CN114432960B

CN114432960B - Granulator for producing chicken feed

Info

Publication number: CN114432960B
Application number: CN202111656626.4A
Authority: CN
Inventors: 梁泉; 罗晓萍; 罗国富
Original assignee: Fujian Shaowu Hualong Feed Co ltd
Current assignee: Fujian Shaowu Hualong Feed Co ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2024-03-29
Anticipated expiration: 2041-12-31
Also published as: CN114432960A

Abstract

The utility model belongs to the technical field of equipment for producing poultry feed, and particularly relates to a granulator for producing chicken feed. According to the utility model, the motor main body, the motor shaft, the hollow scraping plate unit, the vertical receiving ring unit, the inclined guide ring unit and the air inlet pipe are arranged below the pore plate, so that the aim of more efficient chicken feed granulating operation is fulfilled. The utility model has the following advantages: firstly, a relatively sealed hot air cavity is formed below the pore plate, so that wet particles can be pre-dried immediately after being prepared, and the adhesion degree between feed particles is greatly reduced; secondly, the scraping plate has an air blowing function, so that the wet particles which are difficult to adhere are blown off, and the granulation function of the scraping plate is ensured to be continuously and effectively; thirdly, the discharge gate of slope guide ring unit is the air outlet promptly, guarantees the convenience of single position ejection of compact and the quick advantage of blowing ejection of compact.

Description

Granulator for producing chicken feed

Technical Field

The utility model belongs to the technical field of equipment for producing poultry feed, and particularly relates to a granulator for producing chicken feed.

Background

The chicken feed is the same as other poultry feeds, and in the production process, the steps of mixing, puffing, granulating and drying are needed, and corresponding equipment, namely a stirrer, a puffing machine, a granulator, a dryer and the like are needed.

On the other hand, the existing granulator for feed mainly comprises a cylinder, a pore plate, an internal pushing structure and an external rotary cutting structure.

For example, chinese patent publication No. CN212701809U, publication No. 2021.03.16 discloses a pellet feed extrusion apparatus, in which an extrusion die is provided at the end of a barrel; an outer rotary table is fixed at the tail end of the first rotary shaft; each cutting hole and each discharging hole are uniformly and oppositely arranged; a torsion spring is sleeved on the first rotating shaft; one end of the torsion spring is fixed on the first rotating shaft; the other end of the torsion spring is fixed on the L-shaped rod; a fixed rod is fixed on the side wall of the outer rotary table; the guide shaft passes through the guide cylinder; a push rod is fixed on the guide shaft; the surface of the push rod is provided with a slotted hole; umbrella-shaped elements are arranged in the slotted holes; the umbrella-shaped element is rotationally connected with the inner wall of the slotted hole through a third rotating shaft.

However, the extrusion device of this patent has at least the following disadvantages during use.

First, the lack of a pre-drying function after pelletization requires relatively wet pellets extruded by the apparatus, which require immediate drying, and requires high process coordination and equipment layout.

If the wet pellets cannot be dried in time, the shape of the feed pellets is seriously deformed, the feed pellets are adhered to each other, and the dried amorphous pellets are easier to break.

Secondly, the outer rotary table is a direct rotary cutting part, so that when wet granules are obtained by granulating, the wet granules are easy to adhere to the outer rotary table, and finally, a large number of granules are adhered to the outer rotary table.

Thirdly, the outer turntable area is a blanking part, a large number of particles drop irregularly, and finally the problem that the material collecting operation is troublesome and low-efficiency is caused.

Therefore, in view of the above, there is an urgent need for a granulator with pre-drying function, material removing function at rotary cutting part, and centralized material collecting function for chicken feed production.

Disclosure of Invention

The utility model provides a granulator for producing chicken feed, which can achieve the aim of more efficient chicken feed granulation operation by arranging a motor main body, a motor shaft, a hollow scraping plate unit, a vertical receiving ring unit, an inclined guide ring unit and an air inlet pipe below a pore plate.

