CN108382620B - Fish ball split-flow multi-station weighing integrated device and use method thereof - Google Patents

Abstract

The invention provides a fish ball split-flow multi-station weighing integrated device and a use method thereof, wherein the device comprises a rack and a first split-flow disc fixed on the rack and used for guiding fish balls, a split-flow opening is arranged in the middle of the first split-flow disc, a second split-flow disc is arranged below the first split-flow disc, the second split-flow disc is a disc body with an arc-shaped cross section, a split-flow hopper is fixed on the periphery below the second split-flow disc, an upper layer receiving hopper for receiving the fish balls flowing out of the split-flow hopper is arranged below the split-flow hopper, a bracket is fixed on the rack, and the upper layer receiving hopper is erected on the bracket, and a weighing sensor for sensing the weight of the upper layer receiving hopper is fixed on the bracket.

Description

Fish ball split-flow multi-station weighing integrated device and use method thereof

Technical Field

The invention relates to a fish ball split-flow multi-station weighing integrated device and a use method thereof.

Background

The existing automatic fish ball processing enterprises need to conduct the produced fish balls to each weighing hopper for split charging, the traditional mode is to gradually discharge the fish balls through a conveyor belt or to discharge the fish balls one by one through a counter, and the mode needs a plurality of discharging mechanisms in the horizontal direction to occupy large space and is low in efficiency.

Disclosure of Invention

The invention improves the problems, namely the technical problem to be solved by the invention is that the existing fish ball production enterprises have low efficiency and large occupied space when carrying out fish ball material distribution and packaging.

The specific embodiments of the invention are: the fish ball split-flow multi-station weighing integrated device comprises a funnel-shaped fish ball falling hopper for guiding in fish balls, a discharging hopper is arranged below the fish ball falling hopper, a lifting machine is arranged at the discharging end of the discharging hopper, a first split-flow disc fixed on a rack and used for guiding out the fish balls is arranged at the discharging end of the lifting machine, a split-flow opening is arranged in the middle of the first split-flow disc, a second split-flow disc is arranged below the first split-flow disc, a split-flow tube fixed below the split-flow opening and used for guiding out the fish balls is arranged between the second split-flow disc and the first split-flow disc, the second split-flow disc is a disc body with an arc-shaped cross section, guide discs are uniformly distributed around the periphery of the second split-flow disc are arranged on the periphery of the second split-flow disc, a plurality of guide grooves used for guiding out the fish balls are arranged on the annular guide disc, and the split-flow hoppers are fixed on the periphery of each guide groove; the shunt tubes include around in the flexible separation blade that annular sleeve and annular sleeve lower part extended of first flow distribution disk bottom, leave the clearance between the adjacent flexible separation blade, the upper strata is connected the below of hopper and is provided with the lower floor and connects the hopper, the lower floor connects the hopper lower part to be provided with the blanking mouth.

Further, upper layer connects the hopper and includes that upper portion and lower part all have open-ended barrel and be used for controlling the activity shrouding that barrel lower part opening was opened and close, the activity shrouding is driven by shrouding drive arrangement, activity shrouding hinged joint is in the barrel, and activity shrouding lateral part is provided with the drive shrouding around hinged joint pivoted push rod, be fixed with the bracket in the frame, upper layer connects the hopper to erect on the bracket, be fixed with the weighing sensor that response upper layer connects hopper weight on the bracket.

Further, the lower floor connects the hopper to be provided with a pair of, and each lower floor connects the blanking mouth below of hopper to be provided with the discharging pipe of accepting the fish ball, blanking mouth department is provided with the activity blanking board that restriction blanking mouth was opened and close, activity blanking board upper end articulates in the lower floor connects the hopper, lower floor connects the hopper side to be provided with the blanking cylinder that is fixed in the frame, the telescopic link of blanking cylinder and the middle part hinged joint of activity blanking board are opened and close the blanking mouth with the drive activity blanking board.

Further, the push rod is turning and one end and movable shrouding fixed connection, push rod middle part hinged joint is in barrel lower part, the other end hinged joint of push rod has the pendulum handle of turning, pendulum handle middle part hinged joint is in the barrel middle part, shrouding drive arrangement is shrouding cylinder, the rear side hinged joint of pendulum handle is in shrouding cylinder's flexible end.

