CN208554954U

CN208554954U - A kind of feed screening plant

Info

Publication number: CN208554954U
Application number: CN201820625674.4U
Authority: CN
Inventors: 刘虹均; 谭伟杰
Original assignee: Individual
Current assignee: Chongqing Maershan Ecological Agriculture Co Ltd
Priority date: 2018-04-28
Filing date: 2018-04-28
Publication date: 2019-03-01
Anticipated expiration: 2028-04-28

Abstract

The utility model relates to feed-processing equipment technical fields, and disclose a kind of feed screening plant, including bracket, the top of bracket is successively fixedly installed with vibration motor, mounting plate, screening slot and feeder from left to right, the inside of screening slot two side wall panels is opened up there are three oscillating trough, and three oscillating troughs fall down successively equidistant placement from above, the inside of three left side oscillating troughs slidably connects shaking device, the side of shaking device is fixedly connected with one end of fixing axle, and the middle part of fixing axle is socketed by the internal activity of fixing bearing and mounting plate.The feed screening plant, by the way that three groups of sieves arranged up and down are arranged, driven wheel rotation is driven using vibration motor, to be rotated with runner disc, so that pin shaft and driver slot are periodically clamped, so that slip ring drives link block up and down reciprocatingly to transport function, realize vibration, drive three groups of sieve vibrations simultaneously using single vibration motor, not only shaking-sieving effect is good, but also shakes and carry small and power saving.

Description

A kind of feed screening plant

Technical field

The utility model relates to feed-processing equipment technical field, specially a kind of feed screening plant.

Background technique

Currently, China's large-scale cultivation industry is quickly grown, develop the pellet necessarily relied on as large-scale cultivation The quality of processing enterprise, converted products is significant to large-scale cultivation, feed during transportation, inevitably in phase mutual friction And extruding, and feed a part is caused to crush, many powder are generated, since birds are for fodder inconvenient eating, feeding is made While at waste, feeding capacity also be cannot be guaranteed, so need to carry out feed screening.In the prior art, feed screening machine is logical It crosses to screening case vibration, drives sieve vibration, fodder classifying screen is selected, since motor drives the vibration of overall screen branch mailbox, effect is poor, Power consumption is big, while being glided automatically using gravity, and disposable screening effect is bad.

Utility model content

(1) the technical issues of solving

In view of the deficiencies of the prior art, the utility model provides a kind of feed screening plant, has circulation and sieves, successively Vibration, power consumption is small, feed intake conveniently, the advantages that screening effect is good, solve feed screening machine and pass through to screening case vibration, drive sieve Vibration is netted, fodder classifying screen is selected, since motor drives the vibration of overall screen branch mailbox, effect is poor, and power consumption is big, while certainly using gravity It is dynamic to glide, the bad problem of disposable screening effect.

(2) technical solution

To realize that above-mentioned circulation screening, successively vibration, power consumption is small, feed intake convenient and good screening effect purpose, this is practical Novel to provide the following technical solutions: a kind of feed screening plant, including bracket, the top of the bracket are successively fixed from left to right Vibration motor, mounting plate, screening slot and feeder be installed, the inside of the screening slot two side wall panels opens up that there are three vibrations Slot, and three oscillating troughs fall down successively equidistant placement from above, the inside of three left side oscillating troughs slidably connects vibration Device, the side of the shaking device are fixedly connected with one end of fixing axle, the middle part of the fixing axle by fixing bearing with The internal activity of mounting plate is socketed, and the other end of the fixing axle is fixedly connected with the side of driven wheel, outside the driven wheel Portion is sequentially connected by the output shaft of transmission belt and vibration motor, and the other side of the shaking device is fixedly installed with sieve, institute The internal slide for stating the other end of sieve and the oscillating trough on right side connects, and the inner cavity movable sleeve of the feeder is connected to shaft, institute The outside for stating shaft is fixedly installed with helical-blade, and the bottom end of the shaft is run through the bottom end of feeder and consolidated with the top of shaft coupling Fixed connection, the bottom end of the shaft coupling is fixedly connected with the output shaft of feeding motor, in the bottom end and bracket of the feeding motor The bottom end of chamber is fixedly connected, and the two sides of feeding drum outer wall bottom end offer feed recovery port and feed dispensing port, institute respectively The bottom end for stating feed recovery port is fixedly connected with one end of stock guide, the other end of the stock guide and the bottom of screening slot side It is fixedly connected, the top of the feeding drum outer wall is fixedly installed with passage, one end and the feeding tube inner chamber of the passage The other end of top connection, the passage runs through the siding of screening slot side and extends to the top of sieve top side, institute It states and is fixedly connected with support rod in the middle part of feeding drum outer wall, the bottom end of the support rod is fixedly connected with the side of cantilever tip, The bottom end of the screening slot inner cavity is placed with waste recovery slot.