The utility model adopts the technical proposal that: the utility model provides a granulator for producing chicken fodder, is including extruding the barrel, the orifice plate, the motor main part to and the motor shaft, still including setting up hollow scraper blade unit on the motor shaft sets up in the motor main part and with the vertical receipts material ring unit that the motor shaft cup jointed sets up on the vertical receipts material ring unit and big-end-up's slope guide ring unit, and set up on the vertical receipts material ring unit and the air-supply line of outer continuous air heater.

The further preferable technical scheme is as follows: the hollow scraping plate unit comprises an inverted cylinder sleeved on the motor shaft, an upward extending plate arranged on the outer ring surface of the inverted cylinder, and a radial scraping plate arranged on the upper surface of the upward extending plate and the rotating area covers all discharge holes.

The further preferable technical scheme is as follows: the hollow scraper unit further comprises an annular air inlet groove which is formed in the upper direction of the lower surface of the inverted cylinder and used for being inserted into the vertical receiving ring unit, and an air outlet hole which is arranged between the annular air inlet groove and the outer ring surface of the inverted cylinder.

The further preferable technical scheme is as follows: the hollow scraper unit further comprises sealing bristles which are arranged in the annular air inlet groove and lower than the air outlet holes.

The further preferable technical scheme is as follows: the outer side end of the air outlet hole is inclined upwards and is inclined towards the side face of the front end of the radial scraping plate in the rotating direction.

The further preferable technical scheme is as follows: the vertical receiving ring unit is in including setting up in the motor main part and cup joint with the motor shaft, and be used for connecting the fixed ring of cavity of air-supply line sets up on the fixed ring outer ring face of cavity and the blanking ring of outer lane downward sloping, set up horizontal ring on the blanking ring, set up be used for the jack-up on the horizontal ring the vertical outer loop of slope guide ring unit, set up the discharge gate of giving vent to anger on the horizontal ring, and set up on the fixed ring of cavity and upwards insert the connecting pipe of annular air inlet.

The further preferable technical scheme is as follows: the vertical receiving ring unit further comprises a ring body sealing ring arranged on the upper surface of the vertical outer ring.

The further preferable technical scheme is as follows: the inclined guide ring unit comprises a closing-in circular ring arranged on the annular upper surface of the vertical outer ring and a sealing ring for a plate body arranged on the upper surface of the closing-in circular ring.

The further preferable technical scheme is as follows: the inclined guide ring unit further comprises a sealing strip which is arranged on the outer ring surface of the closing-in ring and used for clamping the ring body sealing ring.

The further preferable technical scheme is as follows: the inclined guide ring unit further comprises an annular screen mesh arranged between the lower surface of the closing-in circular ring and the upper surface of the blanking ring.

The present utility model has the following advantages.

Firstly, a relatively sealed hot air cavity is formed below the pore plate, so that wet granules can be pre-dried immediately after being prepared, and the adhesion degree between feed granules is greatly reduced.

Secondly, have the function of blowing on the scraper blade, blow down the operation to the wet granule that can not avoid sticking, guarantee that the scraper blade pelletization function is continuous effective.

Thirdly, the discharge gate of slope guide ring unit is the air outlet promptly, guarantees the convenience of single position ejection of compact and the quick advantage of blowing ejection of compact.

Fourth, the feed pellets which have passed the predrying, but still adhered, have screen interception at the inclined guide ring unit, and can be fed only after they are sufficiently dried and separated, in principle ensuring that all the discharged pellets are no longer adhered.

Fifth, the whole hot air cavity has high structural stability and sufficient and proper sealing performance without being fixedly connected.

Sixth, the moisture that the heating stoving produced, at vertical receipts material ring unit's discharge gate effluvium, and the fodder granule whereabouts, the two are separated, avoid the fodder granule to wet again.

Seventh, the air inlet pipe is positioned at the outer side of the hot air cavity and is fixed, so that the problem of knotting of the pipeline is avoided.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a schematic view of the position structure of the hollow squeegee unit in the present utility model.

FIG. 3 is a schematic view of the position structure of the air outlet in the present utility model.

Fig. 4 is a schematic diagram of the position structure of the inclined guide ring unit in the present utility model.

