CN210406905U - Automatic screening feeding type scallop meat paste processing equipment - Google Patents

Abstract

The utility model relates to an automatic screening feeding type scallop column minced meat processing equipment. It is including screening feed module, smash processing module and electrical control module, smash processing module is including processing the base, first kuppe, the main shaft, one-level crushing device, the second kuppe, second grade crushing device and rotation motor, one-level crushing device, first kuppe, second grade crushing device and second kuppe are arranged and are linked together by last to lower in proper order, screening feed module includes vibrating motor, the vibration screening frame, the screening base, spring and screening plant, the vibration screening frame passes through spring mounting on the screening base, the screening plant is installed on the vibration screening frame, and link to each other with vibrating motor. Screening difference of material sizes is realized through the screening device, the working efficiency is improved by corresponding to different crushing devices, and more materials are screened and crushed in a maximum manner within limited time; the practicability is good.

Description

Automatic screening feeding type scallop meat paste processing equipment

Technical Field

The utility model relates to an automatic screening feeding type scallop column minced meat processing equipment.

Background

With the increasing demand of people for food diversification, food processing modes are more and more, and the crushing of food raw materials is one of the most common processing modes. The existing crushing processing mode comprises an impact type crushing processing mode, a roller type crushing processing mode, a blade type crushing processing mode and the like, the conventional crushing processing mode basically meets the requirements of common food raw materials, but scallop columns have the characteristics of high elasticity, large quantity of meat fibers, high toughness and the like, and the conventional crushing processing mode often has the phenomena of nonuniform crushing and more fiber residue for the scallop columns, so that the development of novel crushing processing equipment with high pertinence is urgently needed. In addition, the automation degree of general crushing and processing equipment is not high, and the materials are often required to be manually sorted, so that the production efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems, and provides an automatic screening feeding type scallop adductor minced meat processing device, which realizes the screening difference of material size through a screening device and corresponds to different crushing devices, thereby improving the working efficiency, and maximally screening and crushing more materials in limited time; the technical scheme is as follows:

an automatic screening and feeding type scallop meat paste processing device comprises a screening and feeding module, a crushing processing module and an electrical control module, wherein the crushing processing module comprises a processing base, a first air guide sleeve, a main shaft, a primary crushing device, a second air guide sleeve, a secondary crushing device and a rotating motor, the first air guide sleeve and the second air guide sleeve are fixedly connected to the processing base through air guide sleeve connecting plates respectively, and the first air guide sleeve is positioned above the second air guide sleeve; one-level milling device and second grade milling device are equallyd divide and are do not installed on processing base, one-level milling device, first kuppe, second grade milling device and second kuppe are arranged and are linked together under by last to in proper order, the motor drives one-level milling device and second grade milling device through the drive main shaft and rotates, screening feeding module includes vibrating motor, vibration screening frame, screening base, spring and screening plant, the vibration screening frame passes through spring mounting on screening base, screening plant installs on the vibration screening frame, and links to each other with vibrating motor.

On the basis of the technical scheme, the screening device comprises a three-stage screening mechanism which is respectively a first-stage screen, a second-stage screen and a third-stage screen from top to bottom; the primary screen, the secondary screen and the tertiary screen are respectively and correspondingly provided with a primary discharge spout, a secondary discharge spout and a tertiary discharge spout, the primary discharge spout is communicated with the primary crushing device, the secondary discharge spout is communicated with the secondary crushing device, and the tertiary discharge spout is positioned on one side of the bottom of the vibrating screening frame.

On the basis of the technical scheme, the aperture of the first-stage screen, the second-stage screen and the third-stage screen is reduced from large to small.

On the basis of the technical scheme, the vibrating screen further comprises an adjusting plate group used for respectively adjusting the first-stage discharge spout, the second-stage discharge spout and the third-stage discharge spout, and the adjusting plate group is installed on the vibrating screen frame.

