CN213067004U - Quick dewatering equipment in quinoa cleaning and processing - Google Patents

Abstract

The utility model discloses a quick dewatering equipment in chenopodium quinoa cleaning and processing, the inside of dehydration box has set gradually from left to right and has connect material room, first dehydration room and second dehydration room, connect the material indoor portion and set up and connect the material passageway, the inside of first dehydration room is provided with the rotatory dehydration mechanism, the rotatory dehydration mechanism includes cylindricality shell, rotatory dehydration section of thick bamboo and rotary driving unit, the slope of cylindricality shell sets up in first dehydration indoor, the rotation of rotatory dehydration section of thick bamboo sets up in the inside of cylindricality shell, the rotary driving unit is connected on rotatory dehydration section of thick bamboo in order to drive rotatory dehydration section of thick bamboo and rotate; the lateral wall of the rotary dewatering cylinder is provided with a plurality of dewatering holes, the top and the bottom of the outer side of the cylindrical shell are both provided with an upper through hole and a lower through hole, an air outlet mechanism is arranged above the cylindrical shell, a feed inlet in the second dewatering chamber corresponds to the discharge part of the first dewatering chamber, and a material receiving plate and an air blowing mechanism are arranged in the dewatering cavity. The utility model provides a quick dewatering equipment can be quick dewater to the chenopodium quinoa.

Description

Quick dewatering equipment in quinoa cleaning and processing

Technical Field

The utility model relates to a chenopodium quinoa production and processing technology field especially relates to a quick dewatering equipment in chenopodium quinoa washing and processing.

Background

Chenopodium quinoa belongs to easily-cooked and easily-digestible food, has unique taste, has light nut fragrance or ginseng fragrance, has the effects of balancing and supplementing nutrition, enhancing organism functions, repairing physique, regulating immunity and endocrine, improving organism stress capability, preventing diseases, resisting cancer, losing weight, assisting in treatment and the like, and is suitable for all groups to eat. To meet various eating requirements, chenopodium quinoa is usually processed into different edible products, and the chenopodium quinoa needs to be cleaned before being processed.

The process of processing quinoa into quinoa rice is the process of removing saponin and foreign matters from the skin of quinoa, because the saponin on the skin of quinoa has bitter taste, the bitter taste is completely removed, and the integrity of quinoa particles is kept, besides mechanical epidermis removal, the parts which are not completely removed on the skin and the tiny dust falling to the skin need to be removed by cleaning. The surface humidity is big after the quinoa washs, also has in a small amount of water gets into the quinoa grain, needs in time to take off epidermis moisture, and the drying of being convenient for, the unable quick dehydration that realizes of current quinoa dewatering device, has the not thorough phenomenon of quinoa surface dehydration to make the quinoa can sprout in the short time, influence the quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a quick dewatering equipment in chenopodium quinoa cleaning and processing to solve the above-mentioned weak point among the prior art.

In order to achieve the above object, the present invention provides the following technical solutions:

a rapid dehydration device in quinoa cleaning processing comprises a dehydration box, wherein a material receiving chamber, a first dehydration chamber and a second dehydration chamber are sequentially arranged inside the dehydration box from left to right, a material receiving channel is arranged inside the material receiving chamber, and a material receiving port on the material receiving channel is correspondingly connected with a discharging mechanism of previous processing equipment;

a rotary dehydration mechanism is arranged in the first dehydration chamber, the rotary dehydration mechanism comprises a cylindrical shell, a rotary dehydration cylinder and a rotary driving unit, the cylindrical shell is obliquely arranged in the first dehydration chamber, the rotary dehydration cylinder is rotationally arranged in the cylindrical shell, the rotary dehydration cylinder comprises a feeding part and a discharging part, the feeding part is rotationally connected at an outlet of the material receiving channel, and the rotary driving unit is connected on the rotary dehydration cylinder to drive the rotary dehydration cylinder to rotate;

