CN210503273U - Fodder filling car - Google Patents

Abstract

The utility model relates to a feed filling vehicle, which comprises a back frame, a crosspiece, a bottom beam, a tripod, a roller, a top frame, a separation pipe, a back pipe, a top beam, a side bar, a connecting beam, a first square cone hopper, a second square cone hopper, a sieve frame, a clapboard, a first triangular beam, a feeding component, a storage component, a weighing component and a blanking component; the utility model adopts a two-stage blanking mode of coarse feeding and fine feeding, accurately controls the blanking flow, quickly completes the weighing step, and is in place once, thereby greatly improving the filling precision; and can self-holding wrapping bag sack, reduce intensity of labour, conveniently use.

Description

Fodder filling car

Technical Field

The utility model relates to a fodder filling car.

Background

The feed is a general term of food of all people feeding animals, the feed production needs to be processed through a plurality of processing procedures, the processed feed also needs to be bagged in a filling vehicle, the existing feed filling vehicle always adopts a large-flow feeding mode, the flow is difficult to accurately control in the weighing process, the overflow or the lack of the feed is often caused, and the filling precision is low; and during bagging, the bag opening of the packaging bag is supported manually, so that the labor intensity is high, the use is inconvenient, and further improvement is to be realized.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that an adopt two segmentation unloading modes with accurate control unloading flow, improved filling precision and speed greatly to ability self-holding wrapping bag sack is in order to reduce intensity of labour, the fodder filling car that conveniently uses is provided.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a feed filling vehicle comprises a back frame, a crosspiece, a bottom beam, a triangular frame, rollers, a top frame, a separation pipe, a back pipe, a top beam, side strips, a connecting beam, a first square cone hopper, a second square cone hopper, a sieve frame, a partition plate, a first triangular beam, a feeding assembly, a storage assembly, a weighing assembly and a blanking assembly; the upper end of the back frame is fixed with a top frame, the lower end of the back frame is fixed with two bottom beams which are symmetrically and transversely distributed, the rear side of the back frame is fixed with two tripods which are symmetrically distributed, the lower parts of the two tripods and the outer sides of the front ends of the two bottom beams are respectively provided with a rotatable roller, the upper end of the back frame is characterized in that the left side and the right side of the upper end of the top frame are fixed with two top beams which are symmetrically and parallelly distributed, two side bars which are symmetrically and parallelly distributed are fixed between the two top beams, two connecting beams which are symmetrically and parallelly distributed are also fixed between the two top beams and are respectively arranged at the outer sides of the two side bars, the lower end opening of the first square cone bucket is fixed on the upper side surfaces of the two top beams and the two side bars, the upper end opening of the first square cone bucket is fixed with a screen frame, a first triangular beam which is transversely distributed and two clapboards which are symmetrically and vertically distributed, the first triangular beam is arranged between two partition plates, two symmetrically distributed feeding assemblies are arranged below an opening at the lower end of the first square conical hopper, a vertically distributed separation pipe is fixed in the middle of each of the front side and the rear side of the top frame, a transversely distributed back pipe is fixed on the inner side of each separation pipe, two symmetrically distributed weighing units are arranged between the two back pipes, each weighing unit comprises two symmetrically distributed weighing assemblies, a material storage assembly is arranged between the two weighing assemblies on each weighing unit, and the two material storage assemblies are respectively arranged below the two feeding assemblies; and a second square conical hopper is fixed at the lower end of the top frame, and a blanking assembly is arranged at an opening at the lower end of the second square conical hopper.

Preferably, the feeding assembly comprises a feed hopper, a first side plate, an arc-shaped valve plate, a regulating valve plate, a rack bar, a supporting pipe, a first driving assembly and a guide assembly; two symmetrically distributed feed hoppers are fixed on the lower side surfaces of the two top beams and the two side strips, the two feed hoppers are respectively arranged on two sides below the first triangular beam, a rotatable first side plate is arranged on each of the front side and the rear side of each feed hopper, an arc-shaped valve plate is fixed between the lower sides of the two first side plates on each feed hopper, and a slidable adjusting valve plate is arranged on the outer side below each arc-shaped valve plate; the lower sides of the two connecting beams are respectively provided with a first driving assembly, the left side and the right side of the rear part of the top frame are respectively fixed with a frame strip which is transversely distributed forwards, and a supporting tube is fixed between the two frame strips; the trusteeship is provided with two guiding components that the symmetry distributes, two guiding component links to each other with a first curb plate of two feeder hopper rear sides respectively.

Preferably, the first driving assembly comprises a first U-shaped plate, a first speed reducer, a first motor, a first driving shaft, a first swinging plate and a first gas supporting rod; first U template is fixed on the downside side of tie-beam, the inside of first U template is fixed with first reduction gear, the below of first reduction gear is provided with first motor, the axis of rotation of first motor links to each other with the input of first reduction gear, it is provided with transverse distribution's first drive shaft to alternate in the output of first reduction gear, the both ends of first drive shaft all are fixed with the first swing board of a mutual symmetric distribution, two the outside of first swing board all is provided with the first gas bracing piece of a mutual symmetric distribution, two the outer end at two first swing boards, two are connected in that the stiff end of first gas bracing piece is rotatable respectively the outside of two first curb plates of rotatable connection on same feeder hopper of flexible end difference of first gas bracing piece.

