CN213908365U - Production facility of cuttlefish ball emulsification thick liquids - Google Patents
Production facility of cuttlefish ball emulsification thick liquids Download PDFInfo
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- CN213908365U CN213908365U CN202022454000.2U CN202022454000U CN213908365U CN 213908365 U CN213908365 U CN 213908365U CN 202022454000 U CN202022454000 U CN 202022454000U CN 213908365 U CN213908365 U CN 213908365U
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Abstract
The utility model relates to a meat products processing equipment and technology field, concretely relates to production facility of cuttlefish ball emulsification thick liquids, its characterized in that: the ice crushing device comprises a base, a material mortar driving device, a chopping knife driving device, an ice crushing device and a vibrating device, wherein the section of an annular cavity in the material mortar is larger than a semicircle, so that more materials are borne, the diameter of the equipment material mortar with the same yield is smaller, and the materials are not easy to throw out in the rotating process due to the fact that an opening at the upper part of the annular cavity is furled, so that the allowable rotating speed of the material mortar is higher, the capacity of the equipment is improved, and the fineness of the slurry is better; the vibrating rod vibrates the material, so that the conditions of material sticking and material blocking can be avoided; crushed ice is added for mixing at the initial chopping stage, so that the meat fiber is contracted, and the problem that the subsequent taste is influenced because the material is premature due to too fast temperature rise of the raw material is avoided; the fineness and the elasticity of the product are greatly enhanced, the meat fiber is less damaged, and the emulsifying effect, the elasticity and the fineness of the meat product are improved to the greatest extent.
Description
Technical Field
The utility model relates to a meat products processing equipment and technology field, specificly relate to a production facility of cuttlefish ball emulsification thick liquids.
Background
Beating is called tribute, the spherical shape is called pill, and the name of tribute pill comes from this. Because the texture is rich and elastic, the product is crispy and delicious and is very popular with consumers. The traditional preparation method is that fresh pork ham is added with salt, beaten to separate out salt soluble protein, used as emulsifier, the fat and water in the raw materials are emulsified to form stable emulsion state, then formed and boiled in water, and the cuttlefish meat ball is prepared by adding cuttlefish juice on the basis of the traditional meat ball and has unique flavor. The cuttlefish ball paste is formed by crushing through the chopping and mixing machine, the chopping and mixing process is simulated through the chopping and mixing machine, and serious damage to meat fibers in the striking crushing process is avoided. However, the existing chopper mixer and emulsified slurry manufacturing process still have the following defects: the section of an annular cavity in the material mortar is semicircular or smaller than semicircular, so that the diameter of the material mortar needs to be increased for increasing the yield, and when the material mortar rotates at a higher speed, raw materials are easy to throw away, so that the rotating speed and the yield of the material mortar are limited; the raw materials are easy to stick during the rotation process, so that the chopping efficiency is reduced, and the materials are easy to block; the temperature of the raw materials is increased too fast in the stirring process, so that the meat is aged in advance, and the taste of the ball is too hard; the pills have insufficient fineness and elasticity and poor emulsification effect.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide a production facility of cuttlefish ball emulsification thick liquids to solve the problem that proposes in the background art.
In order to solve the technical problem, the utility model discloses a technical scheme as follows: production facility of cuttlefish ball emulsification thick liquids, its characterized in that includes:
a base;
the material mortar is rotatably arranged on the base, and an annular cavity is formed in the material mortar;
the material mortar driving device drives the material mortar to rotate;
the chopping and mixing device comprises an upper cover and a chopping and mixing knife, wherein the chopping and mixing knife is arranged below the upper cover, and the upper cover is movably covered on the material mortar;
the chopping and mixing knife driving device drives the chopping and mixing knife to rotate, change positions and lift;
the ice outlet of the ice crushing device is communicated with the annular cavity;
the vibrating device comprises a plurality of vibrating rods arranged side by side and a vibrating motor for driving the vibrating rods to vibrate;
a discharge device comprising a discharge tray.