the side wall of the rotary dewatering cylinder is provided with a plurality of dewatering holes, the top and the bottom of the outer side of the cylindrical shell are both provided with an upper through hole and a lower through hole, the aperture of the upper through hole is larger than that of the lower through hole, an air outlet mechanism is arranged above the cylindrical shell and comprises a plurality of air outlet holes, and the air outlet holes are arranged towards the upper through hole;

the second dehydration chamber includes the connection chamber of top and the dehydration chamber of below, be provided with the feed inlet on the lateral wall in dehydration chamber, the feed inlet with ejection of compact portion corresponds the setting in order to accept the quinoa of following the output of first dehydration chamber, the dehydration intracavity sets up connects the flitch and the mechanism of blowing, it is provided with a plurality of installation through-holes on the flitch to connect, the mechanism of blowing includes the flow distribution plate, the inside of flow distribution plate is provided with the reposition of redundant personnel chamber, be connected with the air-supply line on the reposition of redundant personnel chamber, be provided with a plurality of play tuber pipes on the flow distribution plate, go out the tuber pipe with the reposition of redundant personnel chamber all is linked together, the lateral part that goes out the tuber pipe is provided with a plurality of holes of blowing, it can the.

Foretell quick dewatering equipment, cylindricality shell and the coaxial setting of rotatory dewatering cylinder, feed portion includes the feed inlet, the exit that connects the material passageway be provided with the coaxial connector of feed inlet, the feed inlet is connected through rotating the connecting piece on the connector.

In the rapid dewatering device, the water storage chamber is arranged right below the cylindrical shell and communicated with the lower through hole.

Foretell quick dewatering equipment, the top of cylindricality shell is provided with the air-out chamber, air-out mechanism sets up the air-out intracavity, be provided with interface channel in the interface cavity, interface channel intercommunication air-out chamber and interface cavity.

Foretell quick dewatering equipment, the top in air-out chamber is provided with the fan, air-out mechanism is including going out the aerofoil, it is provided with a plurality ofly on the aerofoil exhaust vent.

In the rapid dewatering device, the material receiving plate is sequentially provided with the strip-shaped protruding portions and the strip-shaped groove portions in the width direction, and the strip-shaped protruding portions are provided with the plurality of mounting through holes.

The quick dewatering equipment is characterized in that an opening cavity is formed in one side of the material receiving plate, a material pushing mechanism is arranged in the opening cavity and comprises a driving piece and a material pushing piece, the material pushing piece comprises a transverse plate, the transverse plate is connected with the driving piece, and the height of the transverse plate is larger than that of the air outlet pipe.

In the rapid dewatering equipment, the transverse plate is provided with the plurality of strip-shaped material pushing plates, and the strip-shaped material pushing plates are arranged in one-to-one correspondence with the strip-shaped groove parts.

In the technical scheme, the utility model provides a quick dewatering equipment in chenopodium quinoa washing processing has following beneficial effect:

the utility model provides a rapid dehydration device in chenopodium quinoa cleaning and processing, which comprises a dehydration box, a material receiving chamber, a first dehydration chamber and a second dehydration chamber are arranged in the dehydration box from left to right in sequence, a material receiving channel is arranged in the material receiving chamber, a material receiving port on the material receiving channel is correspondingly connected with a discharging mechanism of the previous processing device, a rotary dehydration mechanism is arranged in the material receiving chamber, the rotary dehydration mechanism comprises a cylindrical shell, a rotary dehydration cylinder and a rotary driving unit, the quinoa can be dehydrated by rotating the dehydration cylinder, the air outlet mechanism is arranged above the cylindrical shell, the top and the bottom of the outer side of the cylindrical shell are both provided with an upper through hole and a lower through hole, can blow to the cylindricality shell through air-out mechanism, from making the moisture in the cylindricality shell export fast, thereby increase the dehydration effect of rotatory dehydration mechanism to the chenopodium quinoa.

