CN110476861B - Air-assisted feeder - Google Patents

Abstract

The invention discloses an air-assisted feeder, which comprises a storage box and a floating frame assembly, wherein an air-assisted mechanism is arranged at the bottom of the storage box, a feeding mechanism is arranged on the floating frame assembly, a feed conveying pipe is connected between the air-assisted mechanism and the feeding mechanism, the floating frame assembly comprises a bottom support plate, a top support plate and a plurality of support rods, a floating ball is arranged at each corner of the bottom support plate, the feeding mechanism is arranged on the top support plate, a front driving mechanism for the floating frame assembly is arranged on the bottom support plate, and a manual control mechanism for the floating frame assembly and connected with the front driving mechanism is arranged on the storage box. According to the invention, the floating frame assembly is driven to move forwards to the appointed feeding position in the fishpond or fishpond in a manual remote control mode, so that the labor intensity is reduced to a certain extent, the problem of certain potential safety hazard caused by too close floating frame assembly is avoided, and the control difficulty of the floating frame assembly is greatly reduced through an ingenious structural design.

Description

Air-assisted feeder

Technical Field

The invention relates to the field of aquaculture equipment, in particular to an air-assisted feeder.

Background

The feed throwing and feeding machine is mainly used for throwing and feeding granular feed for a fishpond or a fishpond and mainly comprises a feed box, an air conveying device, a floating frame device, a feeding device and an electric cabinet, wherein the floating frame device and the feeding device are conveyed to a specified position in the fishpond or the fishpond, the air conveying device generates negative pressure to convey the feed into the feeding device and then the feed is thrown in a centrifugal mode, and therefore the purpose of mechanical feed throwing and feeding in the fishpond is achieved. At present, the fodder feeding machine adopting the air-assisted type has some drawbacks, for example, when the floating frame device and the feeding device are required to be transferred to a specified position in a fishpond for feeding, the floating frame device must be transferred or steered by manual operation of a ship and matching with a stay bar, the labor intensity is too large, and certain potential safety hazards can exist when auxiliary personnel are too close to the feeding device, so that the feeding machine capable of remotely controlling the floating frame device to float forwards needs to be designed, and the specified feeding position is reached.

Disclosure of Invention

The invention aims to provide an air-assisted feeder which can change the advancing distance and floating direction of a floating frame assembly in a remote manual mode, can avoid the situation that the floating position of the floating frame assembly can be changed by a support rod in a fishpond in an auxiliary way by manpower, and can reach a specified feeding place, thereby reducing labor intensity and potential safety hazard.

The purpose of the invention is realized by the following technical scheme: air-assisted feeder, including storage case and floating frame assembly, the air-assisted mechanism that is used for the fodder is installed to storage bottom of the case portion, install on the floating frame assembly and throw the material mechanism, air-assisted mechanism and throw and be connected with the fodder conveyer pipe between the material mechanism, the floating frame assembly includes bottom support plate, top backup pad and sets up the bracing piece between bottom support plate and top backup pad, every edge of bottom support plate all is provided with the floater, it installs on top backup pad to throw the material mechanism, install the forerunner's mechanism that is used for the floating frame assembly in the bottom support plate, install the manual control mechanism that is used for the floating frame assembly and is connected with forerunner's mechanism on the storage case.

Further, the front driving mechanism comprises a first winding drum assembly and a propeller assembly, the first winding drum assembly is rotatably installed on the upper surface of the bottom supporting plate, the propeller assembly is installed on the lower surface of the bottom supporting plate and is in linkage connection with the first winding drum assembly, the manual control mechanism comprises a support and a second winding drum assembly rotatably installed on the support, the support is fixed on the front side wall of the storage box, and a traction rope is connected between the second winding drum assembly and the first winding drum assembly.

Further, the first winding drum component comprises a winding drum main shaft, an upper disc fixed at the upper end of the winding drum main shaft and a lower fluted disc rotatably installed at the lower end of the winding drum main shaft, a transmission case is fixed on the lower surface of the lower fluted disc, the transmission case rotatably penetrates through the bottom support plate, a through hole is formed in the winding drum main shaft along the central axis of the winding drum main shaft, a transmission shaft is fixed in the through hole, the lower end of the transmission shaft penetrates into the transmission case and is fixed with a driving bevel gear, the spiral paddle component comprises a main shaft and a spiral paddle arranged at the outer end of the main shaft, the inner end of the main shaft rotatably penetrates into the transmission case and is fixed with a driven bevel gear meshed with the driving bevel gear, the second winding drum component comprises a winding drum main shaft rotatably installed on the support and discs fixed at two ends of the winding drum main shaft, and the traction rope, and a driving handle is fixed on the disc above the second winding drum assembly, and a limiting part for limiting the rotation of the driving handle is arranged on the front side wall of the storage box.