Further, the top of reposition of redundant personnel fill is provided with annular retaining ring, be fixed with the baffle that the restriction fish ball was high on the reposition of redundant personnel fill on the annular retaining ring, the baffle middle part has vertical logical groove, the baffle is fixed in annular retaining ring through the bolt that runs through vertical logical groove and annular retaining ring.

Further, the shunt bucket is gradually inclined from the inner side to the outer side, the inner side end of the shunt bucket is fixedly connected with the guide disc, the shunt bucket comprises a bottom plate which is obliquely arranged, vertical oblique guide plates are arranged on two sides of the bottom plate, and a hook-shaped part which is buckled on the oblique guide plate of the adjacent shunt bucket is arranged on one oblique guide plate.

Further, the discharge port of discharging pipe is buckled to the outside, and the discharge end of discharging pipe is provided with the strap, strap one end is fixed in the discharging pipe outer wall, and the other end is the free end, and the strap surface has the projection and with projection complex jack, jack and projection interval set up.

Furthermore, the guide plate is gradually inclined from inside to outside to be conical, and the guide plate and the inner side end are fixedly connected with the lower surface of the second flow dividing plate through the annular fixing plate.

Further, protrusions are arranged on the surfaces of the first receiving tray, the second receiving tray and the diverting hopper, which are in contact with the fish balls.

Further, the elevator comprises a belt conveying device, and vertical material containing plates for bearing fish balls are arranged at intervals on the belt of the belt conveying device.

The invention also discloses a using method of the fish ball split-flow multi-station weighing integrated device, which is characterized by comprising the following steps of:

(1) Gradually outputting the discharged materials from the discharge hopper to a first flow distribution disc by a lifter;

(2) When the fish balls flow out from the split port arranged in the middle of the first split disc, the split pipe can ensure that the middle can be gathered in the flexible baffle to form a cone shape when the fish balls are paved on the second split disc, and the flexible baffle is pressed inwards by the flexible baffle when the fish balls fall and are stacked more due to the fact that plastic or rubber is adopted for manufacturing, so that the fish balls are prevented from falling from the discharge end of the lifting machine at a high speed and are directly rolled out from the surface of the second split disc to be buffered;

(3) The fish balls enter the split hopper from the split chute of the second split disc, an upper layer receiving hopper for receiving the fish balls flowing out of the split hopper is arranged below the split hopper, the weight of the fish balls is sensed by a weighing sensor fixed by a bracket, and when the weight meets the requirement, the push rod pushes the movable sealing plate to realize that the fish balls in the upper layer receiving hopper fall to the lower layer receiving hopper; the lower layer receiving hopper falls into the packaging bag at the lower end of the discharging pipe through the discharging pipe.

Compared with the prior art, the invention has the following beneficial effects: the invention has simple structure, can conveniently ensure the uniform distribution of the fish balls so as to be beneficial to guiding the distributed fish balls into different distribution hoppers for bag separation and packaging, and can greatly save space and improve distribution efficiency by utilizing a distribution structure and circumferential layout which fall layer by layer.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention.

Fig. 2 is a schematic diagram of a three-dimensional layout structure of the present invention.

Fig. 3 is a schematic view of a shunt tube according to the present invention.

Fig. 4 is a schematic diagram of the layout structure of the elevator and the first diverter tray according to the present invention.

FIG. 5 is a schematic diagram of a layout structure with baffles according to the present invention.

FIG. 6 is a schematic view of the upper hopper according to the present invention.

FIG. 7 is a schematic view of the structure of the diverting hopper of the present invention.

FIG. 8 is a schematic view of the structure of the tapping pipe according to the present invention.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description.

As shown in fig. 1 to 8, a protection mechanism for preventing fish balls from rolling down in a fish ball blanking process comprises a funnel-shaped fish ball blanking hopper 101 for guiding in fish balls, a discharging hopper 102 is arranged below the fish ball blanking hopper 101, a lifting machine 103 is arranged at the discharging end of the discharging hopper, a first diversion disk 10 for guiding out the fish balls is arranged at the discharging end of the lifting machine, a diversion opening 120 is arranged in the middle of the first diversion disk 10, a second diversion disk 20 is arranged below the first diversion disk, a diversion pipe 110 fixed below the diversion opening and used for guiding out the fish balls is arranged between the second diversion disk 20 and the first diversion disk 10, the second diversion disk 20 is a disk body with an arc-shaped section, a plurality of diversion grooves 310 used for guiding out the fish balls are arranged on the annular guide disk, the periphery of each diversion disk 310 is fixedly provided with a diversion bucket 40, and the diversion bucket 40 is gradually inclined from the inner side to the outer side.