The embodiment of the utility model provides a chenopodium quinoa washs quick dewatering equipment in processing, be provided with in the second dehydration room and connect flitch and blast mechanism, blast mechanism includes the flow distribution plate and sets up a plurality of play tuber pipes on the flow distribution plate, the air-supply line can be to the reposition of redundant personnel chamber transport hot-blast of flow distribution plate, it is intraductal to disperse to each air-out behind the hot-blast through the flow distribution chamber, the moisture in the hot-blast blowhole through going out on the tuber pipe with chenopodium quinoa is whole to be taken away, so realize the secondary dehydration to chenopodium quinoa, make chenopodium quinoa can realize quick dehydration in the short time, effectively avoid chenopodium quinoa.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

FIG. 1 is a schematic structural view of a rapid dewatering device in cleaning processing of chenopodium quinoa provided by an embodiment of the present invention;

fig. 2 is a schematic structural view of a dewatering cavity provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a receiving plate according to an embodiment of the present invention;

fig. 4 is a schematic structural view of the pushing member provided in the embodiment of the present invention.

Description of reference numerals:

1. a dewatering box;

2. a receiving chamber;

2.1, a material receiving channel;

3. a first dehydration chamber;

3.1, a cylindrical shell; 3.1.1, upper through holes; 3.1.2, lower through holes; 3.2, rotating the dewatering cylinder; 3.2.1, a feeding part; 3.2.2, a discharging part; 3.2.3, dewatering holes; 3.3, a rotation driving unit; 3.4, an air outlet mechanism; 3.5, air outlet holes; 3.6, a water storage chamber; 3.7, an air outlet cavity; 3.8, connecting the channel; 3.9, a fan;

4. a second dehydration chamber;

4.1, connecting the cavity; 4.2, a dehydration cavity; 4.3, a feed inlet; 4.4, a material receiving plate; 4.4.1, a strip-shaped convex part; 4.4.2, a strip-shaped groove part; 4.5, installing a through hole; 4.6, opening the cavity; 4.7, a driving piece; 4.8, pushing a material; 4.8.1, a transverse plate; 4.8.2, a strip-shaped material pushing plate;

5. a blowing mechanism;

5.1, a flow distribution plate; 5.2, an air outlet pipe.

Detailed Description

In order to make the technical solution of the present invention better understood by those skilled in the art, the present invention will be further described in detail with reference to the accompanying drawings.

As shown in the figures, the embodiment of the utility model provides a quick dehydration equipment in chenopodium quinoa cleaning processing, including dehydration box 1, the inside of dehydration box 1 has been set gradually from left to right and has been connect material room 2, first dehydration room 3 and second dehydration room 4, connects material room 2 inside and sets up and connects material channel 2.1, connects the discharge mechanism of material channel 2.1 and corresponds the connection; a rotary dehydration mechanism is arranged in the first dehydration chamber 3, the rotary dehydration mechanism comprises a cylindrical shell 3.1, a rotary dehydration cylinder 3.2 and a rotary driving unit 3.3, the cylindrical shell 3.1 is obliquely arranged in the first dehydration chamber 3, the rotary dehydration cylinder 3.2 is rotationally arranged in the cylindrical shell 3.1, the rotary dehydration cylinder 3.2 comprises a feeding part 3.2.1 and a discharging part 3.2.2, the feeding part 3.2.1 is rotationally connected at an outlet of the material receiving channel 2.1, and the rotary driving unit 3.3 is connected on the rotary dehydration cylinder 3.2 to drive the rotary dehydration cylinder 3.2 to rotate; the side wall of the rotary dewatering cylinder 3.2 is provided with a plurality of dewatering holes 3.2.3, the top and the bottom of the outer side of the cylindrical shell 3.1 are provided with an upper through hole 3.1.1 and a lower through hole 3.1.2, the aperture of the upper through hole 3.1.1 is larger than that of the lower through hole 3.1.2, an air outlet mechanism 3.4 is arranged above the cylindrical shell 3.1, the air outlet mechanism 3.4 comprises a plurality of air outlet holes 3.5, and the air outlet holes 3.5 are arranged towards the upper through hole 3.1.1; the second dehydration chamber 4 includes the dehydration chamber of the connection chamber 4.1 of top and below, be provided with feed inlet 4.3 on the lateral wall in dehydration chamber, feed inlet 4.3 corresponds the setting with discharge part 3.2.2 in order to accept the chenopodium quinoa of exporting from first dehydration chamber 3, set up in the dehydration chamber and connect flitch 4.4 and blast mechanism 5, connect to be provided with a plurality of installation through-holes 4.5 on flitch 4.4, blast mechanism 5 includes flow distribution plate 5.1, the inside of flow distribution plate 5.1 is provided with the reposition of redundant personnel chamber, be connected with the air-supply line on the reposition of redundant personnel chamber, be provided with a plurality of play tuber pipes 5.2 on the flow distribution plate 5.1, it installs in installation through-hole 4.5 to go out tuber pipe 5.2 can run through one by one, go out tuber pipe 5.2 and reposition of redundant personnel chamber all be linked together, the.

