CN209697475U

CN209697475U - Fodder classifying screen selects component

Info

Publication number: CN209697475U
Application number: CN201920245290.4U
Authority: CN
Inventors: 赵海涛
Original assignee: Shenyang Yunken Feed Co Ltd
Current assignee: Shenyang Yunken Feed Co Ltd
Priority date: 2019-02-27
Filing date: 2019-02-27
Publication date: 2019-11-29
Anticipated expiration: 2029-02-27

Abstract

The utility model relates to field of feed processing, specifically a kind of fodder classifying screen selects component, including pan feeding pipeline, first roto-siofter, second roto-siofter, third roto-siofter and multiple output pipes, the revolution sieve nest with sieve is equipped in each roto-siofter, and the revolution sieve nest is divided into sieve nest epicoele and sieve nest cavity of resorption by the sieve, the feeding inlet of the sieve nest epicoele of first roto-siofter is connected with the pan feeding pipeline, the discharge port of the sieve nest epicoele of first roto-siofter is connected by the first output pipe with the feeding inlet of the sieve nest epicoele of the second roto-siofter, the discharge port of the sieve nest cavity of resorption of first roto-siofter is connected by the second output pipe with the feeding inlet of the sieve nest epicoele of third roto-siofter, the discharge port of the sieve nest epicoele and sieve nest cavity of resorption of the sieve nest epicoele of second roto-siofter and the discharge port of sieve nest cavity of resorption and third roto-siofter is equipped with output pipe.Feed can be separated multiple grades according to particle diameter and be used for the nursing broiler chicken of different phase by the utility model, full feeding requirement.

Description

Fodder classifying screen selects component

Technical field

The utility model relates to field of feed processing, specifically a kind of fodder classifying screen selects component.

Background technique

With the development of modern farming, the requirement for poultry feed is also increasingly finer, by taking broiler feeding as an example, by Difference is developed in the broiler chicken organ of different phase, in order to guarantee that broiler chicken sufficiently digests and assimilates feed, the broiler chicken of different phase The feed granules diameter needed is different, and the feed needed in 10 days after chicken hatching usually requires that particle is more fine, and one As require feed granules in 3mm or less and have relatively stringent ratio control, wherein the feed granules of 2~3mm are no more than 20%, Remaining is 2mm or less particle, and in 10~25 days after chicken hatching, broiler chicken is tentatively grown up, and the feed granules needed are wanted Can be used after asking 25 days for 3~5mm or so, preferably 4~5mm, after chicken hatching pellet of the diameter greater than 5mm into Row is fed.The broiler chicken of requirement due to to(for) feed is more and more finer, and feed-processing equipment will also make improvements therewith, existing to adapt to For the demand for development of aquaculture.

Utility model content

The purpose of this utility model is to provide a kind of fodder classifying screens to select component, can be by feed according to particle diameter point Multiple grades and the nursing broiler chicken for different phase out, meet the raising requirement of modern farming.

The purpose of this utility model is achieved through the following technical solutions:

A kind of fodder classifying screen selects component, including pan feeding pipeline, the first roto-siofter, the second roto-siofter, third roto-siofter and Multiple output pipes, wherein the first roto-siofter, the second roto-siofter and third roto-siofter are equipped with revolution sieve nest, and the roto-siofter Internal portion is divided into sieve nest epicoele and sieve nest cavity of resorption by sieve, and wherein the upper end of sieve nest epicoele is equipped with feeding inlet, sieve nest epicoele with The lower end of sieve nest cavity of resorption is equipped with discharge port, and the feeding inlet of the sieve nest epicoele of the first roto-siofter is connected with the pan feeding pipeline, the The discharge port of the sieve nest epicoele of single-revolution sieve is connected by the first output pipe with the feeding inlet of the sieve nest epicoele of the second roto-siofter, The discharge port of the sieve nest epicoele of second roto-siofter is connected with third output pipe, the discharge port of the sieve nest cavity of resorption of the second roto-siofter with 4th output pipe is connected, and the discharge port of the sieve nest cavity of resorption of the first roto-siofter passes through the sieve of the second output pipe and third roto-siofter The feeding inlet of body epicoele is connected, and the discharge port of the sieve nest epicoele of third roto-siofter is connected with the 5th output pipe, third roto-siofter The discharge port of sieve nest cavity of resorption be connected with the 6th output pipe.

The sieve mesh diameter of first roto-siofter is 4mm, and the sieve mesh diameter of second roto-siofter is 5mm, The sieve mesh diameter of the third roto-siofter is 2mm.

First roto-siofter, the second roto-siofter are identical with third revolution sieve structure, include sieve seat, revolution sieve nest, sieve Net, driving device and turntable, the revolution sieve nest inclination are hung in the sieve seat, and the driving device is fixedly arranged in sieve seat, The turntable is installed on the output shaft of the driving device, and the disk edge is equipped with a vertical bar, the vertical bar Upper end is connected by a connecting rod with the revolution sieve nest.

The sieve includes rack, elastic ball and two layers of filter screen, and two layers of filter screen is divided on the upside of rack under Side, and the mesh diameter of two layers of filter screen is identical, multiple grids is divided into inside the rack, and be equipped in each grid Multiple elastic balls.