Preferably, the shaking device includes slip ring, the two sides of slip ring two sides with oscillating trough inner wall respectively It is slidably connected, the two sides of the slip ring inner wall are fixedly installed with driver slot, and the inside of the driver slot is connected with pin shaft, institute The one end for stating pin shaft is fixedly connected with the positive edge of wheel disc, and there are four the pin shaft is set, and four pin shafts are in the front of wheel disc Fan-shaped to be equally spaced, the middle part at the wheel disc back side is fixedly connected with one end of fixing axle, the positive two sides of slip ring It is fixedly connected respectively with the both ends of link block, the front of the link block is fixedly connected with the side of sieve.

Preferably, the sieve is equipped with three groups, and three groups of sieves are located on three groups of shaking devices, sieve described in three groups Mesh number is incremented by successively from top to bottom, and the angle of sieve described in three groups and horizontal plane is followed successively by 60 °, 45 ° and 30 ° from top to bottom.

Preferably, the material of the sieve be stainless steel, and sieve with connect block welding.

Preferably, the spacing of the helical-blade and feeder inner wall is less than the aperture of the sieve of lower part.

Preferably, the sieve is fixedly installed with the first striker plate through one end of screening slot siding, the sieve at middle part One end is fixedly installed with the second striker plate, and first striker plate is coplanar with the bottom end of the second striker plate.

(3) beneficial effect

Compared with prior art, the utility model provides a kind of feed screening plant, have it is following the utility model has the advantages that

1, the feed screening plant drives driven rotation using vibration motor by the way that three groups of sieves arranged up and down are arranged It is dynamic, to be rotated with runner disc, so that pin shaft and driver slot are periodically clamped, so that slip ring drives link block up and down reciprocatingly to transport Function realizes vibration, drives three groups of sieve vibrations simultaneously using single vibration motor, not only shaking-sieving effect is good, but also vibration is held Carry small and power saving.

2, feed screening plant, by the way that the feed sieved three times to be discharged into feeder, by the spiral transferring of helical-blade It send, feed is sent to passage and is entered back on sieve, screening can not only be repeated, improve screening quality, meanwhile, pass through feeding Expect dispensing port, feed to be sieved can be put into bottom, is fed convenient and efficient.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is enlarged diagram at the A of the utility model Fig. 1；

Fig. 3 is the utility model shaking device side view.

