CN217906194U - Root class vegetables shaker - Google Patents

Abstract

The utility model relates to a rhizome class vegetables shaker, it includes pan feeding conveyor, is located pan feeding conveyor below belt cleaning device, with belt cleaning device bottom fixed connection's output device, belt cleaning device including the casing that has the discharge gate, both ends and connecting piece, the perpendicular to that the casing is fixed the first drive assembly of connecting piece, first drive assembly is including the drive shaft that has the stirring board, the drive shaft passes the connecting piece extends to in the casing, output device includes pipeline, is located the second drive assembly of pipeline one side, is located the inside conveying assembly of pipeline, the second drive assembly drives conveying assembly clockwise turning. Through the washing of water, debris that adhere to the vegetables are because of self weight is greater than the density of water and sink to go and, and the vegetables that density is less than water follow the rotation of stirring the board and get into the discharge gate and accomplish the edulcoration work.

Description

Root class vegetables shaker

Technical Field

Relates to equipment for removing impurities from vegetables, in particular to a rootstock vegetable impurity removing machine.

Background

With the economic development and the deepening of urbanization of the current society, people pay more attention to green healthy food, but during transportation and primary processing and cleaning, the physiological activities of vegetables are still continued, the vegetables are easy to be wounded to cause browning and mildew rot, and secondly, in the face of huge population demands, large-scale and automatic processing is the only solution for guaranteeing the demands of the masses of people.

According to the Chinese patent CN210538770U, an agricultural vegetable cleaning device is disclosed, a fixed pool is arranged in the center of a bottom plate, a rotating shaft and a rotating disc are driven by a rotating motor to enable a plate body bearing vegetables in the fixed pool to move, and the purpose of cleaning is achieved through washing with water.

Therefore, it is required to develop a rootstock vegetable shaker to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a root class vegetables shaker of degree of automation height, with low costs, efficient.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a rhizome class vegetables shaker, its includes pan feeding conveyor, is located pan feeding conveyor below belt cleaning device, with belt cleaning device bottom fixed connection's output device, belt cleaning device including the casing that has the discharge gate, both ends with connecting piece, the perpendicular to that the casing is fixed the first drive assembly of connecting piece, first drive assembly is including the drive shaft that has the stirring board, the drive shaft passes the connecting piece extends to in the casing, output device includes pipeline, is located the second drive assembly of pipeline one side, is located the inside conveying assembly of pipeline, second drive assembly drives conveying assembly clockwise turning.

Further, pipeline's bottom still has secondary moving axis, secondary moving axis's mid portion is located inside pipeline, its both ends outwards extend and pass pipeline, the below at secondary moving axis both ends has the fixed plate, the outside one end fixed mounting of fixed plate holds the piece, it wraps up to hold the piece secondary moving axis both ends.

Further, an installation through hole is formed in the top end of the conveying pipeline, a third grid piece is arranged on the outer surface of the installation through hole, and the bottom end of the installation through hole and the plate bodies of the conveying pipeline on the two sides of the installation through hole extend downwards to form a discharge port.

Further, belt cleaning device still includes first net spare and second net spare, net spare edge forms the triangle protruding, first net spare edge forms the triangle protruding pass through the mounting with the casing is fixed mutually, second net spare is located the top of discharge gate, its border position have equally the triangle protruding with the both sides fixed connection of discharge gate.

Furthermore, one end of the stirring plate is fixedly connected with the driving shaft, and the other end of the stirring plate extends outwards.

Furthermore, a supporting component is arranged below the first driving component and comprises a side plate, a surrounding plate located on one side of the side plate, the side plate and two sides of the side plate are bent inwards and fixed with two sides of the surrounding plate through fixing pieces, a hollow cavity is formed inside the surrounding plate, and the driving shaft penetrates through the cavity.

Furthermore, a base is arranged below the coaming, the bottom end of the base is fixedly connected with the connecting piece, and a bearing is arranged in the center of the base.

Further, the conveying pipeline is obliquely placed, the bottom end of the conveying pipeline is located below the cleaning device and is provided with a plurality of observation ports, the observation ports are respectively located at the upper end and the lower end of the conveying pipeline and one side of the conveying pipeline, an observation cover is arranged on the outer side of each observation port, and the observation covers are equal to the observation ports in size and shape.

