CN110089542B - Duck blood processingequipment - Google Patents

Abstract

The invention provides a duck blood processing device, and belongs to the field of slaughtering corollary equipment. The technical scheme is as follows: including setting up rabbling mechanism, the setting in the factory building, the setting is in the filter vat of the setting left and right sides of setting bucket is in raw materials reposition of redundant personnel mechanism on the filter vat. The invention has the beneficial effects that: adopt the drum-type stirring, improved the quality of duck blood stirring, adopt hierarchical filtration and reposition of redundant personnel mechanism simultaneously, reduced the impact of duck blood to the filter screen, great promotion filterable efficiency and quality.

Description

Duck blood processingequipment

Technical Field

The invention relates to the field of slaughtering corollary equipment, in particular to a duck blood processing device.

Background

Duck blood is a very delicious food material, contains rich protein and a plurality of amino acids which can not be synthesized by human bodies, contains higher content of erythrocin, and also contains mineral substances such as trace element iron and a plurality of vitamins, which are all indispensable substances in the process of human hematopoiesis. In the processing process of the duck blood, the most important is to filter and remove impurities in the duck blood under the state that the duck blood keeps liquid, and then fix and form the duck blood in a collecting box, in the prior art, quantitative duck blood is generally filtered simultaneously, the filtering efficiency is low, the filtering effect is not good, sometimes, the filtering is incomplete and needs to be repeated, a large amount of labor is increased, before the filtering, a proper amount of sodium citrate solution needs to be added into fresh duck blood and fully mixed,

thereby restrain the solidification of duck blood, mix the completion back, take out duck blood the sedimentation bucket in the period of stewing, and during the stirring of current mill, generally adopt the agitator that has the stirring leaf to stir, nevertheless the stirring leaf stirring can cause the injury to duck blood, influences the taste of later stage product.

Disclosure of Invention

The invention aims to provide a duck blood processing device which adopts drum-type stirring to improve the stirring quality of duck blood, and adopts a grading filtering and shunting mechanism to reduce the impact of the duck blood on a filter screen and greatly improve the filtering efficiency and quality.

A duck blood processing device is characterized by comprising a stirring mechanism, a sedimentation barrel, filter barrels and a raw material distribution mechanism, wherein the stirring mechanism and the sedimentation barrel are arranged in a factory building;

the stirring mechanism comprises a support frame and a stirring barrel horizontally arranged on the support frame, the sedimentation barrel is arranged on the bottom frame A, and the filtering barrels on two sides are arranged on the bottom frame B;

the support frame comprises a front U-shaped support leg and a rear U-shaped support leg which are arranged in parallel, an auxiliary support rod is arranged between the front U-shaped support leg and the rear U-shaped support leg, the stirring barrel is horizontally arranged on the front U-shaped support leg and the rear U-shaped support leg, and inverted U-shaped supports are arranged on the front U-shaped support leg, the rear U-shaped support leg and the periphery of the stirring barrel;

a feeding pipe and an exhaust pipe are arranged on one side of the outer surface of the stirring barrel, a stirring liquid discharging pipe is arranged on one side of the outer surface of the stirring barrel, and sealing covers are arranged on the feeding pipe and the exhaust pipe;

the rear end of the stirring barrel is closed, the front end of the stirring barrel is open and is provided with a circular barrel cover, the outer surfaces of the stirring barrel, which are close to the front end and the rear end, are provided with limit steel rings, the front U-shaped supporting leg and the rear U-shaped supporting leg are respectively provided with a pair of fixed wheels which are matched with the limit steel rings for use, and the fixed wheels are arranged at the middle positions of the inverted U-shaped supports A at two sides and above the stirring barrel;

preferably, a liquid level observation strip is arranged at the bottom of the stirring barrel;

a left discharge pipe and a right discharge pipe are arranged on the left side and the right side of the outer surface of the barrel body of the precipitation barrel, the left discharge pipe is arranged above the right discharge pipe, the left discharge pipe and the right discharge pipe are arranged on a trisection line of the precipitation barrel, the bottom of the precipitation barrel is provided with the precipitation discharge pipe, and the left discharge pipe, the right discharge pipe and the precipitation discharge pipe are communicated with the interior of the precipitation barrel;

the filter vat inner wall level is provided with a plurality of fixed plates, and is a plurality of be provided with the bushing on the fixed plate, the bushing is close to the bung hole setting of filter vat, be provided with the filter screen on the bushing, the filter vat bottom is provided with and filters row material pipe.

