CN210064501U - Stacking, feeding and transferring system - Google Patents

Abstract

The utility model provides a stacking, feeding and transferring system, which comprises a conveying part and a transferring part, wherein the conveying part comprises a conveying platform, a buffering platform and a supporting frame, the conveying platform comprises a conveying belt, a conveying wheel and a conveying motor, the buffering platform comprises a buffering plate and a fixing rod, one end of the buffering plate is connected with the conveying platform, the transferring part is arranged below the other end of the buffering plate, the transferring part comprises a bearing frame and a rotary gear ring, the rotary gear ring is arranged on the lower surface of the bearing frame, a worker does not need to move raw materials to stack when using, only needs to drag the raw material bags on the buffering plate until the raw material bags fall on the pallet, and the transferring platform can rotate around the rotary gear ring, so that the worker does not need to move the raw material belt, only needs to rotate the bearing platform, rotates the position where the raw material bags need to be placed to the position corresponding to the lower part of the buffering plate, and the raw material bags on the, not only the stacking of the raw material bags is completed, but also the time and the labor are saved, and the practicability is good.

Description

Stacking, feeding and transferring system

Technical Field

The utility model relates to a fodder conveyer, concretely relates to pile up neatly pay-off transit system.

Background

Charging is one of the important links in feed production and transportation, and in order to reduce transportation cost and waste of loading space, a feed factory chooses to pack and store a part of bulk materials, such as bulk barley, wheat and corn, which are manually stacked if packed into ton bags for storage.

At present, bulk raw materials are packaged into ton bags and then stacked for storage, the more common technical means is to stack the packaged raw materials in sequence until the height of the stacked raw materials is close to the height of a carriage, and then the stacked raw materials are loaded and transported by a truck.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that overcome prior art not enough, provide and to alleviate workman intensity of labour, improve the pile up neatly pay-off transfer system of loading efficiency.

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

in one general aspect, there is provided a palletizing feed transfer system comprising a conveying part and a transfer part, the conveying part comprising a conveying platform, a buffering platform and a support frame, wherein:

the conveying platform comprises two conveying belts, two conveying wheels and a conveying motor, the two conveying wheels are arranged oppositely, the two conveying wheels are rotatably connected with the support frame, the conveying belts are sleeved on the two conveying wheels, the conveying motor is fixedly arranged on the support frame, and an output shaft of the conveying motor is fixedly connected with one conveying wheel;

the buffer platform comprises a buffer plate and a fixed rod, the buffer plate is arranged outside the conveying platform, one end of the buffer plate is arranged close to any one conveying wheel, the other end of the buffer plate is far away from the conveying wheel, and the bottom surface of the buffer plate is supported by the fixed rod;

the transfer portion is arranged below the other end of the buffer plate and comprises a bearing frame and a rotary gear ring, the rotary gear ring is arranged on the lower surface of the bearing frame and comprises an outer ring and an inner ring, the outer ring and the inner ring of the rotary gear ring are rotationally fixed, the inner ring of the rotary gear ring is fixedly connected with the bearing frame, and the outer ring of the rotary gear ring is fixedly arranged.

Preferably, the support frame includes the bracing piece and prevents the tipping plate, and the bracing piece has a plurality of, prevents that the tipping plate has two, and a plurality of bracing pieces and two prevent that the tipping plate sets up in conveying platform traffic direction's both sides relatively, two prevent that the tipping plate all with bracing piece fixed connection, two prevent that the tipping plate is located the conveyer belt top.

Preferably, the buffer plate comprises two side plates and a middle plate, and the two side plates are oppositely arranged on two sides of the middle plate.

Preferably, the included angle between each of the two side plates and the middle plate is greater than 90 °.

Preferably, the other end of the buffer plate is located below one end of the buffer plate.

Preferably, a driving motor is fixed on the upper surface of the bearing frame, the driving motor is connected with a driving gear, and the driving gear is meshed with the outer ring of the rotary gear ring.

Preferably, the outer ring and the inner ring of the rotary gear ring are both provided with a plurality of through holes distributed circumferentially around the rotary center of the rotary gear ring in an array manner, the bearing frame is provided with threaded holes corresponding to the through holes of the inner ring of the rotary gear ring, the inner ring of the rotary gear ring is fixedly connected with the bearing frame through screws, and the outer ring of the rotary gear ring is fixedly connected with the ground through bolts.

