AU2021101840A4

AU2021101840A4 - Device and method for removing prickles and impurities for processing rosa roxburghii

Info

Publication number: AU2021101840A4
Application number: AU2021101840A
Authority: AU
Inventors: Fangyuan ZHAO
Original assignee: Qingdao Agricultural University
Current assignee: Qingdao Agricultural University
Priority date: 2021-01-07
Filing date: 2021-04-09
Publication date: 2021-07-29
Anticipated expiration: 2029-04-09
Also published as: CN112841683A; CN112841683B

Abstract

OF THE DISCLOSURE The present invention relates to the field of devices for processing Rosa roxburghii, and in particular to a device for removing prickles and impurities for processing Rosa roxburghii. The device includes a processing machine body and a bottom plate seat, wherein the processing machine body is erected above the bottom plate seat through an angle adjusting component, a porous mesh cylinder being arranged on an inner side of the processing machine body, end baffles being arranged at both ends of the porous mesh cylinder separately, a discharge rotation pipe and a feed rotation pipe being mounted on outer sides of the two end baffles separately, a drive component configured to drive the discharge rotation pipe, the end baffle, the porous mesh cylinder and the feed rotation pipe to rotate integrally being further mounted on an outer side of the processing machine body, a lower side of the porous mesh cylinder being further provided with a cutting component in a matching mode, the outer bottom of the processing machine body being provided with a second electric motor configured to drive the cutting component to rotate, and the processing machine body being further provided with an air-circulated impurity removal component configured to extract air at the inner bottom of the processing machine body and convey the air to the middle of the inner top of the processing machine body. According to the present invention, the Rosa roxburghii can make full contact with the cutting component, so that effect and efficiency of removing the prickles of the Rosa roxburghii are improved, and impurity removal effect is good. 1/2 DRAWINGS: 5 6 3~1 1 --.. ... .... ... .I ... .1 3 Fig ... 1.. .

Description

1/2

DRAWINGS:

5 6

3~1 1 . .. --.. .... ... .I ... .1 3

Fig ... 1.. .

DEVICE AND METHOD FOR REMOVING PRICKLES AND IMPURITIES FOR PROCESSING ROSA ROXBURGHII BACKGROUND OF THE INVENTION

[0001] 1. Technical Field

[0002] The present invention relates to the field of devices for processing Rosa roxburghii, and in particular to a device for removing prickles and impurities for processing Rosa roxburghii.

[0003] 2. Description of Related Art

[0004] Rosa roxburghii, also known as Song Chun Gui, is a wild plant of Rosaceae and a wild resource peculiar to the Yunnan-Guizhou Plateau and the Panxi Plateau, and the Rosa roxburghii has a variety of nutrients and especially has a surprisingly high content of Vitamin C.

[0005] When the Rosa roxburghii is processed, it is required to remove prickles on a surface of the Rosa roxburghii and impurities, however, an existing device has a traditional structure, in which the Rosa roxburghii cannot make full contact with a cutting component, so that effect and efficiency of removing the prickles of the Rosa roxburghii are influenced, impurity removal effect is poor, and limitations exist.

[0006] Therefore, in view of the above situations, it is urgent to develop a device for removing prickles and impurities for processing Rosa roxburghii to overcome deficiencies in current practical applications.

BRIEF SUMMARY OF THE INVENTION

[0007] The objective of the embodiments of the present invention is to provide a device for removing prickles and impurities for processing Rosa roxburghii, so as to solve the problems in the above-mentioned background art.

[0008] In order to achieve the above-mentioned objective, the embodiments of the present invention provide the following technical solutions:

[0009] a device for removing prickles and impurities for processing Rosa roxburghii includes a processing machine body and a bottom plate seat, wherein the processing machine body is erected above the bottom plate seat through an angle adjusting component, a porous mesh cylinder being arranged on an inner side of the processing machine body, end baffles being arranged at both ends of the porous mesh cylinder separately, a discharge rotation pipe and a feed rotation pipe being mounted on outer sides of the two end baffles separately, a drive component configured to drive the discharge rotation pipe, the end baffle, the porous mesh cylinder and the feed rotation pipe to rotate integrally being further mounted on an outer side of the processing machine body, a lower side of the porous mesh cylinder being further provided with a cutting component in a matching mode, the outer bottom of the processing machine body being provided with a second electric motor configured to drive the cutting component to rotate, and the processing machine body being further provided with an air-circulated impurity removal component configured to extract air at the inner bottom of the processing machine body and convey the air to the middle of the inner top of the processing machine body.