Furthermore, a guide ring for guiding the traction rope is fixed on the bottom support plate.

Further, be provided with on the bottom support plate and be used for driving fluted disc pivoted rack subassembly down, the rack subassembly includes controller, electric telescopic handle and driving rack, electric telescopic handle's shell is fixed on the bottom support plate, the driving rack passes through anchor clamps to be fixed at electric telescopic handle's push rod tip, and driving rack and lower fluted disc meshing, controller and electric telescopic handle's driving motor electric connection, be provided with the control switch who is connected with controller remote communication on the support.

Further, the pneumatic conveying mechanism comprises a feeder, a pneumatic material box and a Roots blower, the feeder is arranged at a material outlet of the bottom of the material storage box, the pneumatic material box is arranged at the bottom of the feeder, one side of the pneumatic material box is connected with at least one discharging pipe joint, the discharging pipe joint is connected with one end of a feed conveying pipe, a control valve is arranged on the discharging pipe joint, and the Roots blower is arranged at the other side of the pneumatic material box and is communicated with an inner cavity of the pneumatic material box.

Further, throw the material mechanism including throw material motor, a supporting cylinder and rotatory stub bar of throwing, the supporting cylinder is vertical to be fixed on a backup pad, rotatory stub bar of throwing is rotationally installed in the upper end of a supporting cylinder, throw the material motor and fix the lower surface at a backup pad, and the output shaft of throwing the material motor passes a supporting cylinder and throws the stub bar with the rotation and be connected, rotatory overhead circumference of throwing is provided with many play feed cylinders of different sizes, supporting cylinder one end is provided with the pan feeding coupling, and the pan feeding coupling is connected with the fodder conveyer pipe other end.

According to the invention, by arranging the front driving mechanism and the manual control mechanism and changing the coiling degree of the traction rope in the manual control mechanism, the upper disc in the first winding cylinder assembly can rotate in a single direction and drive the propeller assembly to rotate, so that the floating frame assembly moves forwards under the thrust of the propeller blade, and meanwhile, the lower fluted disc in the first winding cylinder assembly can rotate left and right by matching with the remote control switch, so that the propeller assembly is driven to rotate left and right to change the direction of the thrust, and finally, the floating direction of the floating frame assembly is changed. The floating frame assembly is driven to move forwards to the appointed feeding position in the fishpond or the fishpond in a manual remote control mode, so that the labor intensity is reduced to a certain extent, the problem that certain potential safety hazards exist due to the fact that the floating frame assembly is too close to the floating frame assembly is avoided, and the difficulty of controlling the floating frame assembly is greatly reduced through ingenious structural design.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a partial schematic structural view of the present invention;

FIG. 3 is another schematic structural view of a portion of the present invention;

fig. 4 is a schematic view of the internal structure of the propeller assembly of the present invention.

The labels in the figure are: 1-a material storage box; 2-a floating frame assembly; 3-an air conveying mechanism; 4-a feed output pipe; 5-feeding mechanism; 6-a first winding drum assembly; 7-a propeller assembly; 8-a rack assembly; 9-a second winding drum assembly; 21-bottom support plate; 22-a top support plate; 23-a support bar; 24-a coupling joint; 25-a floating ball; 26-a guide ring; 31-a blanking device; 32-a wind box; 33-roots blower; 34-a discharge pipe joint; 35-a control valve; 51-a feeding motor; 52-rotating the feeding head; 53-discharge cylinder; 54-feeding pipe joint; 61-upper disc; 62-a drive shaft; 63-a bearing; 64-a lower fluted disc; 65-drive bevel gear; 71-a transmission case; 72-driven bevel gear; 73-a main shaft; 74-propeller blades; 81-a controller; 82-an electric telescopic rod; 83-a clamp; 84-a drive rack; 91-a support; 92-a disc; 93-a drive handle; 94-control the switch.