Preferably, the base is fixedly provided with a stand column, the material mortar can be rotatably sleeved on the stand column, when the upper cover is covered on the material mortar, one end of the upper cover is supported on the stand column, when the upper cover is covered on the material mortar, a gap is reserved between the upper cover and the material mortar, and the outer edge of the upper cover is provided with an outer edge for placing material sputtering and coating the upper edge of the material mortar.
Preferably, the rotation axis of the chopping knife is located inside the annular cavity in the chopping working state, the bottom of the upper cover forms an arc-shaped cavity, the section of the chopping channel enclosed between the annular cavity and the arc-shaped cavity is circular, the height of the arc-shaped cavity is 3/10-4/10 of the radius of the section of the chopping channel, the chopping knife comprises a plurality of blades which are distributed at equal angles and coaxially fixed, the material mortar driving device comprises a material mortar driving motor, and the material mortar driving motor drives the material mortar to rotate along the rotation axis.
Preferably, the chopping knife driving device comprises a chopping rotary driving motor, a chopping transmission casing, a chopping transposition rotary motor, a chopping lifting support and a chopping lifting hydraulic cylinder, wherein the bottom of the cylinder body of the chopping lifting hydraulic cylinder is fixedly arranged on the base, a top piston rod is fixedly connected with the chopping lifting support, the upper cover is pivoted below the chopping lifting support and driven to rotate by the chopping transposition rotary motor, the chopping rotary driving motor is fixedly arranged at the top of the upper cover, the chopping transmission casing is fixedly arranged at the bottom of the upper cover, the chopping knife is pivoted on the chopping transmission casing, and the chopping rotary driving motor drives the chopping knife to rotate.
Preferably, a transmission shaft is arranged in the chopping transmission shell, a first bevel gear is arranged at the bottom of the transmission shaft, a second bevel gear meshed with the first bevel gear is arranged in the chopping transmission shell, and the second bevel gear is coaxially and fixedly connected with the chopping knife.
Preferably, the chopping knife driving device further comprises a chopping lifting guide rod parallel to the chopping lifting hydraulic cylinder and a chopping lifting sleeve fixedly arranged on the cylinder body of the chopping lifting hydraulic cylinder, and the chopping lifting guide rod is slidably arranged in the chopping lifting sleeve.
Preferably, the ice crushing device includes an ice crushing barrel, an ice crushing tray arranged in the ice crushing barrel in a sliding manner, an ice crushing motor for driving the ice crushing tray to rotate, an ice crushing lifting support for installing the ice crushing motor and an ice crushing lifting hydraulic cylinder for driving the ice crushing lifting support to lift, the bottom of the ice crushing tray is equally distributed with ice crushing tips, an ice outlet is arranged at the bottom of the ice crushing barrel, the side wall of the ice crushing barrel is provided with an ice guide groove communicated with the ice outlet, the ice outlet is fixedly provided with an ice outlet groove communicated with the annular cavity, the bottom of the ice outlet is provided with a vibration exciter, the ice outlet is provided with an ice outlet valve, and the bottom of the ice crushing barrel is provided with a drainage valve.
Preferably, the device that vibrates still includes the upset support that vibrates, the stand that vibrates and the upset pneumatic cylinder that vibrates, the upset support that vibrates is last to have seted up a plurality of mounting holes that vibrate, and the stick that vibrates sets up in the mounting hole that vibrates, and vibrates through a plurality of spring coupling along the hoop distribution between stick and the installation control hole that vibrates, on the stand that vibrates was located to the upset support pivot that vibrates, the cylinder body bottom and the base pin joint of upset pneumatic cylinder that vibrates, the piston rod top and the upset support pin joint that vibrates, when the stick that vibrates overturns downwards, the stick that vibrates is located the annular chamber internally.
Preferably, discharge device is including arranging the material carousel, arranging material rotary drive motor, arranging material transmission casing, arranging material transposition rotary motor, arrange material and promote the support and arrange material and promote the pneumatic cylinder, arrange the cylinder body bottom of material promotion pneumatic cylinder and set firmly on the base, top piston rod and row material promotion support rigid coupling, arrange material transmission casing pivot and locate row material and promote the support below, arrange material transposition rotary motor and set firmly on arranging material promotion support, it is rotatory to arrange material transposition rotary motor drive row material transmission casing, it locates on arranging material transmission casing to arrange the material carousel pivot, it sets firmly on arranging material transmission casing to arrange material rotary drive motor, it is rotatory to arrange material rotary drive motor drive row material carousel, it is equipped with striker plate and baffle box to arrange material transmission casing bottom.
