributed branch pipes 14, the branch pipes 14 are provided with water valves 15, the middle part above the water valves 15 is provided with nozzles, the connecting pipes 22 are arranged between the two adjacent water valves 15, the middle parts of the two wind direction positioning device plates 24 are respectively provided with water valves 15, the connecting pipes 22 are arranged between the water valves 15 on the two wind direction positioning device plates 24 and the adjacent water valves 15, the guide plates 23 are arranged between the two adjacent water valves 15, the circular outer baffle plates 18 and the peripheral edges of the inner wind direction plates 17 are uniformly distributed with inner struts 16, and the center of the inner wind direction plates 17 is in a convex structure towards the center of the fan 12; the front end of a central shaft 5 is arranged in a central hole of a fan 12, a motor driven wheel 4 is arranged in the middle of the central shaft 5, a water pump driving wheel 7 is arranged at the rear end of the central shaft 5, a motor driving shaft 2 of a motor 1 is parallel to the central shaft 5, a motor driving wheel 3 is arranged at the front end of the motor driving shaft 2, a driving belt 6 is arranged between the motor driving wheel 3 and the periphery of the motor driven wheel 4, a water pump driving shaft 10 of a water pump 9 is parallel to the central shaft 5, a water pump driven wheel 8 is arranged at the front end of the water pump driving shaft 10, a driving belt 6 is arranged between the water pump driving wheel 7 and the periphery of the water pump driven wheel 8, a water tank 11 is arranged at the other side of the water pump 9, a water supply pipe 20 is arranged between a water outlet of the water tank 11 and a water inlet of the water pump 9, a water supply pipe 20 is arranged between the water pump 15 and one end of a semicircular water valve 15, and a backflow pipe 21 is arranged between the semicircular water valve 15 and a backflow port of the water tank 11;

the assembly method of the secondary pressurizing spraying device of the self-traveling air-assisted sprayer comprises the steps that a motor driving wheel 3 is arranged at the front end of a motor driving shaft 2 of a motor 1, a motor driven wheel 4 is arranged in the middle of a central shaft 5 and corresponds to the motor driving wheel 3, a driving belt 6 is arranged between the motor driving wheel 3 and the periphery of the motor driven wheel 4, a water pump driven wheel 8 is arranged at the front end of a water pump driving shaft 10 of a water pump 9, a water pump driven wheel 7 is arranged at the rear end of the central shaft 5 and corresponds to the water pump driven wheel 8, a driving belt 6 is arranged between the water pump driving wheel 7 and the periphery of the water pump driven wheel 8 to drive the water pump to operate, the front end of the central shaft 5 is fixed in a central hole of a fan 12, an annular support plate 19 is arranged at the periphery of the front end of a fan cover 13, two wind direction positioning device plates 24 are arranged between the annular support plate 19 and the top ends of a circular outer baffle plate 18 through fastening pieces, the central shaft of the fastening pieces passes through the lower ends of the two wind direction positioning device plates 24, the two wind direction positioning device plates 24 rotate by taking the central shaft of the fastening piece as the center, branch pipes 14 which are distributed uniformly in a semicircular shape are arranged above the annular support plate 19 and the circular outer baffle plate 18, water valves 15 are arranged in the middle of the branch pipes 14, nozzles are arranged in the middle of the upper part of the water valves 15, connecting pipes 22 are arranged between the adjacent two water valves 15, the water valves 15 are arranged in the middle of the two wind direction positioning device plates 24, the connecting pipes 22 are arranged between the water valves 15 on the two wind direction positioning device plates 24 and the adjacent water valves 15, guide plates 23 are arranged between the adjacent two water valves 15, the cross section of each guide plate 23 is L-shaped, the centers of the vertical short faces of the guide plates 23 are arranged on the circular outer baffle plate 18 through locking components, the guide plates 23 rotate by taking the locking components as the centers, an inner strut 16 which is circularly and uniformly distributed is arranged between the circular outer baffle 18 and the peripheral edge of the inner wind direction plate 17, the edge of the horn-shaped inner wind direction plate 17 and the nozzle of the semicircular water valve 15 are arranged on the same plane, the fan 12 is fixed at the rear end in the fan cover 13, the water tank 11 is arranged on one side of the water pump 9, the water supply pipe 20 is arranged between the water outlet of the water tank 11 and the water inlet of the water pump 9, the water supply pipe 20 is arranged between the water outlet of the water pump 9 and one end of the semicircular water valve 15, and the return pipe 21 is arranged between the semicircular water valve 15 and the return opening of the water tank 11.

Example 2

The diameter of the inner wind deflector 17 is smaller than the inner diameter of the annular support plate 19.

Example 6

The length of the wind direction positioning device plate 24 is less than or equal to the radius of the circular outer baffle 18.

