CN206491304U - A kind of pellet feed production equipment - Google Patents

Abstract

The utility model provides a kind of pellet feed production equipment, including：Pulverizer, mixer, compressor and granulator；The pulverizer, for stalk to be comminuted to be ground into powder of straw, and is exported；The mixer, for obtaining auxiliary material, and receives the powder of straw of the pulverizer output, and to set duration stirring powder of straw and auxiliary material to form compound, and export；The compressor, the compound for compressing the mixer output, so that the intermolecular distance in compound between each two adjacent particle reduces, and forms block compression material, is then exported；The granulator, for the block compression material production pellet exported using the compressor, and is exported.By the technical solution of the utility model, the yield of pellet can be improved.

Description

Pellet feed production equipment

Technical Field

The utility model relates to the technical field of machinery, in particular to pellet feed production facility.

Background

With the continuous development of the animal breeding industry towards scale and industrialization, the demand of the pellet feed is continuously increased.

At present, the traditional pellet feed production equipment mainly comprises a crusher, a mixer and a granulator. Specifically, the pulverizer may pulverize the raw material into particles of a relatively small size (e.g., not larger than 2mm), and output; the mixer supplies steam to the granular raw materials output by the crusher, simultaneously stirs the received granular raw materials, modifies the granular raw materials, and outputs the modified granular raw materials; the granulator can utilize the prepared granular raw materials to generate the granulated feed.

However, the traditional feed production equipment mainly takes grain products such as corn, soybean and wheat as raw materials, and under the condition of short supply of the grain products, the yield of the granulated feed is reduced; simultaneously, among the traditional feed production equipment, the granulator directly utilizes the material of mixing machine output to produce pellet feed, and when the granular raw and other materials were the higher straw powder of fibre content, the molecular spacing was great between the different granules in the straw powder, and when the granulator utilized straw powder to generate pellet feed, the difficult shaping of granule. Therefore, the yield of pellet feed is extremely low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a pellet feed production facility can improve pellet feed's output.

In a first aspect, the utility model provides a pellet feed production facility, include:

pulverizers, mixers, compressors, and granulators; wherein,

the pulverizer is used for pulverizing the straw to be pulverized into straw powder and outputting the straw powder;

the mixer is used for obtaining auxiliary materials, receiving the straw powder output by the pulverizer, stirring the straw powder and the auxiliary materials for a set time length to form a mixture, and outputting the mixture;

the compressor is used for compressing the mixed material output by the mixer so as to reduce the molecular distance between every two adjacent particles in the mixed material, form a blocky compressed material and then output the blocky compressed material;

the granulator is used for producing granulated feed by utilizing the blocky compressed materials output by the compressor and outputting the granulated feed.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a weighing device;

then, the mixer, comprising: a mixing buffer bin and a mixing bin; the mixing and buffering bin is provided with a first feeding hole, a second feeding hole and a control gate;

the first feed inlet is used for obtaining auxiliary materials;

the second feed inlet is used for receiving the straw powder output by the pulverizer;

the mixing buffer bin is used for storing the auxiliary materials obtained by the first feeding hole when the control gate is in a closed state; when the control gate is in a closed state, storing the straw powder received by the second feeding hole;

the weighing device is used for determining a first weight parameter of the auxiliary materials stored in the mixing buffer bin; determining a second weight parameter of the straw powder stored in the mixing buffer bin;

the control gate is used for enabling the auxiliary materials or the straw powder stored in the mixing buffer bin to enter the mixing bin under the action of gravity when the control gate is in an open state;

the mixing bin is used for stirring the entering straw powder and the auxiliary materials for a set time length to form a mixture and outputting the mixture.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a housing having an interior space divided into an upper mounting area and a lower mounting area; wherein,

the weighing device, the pulverizer, the compressor and the mixing bin are all arranged in a lower mounting area of the shell;

the granulator and the mixing buffer bin are both arranged in an upper mounting area of the shell.

Preferably, the first and second electrodes are formed of a metal,

further comprising: the device comprises a first bucket elevator, a first screw conveyor, a second bucket elevator, a granulation buffer bin and a feeder; wherein,

the granulating buffer bin and the feeder are both arranged in an upper mounting area of the shell;

the first bucket elevator is used for receiving the straw powder output by the pulverizer in the lower mounting area, lifting the received straw powder to the upper mounting area, and then dumping the straw powder;

the first screw conveyor is used for receiving the straw powder poured by the first bucket elevator and driving the received straw powder by using a screw thrust force so that the received straw powder moves into the mixing buffer bin;

the second screw conveyor is used for receiving the mixture output by the mixing bin and driving the received mixture to move into the compressor by screw thrust;

the second bucket elevator is used for receiving the blocky compressed materials output by the compressor in the lower mounting area, lifting the received blocky compressed materials to the upper mounting area, and then dumping the blocky compressed materials to the granulation buffer bin;

the feeder is used for driving the compressed materials in the granulating buffer bin to enter the granulator.

Preferably, the first and second electrodes are formed of a metal,

further comprising: the system comprises a sand-dragon, a first bag-type dust collector and a third spiral conveyer; wherein,

the sand dragon is used for acquiring the straw powder output by the pulverizer, purifying the acquired straw powder, supplying the purified straw powder to the first bucket elevator in the lower mounting area, and discharging purified air flow generated during purifying the straw powder;

the first bag-type dust collector is used for obtaining straw powder carried in the purified air flow discharged by the shakelong and providing the obtained straw powder to the third spiral conveyor;

and the third spiral conveyer is used for driving the straw powder provided by the first bag-type dust collector to enter the mixing buffer bin by using spiral thrust.