Concretely, chenopodium quinoa willd processing production line includes a plurality of flows, each flow all includes at least one production and processing equipment, dehydration box 1 is the equipment in the flow that dewaters in the chenopodium quinoa willd processing, dehydration box 1 is connected with the equipment of preceding flow and the equipment homogeneous phase of next flow, dehydration box 1's shape is the cuboid type, dehydration box 1's inside has set gradually from a left side to the right side and has connect material room 2, first dehydration room 3 and second dehydration room 4, connect material room 2 and be arranged in the chenopodium quinoa willd of output in the last flow of processing, first dehydration room 3 is used for carrying out the spin-drying to chenopodium quinoa willd, chenopodium quinoa willd after the spin-drying is carried to second dehydration room 4, in second dehydration room 4, through hot-air to the further dehydration of chenopodium quinoa willd, chenopodium quinoa willd after twice dehydration is carried and is handled in next flow equipment.

In this embodiment, the material receiving chamber 2 is internally provided with a material receiving channel 2.1, the material receiving channel 2.1 can be vertical or curved, the material receiving channel 2.1 is provided with a material receiving port, the material receiving port is connected with a discharging mechanism of a device of a previous processing flow so as to receive chenopodium quinoa output from the device of the previous processing flow, an outlet of the material receiving channel 2.1 is communicated with a first dehydrating chamber 3 so as to convey the chenopodium quinoa into the first dehydrating chamber 3 for dehydrating treatment, a rotary dehydrating mechanism is arranged in the first dehydrating chamber 3, the rotary dehydrating mechanism comprises a cylindrical shell 3.1, a rotary dehydrating cylinder 3.2 and a rotary driving unit 3.3, the cylindrical shell 3.1 is obliquely and fixedly arranged in the first dehydrating chamber 3, openings are arranged on the left side and the right side of the cylindrical shell 3.1, the rotary dehydrating cylinder 3.2 is rotatably connected in the cylindrical shell 3.1, the rotary dehydrating cylinder 3.2 and the cylindrical shell 3.1 are coaxially arranged, the rotary dewatering cylinder 3.2 comprises a feeding part 3.2.1 and a discharging part 3.2.2, the feeding part 3.2.1 can be a feeding opening and a feeding through opening, the discharging part 3.2.2 can be a discharging opening and a discharging through opening, the feeding part 3.2.1 of the rotary dewatering cylinder 3.2 is rotatably connected on the outlet of the connecting channel 3.8, the feeding part 3.2.1 can be rotatably connected on the outlet of the connecting channel 3.8 through an annular rotating plate, thereby realizing that the rotary dewatering cylinder 3.2 is in the rotating process, the rotary dewatering cylinder 3.2 is always communicated with the receiving channel 2.1, the outlets of the rotary dewatering cylinder 3.2 and the connecting channel 3.8 are coaxially arranged, one end of the discharging part 3.2.2 of the rotary dewatering cylinder 3.2 is rotatably connected on the side wall of the cylindrical shell 3.1 or the first dewatering chamber 3 through a rotating piece, the rotary driving unit 3.3 is connected with the rotating piece, thus, the rotary dewatering cylinder 3.3.2 is rotated through the rotary driving unit 3.3.3.3.2, a plurality of dewatering holes are arranged on the side wall of the rotary dewatering cylinder 3.2, a plurality of dewatering holes 3.2.3 are arranged at intervals along the circumferential direction of the side wall of the rotary dewatering cylinder 3.2, the aperture of the dewatering holes 3.2.3 is smaller than the size of the chenopodium quinoa so that the chenopodium quinoa cannot pass through the dewatering holes 3.2.3 in the rotary dewatering cylinder 3.2 rotating process, water in the chenopodium quinoa can be thrown out through