Fig. 5 is a schematic diagram of a position structure of a vertical receiving ring unit in the present utility model.

Fig. 6 is a schematic view of the position structure of the connecting pipe in the present utility model.

In the drawings, the components represented by the respective reference numerals are as follows: the scraper wet particles a, the extrusion cylinder 11, the pore plate 12, the motor main body 13, the motor shaft 14, the hollow scraper unit 1, the vertical receiving ring unit 2, the inclined guide ring unit 3, the air inlet pipe 4, the inverted cylinder 101, the upward extending plate 102, the radial scraper 103, the annular air inlet groove 104, the air outlet 105, the sealing bristles 106, the hollow fixing ring 201, the blanking ring 202, the horizontal ring 203, the vertical outer ring 204, the air outlet 205, the connecting pipe 206, the ring body sealing ring 207, the closing ring 301, the sealing ring 302 for the plate body, the sealing strip 303 and the annular screen 304.

Detailed Description

The following description is of the preferred embodiments of the utility model and is not intended to limit the scope of the utility model.

Examples: as shown in fig. 1-6, a granulator for producing chicken feed comprises an extrusion cylinder 11, a pore plate 12, a motor main body 13, a motor shaft 14, a hollow scraper unit 1 arranged on the motor shaft 14, a vertical receiving ring unit 2 arranged on the motor main body 13 and sleeved with the motor shaft 14, an inclined guide ring unit 3 arranged on the vertical receiving ring unit 2 and having a large upper part and a small lower part, and an air inlet pipe 4 arranged on the vertical receiving ring unit 2 and externally connected with a hot air blower.

In this embodiment, the general method of use and advantages of the granulator are as follows.

First, from the flitch that takes the downwardly moving in the extrusion barrel 11, the trompil of orifice plate 12 is not offered in centre of a circle department, otherwise here the fodder granule that drops can adhere on whole motor.

And secondly, the vertical material receiving ring unit 2 and the inclined material guiding ring unit 3 form a heating cavity which is relatively sealed and can be blanked downwards, so that hot air is ensured to form enough and proper drying temperature in the cavity, and finally, relatively dry feed particles which are not easy to adhere can enter the dryer.

Thirdly, the vertical receiving ring unit 2 is fixedly installed and does not rotate, so as to protect the air inlet pipe 4 and avoid the problems of pipe body stretch-breaking, knotting and the like after the air inlet pipe rotates.

Fourth, the ejection of compact position of vertical receipts material ring unit 2 department is the hot-blast ejection of compact position of carrying steam again, avoids heating intracavity vapor overweight, consequently the ejection of compact position need connect an open receipts material frame, can not connect sealed receiving material pipe, is to guarantee that steam can distribute away.

The hollow scraper unit 1 comprises an inverted cylinder 101 sleeved on the motor shaft 14, an upward extending plate 102 arranged on the outer ring surface of the inverted cylinder 101, and a radial scraper 103 arranged on the upper surface of the upward extending plate 102 and the rotating area covers all discharge holes.

In this embodiment, the number of the radial scrapers 103 is 2 or 3, which is relatively long and narrow, so as to ensure that the feed material can be scraped off to form feed particles after being extruded for a suitable length, and the upward extending plate 102 has the function of allowing a larger fixing area between the radial scrapers 103 and the inverted cylinder 101, ensuring that the radial scrapers 103 are firmly mounted, and avoiding the inverted cylinder 101 from accidentally colliding with the orifice plate 12.

The hollow scraper unit 1 further comprises an annular air inlet groove 104 which is formed upwards from the lower surface of the inverted cylinder 101 and is used for being inserted into the vertical receiving ring unit 2, and an air outlet hole 105 which is arranged between the annular air inlet groove 104 and the outer annular surface of the inverted cylinder 101.

In this embodiment, the wet particles a of the scraping plate need to be blown down, otherwise, the more the scraping plate is accumulated, the more the scraping plate is adhered to the wet particles which are scraped down, and the blowing paths are as follows: the air inlet pipe 4, the vertical receiving ring unit 2, the annular air inlet groove 104 and the air outlet holes 105 ensure that air flows towards the advancing side surface of the radial scraping plate 103, so that the scraping plate wet particles a fall down rapidly.