Compared with the prior art, the beneficial effects of the utility model reside in that: the utility model relates to a rhizome class vegetables shaker has degree of automation height, and is with low costs, efficient characteristics, through washing of water, the density that is greater than water because of self weight of debris attached to vegetables goes to sinking and, density is less than the vegetables of water and stirs the rotation of board thereupon and gets into the discharge gate and accomplish edulcoration work, difference through vegetables and debris density, utilize the buoyancy of water to separate debris and vegetables, simultaneously in order to separate vegetables and debris thoroughly and make vegetables get into the discharge gate, stir board counter-clockwise movement, the vegetables that float in the surface of water receive the extrusion and discharge from the discharge gate, accomplish the purpose of edulcoration.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and 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 without inventive work, wherein:

FIG. 1 is a schematic perspective view of a rootstock vegetable shaker of the present invention;

FIG. 2 is a partial view of the trash remover for root vegetables shown in FIG. 1;

FIG. 3 is a partial sectional view of the rootstock vegetable shaker shown in FIG. 2;

FIG. 4 is another perspective view of the root vegetable shaker shown in FIG. 1;

fig. 5 is a partially enlarged view of the root vegetable shaker shown in fig. 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 5, the present invention relates to a rootstock vegetable impurity removing machine, which comprises a feeding conveyor 1, a cleaning device 2 located below the feeding conveyor 1, and an output device 3 located at the bottom end of the cleaning device 2.

Please refer to fig. 1, the feeding conveyor 1 is located above the rootstock vegetable shaker of the present invention, the feeding conveyor 1 is a conveyor with a first conveyor belt 11, and one end of the feeding conveyor 1 is fixedly connected to the cleaning device 2.

Referring to fig. 1 to 3, the cleaning device 2 includes a housing 21, a driving assembly 22 disposed inside the housing 21, and a first bracket 23 disposed outside the housing 21, the housing 21 is a funnel-shaped housing, the bottom of the housing extends to form a circular pipe, the circular pipe has a flange 211 at its end, the housing 21 is fixedly connected to the output device 3 through the flange 211, one side of the top of the housing 21 extends to form a discharge port 212, the discharge port 212 is a rectangular port, both sides of the discharge port 212 are fixedly connected to the top of the housing 21, the upper surface of the housing 21 has a connecting member 213 and first mesh members 216 disposed at both sides of the connecting member 213, the connecting member 213 is a rectangular plate, both ends of the connecting member are fixedly connected to both sides of the top of the housing 1, the outer side of the connecting member 213 has a fixing member 214 wrapping the connecting member 213, both ends of the fixing member 214 are fixed to the upper surface of the housing 1 through a fixing member (a certain bolt or screw), a cavity for accommodating the connecting member 213 is formed in the middle of the fixing member 214, the first mesh member 216 is a semicircular shape, a triangular protrusion is formed at its edge, the triangular protrusion is fixed to the housing 1 through a certain bolt or screw, a second mesh member 215 is disposed above the discharge port 212, and the two sides of the same shape of the discharge port 212 is connected to the same as the discharge port 212.

Referring to fig. 1 to 3, the driving assembly 22 includes a first motor 221, a supporting assembly 222 located below the first motor 221, a driving shaft 223 connected to the motor 221, and a stirring plate 224 fixedly connected to the driving shaft 223, the first motor 221 is located above the housing 1 and perpendicular to the housing 1, the supporting assembly 222 includes a side plate 2221, a surrounding plate 2222 located on one side of the side plate 2221, and the side plate 2221 is a rectangular plate body, two sides of which are bent inward, two sides of the side plate 2221 are fixedly connected to two sides of the surrounding plate 2222 through a fixing member (a certain kind of bolt or screw), a hollow cavity is formed inside the side plate 2221, a base 225 is located below the surrounding plate 2222, a bottom end of the base 225 is fixedly connected to the fixing member 214, a bearing (not shown) is located at a center of the base 225, a connecting plate 2223 is located on the other side of the side plate 2221, a bottom end of the connecting plate 2223 is fixed to the fixing member 214, and the other end is obliquely connected to the side plate 2221.