Preferably, the first and second electrodes are formed of a metal,

further comprising: the cooling device, the fourth spiral conveyer and the second bag-type dust collector; wherein,

the cooling device is used for cooling the granulated feed output by the granulator and outputting the cooled granulated feed; and a cooling air flow generated when the granulated feed is cooled is outputted;

the second bag-type dust collector is used for obtaining granulated feed carried in the cooling air flow output by the cooling device and providing the obtained granulated feed to the fourth spiral conveyor;

and the fourth spiral conveyor is used for driving the granulated feed provided by the second bag-type dust collector to enter the granulating buffer bin by spiral thrust.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a screening device and a feeding fan; wherein,

the screening device is used for screening the granulated feed output by the cooling device so as to respectively output the granulated feed with the particle size larger than a set threshold value and the granulated feed with the particle size not larger than the set threshold value;

the feeding fan is used for driving granulated feed with the grain size not larger than a set threshold value to enter the second bag-type dust collector by wind power;

the second bag-type dust collector is further used for supplying the granulated feed entering under the driving of the feeding fan to the fourth spiral conveyer.

Preferably, the first and second electrodes are formed of a metal,

the cooling device and the screening device are integrally formed;

and/or the presence of a gas in the gas,

the housing includes: a first box and a second box; wherein,

the first box body is detachably connected with the second box body;

the upper mounting area is formed inside the first box body, and the lower mounting area is formed inside the second box body;

the box size range includes: the length value is not more than 11.6 meters, the width value is not more than 2.5 meters, and the height value is not more than 2.8 meters.

Preferably, the first and second electrodes are formed of a metal,

further comprising: a first level indicator and a second level indicator; wherein,

the first material level device is arranged in the mixing buffer bin, and the second material level device is arranged in the granulating buffer bin;

the first material level device is used for detecting a first current material level of the straw powder in the mixing buffer cabin, and when the first current material level is not within a first preset material level range, sending a first alarm signal to an external alarm device so as to enable the external alarm device to alarm;

the second material level device is used for detecting the second current material level of the blocky compressed material in the granulating buffer bin, and when the second current material level is not within the second preset material level range, sending a second alarm signal to an external alarm device so as to enable the external alarm device to alarm

Preferably, the first and second electrodes are formed of a metal,

the compressor, comprising: a feeder, at least one pusher, at least one sleeve, and a cutting device; wherein,

a cavity with the cross section area gradually reduced from the first end to the second end is arranged in the sleeve;

the cavity of each sleeve is provided with a corresponding propeller;

the feeder is connected to a first end of each of the sleeves;

the feeder is used for receiving the mixed materials output by the mixer and respectively feeding the received mixed materials into the cavities from the first end of each sleeve;

each propeller is used for conveying the mixed material entering from the first end of the corresponding sleeve to the second end of the sleeve and discharging the mixed material so as to compress the mixed material;

the cutting device is used for cutting the compressed mixed materials discharged from the second ends of the sleeves to form blocky compressed materials and outputting the blocky compressed materials;

and/or the presence of a gas in the gas,

the auxiliary materials comprise: a feed binder, and any one or more of soybean meal, corn meal, and wheat flour.

The embodiment of the utility model provides a pellet feed production facility, in this equipment, the rubbing crusher can be with treating to smash the straw and smash into straw powder, and export, the machine that mixes can acquire the auxiliary material, and with straw powder and the auxiliary material of long keyboard rubbing crusher output during the settlement, make straw powder and auxiliary material can the intensive mixing, then export, the compressor then can compress the mixture that mixes the machine output, make the molecular spacing between per two adjacent granules in the mixture reduce, and form cubic compression material, then export, the granulator is the cubic compression material production pellet feed of usable compressor output then. In summary, on one hand, the device can produce the granulated feed by using the straws as raw materials, so that the production of the granulated feed does not depend on grain products completely; on the other hand, before the granulator utilizes the straw powder to produce the granulated feed, the straw powder and the auxiliary materials are compressed by the compressor and the massive compressed material is output, and when the granulator uses the massive compressed material to produce the granulated feed, the forming rate of the granulated feed is extremely high; therefore, through the embodiment of the utility model provides a technical scheme can improve pellet feed's output.

Drawings

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

Fig. 1 is a schematic structural diagram of a pellet feed production facility according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of another pellet feed production facility according to an embodiment of the present invention;

fig. 3 is a schematic view of the installation positions of the devices in the casing of the pellet feed production equipment according to an embodiment of the present invention;

FIG. 4 is a schematic structural view of another pellet feed production facility according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of another pellet feed production facility according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a compressor according to an embodiment of the present invention;

fig. 7 is a flowchart of a method for producing pellet feed using pellet feed production equipment according to an embodiment of the present invention.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the following will combine the drawings in the embodiments of the present invention to clearly and completely describe the technical solution in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, rather than all embodiments, based on the embodiments in the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the scope of the present invention.

As shown in fig. 1, the embodiment of the utility model provides a pellet feed production equipment, include:

a pulverizer 101, a mixer 102, a compressor 103, and a granulator 104; wherein,

the pulverizer 101 is used for pulverizing the straw to be pulverized into straw powder and outputting the straw powder;

the mixer 102 is used for obtaining auxiliary materials, receiving the straw powder output by the pulverizer 101, stirring the straw powder and the auxiliary materials for a set time length to form a mixture, and outputting the mixture;

the compressor 103 is used for compressing the mixed material output by the mixer 102, so that the molecular distance between every two adjacent particles in the mixed material is reduced, a blocky compressed material is formed, and then the compressed material is output;

the granulator 104 is used for producing granulated feed by using the massive compressed materials output by the compressor 103 and outputting the granulated feed.