The invention has the following specific characteristics:

an annular driven gear is arranged at the rear end of the stirring barrel and at a position close to the barrel bottom of the stirring barrel, a supporting plate is arranged below the annular driven gear and between the auxiliary supporting rods at two sides of the annular driven gear, a motor is arranged on the supporting plate, a driving gear is arranged at the end part of a motor shaft of the motor, and chains matched with the annular driven gear and the driving gear are arranged on the annular driven gear and the driving gear;

the supporting plate is also provided with a controller for controlling the motor;

the inner surface of the front end of the stirring barrel is provided with an annular table, the circular barrel cover comprises a circular cover plate, the outer edge of the circular cover plate is provided with an annular plate, the inner side of the annular plate and the circular cover plate are provided with bosses matched with the annular table, the cross section of each boss is trapezoidal, and a sealing ring is arranged between each boss and the annular plate and on the circular cover plate;

the circular cover plate is arranged, so that the inside of the stirring barrel is convenient to clean, and meanwhile, the sealing performance between the circular cover plate and the stirring barrel is improved by means of the annular table, the boss and the sealing ring, so that duck blood is prevented from leaking;

the outer surface of the annular plate is provided with a plurality of connecting parts A, the outer surface of the front end of the stirring barrel is provided with a plurality of connecting parts B corresponding to the positions of the connecting parts A, the connecting parts A and the connecting parts B are both provided with threaded holes, and a limit screw rod is arranged through the corresponding connecting parts A and the connecting parts B;

the raw material distribution mechanism comprises a main pipeline, three inclined sub-pipelines are arranged at the tail end of the main pipeline, one end of each sub-pipeline is communicated with the main pipeline, a material guide disc is arranged at the other end of each sub-pipeline, and the included angle between every two sub-pipelines is 120 degrees.

The material guide disc comprises a horizontally arranged rectangular material guide box, one side of the rectangular material guide box is provided with a material guide plate which is obliquely arranged, the upper end surface of the rectangular material guide box is provided with a fixed cylinder, the tail end of the subduct is arranged in the fixed cylinder, and two sides of the material guide plate are provided with auxiliary baffles;

duck blood is followed the trunk line with the sub-pipeline gets into the stock guide, slowly flow in along the stock guide again in the filter vat, reduced the impact of duck blood to the filter screen, disperse duck blood, great promotion filterable efficiency and quality.

Three rectangular placing boxes are uniformly arranged at the opening of the filter barrel, the three rectangular material guiding boxes are arranged in the rectangular placing boxes in a one-to-one correspondence mode, and the material guiding plate is arranged inside the filter barrel and is higher than the leakage plate.

The top ends of the main pipelines of the raw material separating mechanisms on the two sides are lower than the right discharging pipe and are arranged below the right discharging pipe.

The left material discharging pipe, the right material discharging pipe, the precipitation material discharging pipe and the filtration material discharging pipe are all provided with water stop valves.

During processing, firstly, rotating the stirring barrel to enable the feeding pipe and the exhaust pipe of the stirring barrel to be vertically upward, opening the feeding pipe and the exhaust pipe, closing a water stop valve of a stirring liquid discharging pipe, adding fresh duck blood into the stirring barrel, adding a proper amount of sodium citrate solution, sealing the feeding pipe and the exhaust pipe after the stirring barrel is filled to be nine times full, controlling the controller, adjusting the rotation speed of the motor, driving the driving gear to rotate by the motor, driving the annular driven gear to rotate by the driving gear through the chain, driving the stirring barrel to rotate by the annular driven gear, fully mixing the duck blood and the sodium citrate solution, so as to inhibit the coagulation of the duck blood, and after the mixing is finished, pumping the duck blood into the sedimentation barrel for standing for a period of time;