[0010] As a further solution of the present invention: the porous mesh cylinder is of a cylindrical barrel structure, the middle of the end baffle is obliquely arranged towards one side away from the porous mesh barrel, the discharge rotation pipe and the feed rotation pipe are horizontally and coaxially arranged, both the discharge rotation pipe and the feed rotation pipe are rotationally connected to a side wall of the processing machine body, an end of the discharge rotation pipe being further provided with a discharge seal cover, an end of the feed rotation pipe being further provided with a feed hopper, and an end of the feed hopper being provided with a feed seal cover.

[0011] As a further solution of the present invention: the bottom plate seat is further provided with a finished product box and a raw material box separately, the finished product box being configured to contain the Rosa roxburghii discharged from the discharge rotation pipe, and the raw material box being configured to store the Rosa roxburghii to be processed.

[0012] As a further solution of the present invention: the drive component includes a transmission gear, a drive gear and a first electric motor, the transmission gear being fixedly mounted on the discharge rotation pipe or the feed rotation pipe, the transmission gear being connected to the drive gear mounted on an output shaft of the first electric motor in a meshing mode, and the first electric motor being fixed on the processing machine body.

[0013] As a further solution of the present invention, the angle adjusting component includes a telescopic cylinder, a first support rod and a second support rod, two ends of the bottom of the processing machine body being provided with the second support rod and the first support rod separately, a lower end of the second support rod being rotationally connected to the bottom plate seat, a lower end of thefirst support rod being rotationally connected to the telescopic cylinder, and a lower end of the telescopic cylinder being rotationally connected to the bottom plate seat.

[0014] As a further solution of the present invention, the cutting component includes a cutter, an inclined supporting rod and a rotation shaft, the rotation shaft being vertically arranged in the middle of the lower side of the porous mesh cylinder, a lower end of the rotation shaft being connected to an output shaft of the second electric motor, a plurality of cutters matching the bottom of the porous mesh cylinder being distributed and mounted at an upper end of the rotation shaft in a circumferential direction, and the cutter being further connected and fixed to the rotation shaft through the inclined supporting rod.

[0015] As a further solution of the present invention, the air-circulated impurity removal component includes an air outlet pipe, an impurity filter-out box, an impurity discharge port, a circulation fan, an air inlet pipe, a ring pipe, a branched air pipe, an inner air pipe and a filter screen, the impurity filter-out box being fixed on the processing machine body, the filter screen being obliquely arranged at an upper part of an inner side of the impurity filter-out box, the inner air pipe being vertically arranged on a lower side of the filter screen, a lower end of the inner air pipe being connected to an air outlet of the circulation fan mounted at the bottom of the impurity filter-out box, the bottom of the impurity filter-out box being further provided with the impurity discharge port, an air inlet of the circulation fan being connected to the air inlet pipe, the other end of the air inlet pipe being connected to the ring pipe arranged at the bottom of the processing machine body, a plurality of branched air pipes being distributed and mounted on an upper side of the ring pipe in a circumferential direction, an upper end of the branched air pipe being in communication with the inner bottom of the processing machine body, the top of the impurity filter-out box being further provided with the air outlet pipe in communication with a space on an upper side of the filter screen, and the other end of the air outlet pipe being in communication with the middle of the inner top of the processing machine body.

[0016] Compared with the prior art, the beneficial effects of the embodiments of the present invention lie in that:

[0017] the device for removing the prickles and impurities for processing the Rosa roxburghii controls the processing machine body to incline through the angle adjusting component, which is conducive to addition of raw Rosa roxburghii through the feed rotation pipe, and discharge of processed Rosa roxburghii through the discharge rotation pipe; the drive component drives the discharge rotation pipe, the end baffle, the porous mesh cylinder and the feed rotation pipe to rotate integrally, which is conducive to rolling of the Rosa roxburghii in the porous mesh cylinder, so that the prickles of the Rosa roxburghii can extend out of holes of the porous mesh cylinder and be cut away by the cutting component driven by the second electric motor to rotate, so as to achieve the objective of removing the prickles; in a cutting process, the processing machine body can also be controlled to incline and swing through the angle adjusting component, and further, the Rosa roxburghii in the porous mesh cylinder can make full contact with the cutting component, so as to improve effect and efficiency of removing the prickles of the Rosa roxburghii; and in addition, the air at the inner bottom of the processing machine body can also be extracted and conveyed to the middle of the inner top of the processing machine body by controlling the air-circulated impurity removal component to work, so that certain impurity removal effect is achieved, overall processing effect of the Rosa roxburghii is further improved, and the device is worthy of popularization.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

