CN214047150U

CN214047150U - Fish box feeding vehicle

Info

Publication number: CN214047150U
Application number: CN202022282211.2U
Authority: CN
Inventors: 黄传明; 王星辰
Original assignee: Shanghai Huanxing New Energy Technology Co ltd
Current assignee: Shanghai Huanxing New Energy Technology Co ltd
Priority date: 2020-10-14
Filing date: 2020-10-14
Publication date: 2021-08-27
Anticipated expiration: 2030-10-14

Abstract

The utility model discloses a feeding vehicle for a fish culture box, which comprises an automobile body (1), a storage bin (2), a pneumatic conveying device (3), a rotary mechanical arm device (4) and a feeding hose (5); the storage bin, the pneumatic conveying device and the rotary mechanical arm device are all arranged on the automobile body; the feeding hose is attached to the rotary mechanical arm device, a feeding port of the feeding hose is located at the installation position of the rotary mechanical arm device, and a feeding port of the feeding hose is located at the arm extension end of the rotary mechanical arm device; the upper portion of storage silo is provided with operation mouth (21), and the discharge gate of storage silo and pneumatic conveyor's feed inlet intercommunication, pneumatic conveyor's discharge gate and the feed inlet intercommunication of throwing the material hose. The utility model discloses an it has storage silo, pneumatic conveyor and rotary mechanical arm device to throw material on the car to make whole fish material put in the process simple and convenient, reduced the human cost and paid out, improved production operating efficiency.

Description

Fish box feeding vehicle

Technical Field

The utility model relates to an aquaculture equipment especially relates to a feeding car of fish culture box.

Background

With the continuous development of modern aquaculture technology, fish farming places are not limited in fish ponds, but fish farming boxes can be used for farming and producing fish and aquatic products. The fish culture box is adopted to culture fish and aquatic products, the requirement on the field is low, the fishpond does not need to be excavated, the fish culture box only needs to be placed in the empty space, the production field is more flexible to production enterprises, and the fishpond does not need to be excavated, so that the production cost is greatly reduced.

However, for fish farming in fish farming tanks, the feeding of fish feed into the tank is a very cumbersome process. The fish material is conveyed to the side of the fish box by a transport vehicle, and then the fish material is unloaded to the side of the fish box by unloading equipment such as a forklift. Because the operation mouth of fish box (can be used to throw the material to fish box) is at the top, consequently still need with handling equipment with fish material handling to fish box on, adopt artifical mode to drop into the operation mouth of fish box with fish material at last.

Under the prior art condition, the whole process of putting the fish material into the fish feeding box is complicated, the production efficiency is low, large manpower and material resources are required to be consumed, and the reduction of the production cost is not facilitated.

Disclosure of Invention

An object of the utility model is to provide a feed carriage is thrown to fish box should throw the integration on the feed carriage and have storage silo, strength conveyor and rotary mechanical arm device to make whole fish material put in the process simple and convenient, reduced the human cost and paid out, improved production operating efficiency.

In order to realize the technical purpose, the utility model adopts the following technical scheme:

a fish-farming box feeding vehicle comprises an automobile body, a storage bin, a pneumatic conveying device, a rotary mechanical arm device and a feeding hose; the storage bin, the pneumatic conveying device and the rotary mechanical arm device are all arranged on the automobile body; the feeding hose is attached to the rotary mechanical arm device, one end of the feeding hose is a feeding hole, the other end of the feeding hose is a feeding port, the feeding hole of the feeding hose is located at the installation position of the rotary mechanical arm device, and the feeding port of the feeding hose is located at the arm extending end of the rotary mechanical arm device; the upper portion of storage silo is provided with the operation mouth, and the lower part of storage silo is provided with the discharge gate, and the discharge gate of storage silo and pneumatic conveyor's feed inlet intercommunication, pneumatic conveyor's discharge gate and the feed inlet intercommunication of throwing the material hose.

