CN218502669U - Corn deep-processing edulcoration screening installation - Google Patents

Abstract

The utility model relates to a corn deep-processing edulcoration screening installation, including support frame, edulcoration screening module and feeding flange, support frame quantity is a plurality of, installs edulcoration screening module between the support frame upper end, and edulcoration screening module is rectangle hollow structure, and edulcoration screening module upper end is provided with the open slot, installs the feeding flange on the open slot, and the feeding flange is connected with the output of inhaling the material pump. The utility model provides a during mutually supporting between dispersion subassembly and the vibration subassembly, when the raw materials drops inside the casing frame, reciprocating vibration through the vibration subassembly can drive dispersion subassembly up-and-down motion for the dispersion subassembly can be with raw materials horizontal dispersion, and the opening intermittent type between dispersion subassembly and the vibration subassembly is opened simultaneously, and the corn raw materials and then can drop downwards by intermittent type formula, does benefit to the accurate selection by winnowing edulcoration of corn raw materials.

Description

Corn deep-processing edulcoration screening installation

Technical Field

The utility model relates to a corn deep-processing field, in particular to corn deep-processing edulcoration screening installation.

Background

Before the fine processing of the rice, in order to avoid the impurity doping in the rice after the fine processing from affecting the quality of the rice, and also in order to ensure the safety of the grain, the existence of the factor threatening the health of the human body is avoided, so that the corresponding impurity removal treatment of the rice is necessary.

In current corn deep-processing edulcoration screening installation, chinese patent for CN212633455U as bulletin number, it discloses a corn edulcoration device, and specific driving motor drives the edulcoration cylinder and rotates, through centrifugal force effect, and corn and tiny particle impurity fall to edulcoration case below from the sieve mesh, rotate through driving motor, driving motor drives the second sprocket through first sprocket and chain and rotates, the second sprocket drives the blade and rotates, because the weight of corn is greater than the weight of rice husk and tiny particle impurity, consequently will blow the slagging-off pipe and store up the cinder room from rice husk and tiny particle impurity in the corn that the sieve mesh falls.

In the prior art, the function of removing impurities from rice can be realized, but on the first hand, the prior art cannot effectively horizontally disperse raw materials, so that the raw materials are easily accumulated together in the falling process, which is not beneficial to the subsequent removal of impurities in the raw materials; the second aspect, wind direction during the selection by winnowing is fixed, can not adjust the angle of blowing during the selection by winnowing, can not collect the impurity after the selection by winnowing effectively simultaneously for impurity can be to rice secondary pollution, based on this, on current rice deep-processing edulcoration screening installation's technique, space that still can improve.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

An object of the utility model is to provide a corn deep-processing edulcoration screening installation to solve the problem that proposes in the above-mentioned background art.

(II) technical scheme

In order to realize the purpose, the utility model adopts the following technical scheme: the utility model provides a corn deep-processing edulcoration screening installation, includes support frame, edulcoration screening module and feeding flange, support frame quantity is a plurality of, installs edulcoration screening module between the support frame upper end, and edulcoration screening module is rectangle hollow structure, and edulcoration screening module upper end is provided with the open slot, installs the feeding flange on the open slot, and the feeding flange is connected with the output of inhaling the material pump.

Edulcoration screening module includes casing frame, dispersion subassembly, vibration subassembly, selection by winnowing subassembly, collection dirt subassembly and receipts long-pending frame, the casing frame is rectangle hollow structure, is the inside upper end of rectangle hollow structure and installs the dispersion subassembly, and the dispersion subassembly is the downward sloping structure, and the vibration subassembly is installed to dispersion subassembly right side, vibrates the subassembly and hugs closely with dispersion subassembly right side, and the selection by winnowing subassembly is installed on the inside right side of casing frame, and the collection dirt subassembly is installed in the inside left side of casing frame, and receipts long-pending frame is installed to the casing frame lower extreme.