[0018] Fig. 1 is a front-view sectional structural schematic diagram of the embodiment of the present invention;

[0019] Fig. 2 is a sectional structural schematic diagram of a part of an impurity filter-out box in the embodiment of the present invention; and

[0020] Fig. 3 is a stereo structural schematic diagram of a porous mesh cylinder and parts on a lower side of the porous mesh cylinder in the embodiment of the present invention; and

[0021] In the figures: 1-discharge rotation pipe, 2-discharge seal cover, 3-transmission gear, 4 drive gear, 5-first electric motor, 6-end baffle, 7-porous mesh cylinder, 8-air outlet pipe, 9 processing machine body, 10-feed seal cover, 11-feed hopper, 12-feed rotation pipe, 13-impurity filter-out box, 14-impurity discharge port, 15-circulation fan, 16-raw material box, 17-air inlet pipe, 18-telescopic cylinder, 19-first support rod, 20-ring pipe, 21-second electric motor, 22 branched air pipe, 23-bottom plate seat, 24-finished product box, 25-second support rod, 26 inner air pipe, 27-filter screen, 28-cutter, 29-inclined supporting rod, and 30-rotation shaft.

DETAILED DESCRIPTION OF THE INVENTION

[0022] The technical solutions of the present patent will be further described in detail below with reference to specific implementation.

[0023] The embodiments of the present patent are described in detail below, and examples of the embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar function throughout. The embodiments described below through the accompanying drawings are exemplary and merely for explaining the present patent, instead of being construed as limiting the present patent.

[0024] Embodiment 1

[0025] With reference to Fig. 1, in the embodiment of the present invention, a device for removing prickles and impurities for processing Rosa roxburghii includes a processing machine body 9 and a bottom plate seat 23, wherein the processing machine body 9 is erected above the bottom plate seat 23 through an angle adjusting component, a porous mesh cylinder 7 being arranged on an inner side of the processing machine body 9, end baffles 6 being arranged at both ends of the porous mesh cylinder 7 separately, a discharge rotation pipe 1 and a feed rotation pipe 12 being mounted on outer sides of the two end baffles 6 separately, a drive component configured to drive the discharge rotation pipe 1, the end baffle 6, the porous mesh cylinder 7 and the feed rotation pipe 12 to rotate integrally being further mounted on an outer side of the processing machine body 9, a lower side of the porous mesh cylinder 7 being further provided with a cutting component in a matching mode, the outer bottom of the processing machine body 9 being provided with a second electric motor 21 configured to drive the cutting component to rotate, and the processing machine body 9 being further provided with a air-circulated impurity removal component configured to extract air at the inner bottom of the processing machine body 9 and convey the air to the middle of the inner top of the processing machine body 9.

[0026] In the embodiment of the present invention, the processing machine body 9 is controlled to incline through the angle adjusting component, which is conducive to addition of raw Rosa roxburghii through the feed rotation pipe 12, and discharge of processed Rosa roxburghii through the discharge rotation pipe 1; the drive component drives the discharge rotation pipe 1, the end baffle 6, the porous mesh cylinder 7 and the feed rotation pipe 12 to rotate integrally, which is conducive to rolling of the Rosa roxburghii in the porous mesh cylinder 7, so that the prickles of the Rosa roxburghii can extend out of holes of the porous mesh cylinder 7 and be cut away by the cutting component driven by the second electric motor 21 to rotate, so as to achieve the objective of removing the prickles; in a cutting process, the processing machine body 9 can also be controlled to incline and swing through the angle adjusting component, and further, the Rosa roxburghii in the porous mesh cylinder 7 can make full contact with the cutting component, so as to improve effect and efficiency of removing the prickles of the Rosa roxburghii; and in addition, the air at the inner bottom of the processing machine body 9 can also be extracted and conveyed to the middle of the inner top of the processing machine body 9 by controlling the air-circulated impurity removal component to work, so that certain impurity removing effect is achieved, overall processing effect of the Rosa roxburghii is further improved, and the device is worthy of popularization.

