CN219566804U - 180-degree swing material throwing machine - Google Patents

Abstract

The utility model relates to the technical field of material throwing equipment, in particular to a 180-degree swinging material throwing machine, which comprises a frame structure, a power output structure, a conveying pipeline structure, a 180-degree swinging mechanism and a control structure, wherein the frame structure is provided with a plurality of swinging arms; the 180-degree swinging mechanism is connected with the conveying pipeline structure and is used for driving the conveying pipeline structure to swing. The utility model can swing 180 degrees, and lighten the workload of workers, thereby reducing the labor cost.

Description

180-degree swing material throwing machine

Technical Field

The utility model relates to the technical field of material throwing equipment, in particular to a 180-degree swinging material throwing machine.

Background

In the process of pond aquiculture, feeding feed for fishes is needed; can quickly increase the weight of fish, and can reach the commercial standard early. The swinging type throwing machine existing in the market at present aims to solve the problem of pain caused by traditional manual feeding. Through the high-power fan in rear end, blow the fodder to the pond through pipeline through certain look-up angle, and in this process, the pipeline is through the link mechanism side-to-side of specific design, and the fodder is after the air skimming, presents the fan-shaped distribution of wide-angle at the landing point of pond, and the fish eats in this fan-shaped region. However, the swinging angle of the swinging throwing machine is between 150 and 160 degrees, and the blanking area of the pond is fan-shaped, so that fishes gather in the fan-shaped blanking area during throwing, and in the actual throwing process, the fishes wait for feeding in the areas 160 to 180 degrees on two sides outside the angle of the fan-shaped area. Therefore, in actual feeding, fishes at the two sides of the throwing machine cannot ingest enough feed, and manual supplementary feeding is needed at the left side and the right side of the throwing machine, so that the fishes at the two sides can be guaranteed to eat enough feed.

Along with the promotion of the large-scale cultivation process in the aquaculture industry, more and more aquatic enterprises begin to store and convey feeds in a large-bin mode, so that the process of feeding a plurality of ponds by one person at the same time becomes possible; the existing swinging type throwing machine on the market can not meet the current feeding requirement, and in the simultaneous feeding, the artificial manual supplementary feeding is needed to be carried out by a breeding worker at regular time and fixed points, so that the workload is increased in an intangible way.

Disclosure of Invention

The utility model aims to overcome at least one defect (deficiency) of the prior art, and provides a 180-degree swinging material throwing machine, which can swing 180 degrees, reduce the workload of workers and reduce the labor cost.

The technical scheme adopted by the utility model is that the 180-degree swinging throwing machine comprises a frame structure, a power output structure, a control structure, a conveying pipeline structure and a 180-degree swinging mechanism;

the 180-degree swinging mechanism is connected with the conveying pipeline structure and is used for driving the conveying pipeline structure to swing.

The utility model uses the 180-degree swinging mechanism capable of swinging 180 degrees to be connected with the conveying pipeline structure, thereby driving the conveying pipeline to swing 180 degrees, and compared with the existing swinging material throwing machine, the utility model has the advantages of wider material throwing range and capability of effectively reducing the workload of workers.

Further, the 180-degree rocking mechanism comprises a lower mounting plate sleeve, an upper mounting plate sleeve, a speed reducing motor and a rocking bevel gear sleeve;

the bottom of the speed reducing motor is arranged on the lower mounting plate sleeve member;

the upper mounting plate sleeve comprises a vertical part and a horizontal part, and the vertical part is connected with a motor output shaft of the speed reducing motor;

the upper end of the swinging umbrella tooth sleeve member passes through the horizontal part of the upper mounting plate sleeve member and is connected with the upper mounting plate sleeve member, the side surface of the swinging umbrella tooth sleeve member is connected with the motor output shaft of the gear motor, and the lower end of the swinging umbrella tooth sleeve member passes through the lower mounting plate sleeve member and is connected with the lower mounting plate sleeve member.

Further, the 180-degree rocking mechanism further comprises a rocking mechanism housing, wherein the bottom of the rocking mechanism housing is connected with a lower mounting plate suite, and a mounting cavity is formed inside the rocking mechanism housing;

the upper mounting plate sleeve, the gear motor and the swinging bevel gear sleeve are all arranged in the mounting cavity.