Preferably, pile up neatly pay-off transfer system still includes the portion of feeding, and the portion of feeding includes scraper blade, decelerator, conveyor and mount, wherein:

the speed reducer comprises a speed reducing motor, a rope winding wheel and an oil wire rope, the speed reducing motor is fixed on the fixing frame, an output shaft of the speed reducing motor is connected with the rope winding wheel, one end of the oil wire rope is wound on the rope winding wheel, and the other end of the oil wire rope is connected with the scraper;

the conveying device comprises a conveying pipe, a conveying screw and a feeding motor, wherein the conveying pipe is fixed on the fixed frame, a feeding hole and a discharging hole are formed in the pipe wall of the conveying pipe, the conveying screw is arranged in the conveying pipe and is connected with the output end of the feeding motor, and the fixed end of the feeding motor is fixed on the conveying pipe;

the feed inlet is located the scraper blade below, and the discharge gate is located conveying platform top.

Preferably, the charging part further comprises a funnel, the funnel is fixed on the fixing frame, an opening at the upper end of the funnel is located below the scraper, and an opening at the lower end of the funnel is located above the feeding hole.

Preferably, the scraper blade is including solid fixed ring, connection rope and board body, and solid fixed ring has two, and two solid fixed ring relatively fixed are on one's body the board, connect the both ends of rope and are connected with two solid fixed rings respectively, and the other end of oil silk rope is connected with the connection rope.

The utility model provides a stacking, feeding and transferring system, because one end of a buffer board is connected with a conveying platform, when the packaged raw materials are conveyed to the buffer board through a conveyor belt of the conveying platform, the raw materials can continuously slide along the buffer board due to the influence of the inertia of the raw materials until the raw materials fall on a pallet for stacking the raw materials, a worker does not need to move the raw materials to stack the raw materials when using the system, only the raw material bag needs to be dragged on the buffer board until the raw material bag falls on the pallet, the physical power of the worker is saved by the combined use of the buffer board and the conveying platform, the efficiency of conveying and stacking the raw materials is also improved, and the raw material bag on the buffer board can rotate around a rotary gear ring, so the worker does not need to move the raw material belt, only needs to rotate a bearing platform, the position where the raw material bag needs to be placed is rotated to a position corresponding to the lower part of the buffer board, and, not only the stacking of the raw material bags is completed, but also the time and the labor are saved, and the practicability is good.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic side view of the conveying section and the transfer section of the present invention;

FIG. 2 is a schematic front view of the conveying section and the transfer section of the present invention;

FIG. 3 is a schematic structural view of the charging part of the present invention;

FIG. 4 is a schematic structural view of the scraping plate of the present invention;

fig. 5 is a schematic structural view of the rope winding wheel of the present invention;

fig. 6 is a schematic structural diagram of the stacking feeding and transferring system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Fig. 6 is the utility model discloses a pile up neatly pay-off transfer system's structural schematic diagram, as shown in fig. 1, the embodiment of the utility model discloses a pile up neatly pay-off transfer system, including conveying part and the portion of charging, through the combined use of conveying part and the portion of charging, accomplish the whole process of material packing transportation.

Fig. 1 is the side view structure schematic diagram of the conveying part and the transfer part of the utility model, fig. 2 is the front view structure schematic diagram of the conveying part and the transfer part of the utility model, in combination with fig. 1 and fig. 2, the conveying part includes conveying platform, buffering platform and support frame, wherein:

conveying platform includes conveyer belt 11, delivery wheel 12 and conveyor motor 13, delivery wheel 12 has two, two delivery wheel 12 set up relatively, two delivery wheel 12 all with support frame rotatable coupling, 11 covers of conveyer belt are established on two delivery wheel 12, conveyor motor 13 is fixed to be set up on the support frame, conveyor motor 13's output shaft and a delivery wheel 12 fixed connection, it rotates to drive delivery wheel 12 through conveyor motor 13, thereby drive the rotation of conveyer belt 11, and then guarantee that the raw materials bag on the conveyer belt 11 can move along with it, conveying platform helps the workman will need to pile up the raw materials area of loading transportation and transport to pallet department, use manpower sparingly.

Further, the buffering platform includes buffer board 16 and dead lever 17, the one end and the conveying platform of buffer board 16 are connected, buffer board 16 sets up in the conveying platform outside promptly, the setting of delivery wheel 12 is hugged closely to the one end of buffer board 16, delivery wheel 12 is kept away from to the other end of buffer board 16, the underrun dead lever 17 of buffer board 16 supports, when raw materials area fell from conveying platform, can fall on buffer board 16, the buffer board has born the impact force of raw materials bag, workman's safety has been guaranteed, and simultaneously, the raw materials bag can slide on buffer board 16, make things convenient for the workman further promote the raw materials bag to the position that needs to pile up.