Preferably, the guide assembly comprises a guide rod, an adapter plate, a screw and a nut; the supporting tube is provided with two symmetrically distributed transverse grooves, two inclined grooves which are distributed obliquely upwards are formed at two ends of each transverse groove, a screw rod is inserted and connected into each transverse groove, the inner ends of the two screw rods are fixed with an adapter plate, the inner sides of the two adapter plates are fixed with transversely distributed guide rods, and the inner ends of the two guide rods are respectively fixed on a first side plate at the rear side of the two feed hoppers; each screw rod is sleeved with two nuts in threaded connection, and the two nuts are respectively arranged on two sides of the supporting pipe.

Preferably, be formed with the triangle roof beam of second between the lower extreme front and back both sides inner wall of feeder hopper, the upside of triangle roof beam of second all is formed with a separation plate, be fixed with the slide of two symmetries and slope distribution between the right side inner wall of separation plate and feeder hopper, correspondingly, the right side edge of arc valve plate is seted up jaggedly, the position of breach and the position of two slide downside are mutually supported, adjust the valve plate setting in the below of breach.

Preferably, the weighing assembly comprises a hanging frame, a weighing sensor, a connecting frame, a support, a pull rod and a first pull ring; the hanging rack is fixed on the inner side of the back pipe, weighing sensors which are transversely distributed are fixed on the inner side of the hanging rack, a connecting frame is fixed on the sensing end of each weighing sensor, two first pull rings which are vertically distributed are arranged at the lower end of the connecting frame, one pull rod which is transversely distributed is inserted into the lower end of each first pull ring, and the two pull rods are fixed on the support.

Preferably, the storage assembly comprises a storage hopper, a discharge plate, a rotating rod, a reinforcing plate, a second pull ring, a threaded seat, a bolt and a second driving assembly; the two weighing components are respectively fixed on the front side and the rear side of the storage hopper, the inner side of the lower end of the storage hopper is provided with an inclined bottom, the outer side of the lower end of the storage hopper is provided with an inclined opening, a discharging plate which is obliquely distributed is arranged below the inclined opening, the front side and the rear side of the discharging plate are respectively upwards provided with a second side plate, a transversely-distributed rotating rod is inserted and connected between the lower sides of the outer sides of the two second side plates, the rotating rod is sleeved with two vertically-distributed and rotatable second pull rings, the outer side of the storage hopper is fixedly provided with two symmetrically-distributed screw thread seats, two vertically-distributed bolts are inserted and screwed in the two screw thread seats, the lower ends of the two bolts are respectively fixed at the upper ends of the two second pull rings, the two second pull rings are respectively arranged at the inner sides of the two second side plates, and two symmetrically-distributed reinforcing plates are further sleeved and fixed on the, the two reinforcing plates are respectively arranged on the inner sides of the two second side plates and the outer sides of the two second pull rings; the lower sides of the two reinforcing plates are fixed on the outer side of the bottom surface of the discharging plate; the second drive assembly is disposed between the two second side plates.

Preferably, the second driving assembly includes a second motor, a second reducer, a support plate, a bearing housing, a second driving shaft, a second swing plate, and a second gas support rod; a second speed reducer is fixed on the outer side of the storage hopper, a second motor is fixed above the second speed reducer, a rotating shaft of the second motor is connected with an input end of the second speed reducer, a transversely-distributed second driving shaft is inserted into an output end of the second speed reducer, two ends of the second driving shaft are respectively fixed with a second swinging plate which is symmetrically distributed with each other, second gas supporting rods which are symmetrically distributed with each other are respectively arranged outside the front side and the back side of the storage hopper, fixed ends of the two second gas supporting rods are respectively rotatably connected to the outer ends of the two second swinging plates, and telescopic ends of the two second gas supporting rods are respectively rotatably connected to the upper ends of the two second side plates; the cover is equipped with two bearing frames on the second drive shaft, two one side of bearing frame all is fixed with the backup pad of a vertical distribution, two the outside at the storage hopper is all fixed to the backup pad, two an open slot has all been seted up in the outside of backup pad, the second drive shaft alternates through the open slot in two backup pads.