In this embodiment, the elevator 103 includes a belt conveyor, the belt conveyor is driven by a motor, and vertical material containing plates 104 for carrying fish balls are fixedly connected to the belt surface of the belt conveyor at intervals, so that the fish balls discharged from the discharge hopper 102 are gradually output to the first diverter tray 10 through the material containing plates 104.

In this embodiment, the first diverter tray 10 is bolted or welded to a frame, which is generally referred to as a fixed member that is fixed to the floor of the manufacturing site or a building component, by a connecting rod.

The shunt 110 includes an annular sleeve surrounding the bottom of the first shunt plate and flexible baffles 112 extending below the annular sleeve 111, with gaps between adjacent flexible baffles 112.

In this embodiment, the shunt tube 110 is made of plastic, so when the fish balls flow out from the shunt opening provided in the middle of the first shunt disc 10, it can be ensured that the middle can gather in the flexible baffle 112 to form a cone shape when the fish balls are laid on the second shunt disc 20, and the flexible baffle 112 is pressed inwards by the flexible baffle 112 when the fish balls fall down and are stacked more due to the plastic or rubber manufacturing, so that the fish balls are prevented from falling down from the discharge end of the elevator 103 at a high speed and directly roll out from the surface of the second shunt disc 20 to be buffered.

In order to facilitate the guiding out of the fish balls, the guiding plate 30 is gradually inclined from inside to outside to be conical, the guiding plate and the inner side end are fixedly connected with the lower surface of the second flow dividing plate through the annular fixing plate 320, and the annular fixing plate 320 can fix the guiding plate 30 on one hand and can prevent the fish balls from flowing out from the guiding plate 30 between the second flow dividing plates 20 on the other hand.

In this embodiment, the diverting hoppers 40 are arranged on the left and right sides for receiving the fish balls flowing out of the diversion trenches 310, and specifically include a bottom plate 410 disposed obliquely, two sides of the bottom plate 410 are provided with vertical oblique guide plates 411, one of the oblique guide plates 411 is provided with a hook portion 412 fastened to the oblique guide plate of the adjacent diverting hopper, in this embodiment, the width of the area formed by the oblique guide plates 411 is greater than the width of the diversion trenches 310, the oblique guide plates 411 guide the fish balls into the bottom plate 410, and the hook portion 412 of the oblique guide plates 411 can ensure that the adjacent diverting hoppers 40 have no gap.

The inner side end of the split hopper is fixedly connected with the guide disc 30, the bottom plate 410 of the split hopper is gradually inclined from the inner side to the outer side, and the inner side end is higher than the outer side end so as to be beneficial to the falling of fish balls.

In this embodiment, in order to further limit the stacking height of the fish balls on the splitting hopper, an annular retainer ring 420 is disposed above the splitting hopper 40, a baffle 430 for limiting the stacking height of the fish balls on the splitting hopper is fixed on the annular retainer ring 420, a longitudinal through groove 431 is formed in the middle of the baffle, and the baffle is fixed on the annular retainer ring through bolts penetrating through the longitudinal through groove and the annular retainer ring.

The height of the baffle 430 can be adjusted through the through grooves 43, so that the height of the fish balls in the split-flow hopper 40 is limited, and the fish balls passing through the split-flow hopper 40 are finally split-flow packaged through weighing devices uniformly distributed below the split-flow hoppers 40.

In this embodiment, the position of the annular retainer ring 420 is fixed, and the annular retainer ring 420 is fixedly connected with the frame or the lower part of the first diverter tray through a connecting rod, so that the annular retainer ring 420 is arranged above the diverter bucket.

The surfaces of the first receiving tray 10, the second receiving tray 20 and the diverting hopper 30, which are in contact with the fish balls, are provided with protrusions so as to reduce the contact area between the fish balls and the surfaces of all the components, thereby being beneficial to rolling.

