CN212100846U - Feeding switching structure of square bait cake flow guide conveying device for fishing - Google Patents

Abstract

The utility model relates to the technical field of fish feed packaging, and provides a feeding switching structure of a fishing square bait cake diversion and conveying device, wherein the fishing square bait cake diversion and conveying device comprises a blanking disc, a conveying frame, a conveying belt driving assembly and an upstream diversion mechanism; the upper stream guide mechanism comprises two upper stream guide channels which are arranged in parallel, the blanking disc is positioned above the conveying belt and is provided with a material receiving groove, a first blanking channel and a second blanking channel, the material receiving groove is in butt joint with an outlet of the cake bait machine, the first blanking channel extends to an inlet of one of the two upper stream guide channels from the material receiving groove, and the second blanking channel extends to an inlet of the other of the two upper stream guide channels from the material receiving groove; the discharging tray is provided with a channel switching component which can alternatively guide the square bait cakes in the receiving groove into one of the first discharging channel and the second discharging channel. Compared with the prior art, the feeding conveying efficiency is improved, and the feeding conveying continuity is guaranteed.

Description

Feeding switching structure of square bait cake flow guide conveying device for fishing

Technical Field

The utility model belongs to the technical field of the technique of fish feed packing and specifically relates to a fishing is with side bait cake water conservancy diversion conveyor's feeding switching structure is related to.

Background

At present, traditional bait cake conveyor mainly includes area and area drive assembly, and the bait cake is placed on the area, makes the area rotate through area drive assembly to the bait cake that the drive was placed on this area removes, and to the unloading of bait cake, mainly through artifical mode, with the bait cake of bait cake machine production place the area on, so, feeding conveying efficiency is lower, and the human cost is too high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fishing is with side bait cake water conservancy diversion conveyor's feeding switching structure to the feeding conveying efficiency who exists is lower among the solution prior art, technical problem with high costs.

In order to achieve the above object, the utility model adopts the following technical scheme: the feeding switching structure of the fishing square bait cake diversion and conveying device comprises a blanking disc, a conveying rack, a conveying belt for placing square bait cakes, a conveying belt driving component for driving the conveying belt to rotate so as to drive the square bait cakes placed on the conveying belt to move, and an upstream diversion mechanism arranged above the conveying belt; the conveying belt, the conveying belt driving assembly and the upstream flow guide mechanism are supported on the conveying rack; the upstream flow guide mechanism comprises two upstream flow guide channels for moving the square bait cakes, and the two upstream flow guide channels are arranged in parallel; the blanking disc is arranged on the peripheral side of the conveying rack and positioned above the conveying belt, and is provided with a material receiving groove, a first blanking channel and a second blanking channel which are butted with an outlet of the cake bait machine, the first blanking channel extends to an inlet of one of the two upstream flow guide channels from the material receiving groove, and the second blanking channel extends to an inlet of the other of the two upstream flow guide channels from the material receiving groove; the discharging tray is provided with a channel switching component which can alternatively guide the square bait cakes in the receiving groove into one of the first discharging channel and the second discharging channel.

Furthermore, stockpiling sensors are arranged in at least two upstream diversion channels and used for carrying out accumulation detection on square bait cakes on the upstream diversion channels, and when the square bait cakes are detected to be accumulated in the upstream diversion channels, the switching component is controlled to guide the square bait cakes in the material receiving groove into the other upstream diversion channel.

Furthermore, a stacking inductor supporting frame is arranged on the conveying rack, and the stacking inductor is fixed on the stacking inductor supporting frame.

Furthermore, the number of the material dropping plates is two, and the two material dropping plates are arranged side by side and at intervals in the moving direction of the square bait cake.

Further, the windrow inductor is arranged between the two blanking discs.

Furthermore, the channel switching assembly comprises a channel switching cylinder and a channel switching plate which is used for abutting against a piston rod of the channel switching cylinder; the blanking tray includes an inclined tray base and a tray side panel connected to the tray base, with the channel switch panel pivotally attached to the tray side panel.

Furthermore, the outer side of the blanking disc is connected with a waste material box, a waste material outlet is formed in the side plate of the disc, and a waste material discharging assembly used for pushing unqualified square bait cakes into the waste material box is arranged on the blanking disc.

Further, the waste discharging assembly comprises a discharging plate which is pivotally attached to the waste discharging port of the plate side plate and a discharging cylinder which is fixed to the blanking plate, and a piston rod of the discharging cylinder is connected with the discharging plate.