after standing, firstly connecting the raw material shunting mechanism and the left discharge pipe on one side by using a hose, opening a water stop valve of the left discharge pipe, draining the duck blood between the left discharge pipe and the top of the sedimentation barrel into the filter barrel on one side, stopping the duck blood flowing out when the liquid level of the duck blood in the sedimentation barrel is lower than that of the left discharge pipe, then connecting the raw material shunting mechanism and the right discharge pipe on the other side by using a hose, opening a water stop valve of the right discharge pipe, draining the duck blood between the right discharge pipe and the left discharge pipe into the filter barrel on the other side by using a filter screen with smaller meshes in the filter barrel on the other side, stopping the duck blood flowing out when the liquid level of the duck blood in the sedimentation barrel is lower than that of the right discharge pipe, finally pumping out a small amount of duck blood left at the bottom of the sedimentation barrel for independent filtration, and filtering, the duck blood is collected with the duck blood in the filter barrels at two sides, the next processing treatment is carried out, and finally the sedimentation barrel and the filter barrels are cleaned, so that the duck blood processing device has the beneficial effects that: adopt the drum-type stirring, improved the quality of duck blood stirring, adopt hierarchical filtration and reposition of redundant personnel mechanism simultaneously, reduced the impact of duck blood to the filter screen, great promotion filterable efficiency and quality.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present invention.

FIG. 2 is a schematic structural diagram of a stirring mechanism in an embodiment of the present invention.

FIG. 3 is a schematic structural diagram of a stirring mechanism in an embodiment of the present invention.

FIG. 4 is a schematic structural diagram of an agitator according to an embodiment of the present invention.

FIG. 5 is a schematic structural view of a precipitation tank and a filtration tank in an embodiment of the present invention.

FIG. 6 is a schematic structural diagram of a precipitation bucket according to an embodiment of the present invention.

Fig. 7 is a schematic structural view of a filter vat according to an embodiment of the present invention.

FIG. 8 is a schematic structural diagram of a material diversion mechanism in an embodiment of the present invention.

FIG. 9 is a schematic diagram of the construction of the settling and filtering tanks in an embodiment of the invention.

Wherein the reference numerals are: 1. a chassis A; 2. a settling barrel; 201. a left discharge pipe; 202. a right discharge pipe; 203. a sediment discharge pipe; 3. a chassis B; 4. a filter vat; 401. a filtering and discharging pipe; 402. a bushing; 403. a rectangular placement box; 5. a raw material distribution mechanism; 501. a main pipeline; 502. a subduct; 503. a material guide plate; 504. a rectangular material guide box; 505. a fixed cylinder; 506. an auxiliary baffle; 6. a front U-shaped support leg; 7. a rear U-shaped support leg; 8. an auxiliary support bar; 9. an inverted U-shaped bracket; 10. a fixed wheel; 11. a stirring barrel; 1101. a feed pipe; 1102. a limiting steel ring; 1103. an exhaust pipe; 1104. a stirred liquid discharge pipe; 1105. a connecting part B; 1106. an annular table; 12. a circular cylinder cover; 1201. a boss; 1202. a connecting portion; 1203. an annular plate; 13. a support plate; 14. a ring driven gear; 15. a chain; 16. a drive gear.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the present solution is explained below by way of specific embodiments.

Referring to fig. 1-9, a duck blood processing device comprises a stirring mechanism arranged in a factory building, a sedimentation barrel (2), filter barrels (4) arranged at the left side and the right side of the sedimentation barrel (2) and a raw material shunting mechanism (5) arranged on the filter barrels (4);

the stirring mechanism comprises a support frame and a stirring barrel (11) horizontally arranged on the support frame, the sedimentation barrel (2) is arranged on the bottom frame A (1), and the filter barrels (4) on two sides are arranged on the bottom frame B (3);

the support frame comprises a front U-shaped support leg (6) and a rear U-shaped support leg (7) which are arranged in parallel, an auxiliary support rod (8) is arranged between the front U-shaped support leg (6) and the rear U-shaped support leg (7), the stirring barrel (11) is horizontally arranged on the front U-shaped support leg (6) and the rear U-shaped support leg (7), and inverted U-shaped supports (9) are arranged on the front U-shaped support leg (6) and the rear U-shaped support leg (7) and on the periphery of the stirring barrel (11);