Further, the rotary mechanical arm device comprises a rotary base, a stand column, a mechanical arm and a first telescopic driving cylinder; the rotary base is installed on an automobile body, the stand column is installed on the rotary base, the rear end of the mechanical arm is hinged to the stand column shaft pin, the front end of the mechanical arm is an arm extending end of the rotary mechanical arm device, one end of the first telescopic driving cylinder is hinged to the stand column shaft pin, and the other end of the first telescopic driving cylinder is hinged to the mechanical arm shaft pin.

Further, the mechanical arm is an extension arm.

Further, the mechanical arm comprises a rear stretching arm, a front stretching arm, a spreading component and a second telescopic driving cylinder; the rear end of the rear stretching arm is hinged with the upright post shaft pin, the other end of the first telescopic driving cylinder is hinged with the rear stretching arm shaft pin, the front end of the rear stretching arm is hinged with the rear end shaft pin of the front stretching arm, the distraction component is installed between the rear stretching arm and the front stretching arm, one end of the second telescopic driving cylinder is hinged with the rear stretching arm shaft pin, and the other end of the second telescopic driving cylinder is in driving connection with the distraction component; the front end of the front stretching arm is the arm stretching end of the rotary mechanical arm device.

Furthermore, the first telescopic driving cylinder and the second telescopic driving cylinder are both telescopic cylinders.

Further, the pneumatic conveying device comprises a mounting frame, an engine, a fan, a gas-material separator, an air lock, a material discharging tank, a feeding pipe (not shown in the figure) and a discharging pipe; the mounting frame is mounted on an automobile body, and the engine, the fan, the gas-material separator, the air lock, the blanking tank, the feeding pipe and the discharging pipe are mounted on the mounting frame; the engine is in driving connection with the fan, the blanking tank is positioned below the gas-material separator, the blanking port at the lower part of the gas-material separator is connected with the feeding port at the upper part of the blanking tank through the air closer, and the rotating shaft of the fan is in transmission connection with the rotating shaft of the air closer; the one end of inlet pipe does pneumatic conveyor's feed inlet, the other end of inlet pipe and the feed inlet intercommunication of gas material separator, the gas outlet of gas material separator and the air inlet intercommunication of fan, the air outlet of fan and the air intake intercommunication of unloading jar, the discharge gate of unloading jar and the one end intercommunication of discharging pipe, the other end of discharging pipe does pneumatic conveyor's discharge gate.

Further, the storage bin is provided with an air vent.

Furthermore, a three-way reversing valve with two inlets and one outlet is arranged between the discharge port of the storage bin and the feed inlet of the pneumatic conveying device, three ports of the three-way reversing valve are respectively a main inlet, an outlet and an atmosphere inlet, the main inlet of the three-way reversing valve is communicated with the discharge port of the storage bin, the outlet of the three-way reversing valve is communicated with the feed inlet of the pneumatic conveying device, and the atmosphere inlet of the three-way reversing valve is opened in the atmosphere environment.

Furthermore, the feeding vehicle for the fish box further comprises a ladder stand, and the ladder stand is installed on the side face of the vehicle body.

The utility model discloses an among the feeding car, with storage silo, pneumatic conveyor and rotatory arm device integration on car automobile body, the storage silo is used for depositing the fish material, and pneumatic conveyor can be with the fish material suction in the storage silo to carry away the fish material through throwing the material hose with the air current of carrying, and rotatory arm device then can adjust the dog-house position of throwing the material hose and aim at the operation mouth of breeding the fish box. The pneumatic conveying device can suck out the fish materials in the storage bin in a pneumatic mode and convey the fish materials to the feeding hose to be thrown out. The mechanical arm of the rotary mechanical arm device adopts a folding type structure, when the material is required to be fed, the mechanical arm can be controlled to be unfolded, and the unfolded mechanical arm can convey the feeding port of the feeding hose to a far position as possible, so that the feeding requirement of a far fish box is met. A three-way reversing valve with two inlets and one outlet is arranged between the discharge outlet of the storage bin and the feed inlet of the pneumatic conveying device, when the fish material is normally put in, the outlet of the three-way reversing valve is communicated with the main inlet, and the pneumatic conveying device can normally suck the fish material out of the storage bin; when the fish materials are not required to be sucked out from the storage bin, but the rest of the fish materials in the pneumatic conveying device are required to be thrown out, the three-way reversing valve can be switched to communicate the outlet with the atmosphere inlet, and the pneumatic conveying device can continuously suck air from the atmosphere, so that enough conveying airflow is ensured to throw out the rest of the fish materials in the pneumatic conveying device. The side of the automobile body is provided with a ladder stand so as to facilitate an operator to operate the equipment.