Further, the upstream flow guide mechanism comprises a plurality of upstream flow guide strips extending along the moving direction of the square bait cakes, the upstream flow guide strips are arranged at intervals, and an upstream flow guide channel is formed between every two adjacent upstream flow guide strips.

Further, the upstream air guide mechanism also comprises an upstream air guide bracket, and the upstream air guide strip is held on the upstream air guide bracket in an interval-adjustable mode.

Compared with the prior art, the feeding switching structure of the square bait cake flow guide conveying device for fishing provided by the utility model has the advantages that the blanking disc is provided with the material receiving groove, the first blanking channel and the second blanking channel which are butted with the outlet of the cake bait machine, the first blanking channel extends to the inlet of one of the two upstream flow guide channels from the material receiving groove, and the second blanking channel extends to the inlet of the other of the two upstream flow guide channels from the material receiving groove; the channel switching component is arranged on the blanking disc and can alternatively guide the square bait cakes in the material receiving groove into one of the first blanking channel and the second blanking channel, so that the channel switching component controls the feeding channel, the feeding conveying efficiency is improved, and the continuity of feeding conveying is ensured.

The utility model provides a fishing is with side bait cake water conservancy diversion conveyor's feeding switching structure's beneficial effect lies in: compared with the prior art, the utility model discloses a switching of passageway switching module, control feedstock channel to improve feeding conveying efficiency, guaranteed the continuation of feeding transport, and reduced manufacturing cost.

Drawings

Fig. 1 is a schematic perspective view of a square bait cake diversion and conveying device and a cake bait machine for fishing according to an embodiment of the present invention;

fig. 2 is a schematic perspective view of the material dropping plate and the cake bait machine provided by the embodiment of the utility model.

Description of the main elements

100-a square bait cake diversion and conveying device for fishing; 1001-cake bait machine; 10-a conveyor frame; 1-square bait cake; 20-a conveyor belt; 30-a conveyor belt drive assembly; 40-an upstream flow guide mechanism; 41-an upstream flow guide channel; 42-upstream flow guide strips; 43-an upstream flow guide support; 70-blanking plate; 71-material receiving groove; 72-a first blanking channel; 73-a second blanking channel; 74-channel switching component; 741-channel switching cylinder; 742-channel switch board; 75-windrow sensor; 76-tray floor; 77-disc side plate; 78-a divider plate; 79-guiding inclined plates; 701-waste material box; 702-a waste outlet; 703-a waste evacuation assembly; 704-a drain plate; 705-exhaust cylinder.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It is to be understood that the embodiments described are some, but not all embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive work based on the described embodiments of the present invention, belong to the protection scope of the present invention.

In order to make those skilled in the art better understand the technical solution of the present invention, the following detailed description is provided for the implementation of the present invention with reference to the specific drawings.

For convenience of description, the terms "front", "back", "left", "right", "up" and "down" used herein are the same as the drawings, but do not limit the structure of the present invention.

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this invention belongs. The use of "first," "second," and similar terms in the description and in the claims does not indicate any order, quantity, or importance, but rather is used to distinguish one element from another. Also, the use of the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one.

As shown in fig. 1 and 2, the feeding switching structure of the fishing square bait cake diversion conveyor 100 provided in the present embodiment includes a dropping tray 70, a conveyor frame 10, a conveyor belt 20 for placing the square bait cake 1, a conveyor belt driving assembly 30 for rotating the conveyor belt 20 to move the square bait cake 1 placed on the conveyor belt 20, and an upstream diversion mechanism 40 disposed above the conveyor belt 20; the conveyer belt 20, the conveyer belt driving assembly 30 and the upstream diversion mechanism 40 are all supported on the conveyer frame 10; the upstream flow guiding mechanism 40 comprises two upstream flow guiding channels 41 for the square bait cakes 1 to move, and the two upstream flow guiding channels 41 are arranged in parallel; the blanking disc 70 is arranged on the periphery of the conveyor frame 10 and positioned above the conveyor belt 20, the blanking disc 70 is provided with a receiving groove 71 butted with the outlet of the cake bait machine 1001, a first blanking channel 72 and a second blanking channel 73, the first blanking channel 72 extends from the receiving groove 71 to the inlet of one of the two upstream flow guide channels 41, and the second blanking channel 73 extends from the receiving groove 71 to the inlet of the other of the two upstream flow guide channels 41; the dropping tray 70 is provided with a channel switching assembly 74 for alternatively guiding the square bait cakes 1 in the receiving channel 71 to one of the first dropping channel 72 and the second dropping channel 73.