On the basis of the technical scheme, the primary crushing device comprises a first top disc and a first rotating disc, wherein the inner side surface of the first top disc is a conical surface, and a plurality of groups of eccentric arcs with equal intervals in the same direction are uniformly distributed; the inner side surface of the first rotating disc is a conical surface and is formed with an equidistant spiral line.

On the basis of the technical scheme, the secondary crushing device comprises a second top disc and a second rotating disc, wherein the inner side surface of the second top disc is a conical surface, and a plurality of groups of eccentric arcs with equal intervals in the same direction are uniformly distributed; the inner side surface of the second turntable is a conical surface and is formed with an equidistant spiral line.

On the basis of the technical scheme, the material guide device further comprises a material guide groove for discharging waste materials in the screening feeding module, wherein the material guide groove is installed on the screening base and is communicated with a three-stage discharge spout of the screening device.

The utility model has the advantages of as follows: screening difference of material sizes is realized through the screening device, the working efficiency is improved by corresponding to different crushing devices, and more materials are screened and crushed in a maximum manner within limited time; the whole processing equipment is reasonable in structural design, convenient to maintain, good in product economy, capable of effectively reducing the labor intensity of workers and improving the working efficiency by adopting automatic control, and good in practicability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only 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: the structure of the utility model is shown schematically;

FIG. 2: the structure schematic diagram of the crushing processing module of the utility model;

FIG. 3: the utility model discloses a schematic sectional view of a crushing processing module;

FIG. 4: the structure schematic diagram of the screening feeding module of the utility model;

FIG. 5: the structure of the first top plate or the second top plate of the utility model is shown schematically;

FIG. 6: the structure of the first turntable or the second turntable of the utility model is shown schematically;

FIG. 7: the structure schematic diagram of the first air guide sleeve of the utility model;

FIG. 8: the structure schematic diagram of second kuppe.

Detailed Description

The invention will be further explained with reference to the following figures and examples:

as shown in fig. 1 to 8, the automatic sieving and feeding type scallop column meat paste processing equipment of the embodiment comprises a sieving and feeding module 2, a crushing and processing module 1 and an electrical control module 3, wherein the crushing and processing module 1 comprises a processing base 4, a first air guide sleeve 5, a main shaft 6, a first-stage crushing device 7, a second air guide sleeve 9, a second-stage crushing device 10 and a rotating motor 14, the first air guide sleeve 5 and the second air guide sleeve 9 are respectively fixedly connected to the processing base 4 through an air guide sleeve connecting plate 13, and the first air guide sleeve 5 is positioned above the second air guide sleeve 9; one-level crushing device 7 and second grade crushing device 10 are equallyd divide and are installed respectively on processing base 4, one-level crushing device 7, first kuppe 5, second grade crushing device 10 and second kuppe 9 are arranged and are linked together under to in proper order by last, the motor drives one-level crushing device 7 and second grade crushing device 10 through drive main shaft 6 and rotates, screening feeding module 2 includes vibrating motor 18, shale shaker branch frame 19, screening base 27, spring and screening plant, shale shaker branch frame 19 passes through spring mounting on screening base 27, screening plant installs on shale shaker branch frame 19, and links to each other with vibrating motor 18.

Preferably, the screening device comprises a three-stage screening mechanism which is a first-stage screen 20, a second-stage screen 22 and a third-stage screen from top to bottom; the primary screen 20, the secondary screen 22 and the tertiary screen are respectively and correspondingly provided with a primary discharge spout 21, a secondary discharge spout 23 and a tertiary discharge spout 25, the primary discharge spout 21 is communicated with the primary crushing device 7, the secondary discharge spout 23 is communicated with the secondary crushing device 10, and the tertiary discharge spout 25 is positioned on one side of the bottom of the vibrating screening frame 19.

Preferably, the pore sizes of the primary screen 20, the secondary screen 22 and the tertiary screen are changed from large to small. And the specification of the screen can be changed according to the characteristics of the materials.

Preferably, the device also comprises a regulating plate group 24 for respectively regulating the angles of the primary discharge spout 21, the secondary discharge spout 23 and the tertiary discharge spout 25, wherein the regulating plate group 24 is arranged on the vibrating screening frame 19.