The advantages of the utility model and good effect are as follows:

1, the utility model can feed feed according to the broiler chicken that particle diameter separates multiple grades and is used for different phase It supports, meets the raising requirement of modern farming.

2, the sieve in each roto-siofter of the utility model is divided into multiple grids, and several bullets are equipped in each grid Property ball, the elastic ball constantly rolls spring in sieve turning course in corresponding grid, to enhance filter effect and avoid Clogging guarantees that feed filtering is abundant.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model,

Fig. 2 is the roto-siofter structural schematic diagram in Fig. 1,

Fig. 3 is the sieve top view in Fig. 2.

Wherein, 1 is the first roto-siofter, and 2 be the second roto-siofter, and 3 be third roto-siofter, and 4 be the first output pipe, and 5 be the Two output pipes, 6 be third output pipe, 7 be the 4th output pipe, 8 be the 6th output pipe, 9 be the 5th output pipe, 10 It is sieve nest cavity of resorption for sieve nest epicoele, 11,12 be elastic ball, and 13 be pan feeding pipeline, and 14 be sieve seat, and 15 be revolution sieve nest, and 16 be to hang Rope, 17 be driving device, and 18 be turntable, and 19 be connecting rod, and 20 be sieve, and 21 be hose.

Specific embodiment

The utility model is described in further detail with reference to the accompanying drawing.

As shown in Fig. 1~2, the utility model includes pan feeding pipeline 13, the first roto-siofter 1, the second roto-siofter 2, third time Turn sieve 3 and multiple output pipes, wherein as shown in Fig. 2, first roto-siofter 1, the second roto-siofter 2 and third roto-siofter 3 are set There is structure identical and the internal revolution sieve nest 15 with sieve 20, and the sieve 20 will be divided into sieve inside the revolution sieve nest 15 Body epicoele 10 and sieve nest cavity of resorption 11, the revolution sieve nest 15 is obliquely installed and the upper end of sieve nest epicoele 10 is equipped with feeding inlet, sieve nest The lower end of epicoele 10 and sieve nest cavity of resorption 11 is equipped with discharge port.As shown in Figure 1, the pan feeding of the sieve nest epicoele 10 of the first roto-siofter 1 Mouth is connected with the pan feeding pipeline 13, and the discharge port of the sieve nest epicoele 10 of the first roto-siofter 1 passes through the first output pipe 4 and second The feeding inlet of the sieve nest epicoele 10 of roto-siofter 2 is connected, the discharge port and third output pipe of the sieve nest epicoele 10 of the second roto-siofter 2 6 are connected, and the discharge port of the sieve nest cavity of resorption 11 of the second roto-siofter 2 is connected with the 4th output pipe 7, under the sieve nest of the first roto-siofter 1 The discharge port of chamber 11 is connected by the second output pipe 5 with the feeding inlet of the sieve nest epicoele 10 of third roto-siofter 3, third roto-siofter The discharge port of 3 sieve nest epicoele 10 is connected with the 5th output pipe 9, the discharge port of the sieve nest cavity of resorption 11 of third roto-siofter 3 and Six output pipes 8 are connected.

In the present embodiment, 20 mesh diameter of sieve of first roto-siofter 1 is 4mm, the sieve of second roto-siofter 2 20 mesh diameters are 5mm, and 20 mesh diameter of sieve of the third roto-siofter 3 is 2mm.

As shown in Fig. 2, first roto-siofter 1, the second roto-siofter 2 are identical with 3 structure of third roto-siofter, it include sieve seat 14, sieve nest 15, sieve 20, driving device 17 and turntable 18 are turned round, 14 section of sieve seat is in concave, and the revolution sieve nest 15 inclines It is tiltedly hung in the sieve seat 14, wherein 15 top and bottom of roto-siofter body pass through lifting rope 16 and described 14 pairs of sieve seat respectively The sidewall upper of side is answered to be connected, in the present embodiment, the revolution sieve nest 15 is 4~6 ° with horizontal direction included angle, the drive Dynamic device 17 is fixedly arranged on the bottom surface in sieve seat 14, and the turntable 18 is installed on the output shaft of the driving device 17, and institute 18 edge of turntable is stated equipped with a vertical bar, the vertical bar upper end passes through a connecting rod 19 and 15 phase of revolution sieve nest Even.When device works, the turntable 18 is driven by the driving device 17 to be rotated, since revolution sieve nest 1 is hung at sieve seat 14 Interior, the revolution sieve nest 1 is driven by the turntable 18 makees rotary motion in sieve seat 14, the sieve nest of the revolution sieve nest 1 The feeding inlet and discharge port of epicoele 10 and the discharge port of sieve nest cavity of resorption 11 pass through hose 21 respectively and are connected with corresponding pipeline, described Hose 21 can guarantee that the revolution movement of revolution sieve nest 1 is gone on smoothly, and not influenced by each pipeline being fixedly installed, in addition the sieve Corresponding position is equipped with the through-hole passed through for respective line on seat 14, and the through-hole diameter is sufficiently large, for the purposes of guaranteeing back Revolution movement can be smoothly completed by turning sieve nest 1.In the present embodiment, the driving device 17 is the motor with speed reducer, this is city Purchase product.