[0027] Embodiment 2

[0028] With reference to Figs. 1-3, a difference between the present embodiment and Embodiment 1 lies in that:

[0029] in the present embodiment, the porous mesh cylinder 7 is of a cylindrical barrel structure, the middle of the end baffle 6 is obliquely arranged towards one side away from the porous mesh barrel 7, which is conducive to addition and discharge of a raw material; the discharge rotation pipe 1 and the feed rotation pipe 12 are horizontally and coaxially arranged, both the discharge rotation pipe 1 and the feed rotation pipe 12 are rotationally connected to a side wall of the processing machine body 9, an end of the discharge rotation pipe 1 being further provided with a discharge seal cover 2, an end of the feed rotation pipe 12 being further provided with a feed hopper 11, an end of the feed hopper 11 being provided with a feed seal cover 10, and the discharge seal cover 2 and the feed seal cover 10 playing a seal role, so as to avoid influence on a normal operation of the air-circulated impurity removal component; and the bottom plate seat 23 is further provided with a finished product box 24 and a raw material box 16 separately, the finished product box 24 being configured to contain the Rosa roxburghii discharged from the discharge rotation pipe 1, and the raw material box 16 being configured to store the Rosa roxburghii to be processed.

[0030] The drive component includes a transmission gear 3, a drive gear 4 and a first electric motor 5, the transmission gear 3 being fixedly mounted on the discharge rotation pipe 1 or the feed rotation pipe 12, the transmission gear 3 being connected to the drive gear 4 mounted on an output shaft of the first electric motor 5 in a meshing mode, the first electric motor 5 beingfixed on the processing machine body 9, and the first electric motor 5 being capable of driving the discharge rotation pipe 1, the end baffle 6, the porous mesh cylinder 7 and the feed rotation pipe 12 to rotate integrally.

[0031] The angle adjusting component includes a telescopic cylinder 18, a first support rod 19 and a second support rod 25, two ends of the bottom of the processing machine body 9 being provided with the second support rod 25 and the first support rod 19 separately, a lower end of the second support rod 25 being rotationally connected to the bottom plate seat 23, a lower end of the first support rod 19 being rotationally connected to the telescopic cylinder 18, a lower end of the telescopic cylinder 18 being rotationally connected to the bottom plate seat 23, and by controlling the telescopic cylinder 18 to extend and retract, the processing machine body 9 can be controlled to incline and swing.

[0032] In the present embodiment, as shown in Figs. 1 and 3, the cutting component includes a cutter 28, an inclined supporting rod 29 and a rotation shaft 30, the rotation shaft 30 being vertically arranged in the middle of the lower side of the porous mesh cylinder 7, a lower end of the rotation shaft 30 being connected to an output shaft of the second electric motor 21, a plurality of cutters 28 matching the bottom of the porous mesh cylinder 7 being distributed and mounted on an upper end of the rotation shaft 30 in a circumferential direction, the cutter 28 being further connected and fixed to the rotation shaft 30 through the inclined supporting rod 29, the prickles of the Rosa roxburghii extending out of the bottom of the porous mesh cylinder 7 can be cut away through the cutter 28, and the inclined supporting rod 29 being capable of reinforcing support and fixation on the cutter 28.

[0033] In the present embodiment, as shown in Figs. 1 and 2, the air-circulated impurity removal component includes an air outlet pipe 8, an impurity filter-out box 13, an impurity discharge port 14, a circulation fan 15, an air inlet pipe 17, a ring pipe 20, a branched air pipe 22, an inner air pipe 26 and a filter screen 27, the impurity filter-out box 13 being fixed on the processing machine body 9, the filter screen 27 being obliquely arranged at an upper part of an inner side of the impurity filter-out box 13, the inner air pipe 26 being vertically arranged on a lower side of the filter screen 27, a lower end of the inner air pipe 26 being connected to an air outlet of the circulation fan 15 mounted at the bottom of the impurity filter-out box 13, the bottom of the impurity filter-out box 13 being further provided with the impurity discharge port 14, the impurity discharge port 14 being configured to discharge dust impurities collected in the impurity filter-out box 13, an inner bottom structure of the impurity filter-out box 13 being capable of being obliquely arranged, which is conducive to discharge of the impurities,

[0034] an air inlet of the circulation fan 15 being connected to the air inlet pipe 17, the other end of the air inlet pipe 17 being connected to the ring pipe 20 arranged at the bottom of the processing machine body 9, a plurality of branched air pipes 22 being distributed and mounted on an upper side of the ring pipe 20 in a circumferential direction, an upper end of the branched air pipe 22 being in communication with the inner bottom of the processing machine body 9, the top of the impurity filter-out box 13 being further provided with the air outlet pipe 8 in communication with a space on an upper side of the filter screen 27, and the other end of the air outlet pipe 8 being in communication with the middle of the inner top of the processing machine body 9.