The hollow flight unit 1 further includes sealing bristles 106 disposed in the annular air inlet channel 104 and below the air outlet holes 105.

In this embodiment, the sealing bristles 106 serve two functions: firstly, ensuring that the vertical receiving ring unit 2 can relatively rotate in the annular air inlet groove 104; second, the loss of air flow at the annular air inlet groove 104 is reduced as much as possible, so that as much air flow as possible can be led into the air outlet holes 105.

The outer ends of the air outlet holes 105 are inclined upward and toward the rotation direction front end side of the radial blade 103.

In this embodiment, the air outlet 105 is located below and radially inside the blade wet particles a, and the blade wet particles a are only present on the rotating front end face of the radial blade 103, so the air outlet 105 needs to be "upward, outward, and toward the rotating front end face" to ensure the maximum intensity of the air blowing effect.

The vertical receiving ring unit 2 comprises a hollow fixed ring 201 which is arranged on the motor main body 13 and sleeved with the motor shaft 14 and is used for connecting the air inlet pipe 4, a blanking ring 202 which is arranged on the outer ring surface of the hollow fixed ring 201 and the outer ring of which is inclined downwards, a horizontal ring 203 which is arranged on the blanking ring 202, a vertical outer ring 204 which is arranged on the horizontal ring 203 and is used for jacking the inclined guide ring unit 3, an air outlet 205 which is arranged on the horizontal ring 203, and a connecting pipe 206 which is arranged on the hollow fixed ring 201 and is inserted into the annular air inlet groove 104 upwards.

In this example, after the feed pellet was scraped, the falling paths were in turn: the inclined guide ring unit 3, the blanking ring 202 and the horizontal ring 203, while the vertical outer ring 204 has the following two functions: firstly, blocking piled feed particles to avoid falling; and secondly, the inclined guide ring unit 3 is used for supporting and installing.

The hollow fixing ring 201 is a supporting part of the whole vertical receiving ring unit 2, and even the whole hot air cavity, and needs to have relatively large structural strength.

In addition, the air outlet 205 is, as the name implies, not only the falling position of the feed particles, but also the discharging position of the hot air carrying steam, so that the excessive weight of the water vapor in the hot air cavity is avoided, the air can flow rapidly, the feed particles with relatively small weight can be pushed, and the feed particles can be ensured to fall from the air outlet 205 rapidly.

Finally, the material of the whole vertical receiving ring unit 2 is the existing common stainless steel.

The vertical receiving ring unit 2 further comprises a ring body sealing ring 207 arranged on the upper surface of the vertical outer ring 204.

In this embodiment, the ring body sealing ring 207 is used to seal and dock the inclined guide ring unit 3, so that relatively less hot air loss is guaranteed at the location, and the inclined guide ring unit 3 can be stably supported, so that the inclined guide ring unit 3 is prevented from tilting and shifting.

The inclined guide ring unit 3 comprises a closing-in circular ring 301 arranged on the annular upper surface of the vertical outer ring 204, and a sealing ring 302 for a plate body arranged on the upper surface of the closing-in circular ring 301.

In this embodiment, the sealing ring 302 for the plate body lifts up the orifice plate 12 to ensure the sealing effect of the position, and a circle of gap between the lower end of the closing ring 301 and the upper surface of the blanking ring 202 is a falling channel of the feed particles, the feed particles roll on the closing ring 301, and the blanking ring 202 is impacted, lifted and rolled, so that the contact time of the feed particles and hot air can be properly prolonged, and the pre-drying operation is ensured to be full and suitable.

The inclined guide ring unit 3 further comprises a sealing strip 303 which is arranged on the outer ring surface of the closing-in ring 301 and is used for clamping the ring body sealing ring 207.

In this embodiment, the sealing strip 303 has the same function as the ring body sealing ring 207 for sealing and abutting and anti-skid fixation, so that the ring body sealing ring 207, the plate body sealing ring 302 and the sealing strip 303 are made of conventional common rubber.