Claims (3)

1. The assembly method of the secondary pressurized spraying device of the self-traveling air-assisted sprayer comprises the following steps: the device comprises a motor (1), a motor transmission shaft (2), a motor transmission wheel (3), a motor driven wheel (4), a central shaft (5), a transmission belt (6), a water pump transmission wheel (7), a water pump driven wheel (8), a water pump (9), a water pump transmission shaft (10), a water tank (11), a fan (12), a fan cover (13), a branch pipe (14), a water valve (15), an inner support (16), an inner wind direction plate (17), a circular outer baffle (18), an annular support plate (19), a water supply pipe (20), a return pipe (21), a connecting pipe (22), a guide plate (23) and a wind direction positioning device plate (24); the method is characterized in that: the fan housing (13) is of a cylindrical structure, the rear end in the fan housing (13) is provided with a fan (12), the periphery of the front end of the fan housing (13) is provided with an annular support plate (19), two wind direction positioning device plates (24) are arranged between the annular support plate (19) and the top end of a circular outer baffle plate (18) through fasteners, the central shaft of each fastener penetrates through the lower ends of the two wind direction positioning device plates (24), the two wind direction positioning device plates (24) rotate by taking the central shaft of each fastener as the center, the upper part between the annular support plate (19) and the circular outer baffle plate (18) is provided with a semicircular uniform distribution branch pipe (14), the branch pipe (14) is provided with a water valve (15), the middle part above the water valve (15) is provided with a nozzle, a connecting pipe (22) is arranged between two adjacent water valve (15), the middle parts of the two wind direction positioning device plates (24) are provided with water valve (15), a connecting pipe (22) is arranged between the water valve (15) on the two wind direction positioning device plates (24), the water valve (15) on the two wind direction positioning device plates (24) and the adjacent water valve (15) are arranged between the adjacent water valve (15), the water valve (15) and the circular outer periphery of the water valve (17) is uniformly distributed between the water valve (17), the center of the inner wind direction plate (17) is in a convex structure towards the center of the fan (12); the front end of a central shaft (5) is arranged in a central hole of a fan (12), a motor driven wheel (4) is arranged in the middle of the central shaft (5), a water pump driving wheel (7) is arranged at the rear end of the central shaft (5), a motor driving shaft (2) of a motor (1) is parallel to the central shaft (5), a motor driving wheel (3) is arranged at the front end of the motor driving shaft (2), a driving belt (6) is arranged between the motor driving wheel (3) and the periphery of the motor driven wheel (4), a water pump driving shaft (10) of a water pump (9) is parallel to the central shaft (5), a water pump driven wheel (8) is arranged at the front end of the water pump driving shaft (10), a driving belt (6) is arranged between the water pump driving wheel (7) and the periphery of the water pump driven wheel (8), a water tank (11) is arranged at the other side of the water pump (9), a water supply pipe (20) is arranged between a water outlet of the water tank (11) and a water inlet of the water pump (9), a water supply pipe (20) is arranged between the water outlet of the water pump (9) and one end of a semicircular distributed water valve (15), and a water backflow port of the water tank (11) is provided with a water supply pipe (21);

the assembly method of the secondary pressurizing spraying device of the self-moving air-conveying type sprayer comprises the steps that a motor driving wheel (3) is arranged at the front end of a motor driving shaft (2) of a motor (1), a motor driven wheel (4) is arranged in the middle of a central shaft (5) corresponding to the motor driving wheel (3), a driving belt (6) is arranged between the motor driving wheel (3) and the periphery of the motor driven wheel (4), a water pump driven wheel (8) is arranged at the front end of a water pump driving shaft (10) of a water pump (9), a water pump driving wheel (7) is arranged at the rear end of the central shaft (5) corresponding to the water pump driven wheel (8), a driving belt (6) is arranged between the water pump driving wheel (7) and the periphery of the water pump driven wheel (8), a water pump is driven, an annular support plate (19) is arranged at the periphery of the front end of the central shaft (5), two wind direction positioning device plates (24) are arranged between the annular support plate (19) and the top end of a circular support plate (18) through fasteners, the central shaft of the fasteners penetrates through the lower ends of the two wind direction positioning device plates (24), the two wind direction positioning device plates (24) rotate with the central shaft of the fasteners as the center, the central shaft of the fasteners is arranged between the annular support plate (19) and the circular support plate (14) is uniformly distributed in the middle part (14) and is arranged in the middle part of a water valve (14), the nozzle is positioned at the middle part above the water valve (15), a connecting pipe (22) is arranged between two adjacent water valves (15), the water valve (15) is arranged at the middle part of two wind direction positioning device plates (24), the connecting pipe (22) is arranged between the water valves (15) on the two wind direction positioning device plates (24), the connecting pipe (22) is arranged between the water valve (15) on the two wind direction positioning device plates (24) and the adjacent water valve (15), a guide plate (23) is arranged between the two adjacent water valves (15), the cross section of the guide plate (23) is L-shaped, the center of the vertical short surface of the guide plate (23) is arranged on a circular outer baffle plate (18) through a locking component, the guide plate (23) rotates by taking the locking component as the center, an inner strut (16) which is circularly and uniformly distributed is arranged between the circular outer baffle plate (18) and the outer peripheral edge of the inner wind direction plate (17), the edge of the horn-shaped inner wind direction plate (17) and the nozzle of the semicircular water valve (15) are arranged on the same plane, the fan (12) is fixed at the rear end in the fan housing (13), one side of the water pump (9) is placed on one side of the water tank (11), the water pump (9) is arranged between the water inlet (11) and one end of the water pump (20), a return pipe (21) is arranged between the water valve (15) distributed in a semicircular shape and the return port of the water tank (11).

2. The method of assembling a secondary pressurized spray device of a self-propelled sprayer of claim 1, wherein: the diameter of the inner wind direction plate (17) is smaller than the inner diameter of the annular support plate (19).

3. The method of assembling a secondary pressurized spray device of a self-propelled sprayer of claim 1, wherein: the length of the wind direction positioning device plate (24) is less than or equal to the radius of the circular outer baffle plate (18).

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