Preferably, the blanking assembly comprises a second U-shaped plate, a third speed reducer, a third motor, a third swinging plate, a third driving shaft, a pull-down plate and a clamping assembly; the second U-shaped plate is fixed to the outer portion of the rear side of the second square conical hopper, a third U-shaped plate is fixed to the lower end of the second U-shaped plate, a third speed reducer is fixed to the inner portion of the third U-shaped plate, a third motor is fixed to the upper portion of the third speed reducer, a rotating shaft of the third motor is connected with the input end of the third speed reducer, and a third driving shaft which is transversely distributed is arranged in the output end of the third speed reducer in an inserting mode; the outer sides of two ends of the third driving shaft are respectively provided with a third swinging plate which is symmetrically distributed, the front side and the rear side of the second square cone hopper are respectively fixed with a lower pulling plate which is symmetrically distributed, a clamping component is arranged between one lower pulling plate and one third swinging plate which are on the same side, and two ends of the two third driving shafts are respectively fixed at the centers of the two third swinging plates.

Preferably, the clamping assembly comprises a short rod, a long rod, a driving rod, a bearing plate, an arc-shaped clamping strip, a sleeve ring and an arc-shaped supporting strip; the lower pulling plate is provided with two driving rods which are symmetrically distributed, the upper ends of the two driving rods are respectively rotatably connected to the left end and the right end of the lower pulling plate, one end of the short rod is rotatably connected to the middle part of one driving rod, one end of the long rod is rotatably connected to the middle part of the other driving rod, the other ends of the short rod and the long rod are respectively rotatably connected to the two ends of the third swinging plate, the lower ends of the two driving rods are respectively fixed with a bearing plate, arc-shaped clamping strips which are symmetrically distributed mutually are respectively fixed between the two bearing plates on the left side and between the two bearing plates on the right side, a plurality of vertical lantern rings which are equidistantly distributed are sleeved and fixed at the outer side of the opening of the lower end of the second square conical hopper, and two arc-shaped supporting strips which are symmetrically distributed; the two arc-shaped clamping strips are respectively arranged on the front side and the rear side of the plurality of lantern rings.

Compared with the prior art, the utility model has the advantages of: the utility model adopts a two-stage blanking mode of coarse feeding and fine feeding, accurately controls the blanking flow, quickly completes the weighing step, and is in place once, thereby greatly improving the filling precision; and can self-holding wrapping bag sack, reduce intensity of labour, conveniently use.

Drawings

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

FIG. 2 is a position view of the partition plate and the first triangular beam of the present invention;

FIG. 3 is a block diagram of the feed assembly of the present invention;

FIG. 4 is a top view of the feed hopper of the present invention;

FIG. 5 is a lower structure view of the feeding hopper of the present invention;

FIG. 6 is a structural diagram of the arc valve plate of the present invention;

fig. 7 is a structural view of the guide assembly of the present invention;

FIG. 8 is a schematic diagram of the storage and weighing assemblies of the present invention;

fig. 9 is a structural diagram of the blanking assembly of the present invention.