a feeding pipe (1101) and an exhaust pipe (1103) are arranged on one side of the outer surface of the stirring barrel (11), a stirring liquid discharging pipe (1104) is arranged on one side of the outer surface of the stirring barrel (11), and sealing covers are arranged on the feeding pipe (1101) and the exhaust pipe (1103);

the rear end of the stirring barrel (11) is closed, the front end of the stirring barrel (11) is open and is provided with a circular barrel cover (12), the outer surfaces of the stirring barrel (11) close to the front end and the rear end are respectively provided with a limiting steel ring (1102), the front U-shaped supporting leg (6) and the rear U-shaped supporting leg (7) are respectively provided with a pair of fixed wheels (10) matched with the limiting steel rings (1102) for use, and the fixed wheels (10) are respectively arranged at the middle positions of inverted U-shaped supports (9) A at two sides and above the stirring barrel (11);

preferably, a liquid level observation strip is arranged at the bottom of the stirring barrel (11);

a left discharging pipe (201) and a right discharging pipe (202) are arranged on the left side and the right side of the outer surface of the barrel body of the sedimentation barrel (2), the left discharging pipe (201) is arranged above the right discharging pipe (202), the left discharging pipe (201) and the right discharging pipe (202) are arranged on a trisection line of the sedimentation barrel (2), a sedimentation discharging pipe (203) is arranged at the bottom of the sedimentation barrel (2), and the left discharging pipe (201), the right discharging pipe (202) and the sedimentation discharging pipe (203) are communicated with the inside of the sedimentation barrel (2);

the inner wall of the filter barrel (4) is horizontally provided with a plurality of fixing plates, the plurality of fixing plates are provided with a bushing plate (402), the bushing plate (402) is arranged close to the barrel mouth of the filter barrel (4), a filter screen is arranged on the bushing plate (402), and the bottom of the filter barrel (4) is provided with a filter discharge pipe (401).

An annular driven gear (14) is arranged at the rear end of the stirring barrel (11) and at a position close to the barrel bottom of the stirring barrel (11), a supporting plate (13) is arranged below the annular driven gear (14) and between the auxiliary supporting rods (8) at two sides, a motor is arranged on the supporting plate (13), a driving gear (16) is arranged at the end part of a motor shaft of the motor, and chains (15) matched with the annular driven gear (14) and the driving gear (16) are arranged on the annular driven gear (14) and the driving gear (16);

the supporting plate (13) is also provided with a controller for controlling the motor;

an annular table (1106) is arranged on the inner surface of the front end of the stirring barrel (11), the circular barrel cover (12) comprises a circular cover plate, an annular plate (1203) is arranged on the outer edge of the circular cover plate, a boss (1201) matched with the annular table (1106) is arranged on the inner side of the annular plate (1203) and the circular cover plate, the cross section of the boss (1201) is trapezoidal, and a sealing ring is arranged between the boss (1201) and the annular plate (1203) and on the circular cover plate;

the circular cover plate is arranged, so that the inside of the stirring barrel (11) is convenient to clean, and meanwhile, the sealing performance between the circular cover plate and the stirring barrel (11) is improved by virtue of the annular table (1106), the boss (1201) and the sealing ring, so that duck blood is prevented from leaking;

a plurality of connecting parts A (1202) A are arranged on the outer surface of the annular plate (1203), a plurality of connecting parts B (1105) are arranged on the outer surface of the front end of the stirring barrel (11) corresponding to the positions of the connecting parts A (1202) A, threaded holes are formed in the connecting parts A (1202) A and the connecting parts B (1105), and limit screws penetrate through the corresponding connecting parts A (1202) A and the connecting parts B (1105);

the raw material distribution mechanism (5) comprises a main pipeline (501), three inclined sub-pipelines (502) are arranged at the tail end of the main pipeline (501), one ends of the three sub-pipelines (502) are communicated with the main pipeline (501), material guide discs are arranged at the other ends of the three sub-pipelines (502), and included angles between every two of the three sub-pipelines (502) are 120 degrees.