the dewatering holes 3.2.3, the water in the chenopodium quinoa is thrown out into the cylindrical shell 3.1, an air outlet cavity 3.7 is arranged at the top of the cylindrical shell 3.1, a water storage chamber 3.6 is arranged at the bottom of the cylindrical shell 3.1, an upper through hole 3.1.1 and a lower through hole 3.1.2 are respectively arranged at the top and the bottom of the cylindrical shell 3.1, the upper through hole 3.1.1 realizes the mutual communication between the inside of the cylindrical shell 3.1 and the air outlet cavity 3.7, the lower through hole 3.1.2 realizes the mutual communication between the inside of the cylindrical shell 3.1 and the water storage chamber 3.6, thus, the upper through hole 3.7, the lower through hole 3.1.1.1 is communicated with the air outlet cavity 3.3.6 in turn, a mechanism is arranged, air-out mechanism 3.4 includes exhaust vent 3.5, exhaust vent 3.5 corresponds the setting with last through-hole 3.1.1, through-hole 3.5 on the exhaust vent 3.1.1 setting promptly, output hot-blast through exhaust vent 3.5 can be continuous, hot-blast through last through-hole 3.1.1 carry to the inside of cylindricality shell 3.1, then carry to the inside in water storage chamber from through-hole 3.1.2 down, carry the water in the cylindricality shell 3.1 to the water storage intracavity so fast, avoid water to stay in the inside of cylindricality shell 3.1, and make through hot-blast and keep higher temperature in cylindricality shell 3.1 and the rotatory dewatering cylinder 3.2, increase the effect of dehydration.

In this embodiment, the inside of the second dehydration chamber 4 is provided with a connection chamber 4.1 and a dehydration chamber, the connection chamber 4.1 and the dehydration chamber can be separated by a partition plate, the connection chamber 4.1 and the dehydration chamber are communicated with each other, a feed inlet 4.3 is arranged on the side wall of the dehydration chamber, the feed inlet 4.3 is arranged corresponding to the discharge part 3.2.2, the feed inlet 4.3 can be arranged under the discharge part 3.2.2 to receive the quinoa output from the first dehydration chamber 3, the feed inlet 4.3 can be connected with the discharge part 3.2.2 by a connecting piece, the rotary dehydration cylinder 3.2 can rotate, the discharge port and the discharge part 3.2.2 are always connected, a material receiving plate 4.4 is arranged inside the dehydration chamber, the material receiving plate 4.4 transversely penetrates the dehydration chamber, a plurality of installation through holes 4.5 are arranged on the material receiving plate 4.4, the installation through holes 4.5 are arranged at equal intervals along the material receiving plate 4, and the air blowing mechanism 5.1 comprises a flow distribution plate 5.1, An air inlet pipe and an air outlet pipe 5.2, a diversion cavity is arranged inside the diversion plate 5.1 and is connected with the air inlet pipe, a plurality of air outlet pipes 5.2 are arranged on the diversion plate 5.1, each air outlet pipe 5.2 is communicated with the diversion cavity, thus hot air can be conveyed to the interior of the diversion cavity through the air inlet pipe, the hot air is dispersedly conveyed to each air outlet pipe 5.2 through the diversion cavity to realize the dispersive output of the hot air, the air outlet pipes 5.2 can be correspondingly arranged inside the mounting through holes 4.5 one by one, the side wall of the air outlet pipe 5.2 is provided with a plurality of vent holes, the communication between the interior of the air outlet pipe 5.2 and the dehydration cavity is realized through the vent holes, in the mounting process, the diversion plate 5.1 is arranged below the material receiving plate 4.4, each air outlet pipe 5.2 respectively penetrates through the mounting through holes 4.5 one by one, a fan 3.9 and the like can be arranged in the diversion cavity, thereby the hot air can flow from each air outlet pipe 5.2, thus the moisture in the, the quinoa can be dehydrated.