The production method of the cuttlefish ball emulsified slurry is used for production by using the production equipment of the cuttlefish ball emulsified slurry, and is characterized by comprising the following steps:
step a, batching: the formula of the raw materials by weight portion is as follows: 500 parts of cuttlefish 400-containing materials, 150 parts of pig fat 120-containing materials, 20-25 parts of raw flour, 13-15 parts of water chestnut flour, 5-8 parts of monosodium glutamate, 6-7 parts of refined salt, 4-6 parts of white sugar, 3-5 parts of pepper powder and 3-5 parts of sesame oil;
step b, feeding and chopping: the raw materials are put into an annular cavity of a chopping mixer, an upper cover covers a material mortar, a chopping knife and the material mortar rotate synchronously, and a vibrating rod extends into the annular cavity to keep the materials loose in the chopping process;
step c, crushing ice: during chopping and mixing, the ice column is placed in the ice crushing barrel, the ice crushing disc descends while rotating, crushed ice scraped by the crushed ice point block passes through the ice guide groove, the ice outlet and the ice outlet groove, and finally enters the annular cavity under the action of the vibration exciter, and the adding time of the crushed ice is 5-10 minutes;
step d, adding soy protein isolate: adding the soybean protein isolate into the annular cavity, and chopping for 20 minutes;
step e, adding soybean oil: in the chopping and mixing process, soybean oil is slowly and uniformly added in three times, wherein the duration time of each time is 3 minutes, and the intervals are 2 minutes;
step f, cooling: the chopping and mixing knife is shifted and lifted, leaves the annular cavity, the material mortar keeps rotating, the vibrating rod keeps working, the material in the material mortar is cooled by a fan, and the slurry outlet temperature is controlled to be below 25 ℃;
step g: and the discharging and material rotating disc enters the annular cavity, discharges the materials and refrigerates for later use.
According to the above description, the utility model provides a production facility of cuttlefish ball emulsification thick liquids has following beneficial effect: the section of an annular cavity in the material mortar is larger than a semicircle, so that more materials are loaded, the diameter of the equipment material mortar with the same yield is smaller, and the materials are not easy to throw out when rotating because the upper opening of the annular cavity is closed, so that the material mortar allows higher rotating speed, the equipment capacity is improved, the chopping and mixing knife can go deep into the annular cavity, the chopping and mixing efficiency is better, and the fineness of the slurry is better; during the rotation of the material mortar, the vibrating rod vibrates the material, so that the material sticking condition and the material blockage can be avoided, and during the cooling after chopping, the vibrating rod can turn over the material at the bottom to accelerate the heat dissipation speed; crushed ice is added for mixing at the initial chopping stage, so that the meat fiber is contracted, and the problem that the subsequent taste is influenced because the material is premature due to too fast temperature rise of the raw material is avoided; the fineness and the elasticity of the product are greatly enhanced, the meat fiber is less damaged, and the emulsifying effect, the elasticity and the fineness of the meat product are improved to the greatest extent.
Drawings
Fig. 1 is a schematic view of the three-dimensional structure of the cuttlefish ball emulsified slurry production apparatus in a chopping state.
Fig. 2 is a side view of fig. 1.
Fig. 3 is a top view of fig. 1.
Fig. 4 is a sectional view a-a of fig. 3.
Fig. 5 is a sectional view B-B of fig. 3.
Fig. 6 is a schematic view of the three-dimensional structure of the inkfish ball emulsified slurry production equipment in the discharging state.
Fig. 7 is a top view of fig. 6.
Detailed Description
The present invention will be further described with reference to the following detailed description.
For the purpose of making the utility model realize, the technical means, the creation characteristics, the achievement purpose and the efficiency are easy to understand and understand, and the utility model is further explained by combining the specific implementation mode.