Detailed Description

As shown in fig. 1 to 9, a feed filling vehicle comprises a back frame 3, a crosspiece 2, a bottom beam 1, a triangular frame 4, rollers 5, a top frame 6, a separation tube 7, a back tube 8, a top beam 9, side bars 10, a connecting beam 16, a first square cone hopper 11, a second square cone hopper 51, a sieve plate frame 12, a partition plate 13, a first triangular beam 14, a feeding assembly, a storage assembly, a weighing assembly and a blanking assembly; an upper frame 6 is fixed at the upper end of a back frame 3, two symmetrical and transversely distributed bottom beams 1 are fixed at the lower end of the back frame 3, two symmetrically distributed tripods 4 are fixed at the rear side of the back frame 3, a rotatable roller 5 is respectively arranged below the two tripods 4 and at the outer side of the front end of the two bottom beams 1, two top beams 9 symmetrically distributed in parallel are fixed at the left and right sides of the upper end of the upper frame 6, two side bars 10 symmetrically distributed in parallel are fixed between the two top beams 9, two connecting beams 16 symmetrically distributed in parallel are fixed between the two top beams 9, the two connecting beams 16 are respectively arranged at the outer sides of the two side bars 10, a lower end opening of a first square cone bucket 11 is fixed on the upper side surfaces of the two top beams 9 and the two side bars 10, a sieve plate frame 12 is fixed at an upper end opening of the first square cone bucket 11, a transversely distributed first triangular beam 14 and two symmetrical and two partition plates 13 vertically distributed are fixed between the front inner wall and the rear wall of the first, the first triangular beam 14 is arranged between the two partition plates 13, two symmetrically distributed feeding assemblies are arranged below the lower end opening of the first square conical hopper 11, the middle parts of the front side and the rear side of the top frame 6 are respectively fixed with a vertically distributed separation pipe 7, the inner side of each separation pipe 7 is respectively fixed with a transversely distributed back pipe 8, two symmetrically distributed weighing units are arranged between the two back pipes 8, each weighing unit comprises two symmetrically distributed weighing assemblies, a material storage assembly is arranged between the two weighing assemblies on each weighing unit, and the two material storage assemblies are respectively arranged below the two feeding assemblies; a second square conical hopper 51 is fixed at the lower end of the top frame 6, and a blanking assembly is arranged at an opening at the lower end of the second square conical hopper 51; the feeding assembly comprises a feed hopper 15, a first side plate 23, an arc-shaped valve plate 24, a regulating valve plate 66, a frame strip 29, a supporting pipe 30, a first driving assembly and a guide assembly; two symmetrically distributed feed hoppers 15 are fixed on the lower side surfaces of the two top beams 9 and the two side strips 10, the two feed hoppers 15 are respectively arranged on two sides below the first triangular beam 14, the front side and the rear side of each feed hopper 15 are respectively provided with a rotatable first side plate 23, an arc valve plate 24 is fixed between the lower sides of the two first side plates 23 on each feed hopper 15, and the outer side below each arc valve plate 24 is provided with a slidable adjusting valve plate 66; the lower sides of the two connecting beams 16 are respectively provided with a first driving assembly, the left side and the right side of the rear part of the top frame 6 are respectively fixed with a frame strip 29 which is transversely distributed forwards, and a supporting pipe 30 is fixed between the two frame strips 29; the supporting tube 30 is provided with two symmetrically distributed guide components which are respectively connected with a first side plate 23 at the rear side of the two feed hoppers 15; the first driving assembly comprises a first U-shaped plate 17, a first speed reducer 18, a first motor 19, a first driving shaft 20, a first swinging plate 21 and a first gas supporting rod 22; the first U-shaped plate 17 is fixed on the lower side surface of the connecting beam 16, a first speed reducer 18 is fixed inside the first U-shaped plate 17, a first motor 19 is arranged below the first speed reducer 18, a rotating shaft of the first motor 19 is connected with an input end of the first speed reducer 18, a first driving shaft 20 which is transversely distributed is inserted into an output end of the first speed reducer 18, first oscillating plates 21 which are symmetrically distributed with each other are fixed at two ends of the first driving shaft 20, first gas supporting rods 22 which are symmetrically distributed with each other are arranged on the outer sides of the two first oscillating plates 21, fixed ends of the two first gas supporting rods 22 are respectively rotatably connected to the outer ends of the two first oscillating plates 21, and telescopic ends of the two first gas supporting rods 22 are respectively rotatably connected to the outer sides of the two first side plates 23 on the same feed hopper 15; the guide assembly comprises a guide rod 25, an adapter plate 26, a screw 27 and a nut 28; the supporting tube 30 is provided with two symmetrically distributed transverse grooves 3001, two ends of each transverse groove 3001 are respectively provided with an inclined groove 3002 which is obliquely and upwardly distributed, a screw 27 is respectively inserted and connected into each of the two transverse grooves 3001, the inner ends of the two screws 27 are respectively fixed with an adapter plate 26, the inner sides of the two adapter plates 26 are respectively fixed with a transversely distributed guide rod 25, and the inner ends of the two guide rods 25 are respectively fixed on a first side plate 23 at the rear side of the two feed hoppers 15; each screw 27 is sleeved with two nuts 28, and the two nuts 28 are respectively arranged on two sides of the supporting pipe 30; a second triangular beam 151 is formed between the inner walls of the front side and the rear side of the lower end of the feed hopper 15, a separating plate 152 is formed on the upper side of each second triangular beam 151, two symmetrical and obliquely distributed sliding plates 153 are fixed between each separating plate 152 and the inner wall of the right side of the feed hopper 15, correspondingly, a notch 241 is formed in the edge of the right side of the arc-shaped valve plate 24, the position of the notch 241 is matched with the positions of the lower sides of the two sliding plates 153, and the adjusting valve plate 66 is arranged below the notch 241; the weighing assembly comprises a hanging frame 32, a weighing