The utility model provides a rapid dehydration equipment in chenopodium quinoa cleaning processing, which comprises a dehydration box 1, the inside of the dehydration box 1 is provided with a material receiving chamber 2, a first dehydration chamber 3 and a second dehydration chamber 4 from left to right in sequence, the material receiving chamber 2 is internally provided with a material receiving channel 2.1, a material receiving port on the material receiving channel 2.1 is correspondingly connected with a discharging mechanism of the previous processing equipment, the inside of the material receiving chamber 2 is provided with a rotary dehydration mechanism, the rotary dehydration mechanism comprises a cylindrical shell 3.1, a rotary dehydration cylinder 3.2 and a rotary driving unit 3.3, the chenopodium quinoa can be dehydrated through the rotary dehydration cylinder 3.2, an air outlet mechanism 3.4 is arranged above the cylindrical shell 3.1, the top and the bottom outside the cylindrical shell 3.1 are both provided with an upper through hole 3.1.1 and a lower through hole 3.1.2, air can be blown to the cylindrical shell 3.1 through the air outlet mechanism 3.4, thereby rapidly outputting the moisture in the cylindrical shell 3.1, thereby increasing the dehydration effect of the rotary dehydration mechanism on the quinoa.

The embodiment of the utility model provides a chenopodium quinoa washs quick dewatering equipment in processing, be provided with in the second dehydration room 4 and connect flitch 4.4 and blast mechanism 5, blast mechanism 5 includes flow distribution plate 5.1 and sets up a plurality of play tuber pipes 5.2 on flow distribution plate 5.1, the air-supply line can be to flow distribution plate 5.1's reposition of redundant personnel chamber transport hot-blastly, hot-blast through disperse to each play tuber pipe 5.2 in behind the flow distribution chamber, hot-blast hole of blowing through on the play tuber pipe 5.2 takes away all the moisture in the chenopodium quinoa, so realize the secondary dehydration to the chenopodium quinoa, make the chenopodium quinoa can realize quick dehydration in the short time, effectively avoid the chenopodium quinoa to appear the dehydration thoroughly and sprout.

In this embodiment, preferably, the cylindrical housing 3.1 and the spin-drying cylinder 3.2 are coaxially arranged, the feeding portion 3.2.1 includes the feeding port 4.3, the outlet of the material receiving channel 2.1 is provided with a connecting port coaxial with the feeding port 4.3, the feeding port 4.3 is connected to the connecting port through a rotating connecting piece, the rotating connecting piece can be an annular rotating plate, an annular groove is formed in the side wall of the connecting port, the annular rotating plate is limited in rotation in the annular groove, so that the spin-drying cylinder 3.2 is in the rotating process, and the feeding port 4.3 is always connected with the material receiving channel 2.1.