In figure: 1 bracket, 2 vibration motors, 3 mounting plates, 4 screening slots, 5 feeders, 6 oscillating troughs, 7 shaking devices, 71 slidings Ring, 72 driver slots, 73 pin shafts, 74 wheel discs, 75 link blocks, 8 fixing axles, 9 fixing bearings, 10 driven wheels, 11 transmission belts, 12 sieves Net, 13 shafts, 14 helical-blades, 15 shaft couplings, 16 feeding motors, 17 feed recovery ports, 18 feed dispensing ports, 19 stock guides, 20 Passage, 21 support rods, 22 waste recovery slots, 23 first striker plates, 24 second striker plates.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-3, a kind of feed screening plant, including bracket 1 are please referred to, the top of bracket 1 is successively fixed from left to right to pacify Equipped with vibration motor 2, mounting plate 3, screening slot 4 and feeder 5, sieve 12 is fixedly installed with through one end of 4 siding of screening slot First striker plate 23, one end of the sieve 12 at middle part are fixedly installed with the second striker plate 24, the first striker plate 23 and the second backgauge The bottom end of plate 24 is coplanar, the setting of the first striker plate 23 and the second striker plate 24 can guarantee feed in three-level screening process, under Falling will not be chaotic, more containers can be used holds and realize the classification of feed thickness, there are three the inside of 4 two side wall panels of screening slot opens up Oscillating trough 6, and three oscillating troughs 6 fall down successively equidistant placement from above, the inside of three left side oscillating troughs 6 slidably connects shake Dynamic device 7, shaking device 7 include slip ring 71, and two sides of the two sides of slip ring 71 respectively with 6 inner wall of oscillating trough are slidably connected, The two sides of 71 inner wall of slip ring are fixedly installed with driver slot 72, and the inside of driver slot 72 is connected with pin shaft 73, and the one of pin shaft 73 End is fixedly connected with the positive edge of wheel disc 74, and there are four pin shaft 73 is set, and four pin shafts 73 are in the positive fan-shaped of wheel disc 74 Be equally spaced, the middle part at 74 back side of wheel disc is fixedly connected with one end of fixing axle 8, the positive two sides of slip ring 71 respectively with connection The both ends of block 75 are fixedly connected, and the front of link block 75 is fixedly connected with the side of sieve 12, by the way that shaking device 7 is arranged, just It is shaken in 2 synchronous drive of vibration motor, three groups of sieves 12, drives screening case integrally to shake relative to vibration motor 2 and save electric energy, The side of shaking device 7 is fixedly connected with one end of fixing axle 8, and the middle part of fixing axle 8 passes through fixing bearing 9 and mounting plate 3 Internal activity socket, the other end of fixing axle 8 are fixedly connected with the side of driven wheel 10, and the outside of driven wheel 10 passes through transmission belt 11 are sequentially connected with the output shaft of vibration motor 2, and the other side of shaking device 7 is fixedly installed with sieve 12, and sieve 12 is equipped with three Group, three groups of sieves 12 are located on three groups of shaking devices 7, and the mesh number of three groups of sieves 12 is incremented by successively from top to bottom, three groups of sieves The angle of net 12 and horizontal plane is followed successively by 60 °, 45 ° and 30 ° from top to bottom, guarantees that the aperture of sieve 12 is successively passed from top to bottom Subtracting, feed successively slows down in the falling speed of sieve 12, three-level screening effect of the feed on sieve 12 is improved, sieve 12 Material is stainless steel, and sieve 12 and link block 75 weld, and guarantees the Integral synchronous that sieve 12 is slided in 4 two sides inner wall of screening slot Shape drives driven wheel 10 to rotate, thus with runner disc 74 by the way that three groups of sieves 12 arranged up and down are arranged using vibration motor 2 Rotation, so that slip ring 71 drives link block 75 up and down reciprocatingly to transport function, is realized so that pin shaft 73 and driver slot 72 are periodically clamped Vibration drives three groups of sieves 12 to shake simultaneously using single vibration motor 2, and not only shaking-sieving effect is good, but also it is small to shake carrying And power saving, the internal slide connection of the oscillating trough 6 of the other end and right side of sieve 12, the inner cavity movable sleeve of feeder 5, which is connected to, to be turned Axis 13, the outside of shaft 13 are fixedly installed with helical-blade 14, by the way that the feed sieved three times to be discharged into feeder 5, by spiral shell Feed is sent to passage 20 and is entered back on sieve 12 by the helical feed of vane 14, and screening can not only be repeated, and improves sieve Sub-prime amount, meanwhile, by feed dispensing port 18, feed to be sieved can be put into bottom, feed convenient and efficient, helical-blade 14 are less than the aperture of the sieve 12 of lower part with the spacing of 5 inner wall of feeder, guarantee that the feed after the screening of sieve 12 can be complete Complete being sent by helical-blade 14 to the top of feeder 5 carries out circulation screening operation, and the bottom end of feeder 5 is run through in the bottom end of shaft 13 And be fixedly connected with the top of shaft coupling 15, the bottom end of shaft coupling 15 is fixedly connected with the output shaft of feeding motor 16, feeding electricity The bottom end of machine 16 is fixedly connected with the bottom end of 1 inner cavity of bracket, and the two sides of 5 outer wall bottom end of feeder offer feed recovery port respectively 17 and feed dispensing port 18, the bottom end of feed recovery port 17 be fixedly connected with one end of stock guide 19, the other end of stock guide 19 It being fixedly connected with the bottom of 4 side of screening slot, the top of 5 outer wall of feeder is fixedly installed with passage 20, and the one of passage 20 End is connected to the top of 5 inner cavity of feeder, and the other end of passage 20 runs through the siding of 4 side of screening slot and extends to sieve 12 The top of top side is fixedly connected with support rod 21, the bottom end and 1 top of bracket of support rod 21 in the middle part of 5 outer wall of feeder Side be fixedly connected, the bottom end of 4 inner cavity of screening slot is placed with waste recovery slot 22.