In the above feeding switching structure of the fishing square bait cake diversion and conveying device 100, the blanking tray 70 has a receiving trough 71 butted with the outlet of the cake bait machine 1001, a first blanking channel 72 and a second blanking channel 73, the first blanking channel 72 extends from the receiving trough 71 to the inlet of one of the two upstream diversion channels 41, and the second blanking channel 73 extends from the receiving trough 71 to the inlet of the other of the two upstream diversion channels 41; the discharging tray 70 is provided with a channel switching component 74 which can alternatively guide the square bait cakes 1 in the receiving groove 71 into one of the first discharging channel 72 and the second discharging channel 73, thus, the switching of the feeding channels is controlled by the channel switching component 74, thereby improving the feeding and conveying efficiency and ensuring the continuity of feeding and conveying.

Referring to fig. 1 and 2, the square bait cake deflector conveyor device 100 for fishing of the present embodiment includes a dropping tray 70, a conveyor housing 10, a conveyor belt 20, a conveyor belt driving assembly 30, and an upstream deflector mechanism 40. The conveyor belt 20, the conveyor belt drive assembly 30 and the upstream deflector mechanism 40 are supported on the conveyor frame 10, and the blanking tray 70 is disposed on one side of the conveyor frame 10.

Referring to fig. 1 and 2, the conveyor frame 10 of the present embodiment has a surface with a transverse direction (shown as direction D1, hereinafter generally referred to as first direction D1) and a longitudinal direction (shown as direction D2, hereinafter generally referred to as first direction D2) perpendicular to each other.

With continued reference to fig. 1 and 2, the conveyor belt 20 of the present embodiment is used for placing the square bait cakes 1, and the conveyor belt 20 is rotatably mounted on the conveyor frame 10; the conveyor belt driving assembly 30 rotates the conveyor belt 20, thereby moving the square bait cakes 1 placed on the conveyor belt 20. In the present embodiment, the conveyor belt driving assembly 30 is, but not limited to, a servo motor driving assembly, and the conveyor belt 20 is rotated by the conveyor belt driving assembly 30, thereby moving the bait cake 1 placed thereon in a direction parallel to the first direction D1.

Referring to fig. 1 and 2, the upstream guiding mechanism 40 of the present embodiment is disposed above the conveyor belt 20, the upstream guiding mechanism 40 includes an upstream guiding channel 41, in which the party bait cakes 1 move one by one and orderly, the upstream guiding channel 41 extends substantially in a direction parallel to the first direction D1; in the present embodiment, the number of the upstream flow guide passages 41 is, but not limited to, two, and the two upstream flow guide passages 41 are substantially parallel and arranged side by side in a direction parallel to the second direction D2.

Referring to fig. 1 and 2, in the present embodiment, the upstream guide mechanism 40 includes a plurality of upstream guide strips 42 extending along the moving direction of the square bait cake 1 (i.e., the direction parallel to the direction D1 in the figure), the plurality of upstream guide strips 42 are spaced apart in the direction parallel to the second direction D2, and the upstream guide channels 41 are formed between adjacent upstream guide strips 42.

Specifically, the upstream guide mechanism 40 further includes an upstream guide bracket 43, and the upstream guide strip 42 is held on the upstream guide bracket 43 in a pitch-adjustable manner;

referring to fig. 1 and 2, the blanking tray 70 of the present embodiment is disposed on the circumferential side of the conveyor frame 10 and above the conveyor belt 20, the blanking tray 70 has a receiving trough 71 abutting against the outlet of the cake bait machine 1001, a first blanking channel 72 and a second blanking channel 73, the first blanking channel 72 extends from the receiving trough 71 to the inlet of one of the two upstream flow guide channels 41, and the second blanking channel 73 extends from the receiving trough 71 to the inlet of the other of the two upstream flow guide channels 41; the dropping tray 70 is provided with a channel switching assembly 74 for alternatively guiding the square bait cakes 1 in the receiving channel 71 to one of the first dropping channel 72 and the second dropping channel 73. In this embodiment, the blanking tray 70 is disposed between the cake bait machine 1001 and the conveyor frame 10, the square bait cake 1 made by the cake bait machine 1001 falls onto the conveyor belt 20 through the blanking tray 70, the blanking tray 70 extends downward from the cake bait machine 1001 along a direction parallel to the second direction D2, the receiving trough 71 is located above the first blanking channel 72 and the second blanking channel 73, the first blanking channel 72 and the second blanking channel 73 are disposed side by side in a direction parallel to the first direction D1, under the action of gravity of the user, the square bait cake 1 slides from the outlet of the cake bait machine 1001 into the receiving trough 71, and slides into the corresponding upstream diversion channel 41 through the first blanking channel 72 or the second blanking channel 73.