As shown in the figure, the utility model discloses production facility of cuttlefish ball emulsification thick liquids, a serial communication port, include:
a base 1;
the material mortar 2 is rotatably arranged on the base 1, and an annular cavity 21 is arranged in the material mortar 2;
the material mortar driving device drives the material mortar 2 to rotate;
the chopping and mixing device comprises an upper cover 41 and a chopping and mixing knife 42, wherein the chopping and mixing knife 42 is arranged below the upper cover 41, and the upper cover 41 is movably covered on the material mortar 2;
the chopping knife driving device drives the chopping knife 42 to rotate, change positions and lift;
the ice outlet of the ice crushing device is communicated with the annular cavity 21;
the vibrating device comprises a plurality of vibrating rods 71 arranged side by side and a vibrating motor 72 for driving the vibrating rods 71 to vibrate;
a discharge device comprising a discharge tray 81.
The base 1 is fixedly provided with a stand column 11, the material mortar 2 can be rotatably sleeved on the stand column 11, when the upper cover 41 is covered on the material mortar 2, one end of the upper cover 41 is supported on the stand column 11, when the upper cover 41 is covered on the material mortar 2, a gap is reserved between the upper cover 41 and the material mortar 2, and the outer edge of the upper cover 41 is provided with an outer edge for placing the material sputtering and the upper edge of the cladding material mortar 2.
The rotation axis of the chopping knife 42 is positioned in the annular cavity 21 in the chopping working state, the bottom of the upper cover 41 forms an arc-shaped cavity, the section of a chopping channel enclosed between the annular cavity 21 and the arc-shaped cavity is circular, the height of the arc-shaped cavity is 3/10-4/10 of the section radius of the chopping channel, the chopping knife 42 comprises a plurality of blades which are distributed at equal angles and coaxially fixed, the material mortar driving device comprises a material mortar driving motor 31, and the material mortar driving motor 31 drives the material mortar 2 to rotate along the rotating shaft.
As shown in fig. 5 and 6, the chopping knife driving device includes a chopping rotary driving motor 51, a chopping transmission housing 52, a chopping transposition rotary motor 53, a chopping lifting bracket 54 and a chopping lifting hydraulic cylinder 55, wherein the bottom of the chopping lifting hydraulic cylinder 55 is fixedly arranged on the base 1, the top piston rod is fixedly connected with the chopping lifting bracket 54, the upper cover 41 is pivotally arranged below the chopping lifting bracket 54, the upper cover 41 is driven by the chopping transposition rotary motor 53 to rotate, the chopping rotary driving motor 51 is fixedly arranged on the top of the upper cover 41, the chopping transmission housing 52 is fixedly arranged at the bottom of the upper cover 41, the chopping knife 42 is pivotally arranged on the chopping transmission housing 52, and the chopping rotary driving motor 51 drives the chopping knife 42 to rotate.
The chopping transmission shell 52 is internally provided with a transmission shaft, the bottom of the transmission shaft is provided with a first bevel gear, the inside of the chopping transmission shell 52 is provided with a second bevel gear meshed with the first bevel gear, and the second bevel gear is coaxially and fixedly connected with the chopping knife 42.
The chopping knife driving device further comprises a chopping lifting guide rod 59 parallel to the chopping lifting hydraulic cylinder 55 and a chopping lifting sleeve fixedly arranged on the cylinder body of the chopping lifting hydraulic cylinder 55, wherein the chopping lifting guide rod 59 is slidably arranged in the chopping lifting sleeve.