The rocking mechanism housing is used for wrapping the device in the mounting cavity so as to avoid damage; the speed reducing motor is used for providing power for the 180-degree swinging mechanism; the rocking umbrella tooth assembly is driven by the gear motor to rock left and right, so that the whole 180-degree rocking mechanism is driven to rock.

Further, the rocking bevel gear sleeve comprises a rocking shaft, a first conical gear, a second conical gear and a conical half gear;

the fixed end of the first conical gear faces downwards towards the upward gear end, passes through the upper end of the swing shaft and is fixed through a first fixing structure;

the fixed end of the second conical gear faces upwards towards the lower gear end, penetrates through the lower end of the swing shaft and is fixed through a second fixing structure;

the upper side of the gear end of the conical half gear is vertically meshed with the first conical gear, the lower side of the gear end is vertically meshed with the second conical gear, and the fixed end is connected with the motor output shaft of the gear motor.

The utility model mainly realizes 180-degree swinging left and right by means of meshing of conical gears, because half of the gear end of the conical half gear is a smooth part and the fixed end of the conical half gear is connected with a gear motor, under the drive of the gear motor, the conical half gear is assumed to rotate clockwise in the horizontal plane, when the conical half gear rotates until the gear part is meshed with the first conical gear, the first conical gear is driven to rotate clockwise from top to bottom, at the moment, the smooth part of the conical half gear is contacted with the second conical gear and cannot drive the second conical gear to rotate, so the second conical gear does not move, the first conical gear drives the whole swinging bevel gear sleeve to rotate clockwise from top to bottom, thereby driving the 180-degree swinging mechanism to swing leftwards, and because the 180-degree swinging mechanism is connected with the conveying pipeline structure, the conveying pipeline structure also swings leftwards, and the limit of the leftward swinging is 180 degrees because the gear part of the conical half gear is only 180 degrees; when the conical half gear continues to rotate in the horizontal plane clockwise, the gear part is meshed with the second conical gear, the installation direction of the second conical gear is opposite to that of the first conical gear, the rotating movement direction of the second conical gear driven by the conical half gear is opposite to that of the first conical gear, at the moment, the smooth part of the conical half gear is contacted with the first conical gear and cannot drive the first conical gear to rotate, so that the first conical gear does not move, the second conical gear drives the whole swinging bevel gear sleeve to rotate anticlockwise from top to bottom, and accordingly the 180-degree swinging mechanism is driven to swing rightwards, and the conveying pipeline structure is also swung rightwards due to the fact that the 180-degree swinging mechanism is connected with the conveying pipeline structure, and the limit of right swinging is 180 degrees due to the fact that the gear part of the conical half gear is only 180 degrees. The utility model can realize the left-right swing of 180 degrees through a relatively simple structure, and the conical half gear connected with the motor can drive the 180-degree swing mechanism to swing in a left-right direction only by always carrying out the same-direction rotary motion, so that the energy consumption can be effectively saved and the damage is not easy to damage.

Further, the delivery conduit structure comprises a delivery manifold and a connection assembly;

the input end of the conveying main pipe is connected with the output end of the power output structure;

the connecting component is arranged on the outer side surface of the conveying main pipe, which is close to the output end, and is connected with the swing shaft.

The power output structure is a device for placing feed when the material throwing machine is used, and the output end of the device is connected with the input end of the conveying main pipe, so that the internal feed is output through the conveying main pipe.

More specifically, the connecting component is provided with a swinging shaft mounting hole;

the swing shaft is inserted into the swing shaft mounting hole and is fixed through the third fixing structure, so that the 180-degree swing mechanism is connected with the conveying pipeline structure.

Because the swing shaft is inserted into the swing shaft mounting hole and is fixed, when the swing shaft swings left and right under the drive of the first conical gear or the second conical gear, the conveying main pipe can be driven to swing left and right through the connecting component, and therefore the technical effect that the material throwing machine can swing 180 degrees is achieved.

More specifically, the first fixing structure, the second fixing structure and the third fixing structure are flat key structures.

The flat key is fixed, so that the whole structure is simpler, the disassembly and assembly are convenient, and the common flat key is suitable for occasions with high speed and load variation and impact bearing and is more suitable for the utility model.

Further, the input end of the conveying main pipe is provided with a square-to-round transfer pipe;

the output end of the square-to-round transfer pipe is matched with the input end of the conveying main pipe, and the input end is matched with the output end of the power output structure.