One end of the driving shaft 223 is fixedly connected with the motor 221, the other end of the driving shaft 223 extends to the tail end of the inside of the casing 1 through the cavity inside the enclosing plate 2222 and the center position of the base 225, the stirring plates 224 are rectangular plates, the number of the stirring plates is three, the three stirring plates 224 are uniformly distributed and are at equal intervals, one end of each stirring plate 224 is fixedly connected with the driving shaft 223, and the other end of each stirring plate extends outwards.

The first support 23 is four hollow rectangular tubes, the top ends of the first support are fixedly connected with the outer side of the shell 1, the bottom ends of the first support are in contact with the ground, and the four hollow rectangular tubes are fixed through connecting tubes.

Referring to fig. 1, 4 and 5, the output device 3 includes a conveying pipe 31, a second driving assembly 32 located at one side of the conveying pipe 31, a transmission assembly 33 located inside the conveying pipe 31, and a second support 34 supporting the conveying pipe 31, the conveying pipe 31 is a rectangular pipe, one end of the conveying pipe 31 extends upward to form a circular pipe, and the end of the conveying pipe is fixedly connected to the flange 211, one side of the circular pipe has a first observation port 313, the first observation port 313 includes a rectangular through hole and an observation cover 3131 covering the rectangular through hole, the end of the conveying pipe 31 extends outward to form a second observation port 314, the second observation port 314 is identical in structure to the first observation port 313, further, a side of the conveying pipe 31 has a third observation port 315, the third observation port 315 is parallel to the conveying pipe 31 and is identical in structure to the first observation port 313 but smaller in length and width than the first observation port 313, the other end of the conveying pipe 31 extends obliquely upward and is fixedly connected to the second driving assembly 32, the end of the conveying pipe 31 forms a mounting through hole, the outer surface of the mounting through hole has a third observation port 311, the mesh element, the mounting motor is connected to the end of the conveying pipe 31, the conveying pipe 31 and the second driving assembly 31 extends downward to form a second driving motor, and the end of the second driving assembly (not shown in the driving motor 321), and the driving motor 321 is connected to the second driving motor 31, and the end of the driving motor 321 is connected to the driving motor 31, and the driving motor 321 is not shown in the driving motor.

Referring to fig. 1, 4 and 5, the conveying assembly 33 includes a second conveyor (not shown), a secondary shaft 332 located at the bottom end of the conveying pipe 31, a middle portion of the secondary shaft 332 is located inside the conveying pipe 31, two ends of the secondary shaft 332 extend outwards and pass through the conveying pipe 31, a fixing plate 333 is located below two ends of the secondary shaft 332, the fixing plate 333 is a rectangular plate and has a U-shaped slot at the center, an accommodating member 334 is fixedly installed at one outward end of the fixing plate 333, the accommodating member 334 is cylindrical and perpendicular to the fixing plate 333, the bottom end of the accommodating member 334 extends towards two sides to form a rectangular block and is fixedly connected with the fixing plate 333 through a fixing member (a certain bolt or screw), an accommodating hole 3341 is formed at the center of the cylindrical portion of the accommodating member 334, two ends of the secondary shaft 332 are accommodated in the accommodating holes 3341, two ends of the second conveyor 331 are respectively enclosed in the driving rod (not shown) and the secondary shaft 332, and the height of the conveying pipe 31 and the discharge port 312 at the top end thereof is greater than the height of the housing 1.

The second support 34 is in a trapezoid shape formed by two hollow rectangular tubes, the top end of the second support is connected with the right-angle plate 341, one side of the right-angle plate 341 is fixed with one side of the conveying pipeline 31, the other side of the right-angle plate 341 is fixedly connected with the top end of the second support 34, the other end of the second support 34 extends downwards in an inclined mode to be in contact with the ground, and the two hollow rectangular tubes are fixedly connected through a connecting rod.

When some impurities (such as stones, soil blocks and the like) with larger weight need to be removed, water is firstly conveyed into the shell 1 through the water pump until the water level is equal to the discharge port 212, the first grid part 216 on the upper surface of the shell 1 is opened and moved away, the impurity-doped rhizome vegetables are conveyed into the shell 1 through the feeding conveying device 1, the first motor 221 is started and the second motor 321 is started, the first motor 221 drives the stirring plate 224 through the driving shaft 223, the stirring plate 224 stirs the water and the impurity-doped vegetables in the shell 1, through stirring and water washing, the impurities attached to the vegetables sink downwards due to the fact that the weight of the impurities is larger than the density of the water and finally fall onto the upper surface of one end of the second conveying belt 331 located inside the conveying pipeline 31, the impurities are conveyed to the other end of the second conveying belt 331 and are discharged from the discharge port 312 through clockwise operation of the second conveying belt 331, and the impurities of the vegetable stirring plate 224 with the density smaller than the water enter the discharge port 212 to complete the impurity removal operation.