When work, feed is added in feeder 5 from feed dispensing port 18, starting shock motor 2 and feeding motor 16, band Turn axis 13 and helical-blade 14 rotate, and feed are sent from passage 20 to the top of sieve 12, vibration motor 2 drives driven wheel 10 Rotation drives pin shaft 73 and driver slot 72 is intermittent is clamped so that wheel disc 74 rotates so that slip ring 71 in oscillating trough 6 on Lower slider drives link block 75 and 12 vertical tremor of sieve, and for feed from top to bottom successively by screening, powder falls into waste recovery In slot 22, finished product feedstuff enters feeder 5 using stock guide 19, is recycled, when not generating feed powder, closure feed Recovery port 17 removes the feed eventually settled on stock guide 19.

In conclusion the feed screening plant, by the way that three groups of sieves 12 arranged up and down are arranged, using 2 band of vibration motor Dynamic driven wheel 10 rotates, to rotate with runner disc 74, so that pin shaft 73 and driver slot 72 are periodically clamped, thus slip ring 71 It drives link block 75 up and down reciprocatingly to transport function, realizes vibration, drive three groups of sieves 12 to shake simultaneously using single vibration motor 2, not only Shaking-sieving effect is good, and shakes and carry small and power saving；By the way that the feed sieved three times to be discharged into feeder 5, by spiral shell Feed is sent to passage 20 and is entered back on sieve 12 by the helical feed of vane 14, and screening can not only be repeated, and improves sieve Sub-prime amount, meanwhile, by feed dispensing port 18, feed to be sieved can be put into, be fed convenient and efficient in bottom；It solves Feed screening machine is by driving sieve vibration, fodder classifying screen being selected to screening case vibration, since motor drives overall screen branch mailbox Vibration, effect is poor, and power consumption is big, while being glided automatically using gravity, the bad problem of disposable screening effect.

