CN214950299U - Dewatering device is used in matrimony vine processing - Google Patents

Abstract

The utility model discloses a dewatering device is used in matrimony vine processing, including dehydration casing, dehydration subassembly, edulcoration subassembly and shock attenuation leg, the dehydration casing is the cavity setting, dehydration casing upper end is located to the dehydration subassembly, the dehydration subassembly includes agitator motor, stirring pivot, puddler, heating chamber, heater strip, air intake, air-blower, protection network and screening filter screen, agitator motor rotates and locates dehydration casing center department top, the stirring pivot rotates and locates in the dehydration casing. The utility model belongs to the technical field of the matrimony vine processing, specifically provide a dehydration subassembly is at incessant upset matrimony vine of stoving matrimony vine, be convenient for evenly dry the matrimony vine, improve the play quality of matrimony vine, dust and branch and leaf in the edulcoration subassembly separation matrimony vine of being convenient for improve the cleanliness factor of matrimony vine, practicality height, easy operation, dehydration are effectual, work efficiency is high, simple structure, reliable and stable, the drying is even, labour saving and time saving's dewatering device for the matrimony vine processing.

Description

Dewatering device is used in matrimony vine processing

Technical Field

The utility model belongs to the technical field of the matrimony vine processing, specifically indicate a dewatering device is used in matrimony vine processing.

Background

Lycium chinense is a general name of people for species under the genus Lycium chinense. The medlar is suitable for all people to eat, has multiple functions of enhancing immunity, regulating mechanism, resisting aging, reducing blood fat, reducing blood sugar, improving eyesight, beautifying and moistening skin and the like, and is more and more favored by consumers. The fresh medlar has short shelf life and is inconvenient to use and transport, so the picked fresh medlar needs to be dehydrated.

At present, the matrimony vine is cleaned and is mostly dried by natural illumination after the completion, so not only by the restraint of weather, the night preservation during continuous drying is more time-consuming and labor-consuming, moreover, sundries in the air of the drying process are easily mixed into the drying process, the quality of the matrimony vine is influenced, the efficiency of the existing dehydration equipment is lower, the dehydration process needs to be consumed for a long time, the drying is uneven, time-consuming and labor-consuming are realized, and the dehydration effect is poor. Therefore, a novel dewatering device for processing the medlar is urgently needed to solve the problems.

SUMMERY OF THE UTILITY MODEL

For solving the above-mentioned current difficult problem, the utility model provides a dehydration subassembly is at incessant upset matrimony vine of stoving matrimony vine, is convenient for evenly dry the matrimony vine, improves the play quality of matrimony vine, and dust and branch and leaf in the edulcoration subassembly separation matrimony vine of being convenient for improve the cleanliness factor of matrimony vine, and practicality is high, easy operation, dehydration are effectual, work efficiency is high, simple structure, reliable and stable, the even, labour saving and time saving's of stoving dewatering device is used in the matrimony vine processing.

The utility model adopts the following technical scheme: the utility model discloses dewatering device for processing medlar, including dehydration casing, dehydration subassembly, edulcoration subassembly and shock attenuation leg, the dehydration casing is the cavity setting, dehydration subassembly is located dehydration casing upper end, dehydration subassembly includes agitator motor, stirring pivot, puddler, heating chamber, heater strip, air intake, air-blower, protection network and screening filter screen, agitator motor rotates to be located dehydration casing center department top, the stirring pivot rotates to be located in the dehydration casing, the stirring pivot is located agitator motor's output, the puddler is located stirring pivot lateral wall, the heating chamber symmetry is located stirring pivot both sides and is located the inside wall of dehydration casing, the heating chamber is the cavity setting of one end open-ended near the puddler, the heater strip is located in the heating chamber, the air intake is located heater strip one side and is located dehydration casing lateral wall, the air blower is arranged on one side of the dewatering shell, the output end of the air blower is connected with the air inlet, the protective screen is arranged at the opening end of the heating cavity, the screening filter screen is arranged in the dewatering shell and is arranged below the stirring rotating shaft, the cross section of the screening filter screen is in an inverted triangle arrangement, the impurity removing component is arranged below the dewatering component, the impurity removing component comprises an upper inclined plate, a lower inclined plate, an upper impurity removing fan, a lower impurity removing fan, an upper impurity outlet and a lower impurity outlet, the upper inclined plate is arranged below the screening filter screen, the lower inclined plate is arranged below the upper inclined plate, the upper impurity removing fan is arranged on one side of the upper inclined plate and is arranged above the lower inclined plate, the lower impurity removing fan is arranged on one side of the lower inclined plate and is arranged below the upper inclined plate, the upper impurity outlet is arranged on one side of the upper inclined plate far away from the upper impurity removing fan and is connected with the dewatering shell, the lower impurity outlet is arranged on one side of the inclined plate far away from the lower impurity removing fan and is connected with the dewatering shell, the dehydration casing below both ends are located to the shock attenuation leg symmetry, the shock attenuation leg includes shock attenuation landing leg, dashpot, shock attenuation spout, universal wheel, shock attenuation slider, guide bar and damping spring, the dehydration casing below is located to the shock attenuation landing leg, the dashpot is located in the shock attenuation landing leg, the dashpot both sides are located to the shock attenuation spout symmetry, the shock attenuation landing leg below is located to the universal wheel, the universal wheel upper end slides and locates in the dashpot, the shock attenuation slider symmetry is located universal wheel upper end both sides and slides and is located in the shock attenuation spout, the guide bar link up the shock attenuation slider, the guide bar lateral wall is located and is located the shock attenuation slider top to the damping spring cover.