The utility model relates to a rhizome class vegetables edulcoration machine has degree of automation height, and is with low costs, efficient characteristics, through washing of water, the density that is greater than water because of self weight attached to vegetables goes to sinking and, the rotation that the density is less than the vegetables of water thereupon stirring the board gets into the discharge gate and accomplishes edulcoration work, difference through vegetables and debris density, buoyancy with the water separates debris and vegetables, simultaneously in order to separate vegetables and debris thoroughly and make vegetables get into the discharge gate, stirring board counter clockwise movement, the vegetables that float on the surface of water receive the extrusion and discharge from the discharge gate, accomplish the purpose of edulcoration.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (8)

1. The utility model provides a rhizome class vegetables shaker which characterized in that: it includes pan feeding conveyor, is located pan feeding conveyor below belt cleaning device, with belt cleaning device bottom fixed connection's output device, belt cleaning device including the casing that has the discharge gate, both ends with connecting piece, the perpendicular to that the casing is fixed the first drive assembly of connecting piece, first drive assembly is including the drive shaft that has the stirring board, the drive shaft passes the connecting piece extends to in the casing, output device includes pipeline, is located the second drive assembly of pipeline one side, is located the inside conveying subassembly of pipeline, the second drive assembly drives the conveying subassembly is rotatory.

2. The rootstock vegetable impurity removing machine as claimed in claim 1, characterized in that: the bottom of pipeline still has secondary moving axis, secondary moving axis's mid portion is located inside pipeline, its both ends outwards extend and pass pipeline, the below at secondary moving axis both ends has the fixed plate, the outside one end fixed mounting of fixed plate contains the piece, it wraps up to contain the piece secondary moving axis both ends.

3. The rootstock vegetable impurity removing machine as claimed in claim 1, characterized in that: the top end of the conveying pipeline is provided with an installation through hole, the outer surface of the installation through hole is provided with a third grid piece, and the bottom end of the installation through hole and the plate bodies of the conveying pipeline on the two sides of the installation through hole extend downwards to form a discharge port.

4. The rootstock vegetable impurity removing machine as claimed in claim 1, characterized in that: the cleaning device further comprises a first grid piece and a second grid piece, wherein the edge of the first grid piece forms a triangular protrusion, the edge of the first grid piece forms the triangular protrusion, the triangular protrusion passes through a fixing piece and is fixed to the shell, the second grid piece is located above the discharge port, and the edge position of the second grid piece is also provided with the triangular protrusion and two sides of the discharge port which are fixedly connected.

5. The rootstock vegetable impurity remover as claimed in claim 1, wherein: one end of the stirring plate is fixedly connected with the driving shaft, and the other end of the stirring plate extends outwards.

6. The rootstock vegetable impurity removing machine as claimed in claim 5, characterized in that: the first driving assembly is provided with a supporting assembly below, the supporting assembly comprises a side plate, a surrounding plate located on one side of the side plate, and the side plate, two sides of the side plate are inwards bent and fixed with two sides of the surrounding plate through fixing pieces, a hollow cavity is formed inside the surrounding plate, and the driving shaft penetrates through the cavity.

7. The rootstock vegetable impurity remover as claimed in claim 6, wherein: the lower part of the coaming is provided with a base, the bottom end of the base is fixedly connected with the connecting piece, and the center of the base is provided with a bearing.

8. The rootstock vegetable impurity removing machine as claimed in claim 1, characterized in that: the conveying pipeline is obliquely placed, the bottom end of the conveying pipeline is located below the cleaning device, a plurality of observation ports are formed in the bottom end of the conveying pipeline, the observation ports are respectively located in the upper end and the lower end of the conveying pipeline and one side of the conveying pipeline, an observation cover is arranged on the outer side of each observation port, and the observation covers are equal to the observation ports in size and shape.

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