Further, the transfer portion is arranged below the other end of the buffer plate 16 and comprises a bearing frame 18 and a rotary gear ring 19, the rotary gear ring 19 is arranged on the lower surface of the bearing frame 18, the rotary gear ring 19 comprises an outer ring and an inner ring, the outer ring and the inner ring of the rotary gear ring 19 are rotatably fixed, the inner ring of the rotary gear ring 19 is fixedly connected with the bearing frame 18, and the outer ring of the rotary gear ring 19 is fixedly arranged. The bearing frame 18 is used for bearing raw material bags, the packed raw material belts are stacked on the bearing frame 18, when the bearing frame 18 on one side is fully stacked, the bearing frame 18 can be pushed, and the bearing frame 18 can rotate around the outer ring of the rotary gear ring 19 due to the fact that the bearing frame 18 is fixedly connected with the inner ring of the rotary gear ring 19, so that the position of the bearing frame 18 is adjusted, the other side of the bearing frame 18 is located below the buffer plate 16, and the raw material belts are convenient to place.

Further, according to service environment's difference, the high difference of raw materials bag pile, can set up conveying platform in this embodiment in higher department, guarantee conveying platform's height highly is higher than the height of the raw materials area that piles up all the time, then can guarantee that raw materials area is falling in the department that piles up all the time, need not the workman and carry, when conveying platform height is higher, then can set up dead lever 17, the vertical setting of dead lever 17, the bottom surface of buffer board 16 and the top fixed connection of dead lever 17, dead lever 17 can bear the impact force that raw materials area produced the buffer board on 16.

Further, the support frame includes bracing piece 14 and prevents the tipping plate 15, bracing piece 14 has a plurality of, it has two to prevent the tipping plate 15, a plurality of bracing pieces 14 and two prevent that the tipping plate 15 sets up in the both sides of conveying platform traffic direction relatively, two prevent that the tipping plate 15 all with bracing piece 14 fixed connection, prevent that the tipping plate sets up in the conveying platform top, two prevent that the tipping plate can be fine with the raw materials bag centre gripping on the conveying platform, prevent that it from dropping from the conveying platform.

Further, the buffer board 16 includes two side boards and a middle board, the two side boards are arranged on two sides of the middle board, and the two side boards can prevent the raw material bag from falling off from the side edge when sliding on the buffer board 16.

Further, the contained angle between two curb plates and the intermediate lamella all is greater than 90, and this kind of mode of setting up makes the opening of curb plate great, and the raw materials bag can not receive the hindrance of curb plate when falling into buffer board 16 from conveying platform.

Further, the other end of buffer board 16 is located the below of the one end of buffer board 16 for buffer board 16 has certain angle, and the raw materials bag can be through the gravity landing of self, further saves workman's physical power.

Further, a driving motor 10 is fixed on the upper surface of the carrying frame 18, and a driving gear is connected to the driving motor 10 and is meshed with the outer ring of the revolving ring gear 19. The bearing frame 18 is driven to rotate by the driving motor 10, so that the position of the bearing frame 18 is automatically adjusted, and the raw material belts distributed on the whole bearing frame 18 are uniform and stably stressed.

Furthermore, a plurality of through holes distributed circumferentially around the rotation center of the rotary gear ring 19 are formed in both the outer ring and the inner ring of the rotary gear ring 19, threaded holes corresponding to the through holes of the inner ring of the rotary gear ring 19 are formed in the bearing frame 18, the inner ring of the rotary gear ring 19 is fixedly connected with the bearing frame 18 through screws, and the outer ring of the rotary gear ring 19 is fixedly connected with the ground through bolts. The bearing frames 18 are detachably connected with the rotary gear ring through screws, when one bearing frame 18 is filled with the raw material bags, the screws are taken down, the whole bearing frame 18 can be loaded with the raw material bags, and after loading is completed, the bearing frame 18 is taken out and can be continuously matched with the rotary gear ring 19 for use.

Fig. 3 is the structure schematic diagram of the charging part of the present invention, as shown in fig. 3, the charging part includes a scraper 1, a speed reducer, a conveying device and a fixing frame 2, wherein:

decelerator includes gear motor 3, wire winding wheel 4 and oil silk rope 5, and gear motor 3 fixes on mount 2, and gear motor 3's output shaft and wire winding wheel 4 are connected, and the one end and the wire winding wheel 4 of oil silk rope 5 are connected, and the other end and the scraper blade 1 of oil silk rope 5 are connected, because scraper blade 1 links to each other through oil silk rope 5 with gear motor 3, provides power through gear motor 3, drives scraper blade 1 and scrapes the material down, uses manpower sparingly.