[0035] During an application, by controlling the circulation fan 15 to work, firstly, the air at the inner bottom of the processing machine body 9 is uniformly extracted through the branched air pipe 22, and is conveyed to the inner side of the impurity filter-out box 13 through the ring pipe , the air inlet pipe 17 and the inner air pipe 26, the filter screen 27 can block the dust impurities, and the air can be conveyed to the inner bottom of the processing machine body 9 through the air outlet tube 8, which is further conducive to impurity removal for the Rosa roxburghii in the porous mesh cylinder 7; and in addition, in order to prevent the impurities from influencing the circulation fan 15, the circulation fan 15 may also be arranged on the air outlet pipe 8 and the inner air pipe 26 is in direct communication with the air inlet pipe 17, which are not limited particularly and can be flexibly arranged during the application.

[0036] In the present embodiment, a PLC disclosed in the prior art may be used for controlling the first electric motor 5, the circulation fan 15, the second electric motor 21 and the telescopic cylinder 18, and specific models and circuit connections of the PLC, the first electric motor 5, the circulation fan 15, the second electric motor 21 and the telescopic cylinder 18 are not limited particularly and can be flexibly set during a practical application.

Claims

What is claimed is:

1. A device for removing prickles and impurities for processing Rosa roxburghii,

comprising a processing machine body and a bottom plate seat, and characterized in that:

the processing machine body is erected above the bottom plate seat through an angle

adjusting component,

a porous mesh cylinder being arranged on an inner side of the processing machine body, end

baffles being arranged at both ends of the porous mesh cylinder separately, a discharge rotation

pipe and a feed rotation pipe being mounted on outer sides of the two end baffles separately,

a drive component configured to drive the discharge rotation pipe, the end baffle, the porous

mesh cylinder and the feed rotation pipe to rotate integrally being further mounted on an outer

side of the processing machine body,

a lower side of the porous mesh cylinder being further provided with a cutting component in

a matching mode, the outer bottom of the processing machine body being provided with a

second electric motor configured to drive the cutting component to rotate, and

the processing machine body being further provided with an air-circulated impurity removal

component configured to extract air at the inner bottom of the processing machine body and

convey the air to the middle of the inner top of the processing machine body.

2. The device for removing the prickles and impurities for processing the Rosa roxburghii

according to claim 1, characterized in that, the porous mesh cylinder is of a cylindrical barrel

structure, and the middle of the end baffle is obliquely arranged towards one side away from the

porous mesh barrel;

the discharge rotation pipe and the feed rotation pipe are horizontally and coaxially arranged,

and both the discharge rotation pipe and the feed rotation pipe are rotationally connected to a

side wall of the processing machine body, an end of the discharge rotation pipe being further provided with a discharge seal cover, an end of the feed rotation pipe being further provided with a feed hopper, and an end of the feed hopper being provided with a feed seal cover.

3. The device for removing the prickles and impurities for processing the Rosa roxburghii

according to claim 2, characterized in that, the bottom plate seat is further provided with a

finished product box and a raw material box separately, the finished product box being

configured to contain the Rosa roxburghii discharged from the discharge rotation pipe, and the

raw material box being configured to store the Rosa roxburghii to be processed.

4. The device for removing the prickles and impurities for processing the Rosa roxburghii

according to claim 2, characterized in that, the drive component comprises a transmission gear, a

drive gear and a first electric motor,

the transmission gear being fixedly mounted on the discharge rotation pipe or the feed

rotation pipe, the transmission gear being connected to the drive gear mounted on an output shaft

of the first electric motor in a meshing mode, and the first electric motor being fixed on the

processing machine body.

5. The device for removing the prickles and impurities for processing the Rosa roxburghii

according to any one of claims 1-4, characterized in that, the angle adjusting component

comprises a telescopic cylinder, a first support rod and a second support rod,

two ends of the bottom of the processing machine body being provided with the second

support rod and the first support rod separately, a lower end of the second support rod being

rotationally connected to the bottom plate seat, a lower end of the first support rod being

rotationally connected to the telescopic cylinder, and a lower end of the telescopic cylinder being

rotationally connected to the bottom plate seat.