The working principle of the chopping device and the chopping knife driving device is as follows: in the chopping state, the chopping transposition rotating motor 53 drives the upper cover 41 and the chopping knife 42 to rotate for ninety degrees, so that the rotating shaft of the chopping knife 42 is along the radial direction of the material mortar 2, the chopping lifting hydraulic cylinder 55 drives the chopping knife 42 and the upper cover 41 to descend, the chopping transposition rotating motor 53 drives the upper cover 41 and the chopping knife 42 to rotate for ninety degrees, so that the rotating shaft of the chopping knife 42 is along the tangential direction of the material mortar 2, the rotary driving motor transmits power to the chopping knife 42 through the transmission shaft, the first bevel gear and the second bevel gear to drive the chopping knife 42 to rotate, meanwhile, the material mortar 2 rotates, and the chopping knife 42 cuts the materials in the material mortar 2; after chopping is finished, the chopping lifting hydraulic cylinder 55 drives the chopping knife 42 and the upper cover 41 to slightly rise by 5-10mm, the chopping transposition rotating motor 53 drives the upper cover 41 and the chopping knife 42 to rotate by ninety degrees, so that the rotating shaft of the chopping knife 42 is along the radial direction of the material mortar 2, and the chopping lifting hydraulic cylinder 55 drives the chopping knife 42 and the upper cover 41 to further rise, so that the chopping knife 42 is separated from the material mortar 2.
As shown in fig. 4 and 6, the ice crushing device includes an ice crushing barrel 61, an ice crushing tray 62 slidably disposed in the ice crushing barrel 61, an ice crushing motor 63 for driving the ice crushing tray 62 to rotate, an ice crushing lifting bracket 64 for mounting the ice crushing motor 63, and an ice crushing lifting hydraulic cylinder 65 for driving the ice crushing lifting bracket 64 to lift, wherein the bottom of the ice crushing tray 62 is uniformly distributed with ice crushing tips, an ice outlet is disposed at the bottom of the ice crushing barrel 61, the side wall of the ice crushing barrel 61 is provided with an ice guiding groove 66 communicated with the ice outlet, the ice outlet is fixedly provided with an ice outlet groove communicated with the annular cavity 21, the bottom of the ice outlet groove is provided with a vibration exciter 67, the ice outlet is provided with an ice outlet valve, and the bottom of the ice crushing barrel 61 is provided with a water drainage valve.
The working principle of the ice crushing device is as follows: the crushed ice lifting hydraulic cylinder 65 drives the crushed ice tray 62 to lift, pre-frozen ice columns are placed in the crushed ice barrel 61, the crushed ice lifting hydraulic cylinder 65 drives the crushed ice tray 62 to descend and attach to the top surface of the ice columns, the crushed ice motor 63 drives the crushed ice tray 62 to rotate, and the crushed ice blocks cut ice blocks into crushed ice and are led out from the ice guide groove 66 and the ice outlet; the ice outlet valve can seal the ice outlet, and the water drainage valve can drain accumulated water in the ice crushing barrel 61.
As shown in fig. 4 and 6, the vibrating device further comprises a vibrating turning support 73, a vibrating vertical frame 74 and a vibrating turning hydraulic cylinder 75, a plurality of vibrating mounting holes are formed in the vibrating turning support 73, the vibrating rod 71 is arranged in the vibrating mounting holes, the vibrating rod 71 and the vibrating mounting control holes are connected through a plurality of springs distributed along the circumferential direction, the vibrating turning support 73 is pivoted on the vibrating vertical frame 74, the bottom of the vibrating turning hydraulic cylinder 75 is pivoted with the base 1, the top end of the piston rod is pivoted with the vibrating turning support 73, and when the vibrating rod 71 turns downwards, the vibrating rod 71 is located in the annular cavity 21.
The working principle of the vibrating device is as follows: under the chopping state, the upset pneumatic cylinder 75 that vibrates extends, drives the stick 71 that vibrates and overturns downwards and get into the annular chamber 21 in, and the eccentric block is equipped with to the output shaft end of motor 72 that vibrates, and the rotatory in-process of eccentric block produces eccentric moment for the stick 71 that vibrates rocks along the axis, and then vibrates the raw materials in the material mortar 2, avoids the material viscous.
As shown in fig. 6 and 7, the discharging device includes a discharging tray 81, a discharging rotary driving motor 82, a discharging transmission housing 83, a discharging transposition rotary motor 84, a discharging lifting support 85 and a discharging lifting hydraulic cylinder 86, the bottom of the cylinder body of the discharging lifting hydraulic cylinder 86 is fixedly disposed on the base 1, the top piston rod is fixedly connected with the discharging lifting support 85, the discharging transmission housing 83 is pivotally disposed below the discharging lifting support 85, the discharging transposition rotary motor 84 is fixedly disposed on the discharging lifting support 85, the discharging transposition rotary motor 84 drives the discharging transmission housing 83 to rotate, the discharging tray 81 is pivotally disposed on the discharging transmission housing 83, the discharging rotary driving motor 82 is fixedly disposed on the discharging transmission housing 83, the discharging rotary driving motor 82 drives the discharging tray 81 to rotate, and a material baffle 87 and a material guiding groove 88 are disposed at the bottom of the discharging transmission housing 83.