The utility model discloses in the above-mentioned embodiment, the rubbing crusher can be smashed into straw powder with treating crushing straw, and export, mix the machine and can acquire the auxiliary material, and with straw powder and the auxiliary material of long keyboard rubbing crusher output during the settlement, make straw powder and auxiliary material can the intensive mixing, then export, the compressor then can compress the mixture that mixes the machine output, make the molecular spacing between per two adjacent granules reduce in the mixture, and form cubic compression material, then export, the cubic compression material production pellet feed of granulator then usable compressor output. In summary, on one hand, the device can produce the granulated feed by using the straws as raw materials, so that the production of the granulated feed does not depend on grain products completely; on the other hand, before the granulator utilizes the straw powder to produce the granulated feed, the straw powder and the auxiliary materials are compressed by the compressor and the massive compressed material is output, and when the granulator uses the massive compressed material to produce the granulated feed, the forming rate of the granulated feed is extremely high; therefore, through the embodiment of the utility model provides a technical scheme can improve pellet feed's output.

Further, for the convenient staff control straw powder and the weight ratio of auxiliary material to ensure the quality of the pellet feed of production, as shown in fig. 2, the utility model discloses an embodiment, still include: a weighing device 201;

then, the mixer 102 includes: a mixing surge bin 1021 and a mixing bin 1022; wherein, a first feeding hole (not shown in the drawing), a second feeding hole (not shown in the drawing) and a control gate (not shown in the drawing) are arranged on the mixing buffering bin 1021;

the first feed inlet is used for obtaining auxiliary materials;

the second feed inlet is used for receiving the straw powder output by the pulverizer 101;

the mixing buffer bin 1021 is used for storing the auxiliary materials obtained by the first feeding hole when the control gate is in a closed state; when the control gate is in a closed state, storing the straw powder received by the second feeding hole;

the weighing device 201 is configured to determine a first weight parameter of the auxiliary materials stored in the mixing and buffering bin 1021; determining a second weight parameter of the straw powder stored in the mixing buffer bin 1022;

the control gate is used for enabling the auxiliary materials or the straw powder stored in the mixing buffer bin 1021 to enter the mixing bin 1022 under the action of gravity when the control gate is in an open state;

the mixing bin 1022 is used for stirring the entering straw powder and the auxiliary materials for a set time length to form a mixture and outputting the mixture.

The utility model discloses in the above-mentioned embodiment, through setting up mixed surge bin and weighing device, can realize carrying out the close control to the weight proportionality coefficient that gets into the straw powder and the auxiliary material that mix the storehouse to realize the ratio of each nutrient composition in the close control pellet feed, ensure the quality of the pellet feed of production.

For example, a mixing buffer bin and a mixing bin which are not internally provided with straw powder or auxiliary materials can be weighed by a weighing device to determine a weight parameter a of the mixing buffer bin and the mixing bin; then controlling a control gate of the mixing buffer bin to be in a closed state, acquiring the auxiliary material by using a second feed port of the mixing buffer bin, weighing the acquired auxiliary material, the mixing buffer bin and the mixing bin by using a weighing device, and stopping acquiring the auxiliary material by using the second feed port of the mixing buffer bin after determining that the weight of the acquired auxiliary material, the weight of the mixing buffer bin and the weight of the mixing bin reach a weight parameter b, namely determining that the weight parameter of the auxiliary material acquired by the second feed port is b-a; then controlling a control gate of the mixing buffer bin to be in an open state, so that the auxiliary materials in the mixing buffer bin enter the mixing bin under the action of gravity, and then controlling the control gate of the mixing buffer bin to be in a closed state; the method comprises the steps that straw powder output by a pulverizer is obtained through a first feed port of a mixing buffer bin, a weighing device is used for weighing obtained auxiliary materials, the mixing buffer bin of the mixing buffer bin, and the weighing device is used for weighing the obtained auxiliary materials, the mixing buffer bin and the mixing bin; and then the control gate of the mixed buffer bin is controlled to be in an open state, so that the straw powder in the mixed buffer bin enters the mixed bin under the action of gravity. Therefore, the weight ratio of the straw powder to the auxiliary materials in the mixture can be controlled according to actual business requirements, and the granulated feed with higher quality can be conveniently produced; for example, the proportion coefficient between the weight parameter b-a of the auxiliary materials and the weight parameter c-b of the straw powder is controlled to be 1: 4.

Similar to the above embodiment, in another embodiment of the utility model, the pellet feed production equipment can further comprise a weighing device, and the weighing device is used for confirming the weight of the auxiliary material in the mixing bin and the weight parameter of the straw powder in the mixing bin. The mixing machine can comprise a mixing buffer bin and a mixing bin, the mixing buffer bin can be provided with a corresponding third feeding port to obtain the straw powder output by the pulverizer, and the mixing buffer bin can be also provided with a corresponding control valve to control whether the straw powder in the mixing buffer bin enters the mixing bin; the mixing bin can be provided with a corresponding fourth feeding hole to obtain auxiliary materials. Therefore, the control gate of the mixing buffer bin can be controlled to be in a closed state, and the straw powder output by the pulverizer enters the mixing buffer bin through the third feeding port of the mixing buffer bin; auxiliary materials are supplied into the mixing bin through a fourth feeding hole of the mixing bin, the mixing bin and the auxiliary materials entering the mixing bin are weighed by the weighing device to determine a first weight parameter of the auxiliary materials entering the mixing bin, and when the first weight parameter reaches a first preset weight parameter, feeding of the auxiliary materials into the mixing bin is stopped; the control gate that the buffering storehouse was mixed in control is in the open mode for straw powder in the mixed buffering storehouse can get into mixed storehouse under the action of gravity, at this moment, the weighing machine lasts auxiliary material and straw powder in mixing storehouse and the mixed storehouse and weighs, in order to determine the second weight parameter that gets into the straw powder in the mixed storehouse, when second weight parameter reaches the second and predetermines weight parameter, the control gate that the buffering storehouse was mixed in control is in the closed condition, make the straw powder of rubbing crusher output temporarily store in mixing the buffering storehouse. So, also can realize controlling the auxiliary material that gets into in the mixing bunker and the weight proportion of straw powder, simultaneously, the rubbing crusher can also incessant crushing wait to smash straw powder.