sensor 37, a connecting frame 33, a support 34, a pull rod 35 and a first pull ring 36; the hanging rack 32 is fixed on the inner side of the back tube 8, the weighing sensors 37 which are transversely distributed are fixed on the inner side of the hanging rack 32, the connecting frame 33 is fixed on the sensing end of each weighing sensor 37, two first pull rings 36 which are vertically distributed are arranged at the lower end of each connecting frame 33, one pull rod 35 which is transversely distributed is inserted into the lower ends of each first pull ring 36, and the two pull rods 35 are fixed on the support 34; the storage assembly comprises a storage hopper 38, a discharge plate 39, a rotating rod 40, a reinforcing plate 31, a second pull ring 36, a threaded seat 42, a bolt 43 and a second driving assembly; the supports 34 in the two weighing assemblies are respectively fixed on the front and rear side surfaces of the storage hopper 38, the inner side of the lower end of the storage hopper 38 is provided with an inclined bottom 382, the outer side of the lower end of the storage hopper 38 is provided with an inclined opening 381, a discharging plate 39 which is distributed in an inclined manner is arranged below the inclined opening 381, the front and rear sides of the discharging plate 39 are respectively provided with a second side plate 391 upwards, a rotating rod 40 which is distributed transversely is inserted and connected between the lower sides of the outer sides of the two second side plates 391, the rotating rod 40 is sleeved with two second pull rings 36 which are vertically distributed and rotatable, the outer side of the storage hopper 38 is fixed with two screw thread seats 42 which are distributed symmetrically, a bolt 43 which is vertically distributed is inserted and screwed in each screw thread seat 42, the lower ends of the two bolts 43 are respectively fixed on the upper ends of the two second pull rings 36, the two second pull rings 36 are respectively arranged on the inner sides of the two second side plates, the two reinforcing plates 31 are respectively arranged on the inner sides of the two second side plates 391 and the outer sides of the two second pull rings 36; the lower sides of the two reinforcing plates 31 are fixed on the outer side of the bottom surface of the discharging plate 39 so as to play a reinforcing role and prevent the discharging plate 39 from deforming; a second driving assembly is disposed between the two second side plates 391, the second driving assembly including a second motor 48, a second reducer 49, a support plate 44, a bearing housing 45, a second driving shaft 46, a second swing plate 47, and a second gas support rod 50; a second speed reducer 49 is fixed on the outer side of the storage hopper 38, a second motor 48 is fixed above the second speed reducer 49, a rotating shaft of the second motor 48 is connected with an input end of the second speed reducer 49, a second driving shaft 46 which is transversely distributed is inserted into an output end of the second speed reducer 49, two ends of the second driving shaft 46 are respectively fixed with a second swinging plate 47 which is symmetrically distributed, second gas supporting rods 50 which are symmetrically distributed are respectively arranged outside the front side and the back side of the storage hopper 38, fixed ends of the two second gas supporting rods 50 are respectively rotatably connected with the outer ends of the two second swinging plates 47, and telescopic ends of the two second gas supporting rods 50 are respectively rotatably connected with the upper ends of the two second side plates 391; the second driving shaft 46 is sleeved with two bearing seats 45, one side of each bearing seat 45 is fixed with a supporting plate 44 which is vertically distributed, the two supporting plates 44 are fixed on the outer sides of the storage hopper 38, the outer sides of the two supporting plates 44 are respectively provided with an open groove 441, and the second driving shaft 46 penetrates through the open grooves 441 on the two supporting plates 44; the blanking assembly comprises a second U-shaped plate 52, a third U-shaped plate 54, a third speed reducer 55, a third motor 53, a third swinging plate 56, a third driving shaft 64, a lower pull plate 65 and a clamping assembly; the second U-shaped plate 52 is fixed outside the rear side of the second square conical hopper 51, the lower end of the second U-shaped plate 52 is fixed with a third U-shaped plate 54, a third speed reducer 55 is fixed inside the third U-shaped plate 54, a third motor 53 is fixed above the third speed reducer 55, the rotating shaft of the third motor 53 is connected with the input end of the third speed reducer 55, and a third driving shaft 64 which is transversely distributed is inserted into the output end of the third speed reducer 55; the outer sides of the two ends of the third driving shaft 64 are respectively provided with a third swinging plate 56 which is symmetrically distributed, the front side and the rear side of the second square conical hopper 51 are respectively fixed with a lower pulling plate 65 which is symmetrically distributed, a clamping component is arranged between the lower pulling plate 65 and the third swinging plate 56 which are on the same side, and the two ends of the two third driving shafts 64 are respectively fixed at the centers of the two third swinging plates 56; the clamping assembly comprises a short rod 57, a long rod 58, a driving rod 59, a bearing plate 60, an arc-shaped clamping strip 61, a sleeve ring 62 and an arc-shaped supporting strip 63; two driving rods 59 which are symmetrically distributed are arranged on a lower pull plate 65, the upper ends of the two driving rods 59 are respectively and rotatably connected with the left end and the right end of the lower pull plate 65, one end of a short rod 57 is rotatably connected with the middle part of one driving rod 59, one end of a long rod 58 is rotatably connected with the middle part of the other driving rod 59, the other ends of the short rod 57 and the long rod 58 are respectively and rotatably connected with the two ends of a third swinging plate 56, the lower ends of the two driving rods 59 are respectively and fixedly provided with a bearing plate 60, arc-shaped clamping strips 61 which are symmetrically distributed mutually are respectively and fixedly arranged between the two bearing plates 60 on the left side and between the two bearing plates 60 on the right side, a plurality of lantern rings 62 which are vertically and equidistantly distributed are sleeved and fixed on the outer side of the opening at the lower end of the second square conical hopper; two arc-shaped clamping strips 61 are respectively arranged at the front side and the rear side of the plurality of lantern rings 62.