Because the output end of the power output structure is a square port, and the input end of the conveying main pipe is a round port, the power output structure is connected through a square-to-round switching pipe in the middle, so that the connection is more compact.

Further, a fan is arranged on the side face of the power output structure and is used for providing power for the power output structure and the conveying main pipe.

The fan provides power, feeds placed in the power output structure are sent into the conveying main pipe, and the feeds are output through the conveying main pipe, so that the feed throwing is realized.

Further, the control structure comprises a fan housing and a control electric box;

the fan housing is covered outside the fan;

the control electric box is arranged on the side face of the fan housing and used for controlling the fan.

The fan housing can effectively protect the fan, so that the fan is not easy to enter water or be damaged due to collision, and the control electric box can control the switch and the running speed of the fan.

Further, the frame structure comprises a frame whole and a moving wheel assembly;

the power output structure, the conveying pipeline structure, the 180-degree swinging mechanism and the control structure are all arranged on the whole frame;

the moving wheel assembly is arranged at the bottom of the whole frame.

The whole throwing machine of frame integral support, power take off structure, pipeline structure, 180 degrees wabblers mechanism and control structure all install on the frame is whole, and remove the wheel subassembly and include four at least wheels, install respectively in the four corners of the whole bottom of frame, be convenient for remove the frame is whole to remove the throwing machine, make it more convenient when using.

Compared with the prior art, the utility model has the beneficial effects that: the utility model can realize the left-right swing of 180 degrees through a relatively simple structure, and the conical half gear connected with the motor can drive the 180-degree swing mechanism to swing in a left-right direction only by the rotation motion in the same direction all the time, so that the energy consumption can be effectively saved, the damage is not easy, the workload of workers can be reduced, and the labor cost is reduced.

Drawings

FIG. 1 is a view showing the overall construction of a slinger according to embodiment 1 of the present utility model.

FIG. 2 is a diagram showing a 180 degree rocking mechanism according to embodiment 1 of the present utility model.

Fig. 3 is an exploded view of the rocking umbrella tooth kit of example 1 of the present utility model.

Fig. 4 is a structural diagram of a transfer pipe according to embodiment 1 of the present utility model.

Fig. 5 is a power output structure diagram of embodiment 1 of the utility model.

Fig. 6 is a control structure diagram of embodiment 1 of the present utility model.

Fig. 7 is a construction diagram of a frame in embodiment 1 of the present utility model.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the utility model. For better illustration of the following embodiments, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Example 1

As shown in fig. 1, the embodiment provides a 180-degree swing material throwing machine, which comprises a frame structure 1, a power output structure 2, a conveying pipeline structure 3, a 180-degree swing mechanism 4 and a control structure 5; the 180-degree swinging mechanism 4 is connected with the conveying pipeline structure 3 and is used for driving the conveying pipeline structure 3 to swing.

The 180-degree swinging mechanism of the embodiment can swing left and right by 180 degrees, and can drive the conveying pipeline 3 to swing left and right by 180 degrees after being connected with the conveying pipeline structure 3, so that the swinging type material throwing machine is larger in rotating angle than the existing swinging type material throwing machine, manual feeding is not needed in addition at angle dead angles, and labor cost is reduced.

As shown in fig. 2, the 180-degree rocking mechanism 4 of the present embodiment includes a rocking mechanism housing 41, a lower mounting plate set 42, an upper mounting plate set 43, a gear motor 44, and a rocking umbrella tooth set 45. The bottom of the rocking mechanism housing 41 is connected with a lower mounting plate sleeve member 42, a mounting cavity is formed in the bottom, and an upper mounting plate sleeve member 43, a speed reducing motor 44 and a rocking umbrella tooth sleeve member 45 are all mounted in the mounting cavity; fig. 2 is a structural view showing the rocking mechanism housing 41 after being moved up, and the internal structure of the installation cavity can be seen. The bottom of the speed reducing motor 44 is connected with the lower mounting plate sleeve member 42; the upper mounting plate kit 43 includes a vertical portion and a horizontal portion, the vertical portion being connected with a motor output shaft of the speed reduction motor 44; the upper end of the swinging umbrella tooth suite 45 passes through the horizontal part of the upper mounting plate suite 43 and is connected with the upper mounting plate suite 43, the side surface of the swinging umbrella tooth suite is connected with the motor output shaft of the gear motor 44, and the lower end of the swinging umbrella tooth suite passes through the lower mounting plate suite 42 and is connected with the lower mounting plate suite 42.