Further, in order to reduce the floor area of pellet feed production facility to and conveniently carry and assemble pellet feed equipment, as shown in fig. 3, the utility model discloses an embodiment still includes: a housing 301 whose inner space is divided into an upper mounting area and a lower mounting area; wherein,

the weighing device 201, the pulverizer 101, the compressor 103, and the mixing bin 1022 are all mounted in a lower mounting area of the housing 301;

the granulator 104 and the mixing damper 1021 are both mounted in the upper mounting area of the housing 301.

Correspondingly, in order to make the material be able to be transmitted between the equipment that provides the material in the pellet feed production facility and the equipment that receives the material, as shown in fig. 3, fig. 4, the utility model discloses an embodiment still includes: a first bucket elevator 401, a first screw conveyor 402, a second screw conveyor 403, a second bucket elevator 404, a granulation surge bin 405 and a feeder 406; wherein,

the granulation surge bin 405 and the feeder 406 are both mounted in an upper mounting area of the housing 301;

the first bucket elevator 401 is configured to receive the straw powder output by the pulverizer 101 in the lower installation area, to elevate the received straw powder to the upper installation area, and to dump the straw powder;

the first screw conveyor 402 is used for receiving the straw powder dumped by the first bucket elevator 401 and driving the received straw powder by a screw thrust, so that the received straw powder moves into the mixing buffer bin 1021;

the second screw conveyor 403 is used for receiving the mixed material output by the mixing bin 1022 and driving the received mixed material to move into the compressor 103 by screw thrust;

the second bucket elevator 404 is used for receiving the block-shaped compressed materials output by the compressor 103 in the lower mounting area, lifting the received block-shaped compressed materials to the upper mounting area, and then pouring the block-shaped compressed materials to the granulation buffer bin 405;

the feeder 406 is used for driving the block-shaped compressed materials in the granulation buffer bin 405 into the granulator 104.

The utility model discloses in the above-mentioned embodiment, combine each device mounted position in the casing, choose for use different transmission equipment or a plurality of different transmission equipment intercombination to make full use of the material can realize the condition of flowing certainly because of the action of gravity, make the material can transmit between two devices of mutual correspondence.

In particular, the screw conveyor is adapted to convey material horizontally or at a smaller angle of inclination from a lower position to a higher position, while the bucket elevator is adapted to lift material vertically from a lower area to a higher area. Consequently, when the material that provides the rubbing crusher transmits to mixing the surge bin, can utilize first bucket elevator to promote the straw powder of rubbing crusher output to the upper portion installing zone from the lower part installing zone at first, then empty for first screw conveyer in the upper portion installing zone, drive straw powder and get into mixing the surge bin with less angle of inclination or horizontal direction through screw thrust by first screw conveyer. When the mixed material output by the mixing bin is conveyed to the compressor, the second spiral conveying can drive the mixed material output by the mixing bin to enter the compressor at a smaller inclination angle through spiral reasoning. When the blocky compressed materials are transmitted to the granulation buffer bin, the second bucket elevator lifts the blocky compressed materials output by the compressor from the lower mounting area to the upper mounting area, and then the blocky compressed materials are poured into the granulation buffer bin; then, the feeder can drive the massive compressed materials in the granulating buffer bin to enter the granulator.

Further, purify the straw powder of rubbing crusher output in order to realize to get rid of the impurity that carries in the straw powder, as shown in fig. 5, the utility model discloses an embodiment in, still include: a saxolone 501, a first bag-type dust collector 502 and a third screw conveyor 503; wherein,

the shakelong 501 is used for acquiring the straw powder output by the pulverizer 101, purifying the acquired straw powder, supplying the purified straw powder to the first bucket elevator 401 in the lower mounting area, and discharging purified air flow generated during purification treatment of the straw powder;

the first bag-type dust collector 502 is configured to obtain straw powder carried in the purified air stream discharged from the saxolone 501, and provide the obtained straw powder to the third screw conveyor 503;

the third screw conveyor 503 is configured to drive the straw powder provided by the first bag-type dust collector 502 to enter the mixing and buffering bin 1021 by using a screw thrust.

The utility model discloses in the above-mentioned embodiment, the straw powder of husky gram dragon accessible spiral flow's purification air current drive rubbing crusher output gets into husky gram dragon by the air intake of its side inside, the straw powder of entering can be under the effect of centrifugal force and self gravity from the lower part installing zone of husky gram dragon's lower extreme discharge to the casing, in order to provide first bucket elevator, and simultaneously, purification air current overturns upwards under the effect that husky gram dragon lower extreme closed the fan, flow by the upper end of husky gram dragon (the upper portion installing zone that the upper end of husky gram dragon is located the casing), impurity and partial straw powder in the purification air current portability entering straw powder of outflow, ensure that the straw powder that transmits to mixed surge bin through first bucket elevator and first screw conveyer can not carry impurity, thereby improve pellet feed's quality.

In the above embodiment of the present invention, since the purified air flow discharged from the upper end of the saxolone may carry part of the straw powder, the saxolone discharges the purified air flow to the first bag-type dust collector, and the bag-type dust collector can obtain part of the straw powder carried in the purified air flow and provide the part of the straw powder to the third screw conveyor, and the part of the straw powder is conveyed to the buffer mixing bin by the third screw conveyor, so that the waste of raw materials is avoided; meanwhile, the bag-type dust collector can absorb impurities in the purified air flow, so that the straw powder provided for the third screw conveyor can not carry the impurities.

Further, because the pellet feed's of granulator output temperature is higher, for the convenience bagging-off to pellet feed, as shown in fig. 3, fig. 5, the utility model discloses an embodiment still includes: a cooling device 504, a fourth screw conveyor 505 and a second bag-type dust collector 506; wherein,

the cooling device 504 is configured to cool the pellet feed output by the granulator 104 and output the cooled pellet feed; and a cooling air flow generated when the granulated feed is cooled is outputted;

the second bag-type dust collector 506 is configured to obtain pellet feed carried in the cooling airflow output by the cooling device 504, and provide the obtained pellet feed to the fourth screw conveyor 505;

the fourth screw conveyor 505 is used for driving the granulated feed provided by the second bag-type dust collector 506 to enter the granulation buffer bin 405 by screw thrust.