The dispersion subassembly includes L type frame, the carriage, the leading truck, guide arm and dispersion pad, L type frame is installed to the inside upper end of casing frame, L type frame is arranged downwards for the slope, the carriage is installed through the telescopic link in L type frame upper end, the carriage moves along the vertical direction of L type frame, the carriage lower extreme is the wave structure, be provided with the through-hole on the L type frame, be connected with the guide arm through sliding fit's mode in the through-hole, the leading truck is installed in the guide arm left side, the leading truck cooperatees with the carriage lower extreme, the guide arm right side is connected with the vibration subassembly through the round pin axle, L type frame upper end is provided with the dispersion pad, the dispersion pad is the elasticity material, the dispersion pad sets up in the L type frame outside, the height of dispersion pad reduces to both sides by centre gradually, it can be followed the middle to both sides motion to do benefit to the corn raw materials.

Preferably, the vibration assembly comprises a vibration motor, a cam and a rotating plate, the vibration motor is mounted on the inner wall of the shell frame through a motor base, the cam is mounted on an output shaft of the vibration motor, the rotating plate is mounted on the shell frame through a pin shaft, the inner side of the rotating plate is tightly attached to the surface of the cam, and the outer side of the rotating plate is connected with the guide rod.

Preferably, the selection by winnowing subassembly includes intake pipe, link, dispersion board and jet-propelled frame, the link is installed on the inside right side of casing frame, be provided with the rectangle cavity between link and the casing frame, the casing frame outside is provided with the intake pipe with the rectangle cavity intercommunication, link mid-mounting has the dispersion board, evenly be provided with the bleeder vent on the dispersion board, the draw-in groove is evenly installed in the link left side, detachable installs jet-propelled frame in the draw-in groove, jet-propelled frame angularly adjustable, jet-propelled angle through the adjustment jet-propelled frame can be accurate outwards blow the rice husk, do benefit to rice husk and rice phase separation.

Preferably, the collection dirt subassembly includes the album flitch, collects the frame and collects the bag, the inside left side of casing frame evenly is provided with an album flitch, and the flitch slope that gathers materials upwards arranges, evenly installs on the casing frame lateral surface and collects the frame, collects the frame and is rectangle frame type structure, collects the frame and is linked together with casing frame inside, collects the frame outside and is provided with the collection bag.

Preferably, the length of the material collecting plate is gradually reduced from top to bottom, and conical through holes are uniformly formed in the material collecting plate.

Preferably, the collecting bag is detachably arranged and is a filtering cloth bag with a multilayer structure.

(III) advantageous effects

1. The utility model provides a dispersion assembly and a vibration assembly, when the dispersion assembly and the vibration assembly are mutually matched, when raw materials fall in a shell frame, the dispersion assembly can be driven to move up and down through the reciprocating vibration of the vibration assembly, so that the dispersion assembly can horizontally disperse the raw materials, and meanwhile, an opening between the dispersion assembly and the vibration assembly is intermittently opened, so that the raw materials of rice can drop downwards intermittently, and the accurate winnowing and impurity removal of the raw materials of rice are facilitated;

2. in order to accurately realize the function of blowing the rice hulls, the angle of the air injection frame is adjustable, the rice hulls can be accurately blown outwards by adjusting the air injection angle of the air injection frame, and the separation of the rice hulls from the rice is facilitated;

3. in order to prevent that rice from dropping on the flitch that gathers materials in the selection by winnowing process, will in this embodiment the length of gathering the flitch from top to bottom reduces gradually, evenly be provided with the toper through-hole on the flitch that gathers materials, in the corn raw materials in-process that drops downwards, the corn raw materials is and then the parabolic motion under compressed gas's effect, avoid rice to drop on the flitch that gathers materials, the quality can be accurate drop on the flitch that gathers materials by the lighter rice husk, simultaneously because evenly be provided with the toper through-hole on the flitch that gathers materials, make gas can follow the inside from bottom to top motion of toper through-hole, make the rice husk that drops on the flitch that gathers materials can be blown, avoid the rice husk to pile up on the board that gathers materials.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of the present invention;

fig. 4 is a schematic sectional structure view of the housing frame, the dispersing assembly, the vibrating assembly and the feeding flange of the present invention;

fig. 5 is a schematic sectional view of the housing frame, the winnowing component, the dust collecting component and the collecting frame of the present invention.

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 5, a corn deep-processing edulcoration screening installation, including support frame 1, edulcoration screening module 2 and feeding flange 3, support frame 1 quantity is a plurality of, installs edulcoration screening module 2 between 1 upper ends of support frame, and edulcoration screening module 2 is rectangle hollow structure, and edulcoration screening module 2 upper ends are provided with the open slot, installs feeding flange 3 on the open slot, and feeding flange 3 is connected with the output of inhaling the material pump.