The utility model discloses a relative prior art of skip of throwing, its beneficial effect lies in: the utility model discloses an it has storage silo, pneumatic conveyor and rotatory arm device to throw material car and go up the integration, the utility model discloses a throw material car and not only can be used for the transportation of fish material, can also directly put in the fish material in the storage silo to the fish box in, thereby saved the process of unloading after the transportation targets in place, also saved the process of carrying the fish material to the fish box on simultaneously, to a great extent simplified the fish material and put in the process, make whole fish material put in the process simple and convenient, reduced the human cost and paid out, improved production operating efficiency.

Drawings

FIG. 1 is a side view of the feeding cart of the fish box of the present invention;

FIG. 2 is a schematic structural view of a pneumatic conveying device in the feeding vehicle of the present invention;

fig. 3 is the utility model discloses a schematic diagram when batch feeder is in the material state of throwing, wherein, rotatory arm device expandes completely, and the dog-house of throwing the material hose droops to the operation mouth department on fish box upper portion naturally.

In the figure: 1-an automobile body, 2-a storage bin, 21-an operation port, 3-a pneumatic conveying device, 31-an engine, 32-a fan, 33-an air lock, 34-a gas-material separator, 35-a discharge pipe, 36-a blanking tank, 37-an installation frame, 4-a rotary mechanical arm device, 41-an upright post, 42-a mechanical arm, 43-a first telescopic driving cylinder, 44-a rotary base, 45-a rear stretching arm, 46-a front stretching arm, 47-a second telescopic driving cylinder, 48-a camera, 49-a spreading part, 5-a feeding hose, 6-a ladder and 9-a fish box.

Detailed Description

The invention will be further described with reference to the following drawings and specific embodiments:

referring to fig. 1 to 3, the present embodiment is a feeding vehicle for a fish farming box, and the feeding vehicle is mainly used for feeding fish materials into a fish farming box 9, so as to reduce labor cost and improve production efficiency.

Referring to fig. 1, the feeding vehicle of the present embodiment includes an automobile body 1, a storage bin 2, a pneumatic conveying device 3, a rotary mechanical arm device 4, and a feeding hose 5.

The storage bin 2, the pneumatic conveying device 3 and the rotary mechanical arm device 4 are all installed on the automobile body 1.

The feeding hose 5 is attached to the rotary mechanical arm device 4, one end of the feeding hose 5 is a feeding port, the other end of the feeding hose 5 is a feeding port, the feeding port of the feeding hose 5 is located at the installation position of the rotary mechanical arm device 4, and the feeding port of the feeding hose 5 is located at the arm extending end of the rotary mechanical arm device 4.

The storage bin 2 is used for storing fish materials, an operation port 21 is arranged on the upper portion of the storage bin 2, the operation port 21 is mainly used for adding the fish materials into the storage bin 2, a discharge port is arranged on the lower portion of the storage bin 2, the discharge port of the storage bin 2 is communicated with the feed port of the pneumatic conveying device 3 through a hose, and the discharge port of the pneumatic conveying device 3 is communicated with the feed port of the feeding hose 5. The pneumatic conveying device 3 can suck out the fish materials in the storage bin 2 in a pneumatic mode and convey the fish materials to the feeding hose 5 to be thrown out. Optimally, in order to facilitate the pneumatic conveying device 3 to suck out the fish material from the storage bin 2, the storage bin 2 is further provided with an air vent.