The core structure of the 180-degree rocking mechanism 4 is a speed reducing motor 44 and a rocking umbrella tooth assembly 45, and the speed reducing motor 44 provides power to enable the rocking umbrella tooth assembly 45 to rock left and right, so that the 180-degree rocking mechanism 4 is driven to rock left and right.

As shown in fig. 3, the rocking umbrella tooth assembly 45 of the present embodiment includes a rocking shaft 451, a first conical gear 452, a second conical gear 453, and a conical half gear 454; the fixed end of the first conical gear 452 faces downwards towards the upper gear end, passes through the upper end of the swing shaft 451 and is fixed by a first fixing structure 455; the fixed end of the second conical gear 453 faces upwards toward the lower gear end, passes through the lower end of the swing shaft 451 and is fixed by a second fixing structure 456; the upper side of the gear end of the conical half gear 454 is vertically meshed with the first conical gear 452, the lower side of the gear end is vertically meshed with the second conical gear 453, and the fixed end is connected with the motor output shaft of the gear motor 44.

In the embodiment, since the half of the gear end of the conical half gear 454 is a gear portion half of a smooth portion, the fixed end thereof is connected to the gear motor 44. When the operation is started, the gear motor 44 works, the conical half gear 454 rotates clockwise in the horizontal plane under the drive of the gear motor 44, and when the conical half gear 454 rotates until the gear part is meshed with the first conical gear 452, the first conical gear 452 is driven to rotate clockwise from top to bottom; at this time, the smooth portion of the conical half gear 454 is in contact with the second conical gear 453, and the smooth portion cannot be meshed with the second conical gear 453, so that the second conical gear 453 cannot be driven to rotate, and therefore the second conical gear 453 does not perform rotational movement; because the first bevel gear 452 is fixed at the upper end of the swinging shaft 451, the first bevel gear 452 drives the swinging bevel gear assembly 45 to rotate clockwise when rotating clockwise; as the rocking umbrella-tooth assembly rotates clockwise when seen from top to bottom and swings leftwards in the horizontal plane, the rocking umbrella-tooth assembly 45 drives the 180-degree rocking mechanism 4 to swing leftwards; since the 180 degree rocking mechanism 4 is connected to the conveying pipe structure 3, the conveying pipe structure 3 also rocks leftward. Since the gear portion of the conical half gear is only 180 degrees, the limit of rocking to the left is 180 degrees.

When the conical half gear 454 continues to rotate clockwise in the horizontal plane until the gear part is meshed with the second conical gear 453, the second conical gear 453 is installed in the opposite direction to the first conical gear 452, and the direction of the rotational movement of the second conical gear 453 driven by the conical half gear 454 is also opposite to the first conical gear 452; at this time, the smooth portion of the conical half gear 454 is in contact with the first conical gear 452, and the smooth portion cannot be meshed with the first conical gear 452, so that the first conical gear 452 cannot rotate, and therefore does not perform rotational movement; because the second bevel wheel 453 is fixed at the lower end of the swing shaft 451, the second bevel wheel 453 drives the swing bevel gear assembly 45 to rotate counterclockwise when rotating counterclockwise; as the rocking umbrella-tooth sleeve 45 rotates anticlockwise when seen from top to bottom and swings rightwards when seen in a horizontal plane, the rocking umbrella-tooth sleeve 45 drives the 180-degree rocking mechanism 4 to swing rightwards; since the 180 degree rocking mechanism 4 is connected to the conveying pipe structure 3, the conveying pipe structure 3 also swings rightward. Since the gear 454 of the conical half gear has only 180 degrees, the limit of rocking to the right is 180 degrees.

In another embodiment, the rotation direction of the conical half gear 454 is counterclockwise, so that the conical half gear 454 rotates until the gear part is meshed with the first conical gear 452, and finally drives the conveying pipeline structure 3 to swing rightward; the rotation to the point where the gear portion meshes with the second bevel wheel 453 eventually drives the conveying pipe structure 3 to swing left.