It should be noted that, in this document, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any actual relationship or order or sequence.Moreover, the terms "include", "comprise" or its any other variant are intended to Non-exclusive inclusion, so that the process, method, article or equipment including a series of elements is not only wanted including those Element, but also including other elements that are not explicitly listed, or further include for this process, method, article or equipment Intrinsic element.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims

1. a kind of feed screening plant, including bracket (1), it is characterised in that: the top of the bracket (1) is successively solid from left to right Dingan County equipped with vibration motor (2), mounting plate (3), screening slot (4) and feeder (5), screening slot (4) two side wall panels it is interior Portion is opened up there are three oscillating trough (6), and three oscillating troughs (6) are fallen down successively equidistant placement from above, three left side vibrations The inside of slot (6) slidably connects shaking device (7), and the side of the shaking device (7) and one end of fixing axle (8) are fixed The middle part of connection, the fixing axle (8) is socketed by the internal activity of fixing bearing (9) and mounting plate (3), the fixing axle (8) the other end is fixedly connected with the side of driven wheel (10), and the outside of the driven wheel (10) passes through transmission belt (11) and shake The output shaft transmission connection of dynamic motor (2), the other side of the shaking device (7) is fixedly installed with sieve (12), the sieve (12) internal slide of the oscillating trough (6) of the other end and right side connects, and the inner cavity movable sleeve of the feeder (5) is connected to shaft (13), the outside of the shaft (13) is fixedly installed with helical-blade (14), and the bottom end of the shaft (13) is through feeder (5) Bottom end is simultaneously fixedly connected with the top of shaft coupling (15), and the bottom end of the shaft coupling (15) and the output shaft of feeding motor (16) are solid Fixed connection, the bottom end of the feeding motor (16) are fixedly connected with the bottom end of bracket (1) inner cavity, feeder (5) the outer wall bottom The two sides at end offer feed recovery port (17) and feed dispensing port (18) respectively, the bottom end of the feed recovery port (17) with lead One end of flitch (19) is fixedly connected, and the other end of the stock guide (19) is fixedly connected with the bottom of screening slot (4) side, institute The top for stating feeder (5) outer wall is fixedly installed with passage (20), one end and feeder (5) inner cavity of the passage (20) Top connection, the other end of the passage (20) through screening slot (4) side siding and extend to sieve (12) top The top of side is fixedly connected with support rod (21) in the middle part of feeder (5) outer wall, the bottom end of the support rod (21) with The side on bracket (1) top is fixedly connected, and the bottom end of screening slot (4) inner cavity is placed with waste recovery slot (22).

2. a kind of feed screening plant according to claim 1, it is characterised in that: the shaking device (7) includes sliding Ring (71), two sides of the two sides of the slip ring (71) respectively with oscillating trough (6) inner wall are slidably connected, in the slip ring (71) The two sides of wall are fixedly installed with driver slot (72), and the inside of the driver slot (72) is connected with pin shaft (73), the pin shaft (73) one end is fixedly connected with wheel disc (74) positive edge, and there are four the pin shaft (73) sets, and four pin shafts (73) exist The front of wheel disc (74) is fan-shaped to be equally spaced, and the middle part at wheel disc (74) back side is fixedly connected with one end of fixing axle (8), The positive two sides of the slip ring (71) are fixedly connected with the both ends of link block (75) respectively, the link block (75) front with The side of sieve (12) is fixedly connected.

3. a kind of feed screening plant according to claim 1, it is characterised in that: the sieve (12) is equipped with three groups, three Group sieve (12) is located on three groups of shaking devices (7), and the mesh number of sieve described in three groups (12) is incremented by successively from top to bottom, and three The angle of the group sieve (12) and horizontal plane is followed successively by 60 °, 45 ° and 30 ° from top to bottom.

4. a kind of feed screening plant according to claim 1, it is characterised in that: the material of the sieve (12) is stainless Steel, and sieve (12) and link block (75) are welded.

5. a kind of feed screening plant according to claim 1, it is characterised in that: the helical-blade (14) and feeder (5) spacing of inner wall is less than the aperture of the sieve (12) of lower part.

6. a kind of feed screening plant according to claim 1, it is characterised in that: the sieve (12) runs through screening slot (4) one end of siding is fixedly installed with the first striker plate (23), and one end of the sieve (12) at middle part is fixedly installed with the second backgauge Plate (24), first striker plate (23) are coplanar with the bottom end of the second striker plate (24).