Preferably, a three-way reversing valve (not shown in the figure) with two inlets and one outlet is arranged between the discharge port of the storage bin 2 and the feed inlet of the pneumatic conveying device 3, three ports of the three-way reversing valve are respectively a main inlet, an outlet and an atmospheric inlet, the main inlet of the three-way reversing valve is communicated with the discharge port of the storage bin 2, the outlet of the three-way reversing valve is communicated with the feed inlet of the pneumatic conveying device 3, and the atmospheric inlet of the three-way reversing valve is opened in an atmospheric environment. When the fish materials are normally put in, the outlet of the three-way reversing valve is communicated with the main inlet, and the pneumatic conveying device 3 can normally suck the fish materials out of the storage bin 2; when the fish material is not required to be sucked out from the storage bin 2, but the residual fish material in the pneumatic conveying device 3 needs to be thrown out, the three-way reversing valve can be switched to communicate the outlet with the atmospheric inlet, and the pneumatic conveying device 3 can continuously suck air from the atmosphere, so that sufficient conveying airflow is ensured to throw out the residual fish material in the pneumatic conveying device 3.

Referring to fig. 1, preferably, the rotary mechanical arm device 4 specifically includes a rotary base 44, a column 41, a mechanical arm 42 and a first telescopic driving cylinder 43. The rotating base 44 is installed on the automobile body 1, specifically, the rotating base 44 is installed on the pneumatic conveying device 3, that is, the rotating base 44 is installed on the automobile body 1 through the pneumatic conveying device 3, and according to the present invention, the rotating base can also be directly installed on the automobile body 1 in other embodiments. The upright column 41 is mounted on the rotating base 44, the upright column 41 can rotate relative to the automobile body 1, the rear end of the mechanical arm 42 is hinged to an axle pin of the upright column 41, the front end of the mechanical arm 42 is an arm extending end of the rotating mechanical arm device 4, the first telescopic driving cylinder 43 is preferably a telescopic cylinder, one end of the first telescopic driving cylinder 43 is hinged to the axle pin of the upright column 41, the other end of the first telescopic driving cylinder 43 is hinged to the axle pin of the mechanical arm 42, the upright column 41, the mechanical arm 42 and the first telescopic driving cylinder 43 jointly form a triangular support structure, and the mechanical arm 42 can swing up and down under the driving of the first telescopic driving cylinder 43, so that the position of the arm extending end can be adjusted, namely the feeding position can be adjusted.

Preferably, the mechanical arm 42 is an extension arm, i.e. the mechanical arm 42 can perform an extending and retracting action. The extension arms described herein may be of two configurations, one being a telescoping configuration and the other being a folding configuration.

In this embodiment, the mechanical arm 42 is of a folding type, the mechanical arm 42 includes a rear stretching arm 45, a front stretching arm 46, a stretching member 49 and a second telescopic driving cylinder 47, the rear end of the rear stretching arm 45 is hinged to the upright 41 through a shaft pin, the other end of the first telescopic driving cylinder 43 is hinged to the rear stretching arm 45 through a shaft pin, the front end of the rear stretching arm 45 is hinged to the rear end of the front stretching arm 46 through a shaft pin, the stretching member 49 is installed between the rear stretching arm 45 and the front stretching arm 46, the second telescopic driving cylinder 47 is preferably a telescopic cylinder, one end of the second telescopic driving cylinder 47 is hinged to the rear stretching arm 45 through a shaft pin, the other end of the second telescopic driving cylinder 47 is in driving connection with the stretching member 49, and the stretching member 49 of the second telescopic driving cylinder 47 can drive the stretching member 49 to control the rear stretching arm 45 and the front stretching arm 46 to fold and unfold; the front end of the front stretching arm 46 is an arm stretching end of the rotary robot arm device 4. When feeding is needed, the mechanical arm 42 can be controlled to be unfolded, and the unfolded mechanical arm 42 can convey the feeding port of the feeding hose 5 to a far position as far as possible, so that the feeding requirement of the far fish box 9 is met.