The upper layer that the reposition of redundant personnel was fought below is provided with and accepts the upper layer that is fought out the fish ball and connects hopper 50, upper layer connects hopper 50 to include upper portion and lower part all have open-ended barrel 510 and be used for controlling barrel lower part opening to open and close movable shrouding 520, movable shrouding 520 is driven by shrouding drive arrangement, movable shrouding 520 hinged joint is in barrel 510, and movable shrouding 520 lateral part is provided with drive shrouding around hinged joint pivoted push rod 530, in this embodiment, push rod 530 is turning and one end and movable shrouding 520 fixed connection, push rod 530 middle part hinged joint is the point A in barrel 510 lower part hinged joint, push rod 530's the other end hinged joint has turning pendulum handle 540, pendulum handle 540 middle part hinged joint is the point B in barrel middle part, shrouding drive arrangement is shrouding cylinder 541, pendulum handle's rear side hinged joint is in the flexible end of cylinder.

In this embodiment, the first diverter tray 10 and the second diverter tray 30 are fixed to the frame and are fixed in position relative to each other.

When the telescopic end of the sealing plate cylinder 541 stretches out and draws back, the swing handle 540 rotates around the hinge point to rotate from the push rod 530, and the push rod 530 is fixedly connected with the movable sealing plate, so that the movable sealing plate is driven to synchronously rotate to open the opening at the lower part of the upper layer of the receiving hopper 50 to enable the fish balls to fall down, the brackets 550 distributed on the periphery of the second flow dividing plate 30 are fixed on the rack, the brackets 550 are correspondingly provided with the brackets 550, the brackets 550 are used for supporting the upper layer of the receiving hoppers 50, the weighing sensors 551 for sensing the weight of the upper layer of the receiving hoppers are fixed on the brackets, the supporting plates can be specifically welded on the periphery of the upper layer of the receiving hoppers 50, and then the supporting plates are placed on the sensors of the brackets, so that the weight of the fish balls can be sensed, and then whether the fish balls in the upper layer of the receiving hoppers 50 meet the requirements or not can be judged through the weight through the control system and the sealing plate cylinder system.

The hinge connection mode is generally matched through pin holes, namely fixing pins are fixedly connected with the side part of the cylinder 510 in an extending mode, through holes are formed in the movable sealing plates and the push rods, the movable sealing plates and the push rods are hinged through the aid of the fixing pins, and of course the fixing pins can be replaced by bolts, screws or rivets and other components.

The lower side of the upper layer receiving hopper 50 is arranged on the lower layer receiving hopper 60, a blanking port is arranged at the lower part of the lower layer receiving hopper 60, a movable blanking plate 610 for limiting the opening and closing of the blanking port is arranged at the blanking port, the lower layer receiving hopper 60 is in a funnel shape, a plurality of upper layer receiving hoppers 50 can be abutted above the lower layer receiving hopper 60, namely, a plurality of upper layer receiving hoppers 50 can be fed into the same lower layer receiving hopper 60, and the materials of the upper layer receiving hoppers 50 are not discharged at the same time.

Generally, when the upper layer receiving hoppers 50 discharge, the weight of a bag of fish balls is encapsulated, when the fish balls in one upper layer receiving hopper 50 fall down to the lower layer receiving hopper 60, and when the fish balls in the falling down layer receiving hopper 60 are completely led out, the fish balls in the other upper layer receiving hopper 50 are discharged.

The number of the lower receiving hoppers 60 can be increased as required to ensure balance between discharging and fish ball separating.

In addition, as shown in the figure, the opening part of the lower part of the barrel is also provided with a discharging sealing plate 570 positioned beside the movable sealing plate, the discharging sealing plate is fixedly connected with the middle part of the swing handle 540, the discharging sealing plate 570 is opened when the swing handle rotates, and the discharging sealing plate 570 and the movable sealing plate simultaneously seal the opening of the lower part of the barrel when the swing handle is closed.