Detailed Description

As shown in fig. 1 to 4, the pneumatic feeding type feeding machine provided in this embodiment includes a storage tank 1 and a floating frame assembly 2, a pneumatic feeding mechanism 3 for feed is installed at the bottom of the storage tank 1, the pneumatic feeding mechanism 3 includes a feeder 31, a pneumatic tank 32 and a roots blower 33, the feeder 31 is installed at a discharge port at the bottom of the storage tank 1, and the pneumatic tank 32 is installed at the bottom of the feeder 31. One end of the discharge pipe joint 34 is connected with the feed conveying pipe 4, a manual control valve 35 is installed on the discharge pipe joint 34, the Roots blower 33 is installed on the other side of the air box 32, an air outlet of the Roots blower 33 is communicated with an inner cavity of the air box 32, a corresponding button switch of the electric control box on the material storage box 1 is operated, a material sealing blade inside the material discharging device 31 starts to rotate, feed quantitatively falls into the air box 32, and then the feed enters the feed conveying pipe 4 from the air box 32 to be conveyed on the negative pressure wind power generated by the Roots blower 33.

Install on the floating frame assembly 2 and throw material mechanism 5, floating frame assembly 2 includes bottom support plate 21, top backup pad 22 and sets up bracing piece 23 between bottom support plate 21 and top backup pad 22, and whole floating frame assembly 2 is positive trapezoidal form, four edges of bottom support plate 21 all are provided with floater 25, specifically, four edges welding of bottom support plate 21 have the connecting axle, and the floater 25 top is fixed with coupling joint 24, and floater 25 passes through coupling joint 24 and connecting axle fixed connection. Throw material mechanism 5 and install on a backup pad 22, throw material mechanism 5 including throw material motor 51, a supporting cylinder and rotatory stub bar 52 of throwing, the supporting cylinder is vertical to be fixed on a backup pad 22, rotatory stub bar 52 of throwing is rotationally installed in the upper end of a supporting cylinder, throw material motor 51 and fix the lower surface at a backup pad 22, and throw the output shaft of material motor 51 and pass the supporting cylinder and throw stub bar 52 inner chamber fixed surface and be connected with the rotation, the circumference is provided with six play feed cylinders 53 different in size on the rotatory stub bar 52 of throwing, supporting cylinder one end is provided with pan feeding pipe joint 54, and the fodder conveyer pipe 4 other end is connected with pan feeding pipe joint 54. The fodder that is carried to in the fodder conveyer pipe 4 by negative pressure wind-force enters into the inner chamber that supports a section of thick bamboo and rotatory stub bar 52 of throwing through pan feeding coupling 54, then the fodder is thrown into under the effect of centrifugal force and carries out the ejection of compact to different play feed cylinders 53, because six play feed cylinders 53 direction and length are inequality, can cover the operation of shedding of great area scope.

In order to better control the floating position of the floating frame assembly 2 in the fishpond, a front driving mechanism for the floating frame assembly 2 is installed on the bottom support plate 21, the front driving mechanism comprises a first winding drum assembly 6 and a propeller assembly 7, the first winding drum assembly 6 is rotatably installed on the upper surface of the bottom support plate 21, the propeller assembly 7 is installed on the lower surface of the bottom support plate 21 and is in linkage connection with the first winding drum assembly 6, specifically, the first winding drum assembly 6 comprises a winding drum main shaft, an upper circular disc 61 fixed at the upper end of the winding drum main shaft and a lower fluted disc 64 rotatably installed at the lower end of the winding drum main shaft through a bearing 63 and an end cover, a transmission case 71 with good sealing performance is fixed on the lower surface of the lower fluted disc 64, the transmission case 71 rotatably penetrates through the bottom support plate 21, the winding drum main shaft of the first winding drum assembly 6 is provided with a through hole along the central axis thereof, and a transmission shaft 62 is assembled in the through hole, the lower end of the transmission shaft 62 penetrates into the transmission box 71 and is fixed with a driving bevel gear 65, the propeller blade assembly 7 comprises a main shaft 73 and a propeller blade 74 arranged at the outer end of the main shaft 73, the inner end of the main shaft 73 rotatably penetrates into the transmission box 71 through a bearing and is fixed with a driven bevel gear 72 meshed with the driving bevel gear 65, when the upper disc 61 drives the transmission shaft 62 to rotate, the driving bevel gear 65 drives the driven bevel gear 72 to rotate, so that the propeller blade 74 rotates, the whole transmission box 71 is submerged in the water, and thrust generated by interaction between the rotation of the propeller blade 74 and the water can push the whole floating frame assembly 2 to slowly move forward.