Furthermore, the upper parts of the two ends of the dehydration shell are symmetrically provided with feeding hoppers which are connected with the dehydration shell, and fresh Chinese wolfberry is conveniently fed into the feeding hoppers for dehydration treatment.

Furthermore, the two ends of the dehydration shell are symmetrically arranged on the supporting plates, the supporting plates are arranged below the air blower, and the supporting plates are convenient for supporting the weight of the air blower.

Further, the lateral wall of the lower end of the dehydration shell is provided with a discharge hole, and the discharge hole is convenient for outputting the dehydrated Chinese wolfberry.

Further, be equipped with exit conveyor in the dehydration casing lower extreme, exit conveyor locates discharge gate one side, exit conveyor is convenient for transport the matrimony vine after the dehydration to discharge gate department.

Further, dehydration casing lateral wall is equipped with the touch-control screen, touch-control screen one side is equipped with the controller, the controller respectively with touch-control screen, agitator motor, air-blower, heater strip, go up edulcoration fan, exit conveyor electric connection down.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: this scheme dewatering device is used in matrimony vine processing, the upset matrimony vine that agitator motor does not stop through the puddler of stirring pivot lateral wall, make the matrimony vine when incessantly overturning by drying, be convenient for evenly dry the matrimony vine, improve the play quality of matrimony vine, go up the dust and the branch and leaf in the edulcoration fan is convenient for separate the matrimony vine with lower edulcoration fan, improve the cleanliness factor of matrimony vine, the practicality is high, easy operation, dewatering effect is good, work efficiency is high, simple structure, reliable and stable, dry evenly, labour saving and time saving.

Drawings

FIG. 1 is a front view of the dehydrating device for processing medlar according to the present invention;

FIG. 2 is a schematic structural view of the dehydrating device for processing medlar according to the present invention;

fig. 3 is the utility model discloses dewatering device shock attenuation leg structure sketch map is used in matrimony vine processing.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings: 1. the device comprises a dewatering shell, 2, a dewatering component, 3, an impurity removing component, 4, a damping leg, 5, a stirring motor, 6, a stirring rotating shaft, 7, a stirring rod, 8, a heating cavity, 9, a heating wire, 10, an air inlet, 11, an air blower, 12, a protective net, 13, a screening filter screen, 14, an upper inclined plate, 15, a lower inclined plate, 16, an upper impurity removing fan, 17, a lower impurity removing fan, 18, an upper impurity outlet, 19, a lower impurity outlet, 20, a damping supporting leg, 21, a buffer tank, 22, a damping chute, 23, a universal wheel, 24, a damping slide block, 25, a guide rod, 26, a damping spring, 27, a feeding hopper, 28, a supporting plate, 29, a discharging port, 30, a discharging conveyor belt, 31, a touch screen, 32 and a controller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the 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.