The inclined guide ring unit 3 further comprises an annular screen 304 arranged between the lower surface of the closing-in circular ring 301 and the upper surface of the blanking ring 202.

In this embodiment, a plurality of wet pellets may still be adhered after passing down the radial scraper 103, the closing ring 301 and the blanking ring 202, so that a relatively large mesh annular screen 304 is provided to block the wet pellets which have been "agglomerated" at this time, so that the wet pellets stay more and can only pass through the annular screen 304 after further drying, dewatering and solidification, and the feed pellets waiting to be discharged at the horizontal ring 203 are relatively dry pellets which are not easy to adhere again.

Thus, the mesh size of the annular screen 304 may be set to a general gauge size after 3-5 normal feed pellets have been agglomerated.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various modifications may be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model. These are all non-inventive modifications which are intended to be protected by the patent laws within the scope of the appended claims.

Claims

1. A granulator for the production of chicken feed, comprising an extrusion cylinder (11), an orifice plate (12), a motor body (13), and a motor shaft (14), characterized in that: the device also comprises a hollow scraping plate unit (1) arranged on the motor shaft (14), a vertical receiving ring unit (2) arranged on the motor main body (13) and sleeved with the motor shaft (14), an inclined guide ring unit (3) arranged on the vertical receiving ring unit (2) and having a large upper part and a small lower part, and an air inlet pipe (4) arranged on the vertical receiving ring unit (2) and externally connected with a hot air blower,

the hollow scraper unit (1) comprises an inverted cylinder (101) sleeved on the motor shaft (14), an upward extending plate (102) arranged on the outer ring surface of the inverted cylinder (101), and a radial scraper (103) arranged on the upper surface of the upward extending plate (102) and the rotating area covers all discharge holes,

the hollow scraper unit (1) further comprises an annular air inlet groove (104) which is upwards formed from the lower surface of the inverted cylinder (101) and is used for being inserted into the vertical receiving ring unit (2), and an air outlet hole (105) which is arranged between the annular air inlet groove (104) and the outer ring surface of the inverted cylinder (101),

the vertical receiving ring unit (2) comprises a hollow fixed ring (201) which is arranged on the motor main body (13) and sleeved with the motor shaft (14) and used for connecting the air inlet pipe (4), a blanking ring (202) which is arranged on the outer ring surface of the hollow fixed ring (201) and the outer ring of which is inclined downwards, a horizontal ring (203) which is arranged on the blanking ring (202), a vertical outer ring (204) which is arranged on the horizontal ring (203) and used for jacking the inclined guide ring unit (3), an air outlet (205) which is arranged on the horizontal ring (203) and a connecting pipe (206) which is arranged on the hollow fixed ring (201) and is inserted into the annular air inlet groove (104) upwards,

the vertical receiving ring unit (2) also comprises a ring body sealing ring (207) arranged on the upper surface of the vertical outer ring (204),

the inclined guide ring unit (3) comprises a closing-in circular ring (301) arranged on the annular upper surface of the vertical outer ring (204) and a sealing ring (302) for a plate body arranged on the upper surface of the closing-in circular ring (301),

the inclined guide ring unit (3) further comprises an annular screen (304) arranged between the lower surface of the closing-in circular ring (301) and the upper surface of the blanking ring (202).

2. A granulator for the production of chicken feed according to claim 1, characterized in that: the hollow scraper unit (1) further comprises sealing bristles (106) which are arranged in the annular air inlet groove (104) and lower than the air outlet holes (105).

3. A granulator for the production of chicken feed according to claim 1, characterized in that: the outer end of the air outlet hole (105) is inclined upwards and is inclined towards the front end side surface of the radial scraping plate (103) in the rotating direction.

4. A granulator for the production of chicken feed according to claim 1, characterized in that: the inclined guide ring unit (3) further comprises a sealing strip (303) which is arranged on the outer ring surface of the closing-in circular ring (301) and used for clamping the ring body sealing ring (207).