The utility model discloses in the above-mentioned embodiment, the pellet feed of cooling device accessible air-cooled cooling method cooling granulator output. When air-cooled cooling method cooling pellet feed, cooling device need export cooling air current, probably carry the less pellet feed of part size in the cooling air current, through exporting cooling air current to the second sack cleaner, the second sack cleaner then can carry out the filtering to the pellet feed that carries in the cooling air current, and provide the pellet feed of filtering for fourth screw conveyor, fourth screw conveyor then can drive the pellet feed that the second sack cleaner provided and get into the pelletization surge bin, pelletize again, avoid the material extravagant.

Further, in order to improve the quality of the pellet feed, it is ensured that the pellet feed has the same size, as shown in fig. 5, in an embodiment of the present invention, the present invention further includes: a screening device 507 and a feeding fan 508; wherein,

the screening device 507 is used for screening the granulated feed output by the cooling device 504 so as to respectively output the granulated feed with the particle size larger than a set threshold value and the granulated feed with the particle size not larger than the set threshold value;

the feeding fan 508 is used for driving granulated feed with the grain size not larger than a set threshold value to enter the second bag-type dust collector 505 by wind power;

the second bag-type dust collector 505 is further configured to provide the fourth screw conveyor 506 with the pellet feed entering under the driving of the feeding fan 508.

Specifically, sieving mechanism specifically can include the shale shaker, sets up a plurality of sieve meshes on the shale shaker, and the size of sieve mesh is for setting for the threshold value, and the shale shaker vibrates in succession for the sieve mesh whereabouts of the pellet feed accessible shale shaker of size less than the set for threshold value, the pellet feed of whereabouts can get into the second sack cleaner under the drive of feed fan, and then provides the pellet feed that gets into for fourth screw conveyer by the second sack cleaner, and retransfer to pelletization surge bin, pelletize again. The pellet feed which does not fall on the vibrating screen is a finished feed, and can be directly packaged.

Further, in an embodiment of the present invention, the cooling device 504 and the screening device 507 are integrally formed.

In one embodiment of the present invention, the housing 301 comprises: a first casing (not shown in the drawings) and a second casing (not shown in the drawings); wherein,

the first box body is detachably connected with the second box body;

the upper mounting area is formed inside the first box body, and the lower mounting area is formed inside the second box body;

the box size range includes: the length value is not more than 11.6 meters, the width value is not more than 2.5 meters, and the height value is not more than 2.8 meters.

The utility model discloses in the above-mentioned embodiment, the casing also first box and second box constitute, and the connection can be dismantled to two boxes, and the size of two boxes can include that the length value is not more than 11.6 meters, the width value is not more than 2.5 meters, the height value is not more than 2.8 meters. So, then can conveniently transport two boxes respectively to the appointed place that waits to smash the straw and correspond, the fast assembly pellet feed production facility has shortened the transportation distance of straw raw materials, has reduced the intermediate link of fodder sale, has reduced the breed cost.

Further, in an embodiment of the present invention, the present invention further includes: a first level indicator (not shown in the drawings) and a second level indicator (not shown in the drawings); wherein,

the first material level device is arranged in the mixing buffer bin 1021, and the second material level device is arranged in the granulating buffer bin 405;

the first material level device is used for detecting a first current material level of the straw powder in the mixing buffer cabin 1021, and when the first current material level is not within a first preset material level range, sending a first alarm signal to an external alarm device so as to enable the external alarm device to alarm;

and the second material level indicator is used for detecting a second current material level of the blocky compressed material in the granulating buffer bin 405, and sending a second alarm signal to an external alarm device when the second current material level is not within a second preset material level range so as to enable the external alarm device to alarm.

For example, when the preset level is 0, the level indicator may penalize the external alarm device to alarm when the empty bin of the mixing buffer bin or the granulating buffer bin is detected. Of course, in real traffic scenarios, the preset level range may typically be set to be larger than 20 cm.

In an embodiment of the present invention, the straw powder and the auxiliary material are compressed in order to realize compression, as shown in fig. 6, in an embodiment of the present invention, the compressor 103 comprises: a feeder 1031, at least one pusher 1032, at least one sleeve 1033, and a cutting device 1034; wherein,

the interior of the sleeve 1033 is provided with a cavity having a cross-sectional area that decreases from the first end to the second end;

a corresponding pusher 1032 is disposed in the cavity of each sleeve 1033;

said feeder 1031 is connected to a first end of each of said sleeves 1033;

the feeder 1031 is configured to receive the mixed material output from the mixer 102 and feed the received mixed material into each of the cavities from the first end of each of the sleeves 1033;

each of the impellers 1032 is configured to convey the mix entering from the first end of the corresponding sleeve 1033 to the second end of the sleeve 1033 and discharge the mix for compression;

the cutting device 1034 is configured to cut the compressed mixture discharged from the second end of each sleeve 1033 to form a block-shaped compressed material, and output the block-shaped compressed material.

Specifically, the ratio coefficient between the volume of the mixed material and the volume of the formed massive compressed material is not less than 3:1 by compressing the mixed material. The molecular distance between every two adjacent particles in the block-shaped compressed material is reduced, and meanwhile, under the action of a nutritional feed adhesive carried in an auxiliary material, granulated feed with a corresponding size is easily generated, and the finished product rate of the granules is not less than 90%.

In one embodiment of the present invention, the auxiliary material comprises: a feed binder, and any one or more of soybean meal, corn meal, and wheat flour. It should be understood that the auxiliary materials may be configured in accordance with actual business requirements, such as a concentrate formed by crushing a granulated feed produced from other types of food products.