The working principle of the discharging device is as follows: when discharging is needed, the rotation axis of the discharging disc 81 in the initial state is along the radial direction of the material mortar 2, the discharging lifting hydraulic cylinder 86 drives the discharging disc 81 to enter the annular cavity 21, the discharging transposition rotating motor 84 drives the discharging disc 81 to rotate until the rotation axis is tangent to the circumferential direction of the material mortar 2, the discharging disc 81 rotates, the material mortar 2 synchronously rotates, the discharging disc 81 drives slurry to ascend, when the slurry touches the material baffle 87, the slurry falls into the material guide groove 88, and the material guide groove 88 is connected with the material receiving vehicle; after the arrangement is finished, the discharge transposition rotating motor 84 drives the rotation axis of the discharge disc 81 to be along the radial direction of the material mortar 2, and the discharge lifting hydraulic cylinder 86 drives the discharge disc 81 to leave the annular cavity 21.
The production method of the cuttlefish ball emulsified slurry is used for production by using the production equipment of the cuttlefish ball emulsified slurry, and is characterized by comprising the following steps:
step a, batching: the formula of the raw materials by weight portion is as follows: 500 parts of cuttlefish 400-containing materials, 150 parts of pig fat 120-containing materials, 20-25 parts of raw flour, 13-15 parts of water chestnut flour, 5-8 parts of monosodium glutamate, 6-7 parts of refined salt, 4-6 parts of white sugar, 3-5 parts of pepper powder and 3-5 parts of sesame oil;
step b, feeding and chopping: the raw materials are put into an annular cavity 21 of the chopping and mixing machine, an upper cover 41 covers a material mortar 2, a chopping and mixing knife 42 and the material mortar 2 synchronously rotate to chop the materials, and a vibrating rod 71 extends into the annular cavity 21 to keep the materials loose in the chopping and mixing process;
step c, crushing ice: during chopping, ice columns are placed in the ice crushing barrel 61, the ice crushing disc 62 descends while rotating, crushed ice scraped by the crushed ice tip block passes through the ice guide groove 66, the ice outlet and the ice outlet groove, and finally enters the annular cavity 21 under the action of the vibration exciter 67, and the adding time of the crushed ice is 5-10 minutes;
step d, adding soy protein isolate: adding the soybean protein isolate into the annular cavity 21, and chopping for 20 minutes;
step e, adding soybean oil: in the chopping and mixing process, soybean oil is slowly and uniformly added in three times, wherein the duration time of each time is 3 minutes, and the intervals are 2 minutes;
step f, cooling: the chopping and mixing knife 42 is shifted and lifted, leaves the annular cavity 21, the material mortar 2 keeps rotating, the vibrating rod 71 keeps working, the material in the material mortar 2 is cooled by a fan, and the slurry outlet temperature is controlled to be below 25 ℃;
step g: and (3) discharging, as shown in fig. 6 and 7, the material rotating disc enters the annular cavity 21 to discharge the materials, and during the arrangement process, the vibrating rod keeps working to help remove the slurry adhered to the side wall of the annular cavity, and finally, the slurry is refrigerated for later use.
In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "back", "left", "right", "top", "bottom", "inner", "outer", and the like refer to the orientation or positional relationship shown in the drawings, which is only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be considered limiting of the present invention, as these terms are not used in the present specification and are known in the art to which those skilled in the art will recognize.
In the description of the present invention, it should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected" and "disposed" are to be interpreted broadly, and may be, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed; the utility model discloses in provide only supply the reference with the model of electrical apparatus. For those skilled in the art, different types of electrical appliances with the same function can be replaced according to actual use conditions, and for those skilled in the art, the specific meaning of the above terms in the present invention can be understood in specific situations.