The 180-degree left-right swing of the material throwing machine can be realized through a relatively simple structure, the conical half-side gear 454 connected with the gear motor 44 can drive the 180-degree swing mechanism to swing in an automatic left-right direction only by always performing the same-direction rotary motion, the energy consumption can be effectively saved, the material throwing machine is not easy to damage, and excessive manual operation is not needed.

As shown in fig. 4, the conveying pipeline structure 3 of the present embodiment includes a conveying main pipe 31 and a connecting assembly 32, and an input end of the conveying main pipe 31 is connected with an output end of the power output structure 2; the connecting assembly 32 is arranged on the outer side surface of the conveying main pipe 31, which is close to the output end, and is connected with the swinging shaft 451; the connecting assembly 32 is provided with a swing shaft mounting hole 321, and the swing shaft 451 is inserted into the swing shaft mounting hole 321 and fixed by a third fixing structure 457, so that the 180-degree swing mechanism 4 is connected with the conveying pipeline structure 3.

Since the swing shaft 451 of the present embodiment is inserted into the swing shaft mounting hole 321 on the connection assembly 32 and fixed, when the swing shaft 451 swings left and right under the driving of the first bevel gear 452 or the second bevel gear 453, the conveying manifold 31 can be driven to swing left and right by the connection assembly 32, so that the technical effect of swinging left and right by 180 degrees is achieved. In particular, the conveying manifold 31 has a certain softness, and can realize a function of swinging left and right.

In a specific implementation, the first fixing structure 455, the second fixing structure 456, and the third fixing structure 457 are flat key structures. Through the flat key fixing, the whole structure is simpler, and the disassembly and the assembly are convenient. More specifically, the flat key structure is a common flat key, the first fixing structure 455 and the second fixing structure 456 are a common flat key, the third fixing structure 457 is a C common flat key, and the common flat key is suitable for occasions of high speed, load change bearing and impact bearing.

In another embodiment, the fixation may also be by means of screws, for example using a hexagon socket head set screw.

In this embodiment, the input end of the conveying main pipe is provided with a square-to-round transfer pipe 33, the output end of the square-to-round transfer pipe 33 is adapted to the input end of the conveying main pipe 31, and the input end is adapted to the output end of the power output structure 2.

As shown in fig. 5, the power output structure 2 includes a power output structure body 21, and a fan 22 mounted on a side surface of the power output structure body 21, wherein the fan 22 is used for providing power to the power output structure 2 and the conveying main pipe 31. More specifically, the power take-off structure may be an st_9-19 series a high pressure centrifugal ventilator [4A3KW ].

In the actual use process, the feed to be thrown is placed at the inlet of the power output structure 2, and under the power provided by the fan 22, the feed enters the input end of the square-to-round switching tube 33 from the output end of the power output structure 2, and then enters the input end of the conveying main pipe 31 through the output end of the square-to-round switching tube 33, so that the feed is thrown through the output end of the conveying main pipe 31.

As shown in fig. 6, the control structure 5 of the present embodiment includes a blower housing 51 and a control electric box 52, where the blower housing 51 is used to wrap the blower 31; the control electric box 52 is mounted on a side surface of the fan housing 51, and is connected to the fan 31, for controlling the fan 31.

The fan housing 51 of the present embodiment plays a role in protecting the fan 22 from water inflow or damage; and the control box 52 is used for controlling the on-off state and the running speed of the fan 22, thereby controlling the running state of the whole material throwing machine and the speed when throwing materials.

As shown in fig. 7, the frame structure 1 of the present embodiment includes a frame body 11 and a moving wheel assembly 12; the power output structure 2, the conveying pipeline structure 3, the 180-degree swinging mechanism 4 and the control structure 5 are all arranged on the frame body 11;

the moving wheel assembly 12 is mounted to the bottom of the frame body 11 for making the frame body 11 movable.

In a specific implementation, the frame body 11 comprises a bottom plate, a power output structure mounting bracket and a 180-degree swing mechanism mounting bracket, the power output structure 2 is mounted on one side of the power output structure mounting bracket, and the fan 22 is mounted on the top of the power output structure mounting bracket; the 180-degree rocking mechanism 4 is arranged at the top of the 180-degree rocking mechanism mounting bracket; the control structure 5 is arranged on the top of the fan 22; one end of the output pipeline structure 3 is connected with the power output structure 2, the other end is connected with the 180-degree swinging mechanism 4, namely the power output structure 2, the conveying pipeline structure 3180-degree swinging mechanism 4 and the control structure 5 are all arranged on the frame body 11.