As shown in fig. 1, the upstream diversion tunnel 41 of the present embodiment is provided with a stacking sensor 75 for detecting the accumulation of the square bait cake 1 on the upstream diversion tunnel 41, and controlling the tunnel switching component 74 to conduct another upstream diversion tunnel 41 when the accumulation of the square bait cake 1 is detected in the upstream diversion tunnel 41. In the present embodiment, the number of the windrow sensors 75 is, but not limited to, two windrow sensors 75, and the two windrow sensors 75 are respectively disposed in the two upstream diversion tunnels 41, when the square bait cake 1 in one of the upstream diversion tunnels 41 is fully stacked, the windrow sensor 75 sends a signal to a main control board (not shown), and the main control board controls the tunnel switching component 74 to operate to guide the square bait cake 1 in the upstream diversion tunnel 41 to the other upstream diversion tunnels 41. In particular, the stockpiling sensor 75 may be any existing sensor that can perform the above-described detection in the related art, and the main control board may be any existing main control board that can perform communication and control in the related art.

Specifically, the conveyor frame 10 is provided with a stacking sensor support frame, and the stacking sensor 75 is fixed on the stacking sensor support frame.

Referring to fig. 1, in the present embodiment, the number of the cake baiting machines 1001 is, but not limited to, two, the two cake baiting machines 1001 are arranged side by side and at intervals in a direction parallel to the first direction D1, the number of the baiting plates 70 is, but not limited to, two, the two baiting plates 70 are arranged side by side and at intervals in the moving direction of the cake 1, the two baiting plates 70 correspond to the two cake baiting machines 1001 one by one, respectively, and the stockpiling sensors 75 are arranged between the two baiting plates 70. It should be noted that, according to the production needs, two cake bait machines 1001 are arranged and baited at the same time, so that the yield can be improved; by arranging the windrow sensor 75 between the two blanking trays 70, the amount of the square bait cakes 1 in one upstream diversion channel 41 can be ensured, and the blockage caused by the excessive amount of the square bait cakes 1 in the upstream diversion channel 41 can be avoided.

As can be seen from fig. 2, in the present embodiment, the blanking tray 70 includes an inclined tray bottom plate 76 and tray side plates 77 connected to both sides of the tray bottom plate 76, and the catch groove 71 is formed between the tray bottom plate 76 and the tray side plates 77; the blanking tray 70 is provided with a partition plate 78 therein, and the partition plate 78 and the tray side plate 77 are formed therebetween in the first blanking passage 72 and the second blanking passage 73 described above. The channel switching assembly 74 comprises a channel switching cylinder 741 and a channel switching plate 742 for abutting against a piston rod of the channel switching cylinder 741; channel switch plate 742 is pivotally attached to disk side plate 77.

Specifically, the channel switching assembly 74 is disposed above the first blanking channel 72 and the second blanking channel 73, and a guiding inclined plate 79 is disposed in the blanking tray 70, wherein the guiding inclined plate 79 is disposed above the channel switching assembly 74 and corresponds to the second blanking channel 73. The path switching plate 742 is provided on the disk side plate 77 on the first blanking path 72 side, the inclined guide plate 79 is provided on the disk side plate 77 on the second blanking path 73 side, and the inclined guide plate 79 extends downward from the disk side plate 77 and obliquely toward the first blanking path 72. When the piston rod of the channel switching cylinder 741 is not ejected, the channel switching plate 742 is laid on the plate side plate 77, at this time, the inlet of the first blanking channel 72 is in an open state, and the second blanking channel 73 is shielded by the guide sloping plate 79, so that the square bait cake 1 in the receiving groove 71 directly falls into the first blanking channel 72 from the surface of the guide sloping plate 79; when the windrow sensor 75 senses windrow, the main control board drives the piston rod of the channel switching cylinder 741 to eject, and the channel switching board 742 is pushed into the receiving chute 71 and covers the first blanking channel 72 in an inclined state, so that the square bait cake 1 in the receiving chute 71 falls into the second blanking channel 73 through the surface of the guide inclined plate 79 and the surface of the channel switching board 742, and blanking switching between the first blanking channel 72 and the second blanking channel 73 is realized.