Edulcoration screening module 2 includes casing frame 21, dispersion subassembly 22, vibration subassembly 23, selection by winnowing subassembly 24, collection dirt subassembly 25 and receipts long-pending frame 26, casing frame 21 is rectangle hollow structure, is the inside upper end of rectangle hollow structure and installs dispersion subassembly 22, and dispersion subassembly 22 is downward sloping structure, and dispersion subassembly 22 installs on the right side vibration subassembly 23, vibrates subassembly 23 and hugs closely with dispersion subassembly 22 right side, and selection by winnowing subassembly 24 is installed on the inside right side of casing frame 21, and collection dirt subassembly 25 is installed on the inside left side of casing frame 21, and the receipts long-pending frame 26 is installed to casing frame 21 lower extreme.

In the in-service use process, the rice raw materials after the auto sucking pump will be processed deeply is sent into inside casing frame 21, dispersion subassembly 22 can be with the horizontal dispersion of rice, vibration subassembly 23 intermittent type formula motion, make the opening intermittent type between dispersion subassembly 22 and the vibration subassembly 23 open, the rice raw materials and then can drop downwards by the intermittent type formula, later selection by winnowing subassembly 24 can carry out the cross-blow to the rice raw materials, make the lighter rice husk of quality drop to collection dirt subassembly 25 inside, the rice that meets the requirements is through receiving a packet of 26 downstream.

The dispersing assembly 22 comprises an L-shaped frame 221, a sliding frame 222, a guide frame 223, a guide rod 224 and a dispersing pad 225, the L-shaped frame 221 is installed at the upper end inside the shell frame 21, the L-shaped frame 221 is arranged obliquely downwards, the sliding frame 222 is installed at the upper end of the L-shaped frame 221 through a telescopic rod, the sliding frame 222 moves along the vertical direction of the L-shaped frame 221, the lower end of the sliding frame 222 is of a wave-shaped structure, a through hole is formed in the L-shaped frame 221, the guide rod 224 is connected to the through hole in a sliding fit mode, the guide frame 223 is installed on the left side of the guide rod 224, the guide frame 223 is matched with the lower end of the sliding frame 222, the right side of the guide rod 224 is connected with the vibrating assembly 23 through a pin shaft, the dispersing pad 225 is arranged at the upper end of the L-shaped frame 221, the dispersing pad 225 is made of elastic materials, the dispersing pad 225 is arranged on the outer side of the L-shaped frame 221, the height of the dispersing pad 225 is gradually reduced from the middle to the two sides, and the rice raw materials can move from the middle to the two sides.

In the in-service use process, when vibration subassembly 23 drove guide arm 224 reciprocating motion, guide arm 224 can drive leading truck 223 reciprocating motion, and then leading truck 223 can drive carriage 222 up-and-down reciprocating vibration for the corn that drops on dispersion pad 225 can the luffing motion, does benefit to the corn to both sides dispersion, avoids the corn to take place accumulational phenomenon.

The vibration assembly 23 comprises a vibration motor 231, a cam 232 and a rotating plate 233, the vibration motor 231 is mounted on the inner wall of the housing frame 21 through a motor base, the cam 232 is mounted on an output shaft of the vibration motor 231, the rotating plate 233 is mounted on the housing frame 21 through a pin shaft, the inner side of the rotating plate 233 is closely attached to the surface of the cam 232, and the outer side of the rotating plate 233 is connected with the guide rod 224.

In the in-service use process, when vibrating motor 231 during operation, vibrating motor 231 passes through cam 232 and drives rotor plate 233 reciprocating motion for opening intermittent type nature between rotor plate 233 and the dispersion subassembly 22 is opened, can tile the show when making the corn can be gradually drop downwards, avoids taking place accumulational phenomenon.