The aforesaid is only a plurality of concrete implementation manners of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.
Claims (9)
1. A production facility of cuttlefish ball emulsification thick liquids, its characterized in that includes:
a base;
the material mortar is rotatably arranged on the base, and an annular cavity is formed in the material mortar;
the material mortar driving device drives the material mortar to rotate;
the chopping and mixing device comprises an upper cover and a chopping and mixing knife, wherein the chopping and mixing knife is arranged below the upper cover, and the upper cover is movably covered on the material mortar;
the chopping and mixing knife driving device drives the chopping and mixing knife to rotate, change positions and lift;
the ice outlet of the ice crushing device is communicated with the annular cavity;
the vibrating device comprises a plurality of vibrating rods arranged side by side and a vibrating motor for driving the vibrating rods to vibrate;
a discharge device comprising a discharge tray.
2. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: the base is fixedly provided with a stand column, the material mortar can be sleeved on the stand column in a rotating mode, when the upper cover is arranged on the material mortar, one end of the upper cover is supported on the stand column, when the upper cover is arranged on the material mortar, a gap is reserved between the upper cover and the material mortar, and the outer edge of the upper cover is provided with an outer edge for placing material sputtering and coating the upper edge of the material mortar.
3. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: the chopping and mixing knife is characterized in that the rotation axis of the chopping and mixing knife is positioned in the annular cavity in the chopping and mixing working state, the bottom of the upper cover forms an arc-shaped cavity, the section of a chopping and mixing channel enclosed by the annular cavity and the arc-shaped cavity is circular, the height of the arc-shaped cavity is 3/10-4/10 of the radius of the section of the chopping and mixing channel, the chopping and mixing knife comprises a plurality of blades which are distributed at equal angles and coaxially fixed, the material mortar driving device comprises a material mortar driving motor, and the material mortar driving motor drives the material mortar to rotate along the rotating shaft.
4. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: the chopping and mixing knife driving device comprises a chopping and mixing rotary driving motor, a chopping transmission shell, a chopping transposition rotary motor, a chopping and mixing lifting support and a chopping and mixing lifting hydraulic cylinder, wherein the bottom of a cylinder body of the chopping and mixing lifting hydraulic cylinder is fixedly arranged on a base, a top piston rod is fixedly connected with the chopping and mixing lifting support, an upper cover is pivoted below the chopping and mixing lifting support and is driven to rotate by the chopping and mixing transposition rotary motor, the chopping and mixing rotary driving motor is fixedly arranged at the top of the upper cover, the chopping and mixing transmission shell is fixedly arranged at the bottom of the upper cover, a chopping and mixing knife is pivoted on the chopping and mixing transmission shell, and the chopping and mixing rotary driving motor drives the chopping and mixing knife to rotate.
5. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 4, wherein: the chopping and mixing transmission shell is internally provided with a transmission shaft, the bottom of the transmission shaft is provided with a first bevel gear, the chopping and mixing transmission shell is internally provided with a second bevel gear meshed with the first bevel gear, and the second bevel gear is coaxially and fixedly connected with the chopping and mixing knife.
6. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: the chopping knife driving device further comprises a chopping lifting guide rod parallel to the chopping lifting hydraulic cylinder and a chopping lifting sleeve fixedly arranged on the cylinder body of the chopping lifting hydraulic cylinder, and the chopping lifting guide rod is arranged in the chopping lifting sleeve in a sliding mode.
7. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: the ice crushing device comprises an ice crushing barrel, an ice crushing tray arranged in the ice crushing barrel in a sliding mode, an ice crushing motor for driving the ice crushing tray to rotate, an ice crushing lifting support for installing the ice crushing motor and an ice crushing lifting hydraulic cylinder for driving the ice crushing lifting support to lift, wherein the bottom of the ice crushing tray is equally divided into ice crushing sharp blocks, an ice outlet is formed in the bottom of the ice crushing barrel, the side wall of the ice crushing barrel is provided with an ice guide groove communicated with the ice outlet, the ice outlet is fixedly provided with an ice outlet groove communicated with the annular cavity, a vibration exciter is arranged at the bottom of the ice outlet, an ice outlet is provided with an ice outlet valve, and the bottom of the ice crushing barrel is provided with a drainage valve.
8. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: the device that vibrates still including the upset support that vibrates, the stand that vibrates and the upset pneumatic cylinder that vibrates, the upset support that vibrates is last to have seted up a plurality of mounting holes that vibrate, and the stick that vibrates sets up in the mounting hole that vibrates, and vibrates the stick and vibrate between the installation control hole through a plurality of spring coupling along the hoop distribution, on the upset support pivot that vibrates was located the stand that vibrates, the cylinder body bottom and base pin joint, piston rod top and the upset support pin joint that vibrates of upset pneumatic cylinder, when the stick that vibrates overturns downwards, the stick that vibrates was located the annular chamber internally.
9. The apparatus for producing an emulsified slurry of cuttlefish balls as claimed in claim 1, wherein: discharge device promotes the support and arranges the material and promote the pneumatic cylinder including arranging the material carousel, arranging material rotary drive motor, arranging material transmission casing, arranging material transposition rotary motor, arranging material, arrange the cylinder body bottom of material promotion pneumatic cylinder and set firmly on the base, top piston rod and row material promote support rigid coupling, arrange material transmission casing pivot and locate row material and promote the support below, it sets firmly on arranging material promotion support to arrange material transposition rotary motor, arranges material transposition rotary motor drive and arranges material transmission casing rotatory, arrange material carousel pivot and locate on arranging material transmission casing, it sets firmly on arranging material transmission casing to arrange material rotary drive motor, arranges material rotary drive motor drive and arranges material carousel rotation, it is equipped with striker plate and baffle box to arrange material transmission casing bottom.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
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| CN202022454000.2U CN213908365U (en) | 2020-10-29 | 2020-10-29 | Production facility of cuttlefish ball emulsification thick liquids |
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| Application Number | Priority Date | Filing Date | Title |
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| CN202022454000.2U CN213908365U (en) | 2020-10-29 | 2020-10-29 | Production facility of cuttlefish ball emulsification thick liquids |
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| CN213908365U true CN213908365U (en) | 2021-08-10 |
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| CN202022454000.2U Active CN213908365U (en) | 2020-10-29 | 2020-10-29 | Production facility of cuttlefish ball emulsification thick liquids |
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| CN (1) | CN213908365U (en) |
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112244239A (en) * | 2020-10-29 | 2021-01-22 | 福建富邦食品有限公司 | Production equipment and preparation method of cuttlefish ball emulsified slurry |
| CN113712161A (en) * | 2021-09-03 | 2021-11-30 | 浙江香海食品股份有限公司 | Production process of fish tofu |
| CN114568620A (en) * | 2022-01-19 | 2022-06-03 | 徐卫 | Fish dumpling formula |
-
2020
- 2020-10-29 CN CN202022454000.2U patent/CN213908365U/en active Active
Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112244239A (en) * | 2020-10-29 | 2021-01-22 | 福建富邦食品有限公司 | Production equipment and preparation method of cuttlefish ball emulsified slurry |
| CN112244239B (en) * | 2020-10-29 | 2023-11-28 | 福建富邦食品有限公司 | Production equipment of cuttlefish ball emulsified slurry and preparation method thereof |
| CN113712161A (en) * | 2021-09-03 | 2021-11-30 | 浙江香海食品股份有限公司 | Production process of fish tofu |
| CN113712161B (en) * | 2021-09-03 | 2023-09-26 | 浙江香海食品股份有限公司 | Fish bean curd production process |
| CN114568620A (en) * | 2022-01-19 | 2022-06-03 | 徐卫 | Fish dumpling formula |
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Denomination of utility model: Production equipment for emulsion slurry of cuttlefish balls Effective date of registration: 20221216 Granted publication date: 20210810 Pledgee: Hui'an Rural Credit Cooperatives Huangtang Credit Cooperatives Pledgor: FUJIAN FUBANG FOOD CO.,LTD. Registration number: Y2022350000180 |