The movable wheel assembly 12 comprises at least four wheels which are respectively arranged at four corners of the bottom of the frame body 11, so that the frame body 11 is convenient to move, and the material throwing machine is convenient to use and can change the material throwing position at any time.

It should be understood that the foregoing examples of the present utility model are merely illustrative of the present utility model and are not intended to limit the present utility model to the specific embodiments thereof. Any modification, equivalent replacement, improvement, etc. that comes within the spirit and principle of the claims of the present utility model should be included in the protection scope of the claims of the present utility model.

Claims (10)

1. The 180-degree swing material throwing machine comprises a frame structure, a power output structure and a control structure, and is characterized by also comprising a conveying pipeline structure and a 180-degree swing mechanism;

the 180-degree swinging mechanism is connected with the conveying pipeline structure and is used for driving the conveying pipeline structure to swing.

2. A 180 degree rocking slinger as claimed in claim 1, wherein the 180 degree rocking mechanism comprises a lower mounting plate set, an upper mounting plate set, a gear motor and a rocking bevel gear set;

the bottom of the speed reducing motor is arranged on the lower mounting plate sleeve member;

the upper mounting plate sleeve comprises a vertical part and a horizontal part, and the vertical part is connected with a motor output shaft of the speed reducing motor;

the upper end of the swinging umbrella tooth sleeve member passes through the horizontal part of the upper mounting plate sleeve member and is connected with the upper mounting plate sleeve member, the side surface of the swinging umbrella tooth sleeve member is connected with the motor output shaft of the gear motor, and the lower end of the swinging umbrella tooth sleeve member passes through the lower mounting plate sleeve member and is connected with the lower mounting plate sleeve member.

3. A 180 degree rocking slinger according to claim 2, wherein the 180 degree rocking mechanism further comprises a rocking mechanism housing, the bottom of the rocking mechanism housing being connected to a lower mounting plate kit, the interior forming a mounting cavity;

the upper mounting plate sleeve, the gear motor and the swinging bevel gear sleeve are all arranged in the mounting cavity.

4. A 180 degree rocking slinger according to claim 2, wherein the rocking bevel gear assembly includes a rocking shaft, a first conical gear, a second conical gear and a conical half gear;

the fixed end of the first conical gear faces downwards towards the upward gear end, passes through the upper end of the swing shaft and is fixed through a first fixing structure;

the fixed end of the second conical gear faces upwards towards the lower gear end, penetrates through the lower end of the swing shaft and is fixed through a second fixing structure;

the upper side of the gear end of the conical half gear is vertically meshed with the first conical gear, the lower side of the gear end is vertically meshed with the second conical gear, and the fixed end is connected with the motor output shaft of the gear motor.

5. A 180 degree rocking slinger according to claim 4, wherein the conveying conduit structure includes a conveying manifold and a connecting assembly;

the input end of the conveying main pipe is connected with the output end of the power output structure;

the connecting component is arranged on the outer side surface of the conveying main pipe, which is close to the output end, and is connected with the swing shaft.

6. A 180 degree rocking slinger according to claim 5, wherein the connecting assembly is provided with a rocking shaft mounting hole;

the swing shaft is inserted into the swing shaft mounting hole and is fixed through the third fixing structure, so that the 180-degree swing mechanism is connected with the conveying pipeline structure.

7. The 180 degree swing slinger of claim 6 wherein the input end of the delivery manifold is provided with a square-to-round transfer tube;

the output end of the square-to-round transfer pipe is matched with the input end of the conveying main pipe, and the input end is matched with the output end of the power output structure.

8. The 180 degree rocking slinger of claim 6, wherein a fan is provided on the side of the power take off structure, the fan being adapted to power the power take off structure and the delivery manifold.

9. A 180 degree rocking slinger according to claim 8, wherein the control structure includes a fan housing and a control electric box;

the fan housing is covered outside the fan;

the control electric box is arranged on the side face of the fan housing and used for controlling the fan.

10. A 180 degree rocking slinger according to any one of claims 1 to 9, wherein the frame structure includes a frame body and a moving wheel assembly;

the power output structure, the conveying pipeline structure, the 180-degree swinging mechanism and the control structure are all arranged on the whole frame;

the moving wheel assembly is arranged at the bottom of the whole frame.