In order to realize remote manual control, a manual control mechanism which is used for the floating frame assembly 2 and is connected with the front drive mechanism is installed on the storage box 1, the manual control mechanism comprises a support 91 and a second winding drum assembly 9 which is rotatably installed on the support 91, the support 91 is fixed on the front side wall of the storage box 1, and a traction rope (not shown) is connected between the second winding drum assembly 9 and the first winding drum assembly 6. Specifically, the second winding cylinder assembly 9 includes a winding cylinder main shaft rotatably mounted on the support 91 through a bearing and disks 92 fixed at two ends of the winding cylinder main shaft, the traction rope is fixed between the winding cylinder main shaft of the first winding cylinder assembly 6 and the winding cylinder main shaft of the second winding cylinder assembly 9, in order to keep the second winding cylinder assembly 9 stable after the traction rope is wound to a certain degree, a driving handle 93 is fixed on the upper disk 92 in the second winding cylinder assembly 9, a limiting member for limiting the rotation of the driving handle 93 is provided on the front side wall of the storage tank 1, in this embodiment, the limiting member is a bendable L-shaped rod, when the limiting member is bent, the driving handle 93 is allowed to pass through, and when the limiting member is straight, the movement path of the driving handle 93 is blocked and cannot pass through. The haulage rope coils in advance on the reel main shaft of first winding barrel subassembly 6, when the floating frame assembly 2 moves ahead, the haulage rope is pulled out, it is rotatory along the direction that the haulage rope was pulled out to go up disc 61 this moment, then drive propeller blade 74 is rotatory and drive floating frame assembly 2 and move ahead, when the power of moving ahead is not enough, the haulage rope on the first winding barrel subassembly 6 is pulled out fast to the accessible rotation driving handle 93, reach the mesh that the quick drive floating frame assembly 2 moved ahead, when the floating frame assembly 2 moved ahead in place, prevent that floating frame assembly 2 from continuing to move ahead too much distance, can change the locating part state, prevent that second winding barrel subassembly 9 from continuing to receive and wind the haulage rope. In order to maintain a stable storage direction of the traction rope, a guide ring 26 for guiding the traction rope is fixed to the bottom support plate 21.

When the floating frame assembly 2 needs to change the forward direction of the floating frame assembly 2 when the floating frame assembly 2 moves forward, the bottom support plate 21 is provided with a rack assembly 8 for driving the lower fluted disc 64 to rotate, the rack assembly 8 comprises a controller 81, an electric telescopic rod 82 and a transmission rack 84, the shell of the electric telescopic rod 82 is fixed on the bottom support plate 21, the transmission rack 84 is fixed at the end part of the push rod of the electric telescopic rod 82 through a clamp 83, the transmission rack 84 is meshed with the lower fluted disc 64, the controller 81 is electrically connected with a driving motor of the electric telescopic rod 82, the bracket 91 is provided with a control switch 94 connected with the controller 81 through Bluetooth remote communication, the controller 81 receives a corresponding instruction and drives the electric telescopic rod 82 to extend and retract by pressing a corresponding operating button on the control switch 94, so that the lower fluted disc 64 rotates clockwise or counterclockwise by a certain angle, and finally the forward direction of the floating frame assembly 2 is changed by changing the direction of the propeller blade 74, of course, power for the controller 81 and associated motors is provided by a battery, which may be provided on the side of the bottom support plate 21 remote from the controller 81 to maintain balance.

The working process of the invention is as follows: the hauling rope is coiled on a winding drum main shaft of a first winding drum component 6 in advance, the floating frame assembly 2 is placed into a fishpond, a certain forward thrust is given, the hauling rope is started to be drawn, the floating frame assembly 2 keeps moving forward, meanwhile, the moving forward direction is controlled, the floating frame assembly 2 finally moves forward to a specified feeding position, if the distance of the specified position is about 30 meters, the length of the hauling rope is designed to be about 35 meters, the hauling rope moves forward to the right position, then the driving handle 93 is blocked, the second winding drum component 9 is prevented from continuing to rotate, the floating frame assembly 2 stably floats at the feeding position for feeding, when the position of the floating frame assembly 2 needs to be changed in a small distance, the hauling rope is continuously pulled, all the hauling rope is coiled on the second winding drum component 9, therefore, the floating position of the floating frame assembly 2 can be changed in a small range by shaking the hauling rope in the same direction to generate a certain lateral tension, and after the feeding is finished, and continuously pulling back the traction rope, and slowly pulling back the floating ball assembly 2.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any modification and replacement based on the technical solution and inventive concept provided by the present invention should be covered within the scope of the present invention.