The winnowing subassembly 24 includes intake pipe 241, link 242, dispersion plate 243 and jet-propelled frame 244, link 242 is installed on the inside right side of casing frame 21, is provided with the rectangle cavity between link 242 and the casing frame 21, and the casing frame 21 outside is provided with the intake pipe 241 with the rectangle cavity intercommunication, and link 242 mid-mounting has dispersion plate 243, evenly is provided with the bleeder vent on the dispersion plate 243, and the draw-in groove is evenly installed in link 242 left side, and jet-propelled frame 244 is installed to detachable in the draw-in groove.

In the in-service use process, intake pipe 241 communicates with the high-pressure pump mutually, and in the high-pressure pump drove compressed air and entered into the rectangular cavity, dispersion plate 243 can be with the even outdiffusion of compressed gas for compressed gas can be accurate outwards spout along air jet frame 244, does benefit to the inside rice husk of corn raw materials and outwards blows off.

In order to accurately realize the function of blowing the rice hulls, the angle of the air injection frame 244 in the embodiment is adjustable, and the rice hulls can be accurately blown outwards by adjusting the air injection angle of the air injection frame 244, so that the separation of the rice hulls from the rice is facilitated.

The dust collecting assembly 25 comprises a material collecting plate 251, a collecting frame 252 and a collecting bag 253, the material collecting plate 251 is uniformly arranged on the left side inside the shell frame 21, the material collecting plate 251 is obliquely and upwards arranged, the collecting frame 252 is uniformly arranged on the outer side surface of the shell frame 21, the collecting frame 252 is of a rectangular frame structure, the collecting frame 252 is communicated with the inside of the shell frame 21, and the collecting bag 253 is arranged on the outer side of the collecting frame 252.

In the in-service use process, when selection by winnowing subassembly 24 during operation, the rice husk is blown into inside the collection bag 253 through compressed gas, and the board 251 that gathers materials can play the effect of collecting, prevents that the raw materials that do not get into the inside of collection bag 253 from dropping downwards, avoids rice secondary pollution.

It should be noted that the collection bag 253 has a rectangular structure, and the collection bag 253 can be collected inside the collection rack 252 when not in use, so that the occupied volume of the collection bag 253 can be reduced, and the phenomenon that the collection bag 253 is damaged can be prevented.

In order to prevent rice from dropping on the material collecting plate 251 in the winnowing process, the length of the material collecting plate 251 is gradually reduced from top to bottom in the embodiment, conical through holes are uniformly formed in the material collecting plate 251, when the rice raw materials drop downwards, the rice raw materials move in a parabolic manner under the action of compressed gas, rice is prevented from dropping on the material collecting plate 251, the rice hulls with lighter weight can accurately drop on the material collecting plate 251, meanwhile, the conical through holes are uniformly formed in the material collecting plate 251, gas can move from bottom to top from the inside of the conical through holes, the rice hulls dropping on the material collecting plate 251 can be blown, and the rice hulls are prevented from being accumulated on the material collecting plate 251.

The collection bag 253 can be dismantled and set up, collects the filter cloth bag that bag 253 is multilayer structure, and filter cloth bag can play filterable effect effectively for the rice husk can be collected inside filter cloth bag, does benefit to the rice husk and collects.

The utility model discloses a theory of operation:

the first step is as follows: raw material feeding, namely mounting a suction pump at the upper end of a feeding flange 3, and feeding the deeply processed rice raw material into a shell frame 21 through the suction pump;

the second step is that: the intermittent discharging is carried out, the dispersing component 22 can horizontally disperse the rice, the vibrating component 23 intermittently moves, so that an opening between the dispersing component 22 and the vibrating component 23 is intermittently opened, and the rice raw material can further intermittently drop downwards;

the third step: winnowing and impurity removal, wherein a high-pressure pump drives compressed air to enter the rectangular cavity, and the dispersion plate 243 can uniformly diffuse the compressed air outwards, so that the compressed air can be accurately sprayed outwards along the air spraying frame 244, and rice husks in the rice raw materials can be blown outwards;

the fourth step: the rice husk is collected, and when winnowing subassembly 24 during operation, the rice husk blows in inside collecting bag 253 through compressed gas, and the board 251 that gathers materials can play the effect of collecting, prevents that the raw materials that do not get into collecting bag 253 inside from dropping down, avoids rice secondary pollution.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a corn deep-processing edulcoration screening installation, includes support frame (1), edulcoration screening module (2) and feeding flange (3), its characterized in that, support frame (1) quantity is a plurality of, installs edulcoration screening module (2) between support frame (1) upper end, and edulcoration screening module (2) are rectangle hollow structure, and edulcoration screening module (2) upper end is provided with the open slot, installs feeding flange (3) on the open slot, and feeding flange (3) are connected with the output of inhaling the material pump, wherein:

the impurity removal screening module (2) comprises a shell frame (21), a dispersing component (22), a vibrating component (23), a winnowing component (24), a dust collecting component (25) and a collecting frame (26), wherein the shell frame (21) is of a rectangular hollow structure, the dispersing component (22) is installed at the upper end inside the rectangular hollow structure, the dispersing component (22) is of a downward inclined structure, the vibrating component (23) is installed on the right side of the dispersing component (22), the vibrating component (23) is tightly attached to the right side of the dispersing component (22), the winnowing component (24) is installed on the right side inside the shell frame (21), the dust collecting component (25) is installed on the left side inside the shell frame (21), and the collecting frame (26) is installed at the lower end of the shell frame (21);

the dispersing component (22) comprises an L-shaped frame (221), a sliding frame (222), a guide frame (223), a guide rod (224) and a dispersing pad (225), the L-shaped frame (221) is installed at the upper end inside the shell frame (21), the L-shaped frame (221) is arranged downwards in an inclined mode, the sliding frame (222) is installed at the upper end of the L-shaped frame (221) through a telescopic rod, the sliding frame (222) moves along the vertical direction of the L-shaped frame (221), the lower end of the sliding frame (222) is of a wave-shaped structure, a through hole is formed in the L-shaped frame (221), the guide rod (224) is connected to the left side of the guide rod (224) in a sliding fit mode, the guide frame (223) is matched with the lower end of the sliding frame (222), the right side of the guide rod (224) is connected with the vibrating component (23) through a pin shaft, the dispersing pad (225) is arranged at the upper end of the L-shaped frame (221), the dispersing pad (225) is made of an elastic material, the dispersing pad (225) is arranged on the outer side of the L-shaped frame (221), and the height of the dispersing pad (225) is gradually reduced from the middle to two sides of the dispersing pad (221).

2. A rice deep-processing impurity-removing screening device as claimed in claim 1, characterized in that: vibration subassembly (23) include vibrating motor (231), cam (232) and rotor plate (233), install vibrating motor (231) through the motor cabinet on casing frame (21) inner wall, install cam (232) on the output shaft of vibrating motor (231), install rotor plate (233) through the round pin axle on casing frame (21), rotor plate (233) inboard is hugged closely with cam (232) surface, and the rotor plate (233) outside is connected with guide arm (224).

3. A rice deep-processing impurity-removing screening device as claimed in claim 1, characterized in that: winnowing subassembly (24) includes intake pipe (241), link (242), dispersion board (243) and jet-propelled frame (244), link (242) are installed on casing frame (21) inside right side, be provided with the rectangle cavity between link (242) and casing frame (21), casing frame (21) outside is provided with intake pipe (241) with the rectangle cavity intercommunication, link (242) mid-mounting has dispersion board (243), evenly be provided with the bleeder vent on dispersion board (243), the draw-in groove is evenly installed in link (242) left side, jet-propelled frame (244) are installed to detachable in the draw-in groove, jet-propelled frame (244) angularly adjustable.

4. A rice deep-processing impurity-removing screening device as claimed in claim 1, characterized in that: collection dirt subassembly (25) are including album flitch (251), collect frame (252) and collection bag (253), the inside left side of casing frame (21) evenly is provided with album flitch (251), and board (251) slope upwards arranges that casing frame (21) lateral surface is last evenly to install and to collect frame (252), collects frame (252) and is the rectangle frame type structure, collects frame (252) and casing frame (21) inside and is linked together, collects frame (252) outside and is provided with collection bag (253).

5. A rice deep-processing impurity-removing screening device as claimed in claim 4, characterized in that: the length of the material collecting plate (251) is gradually reduced from top to bottom, and conical through holes are uniformly formed in the material collecting plate (251).

6. A rice deep-processing impurity-removing screening device as claimed in claim 4, characterized in that: the collecting bag (253) is detachably arranged, and the collecting bag (253) is a filtering cloth bag with a multilayer structure.

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