In this embodiment, preferably, a water storage chamber 3.6 is arranged right below the cylindrical housing 3.1, the water storage chamber 3.6 is communicated with the lower through hole 3.1.2, the water storage chamber 3.6 can receive water output from the cylindrical housing 3.1 and store the water, and a water outlet can be further arranged on the water storage chamber 3.6 and can discharge the water through the water outlet.

In this embodiment, it is preferable, the air outlet cavity 3.7 is arranged above the cylindrical shell 3.1, the air outlet mechanism 3.4 is arranged inside the air outlet cavity 3.7, the connecting channel 3.8 is arranged in the connecting cavity 4.1, the connecting channel 3.8 communicates the air outlet cavity 3.7 and the connecting cavity 4.1, the connecting channel 3.8 conveys hot air in the air outlet cavity 3.7 to the inside of the air outlet cavity 3.7, and after the hot air is conveyed to the inside of the air outlet cavity 3.7, the hot air is conveyed to the inside of the air outlet cavity 3.1 and then is conveyed to the cylindrical shell 3.1 through the plurality of air outlet holes 3.5 in a dispersing manner, so that moisture in the cylindrical shell 3.1 can be taken away.

In this embodiment, preferably, the top in air-out chamber 3.7 is provided with fan 3.9, and air-out mechanism 3.4 is provided with a plurality of exhaust vents 3.5 including the play aerofoil, on the play aerofoil, fan 3.9 makes hot-blast output in the exhaust vent 3.5 that can be quick, and exhaust vent 3.5 corresponds the setting with last through-hole 3.1.1, and hot-blast inside of carrying to cylindricality shell 3.1 through last through-hole 3.1.1.

In this embodiment, preferably, the material receiving plate 4.4 is sequentially provided with a strip-shaped protruding portion and a strip-shaped groove portion 4.4.2 along the width direction, the strip-shaped protruding portion and the strip-shaped groove portion 4.4.2 are arranged at intervals one by one, and each strip-shaped protruding portion is provided with a plurality of mounting through holes 4.5, that is, a plurality of mounting through holes 4.5 are arranged at equal intervals on the strip-shaped protruding portion, but no mounting through hole 4.5 is arranged in the strip-shaped groove portion 4.4.2.

In this embodiment, preferably, one side of the material receiving plate 4.4 is provided with an open cavity 4.6, a material pushing mechanism is arranged in the open cavity 4.6, the material pushing mechanism includes a driving member 4.7 and a material pushing member 4.8, the material pushing plate includes a transverse plate 4.8.1, the transverse plate 4.8.1 is arranged along a direction perpendicular to the strip-shaped protruding portion and the strip-shaped groove portion 4.4.2, the transverse plate 4.8.1 is connected with the driving member 4.7, and the height of the transverse plate 4.8.1 is greater than that of the air outlet pipe 5.2, that is, under the action of the driving member 4.7, the transverse plate 4.8.1 can reciprocate directly above the air outlet pipe 5.2.

In this embodiment, it is preferable, be provided with a plurality of bar scraping wings 4.8.2 on the diaphragm 4.8.1, the length of bar scraping wing 4.8.2 is greater than the length of tuber pipe 5.2, bar scraping wing 4.8.2 sets up with bar grooved section 4.4.2 one-to-one, diaphragm 4.8.1 can move under the drive of driving piece 4.7, diaphragm 4.8.1 moves and drives each bar scraping wing 4.8.2 along bar grooved section 4.4.2 reciprocating motion, so can realize overturning the chenopodium quinoa in the dehydration intracavity, set up the output portion simultaneously at the lateral part in dehydration chamber, can export the chenopodium quinoa after the dehydration through diaphragm 4.8.1 and bar scraping wing.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (8)