In one embodiment of the utility model, the moisture carried in the auxiliary materials should not be less than the moisture carried by the straw powder.

It should be understood that the individual screw conveyors can also be replaced correspondingly by belt conveyors, as far as the spatial position permits.

It should be understood that corresponding electric control mechanisms can be arranged in the shell, so that the electric control mechanisms can be used for uniformly controlling the starting and stopping of the pulverizer, the mixer, the compressor, the granulator, each bucket elevator and each screw conveyor.

For more clearly explaining the technical solutions and advantages of the embodiments of the present invention, the following specifically takes the pellet feed production equipment provided by the embodiments of the present invention to produce pellet feed as an example, please refer to fig. 2, fig. 3, fig. 5 and fig. 6, and specifically may include the steps shown in fig. 7:

and 701, controlling a control gate of the mixing buffer bin 1021 to be in a closed state, and crushing the straw to be crushed into straw powder by using the crusher 101 and outputting the straw powder.

Here, the particle size of the pulverized straw powder can be specifically controlled to be not more than 8 mm.

Step 702, the straw powder output by the pulverizer 101 is obtained by using the saxolone 501, the obtained straw powder is subjected to purification treatment, the purified straw powder is provided for the first bucket elevator 401 in the lower mounting area of the housing 301, and purified air flow generated during the purification treatment of the straw powder is discharged to the first bag-type dust collector 502.

Step 703, receiving the straw powder provided by the salon 501 by using the first bucket elevator 401, lifting the straw powder from the lower mounting area to the upper mounting area of the housing 301, and then dumping the straw powder.

Step 704, receiving the straw powder dumped by the first bucket elevator 401 by using the first screw conveyor 402, and driving the received straw powder by using a screw thrust, so that the straw powder enters the mixing buffer bin 1021 through the second feeding hole of the mixing buffer bin 1021.

Step 705, the first bag-type dust collector 502 is used to obtain the straw powder carried in the purified air flow, and the obtained straw powder is provided to the third screw conveyor 503.

Step 706, the straw powder provided by the first bag-type dust collector 502 is driven by the third screw conveyor 503 with a screw thrust, so that the straw powder enters the mixing and buffering bin 1021 through the second feeding hole of the mixing and buffering bin 1021.

And 707, determining a second weight parameter of the straw powder entering the mixing and buffering bin 1021 by using the weighing device 201, and stopping feeding when the second weight parameter reaches a second preset weight parameter a.

Step 708, controlling the control gate of the mixing and buffering bin 1021 to be in an open state, so that the straw powder in the mixing and buffering bin 1021 enters the mixing bin 1022 under the action of gravity, and then controlling the control gate of the mixing and buffering bin 1021 to be in a closed state.

And 709, acquiring the auxiliary materials by using the first feeding hole of the mixing buffering bin 1021, determining a first weight parameter of the auxiliary materials entering the mixing buffering bin 1021 by using the weighing device 201, and stopping feeding when the first weight parameter reaches a first preset weight parameter b.

Step 710, controlling a control gate of the mixing and buffering bin 1021 to be in an open state, so that the auxiliary materials in the mixing and buffering bin 1021 enter the mixing bin; the auxiliary materials and the straw powder which enter are stirred by the mixing bin 1022 for a set time length to form a mixed material, and then the mixed material is output.

So, through the proportional coefficient of straw powder and auxiliary material that control got into in mixing the storehouse, can ensure that the pellet feed who generates possesses higher quality. For example, the proportion coefficient between the weight parameter b of the auxiliary material entering the mixing bin and the weight parameter a of the straw powder entering the mixing bin is controlled to be 1: 4.

Here, the set time period can be reasonably controlled in combination with the actual service requirement, such as 5 minutes.

And 711, receiving the mixed material output by the mixing bin 1022 by using the second screw conveyor 403, and driving the received mixed material to move into a feeder 1031 of the compressor 103 by using a screw thrust.

Step 712, feeding the received mix from the first end of each sleeve 1033 into the cavity of each sleeve 1033 by the feeder 1031 of the compressor 103; the auger 1032 conveys the mix entering from the first end of the corresponding sleeve 1033 to the second end of the current sleeve 1033 and discharges it to compress the mix; the compressed mixed material discharged from the second end of each sleeve 1033 is cut by the cutting device 1034 to form a lump of compressed material, and is supplied.

The embodiment of the utility model provides an in, through compressing the mixture in order to form cubic compression material, the intermolecular distance between per two adjacent granules is minimum in the cubic compression material, and the granulator is when utilizing cubic compression material production pellet feed, and pellet feed easily shaping.

At step 713, the second bucket elevator 404 receives the compressed lump material from the compressor 103 at the lower installation area of the casing 301, lifts the received compressed lump material to the upper installation area of the casing 301, and then pours the compressed lump material into the granulation buffer 405.

At step 714, the block-shaped compressed material in the buffer granulating bin 405 is driven into the granulator 104 by the feeder 406, so that the granulator 104 produces granulated feed by using the entered block-shaped compressed material and outputs the granulated feed.

At step 715, the cooling device 504 is used to cool the pellet feed output by the pellet mill 104, and to output the cooled pellet feed, as well as the cooling air stream generated during the cooling of the pellet feed.

In step 716, the second bag-type dust collector 505 is used to obtain the pellet feed carried in the cooling air flow outputted by the cooling device 504, and the obtained pellet feed is provided to the fourth screw conveyor 506 to be conveyed to the granulation buffer bin 405.

The embodiment of the utility model provides an in, when the cooling air current carries out the cooling to the pellet feed of granulator output, the powder that carries in the pellet feed of granulator output can be got rid of to the cooling air current of production, and the powder that carries in the cooling air current is acquireed to accessible second sack cleaner, then transmits to the pelletization surge bin through fourth screw conveyor.