As shown in figures 1-3, the utility model relates to a dehydrating device for processing medlar, which comprises a dehydrating shell 1, a dehydrating component 2, an impurity removing component 3 and a damping leg 4, wherein the dehydrating shell 1 is a hollow cavity, the dehydrating component 2 is arranged at the upper end of the dehydrating shell 1, the dehydrating component 2 comprises a stirring motor 5, a stirring rotating shaft 6, a stirring rod 7, a heating cavity 8, a heating wire 9, an air inlet 10, an air blower 11, a protective net 12 and a screening filter screen 13, the stirring motor 5 is rotatably arranged above the center of the dehydrating shell 1, the stirring rotating shaft 6 is rotatably arranged in the dehydrating shell 1, the stirring rotating shaft 6 is arranged at the output end of the stirring motor 5, the stirring rod 7 is arranged on the side wall of the stirring rotating shaft 6, the heating cavity 8 is symmetrically arranged at two sides of the stirring rotating shaft 6 and arranged on the inner side wall of the dehydrating shell 1, the heating cavity 8 is a hollow cavity arranged near the opening at one end of the stirring rod 7, the heater strip 9 is arranged in the heating cavity 8, the air inlet 10 is arranged on one side of the heater strip 9 and is arranged on the side wall of the dehydration shell 1, the air blower 11 is arranged on one side of the dehydration shell 1, the output end of the air blower 11 is connected with the air inlet 10, the protective net 12 is arranged at the open end of the heating cavity 8, the sieving filter screen 13 is arranged in the dehydration shell 1 and is arranged below the stirring rotating shaft 6, the cross section of the sieving filter screen 13 is in an inverted triangle shape, the impurity removing component 3 is arranged below the dehydration component 2, the impurity removing component 3 comprises an upper inclined plate 14, a lower inclined plate 15, an upper impurity removing fan 16, a lower impurity removing fan 17, an upper impurity outlet 18 and a lower impurity outlet 19, the upper inclined plate 14 is arranged below the sieving filter screen 13, the lower inclined plate 15 is arranged below the upper inclined plate 14, the upper impurity removing fan 16 is arranged on one side of the upper inclined plate 14 and is arranged above the lower inclined plate 15, the lower impurity removing fan 17 is arranged on one side of the lower inclined plate 15 and is arranged below the upper inclined plate 14, the upper sundry outlet 18 is arranged on one side of the upper inclined plate 14 far away from the upper impurity removing fan 16 and connected with the dewatering shell 1, the lower sundry outlet 19 is arranged on one side of the lower inclined plate 15 far away from the lower impurity removing fan 17 and connected with the dewatering shell 1, the shock absorption legs 4 are symmetrically arranged at two ends below the dewatering shell 1, each shock absorption leg 4 comprises a shock absorption supporting leg 20, a buffer groove 21, a shock absorption sliding groove 22, a universal wheel 23, a shock absorption sliding block 24, a guide rod 25 and a shock absorption spring 26, the shock absorption supporting leg 20 is arranged below the dewatering shell 1, the buffer groove 21 is arranged in the shock absorption supporting leg 20, the shock absorption sliding grooves 22 are symmetrically arranged at two sides of the buffer groove 21, the universal wheel 23 is arranged below the shock absorption supporting leg 20, the upper end of the universal wheel 23 is slidably arranged in the buffer groove 21, the shock absorption sliding block 24 is symmetrically arranged at two sides of the upper end of the universal wheel 23 and is slidably arranged in the shock absorption sliding groove 22, the guide rod 25 is arranged in the shock absorption sliding groove 22, the guide rod 25 runs through the damping slide block 24, and the damping spring 26 is sleeved on the side wall of the guide rod 25 and is arranged above the damping slide block 24.

Wherein, 1 both ends top symmetry of dehydration casing is equipped with into hopper 27, it is connected with dehydration casing 1 to go into hopper 27, backup pad 28 is located to 1 both ends symmetry of dehydration casing, air-blower 11 below is located to backup pad 28, 1 lower extreme lateral wall of dehydration casing is equipped with discharge gate 29, be equipped with exit conveyor 30 in the 1 lower extreme of dehydration casing, exit conveyor 30 locates discharge gate 29 one side, 1 lateral wall of dehydration casing is equipped with touch-control screen 31, touch-control screen 31 one side is equipped with controller 32, controller 32 respectively with touch-control screen 31, agitator motor 5, air-blower 11, heater strip 9, go up edulcoration fan 16, lower edulcoration fan 17, exit conveyor 30 electric connection.