Referring to fig. 2, more specifically, the pneumatic conveying device 3 comprises a mounting frame 37, a motor 31, a fan 32, a gas-material separator 34, a wind lock 33, a blanking tank 36, a feeding pipe and a discharging pipe 35.

The gas-material separator 34 is provided with a feed inlet, an air outlet and a feed outlet, the middle part of the inner side of the gas-material separator 34 is provided with a filter screen, the filter screen separates the inner cavity of the gas-material separator 34 into an upper space and a lower space, the feed inlet is positioned on the side surface of the lower space, the feed outlet is positioned at the bottom of the lower space, and the air outlet is positioned at the upper space. The gas-material separator 34 serves to separate the material-entrained gas stream entering at the inlet, i.e. to separate the material from the transport gas stream. Specifically, the material is blocked by the filter screen and falls to the feed opening, and the air flow can pass through the filter screen and be discharged from the air outlet.

The top of feed tank 36 is provided with the feed inlet, and the both sides of feed tank 36 are provided with air intake and discharge gate respectively. The blanking tank 36 is used for receiving materials, and after the air inlet of the blanking tank 36 is connected with the power airflow, the airflow can blow the materials in the blanking tank 36 out of the discharge hole.

The installation frame 37 is installed on the automobile body 1, and the engine 31, the fan 32, the gas-material separator 34, the airlock 33, the blanking tank 36, the feeding pipe and the discharging pipe 35 are all installed on the installation frame 37. Furthermore, the aforementioned swivel base 44 is also mounted on the mounting frame 37, i.e. the swivel base 44 is mounted on the vehicle body 1 via the mounting frame 37.

The engine 31 is in driving connection with the fan 32, the blanking tank 36 is located below the gas-material separator 34, the blanking port at the lower part of the gas-material separator 34 is connected with the feeding port at the upper part of the blanking tank 36 through the air-lock device 33, and the rotating shaft of the fan 32 is in transmission connection with the rotating shaft of the air-lock device 33.

The one end of inlet pipe does pneumatic conveyor 3's feed inlet, as before, this port and storage silo 2's discharge gate intercommunication, the other end of inlet pipe and the feed inlet intercommunication of gas-material separator 34, the gas outlet of gas-material separator 34 passes through the hose intercommunication with the air inlet of fan 32, the air outlet of fan 32 and the air intake intercommunication of unloading jar 36, the discharge gate of unloading jar 36 and the one end intercommunication of discharging pipe 35, the other end of discharging pipe 35 is pneumatic conveyor 3's discharge gate, as before, this port and the feed inlet intercommunication of throwing material hose 5.

The working process of the pneumatic conveying device 3 is as follows: after the engine 31 of the pneumatic conveying device 3 is started to operate, the engine 31 drives the fan 32 to start to operate, the fan 32 pumps air flow to the air-material separator 34, the air-material separator 34 pumps air flow to the discharge hole of the storage bin 2, so that fish material in the storage bin 2 is sucked out, the fish material enters the air-material separator 34 and falls to the feed opening at the bottom of the air-material separator 34 under the blockage of the filter screen, the fish material is transferred to the feed tank 36 through the rotating blades in the air shutter 33, the air flow in the air-material separator 34 penetrates through the filter screen and enters the fan 32 through the air outlet, and the conveying air flow blown out from the air outlet of the fan 32 blows the fish material in and out the feed pipe 35 in the feed tank 36 and blows the fish material to the feed hose 5 along the feed pipe 35.

In addition, the feeding vehicle of the embodiment is also provided with a remote controller so as to conveniently control feeding operation.