Meanwhile, in order to ensure that the size of the granulated feed is kept relatively consistent and improve the competitiveness of the product, the following treatment can be carried out on the granulated feed cooled by the cooling device:

screening the granulated feed output by the cooling device 504 by using a screening device 507 so as to respectively output the granulated feed with the particle size larger than a set threshold value and the granulated feed with the particle size not larger than the set threshold value; the feeding fan 508 is used for driving granulated feed with the grain size not larger than a set threshold value to enter the second bag-type dust collector 505 by wind power, so that the second bag-type dust collector 505 supplies the granulated feed entering under the driving of the feeding fan 508 to the fourth spiral conveyor 506; the fourth screw conveyer 506 is used for driving the granulated feed provided by the second bag-type dust collector 505 to enter the granulating buffer bin 405 by screw thrust. Here, the bagging process may be directly performed for the pellet feed having a pellet size larger than a set threshold.

Through the embodiment of the utility model provides a during pellet feed production facility production pellet feed, output can reach 3000 supplyes 4000 Kg/hour (particle diameter 5-8mm), is the twice of traditional pellet feed production facility. Meanwhile, the yield of the granulated feed output by the granulator reaches 90 percent, which is far higher than that of the traditional granulated feed production equipment.

In one embodiment of the utility model, the water content of the straw to be crushed is not more than 20%; and the water content of the auxiliary materials is not more than 33%. The moisture carried by the auxiliary materials is larger than that carried by the straw powder, so that after the granulated feed is generated, the moisture carried by the auxiliary materials can be soaked into the straw fibers with low water content, and the straw fibers are expanded and loosened; meanwhile, soluble nutrient substances such as beneficial bacteria and high-activity digestive enzyme brought along with the moisture can perform enzymolysis on the straw fiber.

To sum up, the utility model discloses each embodiment has following beneficial effect at least:

1. the utility model discloses an embodiment, the rubbing crusher can be smashed into straw powder with treating crushing straw, and export, mix the machine and can acquire the auxiliary material, and with straw powder and the auxiliary material of long keyboard rubbing crusher output during the settlement, make straw powder and auxiliary material can the intensive mixing, then export, the compressor then can compress the mixture that mixes the machine output, make the molecular spacing between per two adjacent granules reduce in the mixture, and form cubic compression material, then export, the cubic compression material production pellet feed of granulator then usable compressor output. In summary, on one hand, the device can produce the granulated feed by using the straws as raw materials, so that the production of the granulated feed does not depend on grain products completely; on the other hand, before the granulator utilizes the straw powder to produce the granulated feed, the straw powder and the auxiliary materials are compressed by the compressor and the massive compressed material is output, and when the granulator uses the massive compressed material to produce the granulated feed, the forming rate of the granulated feed is extremely high; therefore, through the embodiment of the utility model provides a technical scheme can improve pellet feed's output.

2. The utility model discloses an embodiment, through setting up mixed surge bin and weighing device, can realize carrying out the close control to the weight proportionality coefficient that gets into the straw powder and the auxiliary material that mix the storehouse to realize the ratio of each nutrient composition in the close control pellet feed, ensure the quality of the pellet feed of production.

3. The utility model discloses an embodiment, each device mountable of pellet feed production facility can conveniently transport each box respectively to waiting to smash the appointed place that the straw corresponds in two boxes, and the transport distance of straw raw materials has been shortened to fast assembly pellet feed production facility, has reduced the intermediate link of fodder sale, has reduced the breed cost.

4. In one embodiment of the utility model, the pellet feed production equipment does not need a conditioner and a boiler and other equipment to provide steam, and the pellet feed yield can be greatly improved; meanwhile, in the process of producing the pellet feed, the nutrition loss is small.

5. The utility model discloses an embodiment combines the mounted position of each device in the casing, chooses for use different transmission equipment or a plurality of different transmission equipment intercombination to make full use of the material can realize the condition of flowing certainly because of the action of gravity, make the material can transmit between two devices that correspond each other.

6. The embodiment of the utility model provides an in, carry out purification treatment to the kibbling straw powder of rubbing crusher through husky ke long, can realize getting rid of the impurity that carries in the straw powder to improve pellet feed's quality.

7. In the embodiment of the utility model, the straw powder carried in the purified air flow is obtained by the first bag-type dust collector and is transmitted to the mixing buffer bin; meanwhile, the granulated feed carried by the granulator when the granulated feed is output is obtained from the cooling air flow through the second bag-type dust collector and is transmitted to the granulating buffer bin; the straw powder and the pellet feed are prevented from being directly discharged out of the pellet feed production equipment, and resources are saved.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other similar elements in a process, method, article, or apparatus that comprises the element.

Finally, it is to be noted that: the above description is only the preferred embodiment of the present invention, which is only used to illustrate the technical solution of the present invention, and is not used to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention is included in the protection scope of the present invention.

Claims (10)

1. A pellet feed production apparatus, comprising:

pulverizers, mixers, compressors, and granulators; wherein,

the pulverizer is used for pulverizing the straw to be pulverized into straw powder and outputting the straw powder;

the mixer is used for obtaining auxiliary materials, receiving the straw powder output by the pulverizer, stirring the straw powder and the auxiliary materials for a set time length to form a mixture, and outputting the mixture;

the compressor is used for compressing the mixed material output by the mixer so as to reduce the molecular distance between every two adjacent particles in the mixed material, form a blocky compressed material and then output the blocky compressed material;

the granulator is used for producing granulated feed by utilizing the blocky compressed materials output by the compressor and outputting the granulated feed.