As shown in figures 2-3, the sieve 20 includes rack, elastic ball 12 and two layers of filter screen, two layers of filter screen point Set on rack the upper side and lower side, and the mesh diameter of two layers of filter screen is identical, and multiple grids are divided into inside the rack, and Several elastic balls 12 are equipped in each grid, the elastic ball 12 constantly rolls in corresponding grid in 20 turning course of sieve Jump of moving enhances filter effect and avoids filter screen filter eye blocking to reinforce filter screen vibration.In the present embodiment, the elasticity Ball 12 is made of rubber.

The working principle of the utility model are as follows:

When utility model works, 20 mesh diameter of sieve of first roto-siofter 1 is 4mm, and feed is via first time Turn sieve 1 to be classified for the first time, wherein feed of the diameter greater than 4mm enters in the second roto-siofter 2 via the first output pipe 4, directly Feed of the diameter less than 4mm is entered in third roto-siofter 2 after the sieve 20 of the first roto-siofter 1 filters by the second output pipe 5.

20 mesh diameter of sieve of second roto-siofter 2 is 5mm, and after feed enters the second roto-siofter 2, diameter is greater than The feed of 5mm is exported via third output pipe 6 to specified storage compartment, this feed a part can be used for 25 days or more after hatching meat Chicken feed is used, and feed of the diameter less than 5mm is exported by the 4th output pipe 7 to specified after the sieve 20 of the second roto-siofter 2 filters Storage compartment, this feed a part particle are 4~5mm, 10~25 days eaten by broilers after can be used for hatching.

20 mesh diameter of sieve of the third roto-siofter 3 is 2mm, and after feed enters third roto-siofter 3, diameter is greater than The feed of 2mm is exported via the 5th output pipe 9 to specified storage compartment, and feed of the diameter less than 2mm is by third roto-siofter 3 Sieve 20 is passed through after filtering by the 6th output pipe 8 output to specified storage compartment, and thus feed separates 2~3mm particle and is less than 2mm Two parts of particle, the small fowl raising that can be used for after hatching in 10 days after the mixing of this two parts desired proportions.

Claims

1. a kind of fodder classifying screen selects component, it is characterised in that: including pan feeding pipeline (13), the first roto-siofter (1), the second revolution (2), third roto-siofter (3) and multiple output pipes are sieved, wherein the first roto-siofter (1), the second roto-siofter (2) and third roto-siofter (3) it is equipped with revolution sieve nest (15), and is divided into sieve nest epicoele (10) and sieve by sieve (20) inside the revolution sieve nest (15) Body cavity of resorption (11), wherein the upper end of sieve nest epicoele (10) is equipped with feeding inlet, the lower end of sieve nest epicoele (10) and sieve nest cavity of resorption (11) It is equipped with discharge port, the feeding inlet of the sieve nest epicoele (10) of the first roto-siofter (1) is connected with the pan feeding pipeline (13), and first time The discharge port for turning the sieve nest epicoele (10) of sieve (1) passes through the sieve nest epicoele (10) of the first output pipe (4) and the second roto-siofter (2) Feeding inlet be connected, the discharge port of the sieve nest epicoele (10) of the second roto-siofter (2) is connected with third output pipe (6), second time The discharge port for turning the sieve nest cavity of resorption (11) of sieve (2) is connected with the 4th output pipe (7), the sieve nest cavity of resorption of the first roto-siofter (1) (11) discharge port is connected by the second output pipe (5) with the feeding inlet of the sieve nest epicoele (10) of third roto-siofter (3), third The discharge port of the sieve nest epicoele (10) of roto-siofter (3) is connected with the 5th output pipe (9), the sieve nest cavity of resorption of third roto-siofter (3) (11) discharge port is connected with the 6th output pipe (8).

2. fodder classifying screen according to claim 1 selects component, it is characterised in that: the sieve of first roto-siofter (1) (20) mesh diameter is 4mm, and sieve (20) mesh diameter of second roto-siofter (2) is 5mm, the third roto-siofter (3) Sieve (20) mesh diameter be 2mm.

3. fodder classifying screen according to claim 1 selects component, it is characterised in that: first roto-siofter (1), second time It is identical with third roto-siofter (3) structure to turn sieve (2), includes sieve seat (14), revolution sieve nest (15), sieve (20), driving device (17) it is hung in the sieve seat (14) with turntable (18), revolution sieve nest (15) inclination, the driving device (17) is fixed In in sieve seat (14), the turntable (18) is installed on the output shaft of the driving device (17), and the turntable (18) edge Equipped with a vertical bar, the vertical bar upper end is connected by a connecting rod (19) with the revolution sieve nest (15).

4. fodder classifying screen according to claim 3 selects component, it is characterised in that: the sieve (20) includes rack, bullet Property ball (12) and two layers of filter screen, two layers of filter screen are divided into rack upper layer and lower layer, and the mesh of two layers of filter screen Diameter is identical, and multiple grids are divided into inside the rack, and multiple elastic balls (12) are equipped in each grid.