Referring to fig. 1, the feeding car for the fish box preferably further comprises a ladder 6, wherein the ladder 6 is arranged on the side surface of the car body 1 so as to facilitate the operation of the equipment by an operator.

Referring to fig. 1 and 3, a camera 48 is further disposed on the mechanical arm 42, and a video monitoring system is further disposed in a cab of the feeding vehicle, so that an operator can observe the feeding condition through video monitoring, and can remotely control the motion of the rotating mechanical arm device 4 according to the feeding condition.

Referring to fig. 3, the feeding cart of the present embodiment is in an operating state as shown in fig. 3. When fish materials are required to be put into the fish box 9, the feeding vehicle is driven to the side of the fish box 9, then the rotary mechanical arm device 4 is controlled to rotate and extend, the feeding port of the feeding hose 5 is aligned to the operation port above the fish box 9, the three-way reversing valve between the storage bin 2 and the pneumatic conveying device 3 is switched, the feeding port of the pneumatic conveying device 3 is communicated with the discharging port of the storage bin 2, the pneumatic conveying device 3 is started, the pneumatic conveying device 3 sucks the fish materials in the storage bin 2 out, and the fish materials are put into the fish box 9 through the feeding hose 5. When the feeding is not needed, a three-way reversing valve between the storage bin 2 and the pneumatic conveying device 3 is switched, so that a feed inlet of the pneumatic conveying device 3 is communicated with the external atmospheric environment, the running state of the pneumatic conveying device 3 is continuously kept for a period of time, the pneumatic conveying device 3 is shut down after all fish materials remained in the pneumatic conveying device 3 are fed out, and finally the rotary mechanical arm device 4 is controlled to be folded, retracted and rotated to the standby position on the vehicle. When the fish materials in the storage bin 2 are all put in and the fish materials need to be added, the operation opening 21 at the upper part can be opened, and the fish materials are added into the storage bin 2 through the operation opening 21.

In the feeding vehicle of the embodiment, the storage bin 2, the pneumatic conveying device 3 and the rotary mechanical arm device 4 are integrated on the vehicle body 1, the storage bin 2 is used for storing fish materials, the pneumatic conveying device 3 can suck out the fish materials in the storage bin 2 and convey the fish materials out through the feeding hose 5 by using conveying airflow, and the rotary mechanical arm device 4 can adjust the position of a feeding port of the feeding hose 5 to be aligned with an operation port of the fish box 9. The feeding vehicle of the embodiment can be used for transporting fish materials, the fish materials in the storage bin 2 can be directly put into the fish box 9, the unloading process after the fish materials are transported in place is omitted on the one hand, the process of carrying the fish materials onto the fish box 9 is omitted on the other hand, the fish material putting process is simple and convenient, labor cost is reduced, and production operation efficiency is improved.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be taken as limiting the scope of the present invention, therefore, any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims

1. The utility model provides a fish box throws skip which characterized in that: comprises an automobile body (1), a storage bin (2), a pneumatic conveying device (3), a rotary mechanical arm device (4) and a feeding hose (5);

the storage bin (2), the pneumatic conveying device (3) and the rotary mechanical arm device (4) are all arranged on the automobile body (1); the feeding hose (5) is attached to the rotary mechanical arm device (4), one end of the feeding hose (5) is a feeding hole, the other end of the feeding hose (5) is a feeding port, the feeding hole of the feeding hose (5) is located at the installation position of the rotary mechanical arm device (4), and the feeding port of the feeding hose (5) is located at the arm extending end of the rotary mechanical arm device (4);

the upper portion of the storage bin (2) is provided with an operation opening (21), the lower portion of the storage bin (2) is provided with a discharge opening, the discharge opening of the storage bin (2) is communicated with the feed opening of the pneumatic conveying device (3), and the discharge opening of the pneumatic conveying device (3) is communicated with the feed opening of the feeding hose (5).