Referring to fig. 2, a waste material box 701 is connected to the outer side of the blanking tray 70 of the present embodiment, a waste material discharge port 702 is formed on the tray side plate 77, and a waste material discharge assembly 703 for pushing the unqualified square bait cake 1 into the waste material box 701 is disposed on the blanking tray 70. In this embodiment, the outlet of the cake bait machine 1001 is provided with a waste sensor (not shown), the waste discharging assembly 703 comprises a discharging plate 704 pivotally attached at a waste discharging port 702 of the tray side plate 77 and a discharging cylinder 705 fixed to the dropping tray 70, and a piston rod of the discharging cylinder 705 is connected to the discharging plate 704. Thus, when the waste sensor detects the abnormal-shape cake bait, the piston rod of the discharge cylinder 705 is retracted to pull the discharge plate 704 to swing into the receiving tank 71, so that the unqualified cake bait falls into the waste box 701 from the waste discharge port 702.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.

Claims (10)

1. The feeding switching structure of the fishing square bait cake diversion and conveying device is characterized in that the fishing square bait cake diversion and conveying device comprises a blanking disc, a conveying rack, a conveying belt for placing square bait cakes, a conveying belt driving component for driving the conveying belt to rotate so as to drive the square bait cakes placed on the conveying belt to move, and an upstream diversion mechanism arranged above the conveying belt; the conveying belt, the conveying belt driving assembly and the upstream flow guide mechanism are supported on the conveying rack; the upstream flow guide mechanism comprises two upstream flow guide channels for moving the square bait cakes, and the two upstream flow guide channels are arranged in parallel; the blanking disc is arranged on the periphery of the conveying rack and is positioned above the conveying belt, the blanking disc is provided with a receiving groove, a first blanking channel and a second blanking channel, the receiving groove is in butt joint with an outlet of the cake bait machine, the first blanking channel extends to an inlet of one of the two upstream flow guide channels from the receiving groove, and the second blanking channel extends to an inlet of the other of the two upstream flow guide channels from the receiving groove; the discharging tray is provided with a channel switching component which can alternatively guide the square bait cakes in the receiving groove into one of the first discharging channel and the second discharging channel.

2. The apparatus of claim 1, wherein a stacking sensor is disposed in at least two of the upstream diversion tunnels for detecting the stacking of the square bait cake on the upstream diversion tunnel, and the switching member is controlled to guide the square bait cake in the receiving trough into another upstream diversion tunnel when the stacking of the square bait cake is detected in the upstream diversion tunnel.

3. The feeding switching structure of a square bait cake deflector conveyor for fishing according to claim 2, wherein a stockpiling sensor support frame is provided on the conveyor frame, and the stockpiling sensor is fixed on the stockpiling sensor support frame.

4. The feed switching structure of a flow guide conveying device for fishing square bait cakes according to claim 2, wherein the number of the dropping trays is two, and the two dropping trays are arranged side by side and at intervals in the moving direction of the square bait cakes.

5. The feed switching structure of a quadrat bait cake deflector conveyor for fishing according to claim 4, wherein the windrow sensor is disposed between two of the blanking trays.

6. The feeding switching structure of a quadrat bait cake deflector conveyor for fishing according to any one of claims 1 to 5, wherein the gate switching assembly comprises a gate switching cylinder and a gate switching plate to abut against a piston rod of the gate switching cylinder; the blanking tray comprises an inclined tray bottom plate and a tray side plate connected with the tray bottom plate, and the channel switching plate is pivotally attached to the tray side plate.

7. The feeding switching structure of a square fishing bait cake guiding and conveying device as claimed in claim 6, wherein a waste bin is connected to the outside of the dropping tray, a waste discharging port is formed on the tray side plate, and a waste discharging component for pushing unqualified square bait cakes into the waste bin is arranged on the dropping tray.

8. The feed switching structure of a fishing square bait cake deflector conveyor as in claim 7, wherein the waste discharge assembly comprises a discharge plate pivotally attached to the waste discharge port of the pan side plate and a discharge cylinder fixed to the blanking pan, the piston rod of the discharge cylinder being connected to the discharge plate.

9. The feed switching structure of a square bait cake deflector conveyor for fishing according to any one of claims 1 to 5, wherein the upstream deflector includes a plurality of upstream deflector strips extending in a moving direction of the square bait cake, the plurality of upstream deflector strips being arranged at intervals, and the upstream deflector channel being formed between adjacent ones of the upstream deflector strips.

10. The feed switching structure of a fishing square bait cake deflector conveyor as in claim 9, wherein the upstream deflector mechanism further comprises an upstream deflector bracket on which the upstream deflector bar is held in a pitch-adjustable manner.

Images