When in use: the bag mouth of the packaging bag is sleeved outside the plurality of lantern rings 62 and the two arc-shaped supporting strips 63 and is positioned inside the two arc-shaped clamping strips 61, the third motor 53 is started to rotate, and then the third driving shaft 64 is driven to rotate through the speed reduction effect of the third speed reducer 55, so that the two third swinging plates 56 are driven to rotate, the two driving rods 59 on the left side are driven to rotate inwards through the two short rods 57 respectively, and meanwhile, the two driving rods 59 on the right side are driven to rotate inwards through the two long rods 58 respectively, so that the two arc-shaped clamping strips 61 are driven to approach each other and clamp the bag mouth of the packaging bag outside the plurality of lantern rings 62; then, the finished feed is poured into the first square conical hopper 11 through the sieve frame 12, the finished feed falls due to gravity, is divided into three parts by the two partition plates 13, is divided into two parts by the first triangular beam 14 and falls into the two feed hoppers 15 respectively, the two first motors 19 are started to rotate, and then the two first driving shafts 20 are driven to rotate through the speed reduction action of the two first speed reducers 18 respectively, so that the first swing plates 21 at the two ends of each first driving shaft 20 are driven to rotate outwards, and further the two first side plates 23 are driven to rotate outwards through the two first gas supporting rods 22 respectively, so that the two arc-shaped valve plates 24 are driven to rotate outwards by a certain angle, and the finished feed on the inner sides of the separation plates 152 in each feed hopper 15 falls into the two storage hoppers 38 respectively, thereby realizing coarse feeding; as the amount of feed products in the storage bins 38 increases, the supports 34 on both sides of each storage bin 38 will drive the two pull rods 35 to move downward, and further pull the connecting frame 33 downwards through the two first pull rings 36, respectively, so as to pull the sensing end of the load cell 37 downwards, the load cell 37 will convert the pulling force applied to the sensing end into weight data, when the weight of the finished feed in the storage hopper 38 approaches the set value, the two first motors 19 are started to rotate reversely, and then, in accordance with the same principle, the two arc-shaped valve plates 24 are respectively driven to rotate inwards, thereby sealing the opening at the inner side of the separating plate 152, while the gap 241 is located below the two slide plates 153, the finished feed in the feed hopper 15 continues to fall through the gap 241 into the storage hopper 38, thereby achieving fine feeding, and sliding the regulating valve plate 66 to completely close the feeding when the weight of the finished feed in the storage hopper 38 reaches a set value; then, the second motor 48 is started to rotate, and then the second driving shaft 46 is driven to rotate in the two bearing seats 45 through the speed reduction action of the second speed reducer 49, so as to drive the two second swinging plates 47 respectively located at the two ends of the second driving shaft 46 to rotate inwards, and further the two second side plates 391 are driven to rotate through the two second gas supporting rods 50, so as to drive the discharging plate 39 to rotate downwards around the rotating rod 40, so as to enable the inclined openings 381 at the inner sides of the lower ends of the two storage hoppers 38 to be in an open state, so as to enable the finished feed in the two storage hoppers 38 to fall downwards in an inclined manner into the second square conical hopper 51 under the action of the inclined bottom 382 so as to prevent outward splashing, and finally the finished feed is filled into the packaging bag through the lower opening of the second square conical hopper 51, after the filling is completed, the third motor 53 is started to rotate reversely, so as to finally drive the two arc-shaped clamping strips 61 to be away, removing the packaging bag and sealing; when rotating, one of the first side plates 23 drives the guide rod 25 and the adapter plate 26 to rotate together, so as to drive the screw 27 to slide in the transverse slot 3001 and the two inclined slots 3002, and the two nuts 28 play a role in limiting; the bolt 43 is rotated in the threaded seat 42, so that the second pull ring 36 can be driven to move up and down by virtue of the principle of threaded connection, and the inclination angle of the discharging plate 39 is adjusted, so that finished feed can be better prevented from falling; the weighing sensor 37 is a conventional sensor, and can convert a mass signal into a measurable electric signal and output the signal; the first gas strut 22 and the second gas strut 50 are also known in the art, and are elastic elements using gas and liquid as working media.