Preferably, the primary crushing device 7 comprises a first top disc and a first rotating disc, wherein the inner side surface of the first top disc is a conical surface, and a plurality of groups of eccentric arcs with equal distance in the same direction are uniformly distributed; the medial surface of first carousel is the conical surface, and is formed with the helix of an equidistance, effectively increases the power of kneading and conveniently arranges the material.

Further, the secondary crushing device 10 comprises a second top disc and a second rotating disc, wherein the inner side surface of the second top disc is a conical surface, and a plurality of groups of eccentric arcs with equal distance in the same direction are uniformly distributed; the second carousel medial surface is the conical surface, and is formed with the helix of an equidistance, effectively increases the power of kneading and conveniently arranges the material.

For avoiding the pivot drum in the middle of first kuppe 5, the bottommost is the discharge gate, and the long end is second grade screening material feed port, wholly is hourglass hopper-shaped, in the feed port that flows into second top dish with the kibbling material of first top dish and first carousel and second grade screening material, realizes that the secondary mills smashes. In the middle of the second air guide sleeve 9, a support seat cylinder is avoided, a discharge hole is arranged at the bottom, the whole body is in an eccentric funnel shape, and the crushed materials of the second top disc and the second rotary disc flow into the discharge hole 17. The first top disc and the second top disc are fixedly connected to the processing base 4 through a top disc connecting plate 12, the inner side of a feed inlet of the first top disc is in an inclined cylinder shape, so that materials can smoothly enter a crushing and grinding area, the whole pattern surface on the inner side of the first top disc is an inner conical surface, the pattern shapes are 8 groups of equidistant eccentric arcs in the same direction, compared with the first top disc, the second top disc is not provided with a feeding funnel, the pattern distance is reduced, and other structures are basically consistent; the first rotary table is supported by the main shaft 6 to be connected, the second rotary table is connected with the processing base 4 through a bearing and is connected with the main shaft key, the main shaft 6 is driven to rotate together with the first rotary table and the second rotary table through the rotating motor 14, the pattern surface on the inner side of the rotary table is integrally an inner conical surface, the pattern shape is an equidistant spiral line, the structures of the first rotary table 8 and the second rotary table 11 are basically consistent, only the pattern intervals are different, and the interval of the second rotary table is smaller than that of the first rotary table, a certain gap is reserved between the first top disc and the first rotary table, and the gap size is adjusted according to the material granularity size.

Furthermore, a material guide chute 26 for discharging the waste materials in the screening feeding module 2 is arranged on the screening base 27 and is communicated with the tertiary discharge nozzle 25 of the screening device.

The working process is as follows:

screening and feeding: the power is turned on, the materials to be crushed are put into the vibrating screen frame from the feeding hole, and the automatic screening of the materials is three-level: the material with larger granularity on the primary screen mesh needs to be crushed twice and enters the first feed inlet through the primary discharge spout; the secondary screen mesh is made of materials with medium and small particle sizes, the materials can meet the requirements after being crushed and processed for one time, and the materials enter the second feeding hole 16 through the secondary discharge spout; the bottom plate of the vibrating screening frame is basically residue with small granularity, which does not meet the use standard and enters the guide chute from the third-level discharge spout to be discharged into the waste bucket.

And (3) crushing: first feed inlet 15 falls to first carousel after the feeding, and the material receives the rotation of first carousel and can gets into through the oblique cylindric feed inlet of first top dish inboard and smash the district of milling, through the extrusion of a lot of first carousel and first top dish and tear to draw and mill, and the material is finally smashed into the chyle form, falls into first kuppe from the ejection of compact of first carousel periphery department. Because one-level screening material granularity is great, and primary crushing processing effect can not necessarily smash completely, therefore the prosomillet form material falls into the second carousel through first kuppe with second level screening material together, through the extrusion of second carousel and second top dish and tear the pulling mill, the material is finally smashed into the chyle form, falls into the second kuppe from the ejection of compact of second carousel circumference department to fall into discharge gate 17.