2. The fish box feeder wagon of claim 1, wherein: the rotary mechanical arm device (4) comprises a rotary base (44), a vertical column (41), a mechanical arm (42) and a first telescopic driving cylinder (43);

the automobile mechanical arm device is characterized in that the rotating base (44) is installed on an automobile body (1), the upright column (41) is installed on the rotating base (44), the rear end of the mechanical arm (42) is hinged to an axle pin of the upright column (41), the front end of the mechanical arm (42) is an arm extending end of the rotating mechanical arm device (4), one end of the first telescopic driving cylinder (43) is hinged to the axle pin of the upright column (41), and the other end of the first telescopic driving cylinder (43) is hinged to the axle pin of the mechanical arm (42).

3. The fish box feeder wagon of claim 2, wherein: the mechanical arm (42) is an extension arm.

4. The fish box feeder wagon of claim 3, wherein: the mechanical arm (42) comprises a rear stretching arm (45), a front stretching arm (46), a stretching component (49) and a second telescopic driving cylinder (47); the rear end of a rear stretching arm (45) is hinged with a shaft pin of the upright column (41), the other end of the first telescopic driving cylinder (43) is hinged with the shaft pin of the rear stretching arm (45), the front end of the rear stretching arm (45) is hinged with the shaft pin of the rear end of the front stretching arm (46), the strutting part (49) is installed between the rear stretching arm (45) and the front stretching arm (46), one end of the second telescopic driving cylinder (47) is hinged with the shaft pin of the rear stretching arm (45), and the other end of the second telescopic driving cylinder (47) is in driving connection with the strutting part (49); the front end of the front stretching arm (46) is the arm stretching end of the rotating mechanical arm device (4).

5. The fish box feeder wagon of claim 4, wherein: the first telescopic driving cylinder (43) and the second telescopic driving cylinder (47) are both telescopic cylinders.

6. The fish box feeder wagon of claim 1, wherein: the pneumatic conveying device (3) comprises a mounting frame (37), an engine (31), a fan (32), a gas-material separator (34), an air-lock valve (33), a blanking tank (36), a feeding pipe and a discharging pipe (35);

the mounting frame (37) is mounted on an automobile body (1), and the engine (31), the fan (32), the gas-material separator (34), the air-lock valve (33), the blanking tank (36), the feeding pipe and the discharging pipe (35) are mounted on the mounting frame (37);

the engine (31) is in driving connection with the fan (32), the blanking tank (36) is located below the gas-material separator (34), a blanking port at the lower part of the gas-material separator (34) is connected with a feeding port at the upper part of the blanking tank (36) through the air seal device (33), and a rotating shaft of the fan (32) is in transmission connection with a rotating shaft of the air seal device (33);

the one end of inlet pipe does the feed inlet of pneumatic conveyor (3), the other end of inlet pipe and the feed inlet intercommunication of gas material separator (34), the gas outlet of gas material separator (34) and the air inlet intercommunication of fan (32), the air outlet of fan (32) and the air intake intercommunication of lower charging bucket (36), the discharge gate of lower charging bucket (36) and the one end intercommunication of discharging pipe (35), the other end of discharging pipe (35) does the discharge gate of pneumatic conveyor (3).

7. The fish box feeder wagon of claim 1, wherein: the storage bin (2) is provided with an air vent.

8. The fish box feeder wagon of claim 1, wherein: a three-way reversing valve with two inlets and one outlet is arranged between the discharge port of the storage bin (2) and the feed inlet of the pneumatic conveying device (3), three ports of the three-way reversing valve are respectively a main inlet, an outlet and an atmosphere inlet, the main inlet of the three-way reversing valve is communicated with the discharge port of the storage bin (2), the outlet of the three-way reversing valve is communicated with the feed inlet of the pneumatic conveying device (3), and the atmosphere inlet of the three-way reversing valve is opened in the atmosphere environment.

9. The fish box feeder wagon of claim 1, wherein: the fish box feeding vehicle further comprises a ladder stand (6), and the ladder stand (6) is installed on the side face of the automobile body (1).