The feed is a general term of food of all people feeding animals, the feed production needs to be processed through a plurality of processing procedures, the processed feed also needs to be bagged in a filling vehicle, the existing feed filling vehicle always adopts a large-flow feeding mode, the flow is difficult to accurately control in the weighing process, the overflow or the lack of the feed is often caused, and the filling precision is low; in addition, when bagging, the bag opening of the packaging bag is supported manually, so that the labor intensity is high, and the use is inconvenient; the utility model adopts a two-stage blanking mode of coarse feeding and fine feeding, accurately controls the blanking flow, quickly completes the weighing step, and is in place once, thereby greatly improving the filling precision; and can self-holding wrapping bag sack, reduce intensity of labour, conveniently use.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (10)

1. A feed filling vehicle comprises a back frame, a crosspiece, a bottom beam, a triangular frame, rollers, a top frame, a separation pipe, a back pipe, a top beam, side strips, a connecting beam, a first square cone hopper, a second square cone hopper, a sieve frame, a partition plate, a first triangular beam, a feeding assembly, a storage assembly, a weighing assembly and a blanking assembly; the upper end of the back frame is fixed with a top frame, the lower end of the back frame is fixed with two bottom beams which are symmetrically and transversely distributed, the rear side of the back frame is fixed with two tripods which are symmetrically distributed, the lower parts of the two tripods and the outer sides of the front ends of the two bottom beams are respectively provided with a rotatable roller, the upper end of the back frame is characterized in that the left side and the right side of the upper end of the top frame are fixed with two top beams which are symmetrically and parallelly distributed, two side bars which are symmetrically and parallelly distributed are fixed between the two top beams, two connecting beams which are symmetrically and parallelly distributed are also fixed between the two top beams and are respectively arranged at the outer sides of the two side bars, the lower end opening of the first square cone bucket is fixed on the upper side surfaces of the two top beams and the two side bars, the upper end opening of the first square cone bucket is fixed with a screen frame, a first triangular beam which is transversely distributed and two clapboards which are symmetrically and vertically distributed, the first triangular beam is arranged between two partition plates, two symmetrically distributed feeding assemblies are arranged below an opening at the lower end of the first square conical hopper, a vertically distributed separation pipe is fixed in the middle of each of the front side and the rear side of the top frame, a transversely distributed back pipe is fixed on the inner side of each separation pipe, two symmetrically distributed weighing units are arranged between the two back pipes, each weighing unit comprises two symmetrically distributed weighing assemblies, a material storage assembly is arranged between the two weighing assemblies on each weighing unit, and the two material storage assemblies are respectively arranged below the two feeding assemblies; and a second square conical hopper is fixed at the lower end of the top frame, and a blanking assembly is arranged at an opening at the lower end of the second square conical hopper.

2. The feed filling vehicle as claimed in claim 1, wherein the feeding assembly comprises a feed hopper, a first side plate, an arc-shaped valve plate, an adjusting valve plate, a rack bar, a support tube, a first driving assembly and a guiding assembly; two symmetrically distributed feed hoppers are fixed on the lower side surfaces of the two top beams and the two side strips, the two feed hoppers are respectively arranged on two sides below the first triangular beam, a rotatable first side plate is arranged on each of the front side and the rear side of each feed hopper, an arc-shaped valve plate is fixed between the lower sides of the two first side plates on each feed hopper, and a slidable adjusting valve plate is arranged on the outer side below each arc-shaped valve plate; the lower sides of the two connecting beams are respectively provided with a first driving assembly, the left side and the right side of the rear part of the top frame are respectively fixed with a frame strip which is transversely distributed forwards, and a supporting tube is fixed between the two frame strips; the trusteeship is provided with two guiding components that the symmetry distributes, two guiding component links to each other with a first curb plate of two feeder hopper rear sides respectively.

3. The feed filling vehicle as claimed in claim 2, wherein the first driving assembly comprises a first U-shaped plate, a first speed reducer, a first motor, a first driving shaft, a first swing plate and a first gas supporting rod; first U template is fixed on the downside side of tie-beam, the inside of first U template is fixed with first reduction gear, the below of first reduction gear is provided with first motor, the axis of rotation of first motor links to each other with the input of first reduction gear, it is provided with transverse distribution's first drive shaft to alternate in the output of first reduction gear, the both ends of first drive shaft all are fixed with the first swing board of a mutual symmetric distribution, two the outside of first swing board all is provided with the first gas bracing piece of a mutual symmetric distribution, two the outer end at two first swing boards, two are connected in that the stiff end of first gas bracing piece is rotatable respectively the outside of two first curb plates of rotatable connection on same feeder hopper of flexible end difference of first gas bracing piece.

4. The feed filling vehicle as claimed in claim 2, wherein the guide assembly comprises a guide rod, an adapter plate, a screw and a nut; the supporting tube is provided with two symmetrically distributed transverse grooves, two inclined grooves which are distributed obliquely upwards are formed at two ends of each transverse groove, a screw rod is inserted and connected into each transverse groove, the inner ends of the two screw rods are fixed with an adapter plate, the inner sides of the two adapter plates are fixed with transversely distributed guide rods, and the inner ends of the two guide rods are respectively fixed on a first side plate at the rear side of the two feed hoppers; each screw rod is sleeved with two nuts in threaded connection, and the two nuts are respectively arranged on two sides of the supporting pipe.

5. The feed filling vehicle as claimed in claim 4, wherein a second triangular beam is formed between the front and rear inner walls of the lower end of the feed hopper, a separating plate is formed on the upper side of each second triangular beam, two symmetrical and obliquely distributed sliding plates are fixed between the separating plate and the right inner wall of the feed hopper, correspondingly, a notch is formed in the edge of the right side of the arc-shaped valve plate, the position of the notch is matched with the position of the lower side of the two sliding plates, and the adjusting valve plate is arranged below the notch.

6. The feed filling vehicle as claimed in claim 1, wherein the weighing assembly comprises a hanging frame, a weighing sensor, a connecting frame, a support, a pull rod and a first pull ring; the hanging rack is fixed on the inner side of the back pipe, weighing sensors which are transversely distributed are fixed on the inner side of the hanging rack, a connecting frame is fixed on the sensing end of each weighing sensor, two first pull rings which are vertically distributed are arranged at the lower end of the connecting frame, one pull rod which is transversely distributed is inserted into the lower end of each first pull ring, and the two pull rods are fixed on the support.