In this embodiment, the diverting hopper 40 is positioned on the left and right sides to receive the fish balls flowing out from the second diverting tray 30, the diverting hopper 40 specifically includes a bottom plate 410 disposed in an inclined manner, vertical inclined guide plates 411 are disposed on two sides of the bottom plate 410, one of the inclined guide plates 411 is provided with a hook portion 412 fastened to the inclined guide plate of the adjacent diverting hopper, in this embodiment, the width of the area formed by the inclined guide plates 411 is greater than the width of the launder 310, the inclined guide plates 411 guide the fish balls into the bottom plate 410, and the hook portion 412 of the inclined guide plates 411 can ensure that the adjacent diverting hopper 40 has no gap.

In this embodiment, the lower layer connects the hopper to be provided with a pair of, and each lower floor connects the blanking mouth below of hopper to be provided with the discharging pipe 70 of accepting the fish ball, activity blanking plate 610 upper end articulates in lower floor connects hopper 60, lower floor connects hopper 60 side to be provided with the blanking cylinder 620 that is fixed in the frame, the telescopic link of blanking cylinder 620 with the middle part hinged joint of activity blanking plate in order to drive activity blanking plate and open and close the blanking mouth.

During the use, with the wrapping bag cover in the lower part of discharging pipe 70, in the discharging pipe 70 blanking was followed to the fish ball after the blanking of activity blanking board 610 was followed by the discharging pipe 70 blanking and is arrived the wrapping bag, in this embodiment, the discharge port of discharging pipe is buckled to the outside, and the discharge end of discharging pipe is provided with strap 710, strap one end is fixed in the discharging pipe outer wall, and the other end is the free end, and the strap surface has the projection and with projection complex jack, jack and projection interval set up, 70 can utilize strap 710 to tie up the sack temporarily after the mouth of a bag cover is in discharging pipe lower extreme mouth of pipe department, and strap surface has the projection and mutually support with projection complex jack can be that strap 710 after the winding tie up the sack, loosen the strap after the fish ball is adorned.

The invention described above, if it discloses or relates to components or structures fixedly connected with each other, then unless otherwise stated, the fixedly connected structure is understood as: detachably fixed connection (e.g. using bolts or screws) can also be understood as: the non-detachable fixed connection (e.g. riveting, welding), of course, the mutual fixed connection may also be replaced by an integral structure (e.g. integrally formed using a casting process) (except for obviously being unable to use an integral forming process).

In addition, terms used in any of the above-described aspects of the present disclosure to express positional relationship or shape have meanings including a state or shape similar to, similar to or approaching thereto unless otherwise stated.

Any part provided by the invention can be assembled by a plurality of independent components, or can be manufactured by an integral forming process.

Finally, it should be noted that the above-mentioned embodiments are only for illustrating the technical scheme of the present invention and are not limiting; while the invention has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present invention or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the invention, it is intended to cover the scope of the invention as claimed.

Claims (3)

1. The utility model provides a fish ball reposition of redundant personnel multistation integrated device that weighs, its characterized in that, including the funnel-shaped fish ball blanking hopper that is used for leading-in fish ball, fish ball blanking hopper below is provided with out the hopper, the discharge end of ejection of compact hopper is provided with the lifting machine, the discharge end of lifting machine is provided with the first reposition of redundant personnel dish that is fixed in the frame and is used for deriving the fish ball, the middle part of first reposition of redundant personnel dish is provided with the shunt opening, be provided with the second reposition of redundant personnel dish below first reposition of redundant personnel dish, be provided with the shunt tube that is fixed in shunt opening below and is used for deriving the fish ball between second reposition of redundant personnel dish and the first reposition of redundant personnel dish, the second reposition of redundant personnel dish is the disk body that the cross-section is arc, the below periphery of second reposition of redundant personnel dish is provided with the guide disc that encircles in second reposition of redundant personnel dish week portion, be provided with a plurality of guiding grooves that are used for deriving the fish ball on the guide disc, the periphery of each guiding groove is fixed with the reposition of redundant personnel bucket; the shunt tube comprises an annular sleeve encircling the bottom of the first shunt disc and flexible baffle plates extending from the lower part of the annular sleeve, a gap is reserved between adjacent flexible baffle plates, an upper layer receiving hopper for receiving fish balls flowing out of the shunt hopper is arranged below the shunt hopper, a lower layer receiving hopper is arranged below the upper layer receiving hopper, and a blanking port is arranged below the lower layer receiving hopper;