2. The pellet feed production facility of claim 1,

further comprising: a weighing device;

then, the mixer, comprising: a mixing buffer bin and a mixing bin; the mixing and buffering bin is provided with a first feeding hole, a second feeding hole and a control gate;

the first feed inlet is used for obtaining auxiliary materials;

the second feed inlet is used for receiving the straw powder output by the pulverizer;

the mixing buffer bin is used for storing the auxiliary materials obtained by the first feeding hole when the control gate is in a closed state; when the control gate is in a closed state, storing the straw powder received by the second feeding hole;

the weighing device is used for determining a first weight parameter of the auxiliary materials stored in the mixing buffer bin; determining a second weight parameter of the straw powder stored in the mixing buffer bin;

the control gate is used for enabling the auxiliary materials or the straw powder stored in the mixing buffer bin to enter the mixing bin under the action of gravity when the control gate is in an open state;

the mixing bin is used for stirring the entering straw powder and the auxiliary materials for a set time length to form a mixture and outputting the mixture.

3. The pellet feed production facility of claim 2,

further comprising: a housing having an interior space divided into an upper mounting area and a lower mounting area; wherein,

the weighing device, the pulverizer, the compressor and the mixing bin are all arranged in a lower mounting area of the shell;

the granulator and the mixing buffer bin are both arranged in an upper mounting area of the shell.

4. The pellet feed production facility of claim 3,

further comprising: the device comprises a first bucket elevator, a first screw conveyor, a second bucket elevator, a granulation buffer bin and a feeder; wherein,

the granulating buffer bin and the feeder are both arranged in an upper mounting area of the shell;

the first bucket elevator is used for receiving the straw powder output by the pulverizer in the lower mounting area, lifting the received straw powder to the upper mounting area, and then dumping the straw powder;

the first screw conveyor is used for receiving the straw powder poured by the first bucket elevator and driving the received straw powder by using a screw thrust force so that the received straw powder moves into the mixing buffer bin;

the second screw conveyor is used for receiving the mixture output by the mixing bin and driving the received mixture to move into the compressor by screw thrust;

the second bucket elevator is used for receiving the blocky compressed materials output by the compressor in the lower mounting area, lifting the received blocky compressed materials to the upper mounting area, and then dumping the blocky compressed materials to the granulation buffer bin;

the feeder is used for driving the compressed materials in the granulating buffer bin to enter the granulator.

5. The pellet feed production facility of claim 4,

further comprising: the system comprises a sand-dragon, a first bag-type dust collector and a third spiral conveyer; wherein,

the sand dragon is used for acquiring the straw powder output by the pulverizer, purifying the acquired straw powder, supplying the purified straw powder to the first bucket elevator in the lower mounting area, and discharging purified air flow generated during purifying the straw powder;

the first bag-type dust collector is used for obtaining straw powder carried in the purified air flow discharged by the shakelong and providing the obtained straw powder to the third spiral conveyor;

and the third spiral conveyer is used for driving the straw powder provided by the first bag-type dust collector to enter the mixing buffer bin by using spiral thrust.

6. The pellet feed production facility of claim 4,

further comprising: the cooling device, the fourth spiral conveyer and the second bag-type dust collector; wherein,

the cooling device is used for cooling the granulated feed output by the granulator and outputting the cooled granulated feed; and a cooling air flow generated when the granulated feed is cooled is outputted;

the second bag-type dust collector is used for obtaining granulated feed carried in the cooling air flow output by the cooling device and providing the obtained granulated feed to the fourth spiral conveyor;

and the fourth spiral conveyor is used for driving the granulated feed provided by the second bag-type dust collector to enter the granulating buffer bin by spiral thrust.

7. The pellet feed production facility of claim 6,

further comprising: a screening device and a feeding fan; wherein,

the screening device is used for screening the granulated feed output by the cooling device so as to respectively output the granulated feed with the particle size larger than a set threshold value and the granulated feed with the particle size not larger than the set threshold value;

the feeding fan is used for driving granulated feed with the grain size not larger than a set threshold value to enter the second bag-type dust collector by wind power;

the second bag-type dust collector is further used for supplying the granulated feed entering under the driving of the feeding fan to the fourth spiral conveyer.

8. The pellet feed production facility of claim 7,

the cooling device and the screening device are integrally formed;

and/or the presence of a gas in the gas,

the housing includes: a first box and a second box; wherein,

the first box body is detachably connected with the second box body;

the upper mounting area is formed inside the first box body, and the lower mounting area is formed inside the second box body;

the box size range includes: the length value is not more than 11.6 meters, the width value is not more than 2.5 meters, and the height value is not more than 2.8 meters.

9. The pellet feed production facility of claim 4,

further comprising: a first level indicator and a second level indicator; wherein,

the first material level device is arranged in the mixing buffer bin, and the second material level device is arranged in the granulating buffer bin;

the first material level device is used for detecting a first current material level of the straw powder in the mixing buffer cabin, and when the first current material level is not within a first preset material level range, sending a first alarm signal to an external alarm device so as to enable the external alarm device to alarm;

and the second material level device is used for detecting a second current material level of the blocky compressed material in the granulating buffer bin, and sending a second alarm signal to an external alarm device when the second current material level is not within a second preset material level range so as to enable the external alarm device to alarm.

10. A pellet feed production facility according to any of claims 1 to 9,

the compressor, comprising: a feeder, at least one pusher, at least one sleeve, and a cutting device; wherein,

a cavity with the cross section area gradually reduced from the first end to the second end is arranged in the sleeve;

the cavity of each sleeve is provided with a corresponding propeller;

the feeder is connected to a first end of each of the sleeves;

the feeder is used for receiving the mixed materials output by the mixer and respectively feeding the received mixed materials into the cavities from the first end of each sleeve;

each propeller is used for conveying the mixed material entering from the first end of the corresponding sleeve to the second end of the sleeve and discharging the mixed material so as to compress the mixed material;

the cutting device is used for cutting the compressed mixed materials discharged from the second ends of the sleeves to form blocky compressed materials and outputting the blocky compressed materials;

and/or the presence of a gas in the gas,

the auxiliary materials comprise: a feed binder, and any one or more of soybean meal, corn meal, and wheat flour.