1. A rapid dehydration device in quinoa cleaning processing is characterized by comprising a dehydration box, wherein a material receiving chamber, a first dehydration chamber and a second dehydration chamber are sequentially arranged inside the dehydration box from left to right, a material receiving channel is arranged inside the material receiving chamber, and a material receiving port on the material receiving channel is correspondingly connected with a discharging mechanism of previous processing equipment;

a rotary dehydration mechanism is arranged in the first dehydration chamber, the rotary dehydration mechanism comprises a cylindrical shell, a rotary dehydration cylinder and a rotary driving unit, the cylindrical shell is obliquely arranged in the first dehydration chamber, the rotary dehydration cylinder is rotationally arranged in the cylindrical shell, the rotary dehydration cylinder comprises a feeding part and a discharging part, the feeding part is rotationally connected at an outlet of the material receiving channel, and the rotary driving unit is connected on the rotary dehydration cylinder to drive the rotary dehydration cylinder to rotate;

the side wall of the rotary dewatering cylinder is provided with a plurality of dewatering holes, the top and the bottom of the outer side of the cylindrical shell are both provided with an upper through hole and a lower through hole, the aperture of the upper through hole is larger than that of the lower through hole, an air outlet mechanism is arranged above the cylindrical shell and comprises a plurality of air outlet holes, and the air outlet holes are arranged towards the upper through hole;

the second dehydration chamber includes the connection chamber of top and the dehydration chamber of below, be provided with the feed inlet on the lateral wall in dehydration chamber, the feed inlet with ejection of compact portion corresponds the setting in order to accept the quinoa of following the output of first dehydration chamber, the dehydration intracavity sets up connects the flitch and the mechanism of blowing, it is provided with a plurality of installation through-holes on the flitch to connect, the mechanism of blowing includes the flow distribution plate, the inside of flow distribution plate is provided with the reposition of redundant personnel chamber, be connected with the air-supply line on the reposition of redundant personnel chamber, be provided with a plurality of play tuber pipes on the flow distribution plate, go out the tuber pipe with the reposition of redundant personnel chamber all is linked together, the lateral part that goes out the tuber pipe is provided with a plurality of holes of blowing, it can the.

2. The rapid dewatering equipment according to claim 1, wherein the cylindrical shell and the rotary dewatering drum are coaxially arranged, the feeding part comprises a feeding hole, a connecting port coaxial with the feeding hole is arranged at an outlet of the material receiving channel, and the feeding hole is connected to the connecting port through a rotary connecting piece.

3. The rapid dehydration apparatus according to claim 1, wherein a water storage chamber is provided right below the cylindrical housing, and the water storage chamber is communicated with the lower through hole.

4. The rapid dewatering equipment according to claim 1, wherein an air outlet cavity is arranged above the cylindrical shell, the air outlet mechanism is arranged in the air outlet cavity, a connecting channel is arranged in the connecting cavity, and the connecting channel is communicated with the air outlet cavity and the connecting cavity.

5. The rapid dewatering apparatus according to claim 4, wherein a fan is disposed at the top of the air outlet chamber, the air outlet mechanism includes an air outlet plate, and the air outlet plate is provided with a plurality of air outlet holes.

6. The rapid dewatering apparatus according to claim 1, wherein the material receiving plate is provided with a strip-shaped protrusion portion and a strip-shaped groove portion in sequence along a width direction, and each strip-shaped protrusion portion is provided with a plurality of mounting through holes.

7. The rapid dewatering equipment according to claim 6, wherein an open cavity is formed in one side of the material receiving plate, a material pushing mechanism is arranged in the open cavity and comprises a driving piece and a material pushing piece, the material pushing piece comprises a transverse plate, the transverse plate is connected with the driving piece, and the height of the transverse plate is greater than that of the air outlet pipe.

8. The rapid dewatering apparatus according to claim 7, wherein the horizontal plate is provided with a plurality of strip-shaped material pushing plates, and the strip-shaped material pushing plates are arranged in one-to-one correspondence with the strip-shaped groove portions.

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