The first feed port corresponds to primary screening materials of the screening feeding module, the second feed port corresponds to secondary screening materials of the screening feeding module, and a finished product material barrel or a finished product conveying line can be arranged below the discharge port; during the washing, first feed inlet can be regarded as the washing mouth and pour into the washing liquid, and sewage is discharged from the discharge gate.

The present invention has been described above by way of example, but the present invention is not limited to the above-mentioned embodiments, and any modification or variation based on the present invention is within the scope of the present invention.

Claims (7)

1. The automatic screening and feeding type scallop meat paste processing equipment is characterized by comprising a screening and feeding module (2), a smashing and processing module (1) and an electrical control module (3), wherein the smashing and processing module (1) comprises a processing base (4), a first air guide sleeve (5), a main shaft (6), a first-stage crushing device (7), a second air guide sleeve (9), a second-stage crushing device (10) and a rotating motor (14), the first air guide sleeve (5) and the second air guide sleeve (9) are fixedly connected to the processing base (4) through air guide sleeve connecting plates (13), and the first air guide sleeve (5) is located above the second air guide sleeve (9); one-level grinding device (7) and second grade grinding device (10) are equallyd divide and are installed respectively on processing base (4), one-level grinding device (7), first kuppe (5), second grade grinding device (10) and second kuppe (9) are arranged and are linked together under by last in proper order, the motor drives one-level grinding device (7) and second grade grinding device (10) through drive main shaft (6) and rotates, screening feeding module (2) include vibrating motor (18), vibratory screening frame (19), screening base (27), spring and screening plant, vibratory screening frame (19) are installed on screening base (27) through the spring, screening plant installs on vibratory screening frame (19), and link to each other with vibrating motor (18).

2. The automatic screen feed scallop meat emulsion processing apparatus of claim 1 wherein: the screening device comprises a three-stage screening mechanism which is respectively a first-stage screen (20), a second-stage screen (22) and a third-stage screen from top to bottom; the primary screen (20), the secondary screen (22) and the tertiary screen are respectively and correspondingly provided with a primary discharge spout (21), a secondary discharge spout (23) and a tertiary discharge spout (25), the primary discharge spout (21) is communicated with the primary crushing device (7), the secondary discharge spout (23) is communicated with the secondary crushing device (10), and the tertiary discharge spout (25) is positioned on one side of the bottom of the vibrating screening frame (19).

3. The automatic screen feed scallop meat emulsion processing apparatus of claim 2 wherein: the aperture of the first-stage screen (20), the second-stage screen (22) and the third-stage screen is reduced from large to small.

4. The automatic screen feed scallop meat emulsion processing apparatus of claim 2 wherein: the device also comprises an adjusting plate group (24) used for respectively adjusting the first-stage discharge spout (21), the second-stage discharge spout (23) and the third-stage discharge spout (25), wherein the adjusting plate group (24) is arranged on the vibrating screening frame (19).

5. The automatic screen feed scallop meat emulsion processing apparatus of claim 1 wherein: the primary crushing device (7) comprises a first top disc and a first rotating disc, wherein the inner side surface of the first top disc is a conical surface, and a plurality of groups of eccentric arcs with equal intervals in the same direction are uniformly distributed; the inner side surface of the first rotating disc is a conical surface and is formed with an equidistant spiral line.

6. The automatic screen feed scallop meat emulsion processing apparatus of claim 1 wherein: the secondary crushing device (10) comprises a second top disc and a second rotating disc, wherein the inner side surface of the second top disc is a conical surface, and a plurality of groups of eccentric arcs with equal intervals in the same direction are uniformly distributed; the inner side surface of the second turntable is a conical surface and is formed with an equidistant spiral line.

7. An automatic screen feed scallop meat emulsion processing apparatus as claimed in claim 2 or claim 4 wherein: the screening device is characterized by further comprising a guide chute (26) for discharging waste materials in the screening feeding module (2), wherein the guide chute is mounted on a screening base (27) and communicated with a three-stage discharge spout (25) of the screening device.

Images