The material guide plate comprises a horizontally arranged rectangular material guide box (504), a material guide plate (503) which is obliquely arranged is arranged on one side of the rectangular material guide box (504), a fixed cylinder (505) is arranged on the upper end surface of the rectangular material guide box (504), the tail end of the subduct (502) is arranged in the fixed cylinder (505), and auxiliary baffles (506) are arranged on two sides of the material guide plate (503);

duck blood gets into the stock guide along trunk line (501) and subduct (502), again along the slow filter vat (4) that flows in of stock guide, has reduced the impact of duck blood to the filter screen, disperses duck blood, great promotion filterable efficiency and quality.

Three rectangular placing boxes (403) are uniformly arranged at the opening of the filter barrel (4), three rectangular material guide boxes (504) are correspondingly arranged in the rectangular placing boxes (403) one by one, and the material guide plate (503) is arranged inside the filter barrel (4) and is higher than the drain plate (402).

The top ends of the main pipelines (501) of the raw material separating mechanisms on the two sides are lower than the right discharging pipe (202) and are arranged below the right discharging pipe (202).

And the left discharge pipe (201), the right discharge pipe (202), the precipitation discharge pipe (203) and the filtering discharge pipe (401) are all provided with water stop valves.

During processing, firstly, the stirring barrel (11) is rotated, so that the feeding pipe (1101) and the exhaust pipe (1103) of the stirring barrel (11) are vertically upward, opening the feeding pipe (1101) and the exhaust pipe (1103), closing a water stop valve of the stirring liquid discharging pipe (1104), adding fresh duck blood into the stirring barrel (11), and adding a proper amount of sodium citrate solution, sealing the feeding pipe (1101) and the exhaust pipe (1103) after the stirring barrel (11) is filled to nine degrees, controlling the controller, adjusting the rotation speed of the motor, driving the driving gear (16) to rotate by the motor, driving the driving gear (16) to drive the annular driven gear (14) to rotate by the chain (15), driving the stirring barrel (11) to rotate by the annular driven gear (14), and fully mixing the duck blood and the sodium citrate solution, so as to inhibit the coagulation of the duck blood, and after the duck blood is mixed, the duck blood is pumped into the sedimentation barrel (2) and stands for a period of time;

after standing, firstly connecting a raw material shunting mechanism (5) and a left discharge pipe (201) on one side by using a hose, opening a water stop valve of the left discharge pipe (201), draining duck blood between the left discharge pipe (201) and the top of a sedimentation barrel (2) into a filter barrel (4) on one side, stopping the duck blood flowing out when the liquid level of the duck blood in the sedimentation barrel (2) is lower than that of the left discharge pipe (201), then connecting a raw material shunting mechanism (5) and a right discharge pipe (202) on the other side by using a hose, opening a water stop valve of the right discharge pipe (202), draining the duck blood between the right discharge pipe (202) and the left discharge pipe into the filter barrel (4) on the other side, adopting a filter screen with smaller meshes in the filter barrel (4) on the other side, stopping the duck blood flowing out when the liquid level of the duck blood in the sedimentation barrel (2) is lower than that of the right discharge pipe (202), and finally pumping out a small amount of duck blood left at the bottom of the sedimentation barrel (2) for independent filtration, after filtering, the duck blood is collected with the duck blood in the filter barrels (4) at two sides, and then the next processing treatment is carried out, and finally the sedimentation barrel (2) and the filter barrels (4) are cleaned.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims (1)

1. A duck blood processing device is characterized by comprising a stirring mechanism, a sedimentation barrel, filter barrels and a raw material distribution mechanism, wherein the stirring mechanism and the sedimentation barrel are arranged in a factory building;

the stirring mechanism comprises a support frame and a stirring barrel horizontally arranged on the support frame, the sedimentation barrel is arranged on the bottom frame A, and the filtering barrels on two sides are arranged on the bottom frame B;