7. The feed filling vehicle as claimed in claim 6, wherein the storage assembly comprises a storage hopper, a discharge plate, a rotating rod, a reinforcing plate, a second pull ring, a screw seat, a bolt and a second driving assembly; the two weighing components are respectively fixed on the front side and the rear side of the storage hopper, the inner side of the lower end of the storage hopper is provided with an inclined bottom, the outer side of the lower end of the storage hopper is provided with an inclined opening, a discharging plate which is obliquely distributed is arranged below the inclined opening, the front side and the rear side of the discharging plate are respectively upwards provided with a second side plate, a transversely-distributed rotating rod is inserted and connected between the lower sides of the outer sides of the two second side plates, the rotating rod is sleeved with two vertically-distributed and rotatable second pull rings, the outer side of the storage hopper is fixedly provided with two symmetrically-distributed screw thread seats, two vertically-distributed bolts are inserted and screwed in the two screw thread seats, the lower ends of the two bolts are respectively fixed at the upper ends of the two second pull rings, the two second pull rings are respectively arranged at the inner sides of the two second side plates, and two symmetrically-distributed reinforcing plates are further sleeved and fixed on the, the two reinforcing plates are respectively arranged on the inner sides of the two second side plates and the outer sides of the two second pull rings; the lower sides of the two reinforcing plates are fixed on the outer side of the bottom surface of the discharging plate; the second drive assembly is disposed between the two second side plates.

8. The feed filling vehicle as claimed in claim 7, wherein the second driving assembly comprises a second motor, a second reducer, a support plate, a bearing seat, a second driving shaft, a second swing plate and a second gas support rod; a second speed reducer is fixed on the outer side of the storage hopper, a second motor is fixed above the second speed reducer, a rotating shaft of the second motor is connected with an input end of the second speed reducer, a transversely-distributed second driving shaft is inserted into an output end of the second speed reducer, two ends of the second driving shaft are respectively fixed with a second swinging plate which is symmetrically distributed with each other, second gas supporting rods which are symmetrically distributed with each other are respectively arranged outside the front side and the back side of the storage hopper, fixed ends of the two second gas supporting rods are respectively rotatably connected to the outer ends of the two second swinging plates, and telescopic ends of the two second gas supporting rods are respectively rotatably connected to the upper ends of the two second side plates; the cover is equipped with two bearing frames on the second drive shaft, two one side of bearing frame all is fixed with the backup pad of a vertical distribution, two the outside at the storage hopper is all fixed to the backup pad, two an open slot has all been seted up in the outside of backup pad, the second drive shaft alternates through the open slot in two backup pads.

9. The feed filling vehicle as claimed in claim 1, wherein the blanking assembly comprises a second U-shaped plate, a third speed reducer, a third motor, a third swing plate, a third driving shaft, a pull-down plate and a clamping assembly; the second U-shaped plate is fixed to the outer portion of the rear side of the second square conical hopper, a third U-shaped plate is fixed to the lower end of the second U-shaped plate, a third speed reducer is fixed to the inner portion of the third U-shaped plate, a third motor is fixed to the upper portion of the third speed reducer, a rotating shaft of the third motor is connected with the input end of the third speed reducer, and a third driving shaft which is transversely distributed is arranged in the output end of the third speed reducer in an inserting mode; the outer sides of two ends of the third driving shaft are respectively provided with a third swinging plate which is symmetrically distributed, the front side and the rear side of the second square cone hopper are respectively fixed with a lower pulling plate which is symmetrically distributed, a clamping component is arranged between one lower pulling plate and one third swinging plate which are on the same side, and two ends of the two third driving shafts are respectively fixed at the centers of the two third swinging plates.

10. The feed filling vehicle of claim 9, wherein the clamping assembly comprises a short rod, a long rod, a driving rod, a bearing plate, an arc-shaped clamping strip, a sleeve ring and an arc-shaped supporting strip; the lower pulling plate is provided with two driving rods which are symmetrically distributed, the upper ends of the two driving rods are respectively rotatably connected to the left end and the right end of the lower pulling plate, one end of the short rod is rotatably connected to the middle part of one driving rod, one end of the long rod is rotatably connected to the middle part of the other driving rod, the other ends of the short rod and the long rod are respectively rotatably connected to the two ends of the third swinging plate, the lower ends of the two driving rods are respectively fixed with a bearing plate, arc-shaped clamping strips which are symmetrically distributed mutually are respectively fixed between the two bearing plates on the left side and between the two bearing plates on the right side, a plurality of vertical lantern rings which are equidistantly distributed are sleeved and fixed at the outer side of the opening of the lower end of the second square conical hopper, and two arc-shaped supporting strips which are symmetrically distributed; the two arc-shaped clamping strips are respectively arranged on the front side and the rear side of the plurality of lantern rings.

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