Further, conveyor includes conveyer pipe 6, carry screw 7 and feeding motor 8, conveyer pipe 6 is fixed on mount 2, be provided with feed inlet and discharge gate on the pipe wall of conveyer pipe 6, 6 slopes of conveyer pipe set up, the discharge gate position is higher than the feed inlet, conveniently load, carry screw 7 to set up in conveyer pipe 6, carry screw 7 to be connected with feeding motor 8's output, feeding motor 8's stiff end is fixed on conveyer pipe 6, deliver to the ton package through carrying screw 7 with the material in, treat that the ton package can accomplish packing work by full, need not the manpower transportation packing, transmission efficiency is high.

Further, the feed inlet is located scraper blade 1 below, and the material that scraper blade 1 scraped can fall into the feed inlet, conveniently carries 7 conveyers.

Further, the portion of feeding still includes funnel 9, and funnel 9 is fixed on mount 2, and the upper end opening of funnel 9 is located scraper blade 1 below, and the lower extreme opening of funnel 9 is located the feed inlet top, and 9 upper ends coverage areas of funnel are big, can guarantee that the material that scraper blade 1 scraped is whole to be collected by funnel 9.

Further, a feed inlet and a discharge outlet on the pipe wall of the conveying pipe 6 are respectively arranged at two ends of the conveying screw 7.

Further, the output end of the conveying screw 7 and the output end of the feeding motor 8 are connected through a transmission belt.

Fig. 4 is the structure schematic diagram of the scraper blade of the utility model, as shown in fig. 4, scraper blade 1 includes solid fixed ring 101, connects rope 102 and board body 103, and solid fixed ring 101 has two, and two solid fixed ring 101 relatively fixed are on board body 103, and the both ends of connecting rope 102 are connected with two solid fixed ring 101 respectively, and the other end of oil silk rope 5 is connected with being connected rope 102, and two solid fixed ring 101 can guarantee that scraper blade 1 is being scraped the in-process atress of material evenly, can not take place the skew.

Further, the other end of the oil wire rope 5 is provided with a hook, and the hook is connected with the connecting rope 12, so that the scraper 1 is convenient to disassemble.

Further, the scraper 1 further comprises a handle 104 and a connecting rod 105, the handle 104 is fixedly connected with the plate body 103 through the connecting rod 105, and a worker can place the scraper 1 at a place where materials need to be scraped through the handle 104.

Fig. 5 is a schematic structural diagram of the rope winding wheel of the present invention, as shown in fig. 5, the rope winding wheel 4 includes a wheel body 41 and two side plates 42, the two side plates 42 are disposed on two sides of the wheel body 41, the diameters of the two side plates 42 are larger than the diameter of the wheel body 41, one end of the oil wire rope 5 is wound on the wheel body 41 between the two side plates 42, the two side plates 42 prevent the oil wire rope 5 from deviating, and the oil wire rope 5 is prevented from slipping off the wheel body 41.

Furthermore, the lower part of the fixing frame 2 is provided with a roller, so that the fixing frame 2 is convenient to move.

The embodiment of the specification provides a stacking, feeding and transferring system, one end of a buffer plate is connected with a conveying platform, when packaged raw materials are conveyed to the buffer plate through a conveyor belt of the conveying platform, the raw materials can continuously slide along the buffer plate until the raw materials fall on a pallet for stacking the raw materials due to the influence of inertia of the raw materials, workers do not need to move the raw materials to stack the raw materials when using the system, only the raw material bags are dragged on the buffer plate until the raw material bags fall on the pallet, the physical strength of the workers is saved by the combined use of the buffer plate and the conveying platform, the efficiency of conveying and stacking the raw materials is improved, and the conveying platform can rotate around a rotary gear ring, so the workers do not need to move the raw material belts, only need to rotate a bearing platform, rotate the position where the raw material bags need to be placed to a position corresponding to the lower part of the buffer plate, and the raw material bags on the buffer plate fall into the position, not only the stacking of the raw material bags is completed, but also the time and the labor are saved, and the practicability is good.

The foregoing description has been directed to specific embodiments of this disclosure. Other embodiments are within the scope of the following claims. It should be noted that, for those skilled in the art, without departing from the principle of the present application, several improvements and modifications can be made, and these improvements and modifications should also be construed as the protection scope of the present application.