the upper layer receiving hopper comprises a cylinder body with openings at the upper part and the lower part and a movable sealing plate for controlling the opening and the closing of the opening at the lower part of the cylinder body, the movable sealing plate is driven by a sealing plate driving device, the movable sealing plate is hinged to the cylinder body, a push rod for driving the sealing plate to rotate around the hinge connection part is arranged at the side part of the movable sealing plate, a bracket is fixed on the rack, the upper layer receiving hopper is erected on the bracket, and a weighing sensor for sensing the weight of the upper layer receiving hopper is fixed on the bracket;

the lower layer receiving hoppers are provided with a pair, discharging pipes for receiving fish balls are arranged below the discharging ports of the lower layer receiving hoppers, movable discharging plates for limiting the opening and closing of the discharging ports are arranged at the discharging ports, the upper ends of the movable discharging plates are hinged to the lower layer receiving hoppers, discharging cylinders fixed to a frame are arranged beside the lower layer receiving hoppers, and telescopic rods of the discharging cylinders are hinged to the middle parts of the movable discharging plates to drive the movable discharging plates to open and close the discharging ports;

the push rod is in a crutch shape, one end of the push rod is fixedly connected with the movable sealing plate, the middle part of the push rod is hinged to the lower part of the cylinder body, the other end of the push rod is hinged to a crutch-shaped swing handle, the middle part of the swing handle is hinged to the middle part of the cylinder body, the sealing plate driving device is a sealing plate cylinder, and the rear side of the swing handle is hinged to the telescopic end of the sealing plate cylinder;

an annular retainer ring is arranged above the diversion bucket, a baffle plate for limiting the height of the fish balls on the diversion bucket is fixed on the annular retainer ring, a longitudinal through groove is formed in the middle of the baffle plate, and the baffle plate is fixed on the annular retainer ring through bolts penetrating through the longitudinal through groove and the annular retainer ring;

the flow distribution hopper is gradually inclined from the inner side to the outer side, the inner side end of the flow distribution hopper is fixedly connected with the guide disc, the flow distribution hopper comprises a bottom plate which is obliquely arranged, two sides of the bottom plate are provided with vertical oblique guide plates, and one of the oblique guide plates is provided with a hook-shaped part which is buckled with the oblique guide plate of the adjacent flow distribution hopper;

the discharging port of the discharging pipe is bent outwards, a hoop is arranged at the discharging end of the discharging pipe, one end of the hoop is fixed on the outer wall of the discharging pipe, the other end of the hoop is a free end, a convex column and a jack matched with the convex column are arranged on the surface of the hoop, and the jack and the convex column are arranged at intervals;

the guide plate is gradually inclined from inside to outside to be conical, and the guide plate is fixedly connected with the lower surface of the second flow dividing plate through the annular fixing plate and the inner side end.

2. The fish ball split-flow multi-station weighing integrated device according to claim 1, wherein protrusions are arranged on surfaces of the first split-flow disc, the second split-flow disc and the split-flow hopper, which are in contact with the fish balls.

3. The method for using the fish ball split-flow multi-station weighing integrated device is characterized by comprising the following steps of:

(1) The hoister gradually outputs the fish balls discharged from the discharge hopper to the first flow distribution disc;

(2) When the fish balls flow out from the split-flow opening arranged in the middle of the first split-flow disk, the split-flow pipe can ensure that the middle can be gathered in the flexible baffle to form a cone shape when the fish balls are paved on the second split-flow disk, and the flexible baffle is pressed inwards by the flexible baffle when the fish balls fall and are stacked more due to the fact that plastic or rubber is adopted for manufacturing, so that the fish balls are prevented from falling from the discharge end of the lifting machine at a high speed and are directly rolled out from the surface of the second split-flow disk to be buffered;

(3) The fish balls enter the diversion hopper from the diversion trench of the guide disc, an upper layer receiving hopper for receiving the fish balls flowing out of the diversion hopper is arranged below the diversion hopper, the weight of the fish balls is sensed by a weighing sensor fixed by a bracket, and when the weight meets the requirement, the push rod pushes the movable sealing plate to realize that the fish balls in the upper layer receiving hopper fall to the lower layer receiving hopper; the lower layer receiving hopper falls into the packaging bag at the lower end of the discharging pipe through the discharging pipe.