Claims (6)

1. Air-assisted feeder, including storage case and floating frame assembly, the air-assisted mechanism that is used for the fodder is installed to storage bottom of the case portion, install on the floating frame assembly and throw the material mechanism, air-assisted mechanism and throw and be connected with fodder conveyer pipe, its characterized in that between the material mechanism: the floating frame assembly comprises a bottom supporting plate, a top supporting plate and a supporting rod arranged between the bottom supporting plate and the top supporting plate, a floating ball is arranged at each corner of the bottom supporting plate, the feeding mechanism is arranged on the top supporting plate, a front driving mechanism for the floating frame assembly is arranged on the bottom supporting plate, and a manual control mechanism for the floating frame assembly and connected with the front driving mechanism is arranged on the storage tank;

the front driving mechanism comprises a first winding drum component and a propeller component, the first winding drum component is rotatably installed on the upper surface of the bottom supporting plate, the propeller component is installed on the lower surface of the bottom supporting plate and is in linkage connection with the first winding drum component, the manual control mechanism comprises a support and a second winding drum component rotatably installed on the support, the support is fixed on the front side wall of the storage box, and a traction rope is connected between the second winding drum component and the first winding drum component.

2. The air-assisted feeder of claim 1, wherein: the first winding drum component comprises a winding drum main shaft, an upper disc fixed at the upper end of the winding drum main shaft and a lower fluted disc rotatably installed at the lower end of the winding drum main shaft, a transmission case is fixed on the lower surface of the lower fluted disc, the transmission case rotatably penetrates through the bottom supporting plate, a through hole is formed in the winding drum main shaft along the central axis of the winding drum main shaft, a transmission shaft is fixed in the through hole, the lower end of the transmission shaft penetrates into the transmission case and is fixed with a driving bevel gear, the propeller component comprises a main shaft and a propeller blade arranged at the outer end of the main shaft, the inner end of the main shaft rotatably penetrates into the transmission case and is fixed with a driven bevel gear meshed with the driving bevel gear, the second winding drum component comprises a winding drum main shaft rotatably installed on the support and discs fixed at two ends of the winding drum main shaft, and the traction rope is fixed between the winding drum main shaft of the first winding drum component and the winding drum main shaft of the second winding drum component, and a driving handle is fixed on the disc above the second winding drum assembly, and a limiting part for limiting the rotation of the driving handle is arranged on the front side wall of the storage box.

3. The air-assisted feeder of claim 1, wherein: and a guide ring for guiding the traction rope is fixed on the bottom support plate.

4. An air-fed batch feeder according to claim 2, characterised in that: be provided with on the bottom support plate and be used for driving fluted disc pivoted rack subassembly down, rack subassembly includes controller, electric telescopic handle and driving rack, electric telescopic handle's shell is fixed on the bottom support plate, driving rack passes through anchor clamps to be fixed at electric telescopic handle's push rod tip, and driving rack and lower fluted disc meshing, controller and electric telescopic handle's driving motor electric connection, be provided with the control switch who is connected with controller remote communication on the support.

5. The air-assisted feeder of claim 1, wherein: the pneumatic conveying mechanism comprises a feeder, a pneumatic material box and a Roots blower, the feeder is arranged at a material outlet at the bottom of the material storage box, the pneumatic material box is arranged at the bottom of the feeder, one side of the pneumatic material box is connected with at least one discharging pipe joint, the discharging pipe joint is connected with one end of a feed conveying pipe, a control valve is arranged on the discharging pipe joint, and the Roots blower is arranged at the other side of the pneumatic material box and is communicated with an inner cavity of the pneumatic material box.

6. The air-assisted feeder of claim 1, wherein: throw material mechanism and throw the stub bar including throwing material motor, a supporting cylinder and rotation, and the supporting cylinder is vertical to be fixed on a backup pad, the stub bar is rotationally installed in the upper end of a supporting cylinder to rotatory throwing, throw the material motor and fix the lower surface at a backup pad, and the output shaft of throwing the material motor passes a supporting cylinder and throws the stub bar with rotatory and be connected, rotatory overhead circumference of throwing is provided with many discharge barrels not of uniform length, supporting cylinder one end is provided with the pan feeding coupling, and the pan feeding coupling is connected with the fodder conveying pipe other end.

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