Claims (10)

1. The utility model provides a pile up neatly pay-off transfer system which characterized in that, includes conveying part and transfer portion, conveying part includes conveying platform, buffering platform and support frame, wherein:

the conveying platform comprises a conveying belt (11), two conveying wheels (12) and a conveying motor (13), the two conveying wheels (12) are arranged oppositely, the two conveying wheels (12) are both rotatably connected with the supporting frame, the conveying belt (11) is sleeved on the two conveying wheels (12), the conveying motor (13) is fixedly arranged on the supporting frame, and an output shaft of the conveying motor (13) is fixedly connected with one conveying wheel (12);

the buffer platform comprises a buffer plate (16) and a fixing rod (17), the buffer plate (16) is arranged on the outer side of the conveying platform, one end of the buffer plate (16) is arranged in a manner of being tightly attached to any one conveying wheel (12), the other end of the buffer plate (16) is far away from the conveying wheel (12), and the bottom surface of the buffer plate (16) is supported by the fixing rod (17);

the setting of portion of transporting is in the below of the other end of buffer board (16), the portion of transporting is including bearing frame (18) and gyration ring gear (19), gyration ring gear (19) set up the lower surface of bearing frame (18), gyration ring gear (19) are including outer lane and inner circle, the outer lane and the inner circle of gyration ring gear (19) are rotatable fixed, the inner circle of gyration ring gear (19) with bearing frame (18) fixed connection, the outer lane of gyration ring gear (19) is fixed to be set up.

2. The palletizing feed transfer system according to claim 1, wherein the supporting frame comprises a plurality of supporting rods (14) and two anti-tilting plates (15), the number of the supporting rods (14) is two, the number of the supporting rods (14) and the two anti-tilting plates (15) are oppositely arranged on two sides of the running direction of the conveying platform, the two anti-tilting plates (15) are fixedly connected with the supporting rods (14), and the two anti-tilting plates (15) are positioned above the conveying belt (11).

3. The palletizing feed transfer system according to claim 1, wherein the buffer plate (16) comprises two side plates and a middle plate, the two side plates being oppositely disposed on both sides of the middle plate.

4. The palletizing feed transfer system according to claim 3, wherein the included angle between the two side plates and the intermediate plate is greater than 90 °.

5. The palletizing feed transfer system according to claim 1, wherein the other end of the buffer plate (16) is located below one end of the buffer plate (16).

6. The palletizing feed transfer system according to claim 1, wherein a drive motor (10) is fixed on the upper surface of the bearing frame (18), and a drive gear is connected to the drive motor (10) and is meshed with the outer ring of the rotary gear ring (19).

7. The stacking, feeding and transferring system as claimed in claim 1, wherein a plurality of through holes distributed circumferentially around the rotation center of the rotary gear ring (19) are formed in the outer ring and the inner ring of the rotary gear ring (19), threaded holes corresponding to the through holes of the inner ring of the rotary gear ring (19) are formed in the bearing frame (18), the inner ring of the rotary gear ring (19) is fixedly connected with the bearing frame (18) through screws, and the outer ring of the rotary gear ring (19) is fixedly connected with the ground through bolts.

8. The palletizing feed transfer system according to claim 1, further comprising a charging portion comprising a scraper (1), a decelerating device, a conveying device and a fixed mount (2), wherein:

the speed reducing device comprises a speed reducing motor (3), a rope winding wheel (4) and an oil wire rope (5), the speed reducing motor (3) is fixed on the fixing frame (2), an output shaft of the speed reducing motor (3) is connected with the rope winding wheel (4), one end of the oil wire rope (5) is wound on the rope winding wheel (4), and the other end of the oil wire rope (5) is connected with the scraping plate (1);

the conveying device comprises a conveying pipe (6), a conveying screw (7) and a feeding motor (8), the conveying pipe (6) is fixed on the fixing frame (2), a feeding hole and a discharging hole are formed in the pipe wall of the conveying pipe (6), the conveying screw (7) is arranged in the conveying pipe (6), the conveying screw (7) is connected with the output end of the feeding motor (8), and the fixed end of the feeding motor (8) is fixed on the conveying pipe (6);

the feed inlet is located scraper blade (1) below, the discharge gate is located conveying platform top.

9. The palletizing feed transfer system according to claim 8, further comprising a funnel (9), wherein the funnel (9) is fixed on the fixed frame (2), an upper end opening of the funnel (9) is located below the scraper (1), and a lower end opening of the funnel (9) is located above the feed opening.

10. The stacking feed transfer system according to claim 8, wherein the scraper (1) comprises two fixing rings (101), two connecting ropes (102) and a plate body (103), the two fixing rings (101) are fixed on the plate body (103) in an opposite manner, two ends of each connecting rope (102) are respectively connected with the two fixing rings (101), and the other end of each oil wire rope (5) is connected with the connecting rope (102).

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