When the device is used, firstly, a dehydration instruction is sent through the touch screen 31, the controller 32 controls the stirring motor 5, the air blower 11, the heating wire 9, the upper impurity removal fan 16, the lower impurity removal fan 17 and the discharge conveyor belt 30 to be started, fresh medlar is put into the dehydration shell 1 from the feeding hopper 27, the stirring motor 5 drives the stirring rod 7 on the side wall of the stirring rotating shaft 6 to continuously overturn the medlar, meanwhile, the air blower 11 accelerates the air flow around the heating wire 9, so that the medlar is conveniently dehydrated at high temperature, the continuously overturned medlar is uniformly heated by hot air, the dehydration degree is uniform, the output quality of the medlar is improved, when the medlar is dehydrated to a certain degree and the volume is reduced, the medlar falls onto the upper inclined plate 14 through the meshes of the screening filter screen 13 and then falls onto the lower inclined plate 15 through the upper inclined plate 14, the upper impurity removal fan 16 and the lower impurity removal fan 17 are convenient for separating dust and branches from the medlar on the upper inclined plate 14 and the lower inclined plate 15, dust and branch and leaf from last miscellaneous mouthful 18, 19 outputs of miscellaneous mouthful down, improve the cleanliness factor of matrimony vine, the matrimony vine that has been handled by the edulcoration falls discharging conveyor 30 on, export from discharge gate 29 through discharging conveyor 30, when removing dewatering device, damping slide 24 of universal wheel 23 upper end extrudees damping spring 26 along guide bar 25, conveniently alleviate the condition of rocking of removing dewatering device, the practicality is high, easy operation, dewatering effect is good, high working efficiency, moreover, the steam generator is simple in structure, and is stable and reliable, dry evenly, time saving and labor saving.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a dewatering device is used in matrimony vine processing which characterized in that: including dehydration casing, dehydration subassembly, edulcoration subassembly and shock attenuation leg, dehydration casing is cavity setting, dehydration subassembly locates the dehydration casing upper end, dehydration subassembly includes agitator motor, stirring pivot, puddler, heating chamber, heater strip, air intake, air-blower, protection network and screening filter screen, agitator motor rotates and locates dehydration casing center department top, the stirring pivot rotates and locates in the dehydration casing, the output of agitator motor is located to the stirring pivot, the puddler is located stirring pivot lateral wall, the heating chamber symmetry is located stirring pivot both sides and is located the inside wall of dehydration casing, the heating chamber is the one end open-ended cavity setting that is close to the puddler, the heater strip is located in the heating chamber, the air intake is located heater strip one side and is located the dehydration casing lateral wall, the air-blower is located dehydration casing one side, the output end of the air blower is connected with the air inlet, the protective screen is arranged at the opening end of the heating cavity, the screening filter screen is arranged in the dewatering shell and is arranged below the stirring rotating shaft, the cross section of the screening filter screen is in an inverted triangle arrangement, the impurity removing component is arranged below the dewatering component, the impurity removing component comprises an upper inclined plate, a lower inclined plate, an upper impurity removing fan, a lower impurity removing fan, an upper impurity outlet and a lower impurity outlet, the upper inclined plate is arranged below the screening filter screen, the lower inclined plate is arranged below the upper inclined plate, the upper impurity removing fan is arranged on one side of the upper inclined plate and is arranged above the lower inclined plate, the lower impurity removing fan is arranged on one side of the lower inclined plate and is arranged below the upper inclined plate, the upper impurity outlet is arranged on one side of the upper inclined plate far away from the upper impurity removing fan and is connected with the dewatering shell, the lower impurity outlet is arranged on one side of the lower inclined plate far away from the lower impurity removing fan and is connected with the dewatering shell, the damping legs are symmetrically arranged at both ends below the dewatering shell, the damping leg comprises a damping support leg, a buffer groove, a damping chute, universal wheels, a damping sliding block, a guide rod and a damping spring, the damping support leg is arranged below the dewatering shell, the buffer groove is arranged in the damping support leg, the two sides of the buffer groove are symmetrically arranged on the damping chute, the lower side of the damping support leg is arranged on the universal wheels, the upper end of each universal wheel is slidably arranged in the buffer groove, the damping sliding block is symmetrically arranged on the two sides of the upper end of each universal wheel and slidably arranged in the damping chute, the guide rod is arranged in the damping chute, the guide rod penetrates through the damping sliding block, and the damping spring sleeve is arranged on the side wall of the guide rod and above the damping sliding block.

2. The dehydrating device for processing medlar according to claim 1, wherein: the dehydration casing is characterized in that feeding hoppers are symmetrically arranged above two ends of the dehydration casing and connected with the dehydration casing.

3. The dehydrating device for processing medlar according to claim 1, wherein: the two ends of the dehydration shell are symmetrically arranged on the supporting plate, and the supporting plate is arranged below the air blower.

4. The dehydrating device for processing medlar according to claim 1, wherein: and a discharge port is formed in the side wall of the lower end of the dehydration shell.

5. The dehydrating device for processing medlar according to claim 4, wherein: and a discharging conveyor belt is arranged in the lower end of the dehydration shell and is arranged on one side of the discharging port.

6. The dehydrating device for processing medlar according to claim 1, wherein: the utility model discloses a dewatering shell, including dewatering shell, controller, stirring motor, air-blower, heater strip, upper impurity removal fan, lower impurity removal fan, exit conveyor electric connection, dewatering shell lateral wall is equipped with the touch-control screen, touch-control screen one side is equipped with the controller, the controller respectively with touch-control screen, agitator motor, air-blower, heater strip, last impurity removal fan, lower impurity removal fan, exit conveyor electric connection.

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