the support frame comprises a front U-shaped support leg and a rear U-shaped support leg which are arranged in parallel, an auxiliary support rod is arranged between the front U-shaped support leg and the rear U-shaped support leg, the stirring barrel is horizontally arranged on the front U-shaped support leg and the rear U-shaped support leg, and inverted U-shaped supports are arranged on the front U-shaped support leg, the rear U-shaped support leg and the periphery of the stirring barrel;

a feeding pipe and an exhaust pipe are arranged on one side of the outer surface of the stirring barrel, a stirring liquid discharging pipe is arranged on one side of the outer surface of the stirring barrel, and sealing covers are arranged on the feeding pipe and the exhaust pipe;

the rear end of the stirring barrel is closed, the front end of the stirring barrel is open and is provided with a circular barrel cover, the outer surfaces of the stirring barrel, which are close to the front end and the rear end, are provided with limit steel rings, the front U-shaped supporting leg and the rear U-shaped supporting leg are respectively provided with a pair of fixed wheels which are matched with the limit steel rings for use, and the fixed wheels are arranged at the middle positions of the inverted U-shaped supports A at two sides and above the stirring barrel;

a left discharge pipe and a right discharge pipe are arranged on the left side and the right side of the outer surface of the barrel body of the precipitation barrel, the left discharge pipe is arranged above the right discharge pipe, the left discharge pipe and the right discharge pipe are arranged on a trisection line of the precipitation barrel, the bottom of the precipitation barrel is provided with the precipitation discharge pipe, and the left discharge pipe, the right discharge pipe and the precipitation discharge pipe are communicated with the interior of the precipitation barrel;

the inner wall of the filter barrel is horizontally provided with a plurality of fixed plates, a plurality of leakage plates are arranged on the fixed plates, the leakage plates are arranged close to the barrel mouth of the filter barrel, filter screens are arranged on the leakage plates, and a filter discharge pipe is arranged at the bottom of the filter barrel;

an annular driven gear is arranged at the rear end of the stirring barrel and at a position close to the barrel bottom of the stirring barrel, a supporting plate is arranged below the annular driven gear and between the auxiliary supporting rods at two sides of the annular driven gear, a motor is arranged on the supporting plate, a driving gear is arranged at the end part of a motor shaft of the motor, and chains matched with the annular driven gear and the driving gear are arranged on the annular driven gear and the driving gear;

the inner surface of the front end of the stirring barrel is provided with an annular table, the circular barrel cover comprises a circular cover plate, the outer edge of the circular cover plate is provided with an annular plate, the inner side of the annular plate and the circular cover plate are provided with bosses matched with the annular table, the cross section of each boss is trapezoidal, and a sealing ring is arranged between each boss and the annular plate and on the circular cover plate;

the outer surface of the annular plate is provided with a plurality of connecting parts A, the outer surface of the front end of the stirring barrel is provided with a plurality of connecting parts B corresponding to the positions of the connecting parts A, the connecting parts A and the connecting parts B are both provided with threaded holes, and a limit screw rod is arranged through the corresponding connecting parts A and the connecting parts B;

the raw material distribution mechanism comprises a main pipeline, three inclined sub-pipelines are arranged at the tail end of the main pipeline, one ends of the three sub-pipelines are communicated with the main pipeline, material guide discs are arranged at the other ends of the three sub-pipelines, and the included angles between every two of the three sub-pipelines are 120 degrees;

the material guide disc comprises a horizontally arranged rectangular material guide box, one side of the rectangular material guide box is provided with a material guide plate which is obliquely arranged, the upper end surface of the rectangular material guide box is provided with a fixed cylinder, the tail end of the subduct is arranged in the fixed cylinder, and two sides of the material guide plate are provided with auxiliary baffles;

three rectangular placing boxes are uniformly arranged at the opening of the filtering barrel, the three rectangular material guiding boxes are correspondingly arranged in the rectangular placing boxes one by one, and the material guiding plate is arranged in the filtering barrel and is higher than the leakage plate;

the top ends of the main pipelines of the raw material shunting mechanisms on the two sides are lower than the right discharging pipe and are arranged below the right discharging pipe;

the left material discharging pipe, the right material discharging pipe, the precipitation material discharging pipe, the filtration material discharging pipe and the stirring liquid material discharging pipe are all provided with water stop valves.

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