CN114887968A

CN114887968A - Multistage cleaning system of hillstone dry measure used in former times deep-processing

Info

Publication number: CN114887968A
Application number: CN202210502491.4A
Authority: CN
Inventors: 王成
Original assignee: Huoshan Tianxia Zeyu Biotechnology Development Co ltd
Current assignee: Huoshan Tianxia Zeyu Biotechnology Development Co ltd
Priority date: 2022-05-10
Filing date: 2022-05-10
Publication date: 2022-08-12
Anticipated expiration: 2042-05-10
Also published as: CN114887968B

Abstract

The invention relates to a multi-stage cleaning system for dendrobium huoshanense deep processing, which comprises a platform frame, wherein a fixed frame is arranged on the rear side of the left end of the platform frame, a rotating disc is arranged at the upper end of the fixed frame through a driving motor, distribution modules capable of vibrating up and down are symmetrically arranged on the rotating disc, a collection frame is arranged at the right end of the platform frame, the rotating modules and the distribution modules positioned in the collection frame are matched with each other, and a cleaning module for secondary utilization of water resources is connected between the upper end of the collection frame and the distribution modules. The invention can solve the problems that the cleaning object is put into the water which is not circulated, even if the cleaning object is separated from the impurity particles for a short time by the lifting of the cleaning basket, the impurity particles which cannot be discharged subsequently are attached to the surface of the cleaning object again, so that the cleaning is not thorough, and the cleaning object is put into the water by a certain amount and cleaned by a single mode, so that the cleaning object is difficult to be completely cleaned, and the like.

Description

Multistage cleaning system of hillstone dry measure used in former times deep-processing

Technical Field

The invention relates to the technical field related to dendrobium huoshanense deep processing, in particular to a multistage cleaning system for dendrobium huoshanense deep processing.

Background

Dendrobium huoshanense, commonly known as Dendrobium huoshanense, is a herbaceous plant of Dendrobium of Orchidaceae, and mostly grows between cliff stones in cloud and fog-mavering cliff and on ancient trees in the mountain forests and on trunks and valley rocks. The dendrobium huoshanense can greatly improve the SOD level in human bodies, and is very suitable for people who stay up all night often, use excessive brain, smoke and wine, and have weak bodies and hypodynamia. The dendrobium huoshanense has the effects of improving eyesight, regulating yin and yang, tonifying yang and kidney, and maintaining beauty and keeping young, so that the effects of health care and life prolonging are achieved, and collected dendrobium huoshanense strips need to be cleaned and dried in the deep processing process.

In the existing gene detection equipment, as in chinese patent with publication number CN214718900U, it discloses a cleaning device for dendrobium stem deep processing, specifically, including the device shell, the left side of the inside of the device shell is provided with a cleaning tank, the bottom of the cleaning tank is provided with a waterproof board, the middle part of the waterproof board is movably provided with a T-shaped rod through penetration, the lower end of the T-shaped rod is provided with a contact wheel, the lower end of the contact wheel is provided with a cam in contact, the cam is installed on a rotating shaft, the T-shaped rod is provided with a spring below the waterproof board, the upper end of the T-shaped rod is welded with a cleaning basket through a connecting part, the bottom of the cleaning basket is provided with a hinge near the right position, the right side of the hinge is a movable baffle, the lateral side of the cleaning tank extends outwards to be provided with a drain pipe, the inside of the device shell and the right side of the cleaning tank are provided with a support, the support is characterized in that dry cloth is wrapped on the inclined surface of the support, heating wires are mounted inside the dry cloth, and a material receiving groove is formed in the bottom of the right side of the support. According to the invention, the stirring structure is replaced by the cleaning basket with a vibration water washing effect, so that the cleaning effect is ensured, and meanwhile, the damage to dendrobium during cleaning is reduced; the cleaned drying support is added, the dry cloth is used for absorbing moisture on the surface of the rolled dendrobium, time and labor are saved, the dendrobium does not need to be placed into a drying cylinder for drying, and the processing steps are reduced; the whole device is simple in design, convenient to operate, better in using effect compared with a traditional mode, and the parts which are not involved in the device are the same as or can be realized by adopting the prior art.

Among the above-mentioned prior art, be through the lift of washing basket with the stem of noble dendrobium in the basket wash, however, this kind of washing mode is put into the aquatic that does not circulate with wasing the thing, even after going up and down through washing basket with wasing thing and impurity particle short-term separation, follow-up this part impurity particle that can not discharge also can reattach on wasing the thing surface, cause abluent not thorough, and to washing of placing into and single kind mode of a certain amount of wasing thing, be difficult to wash the thing totally. Based on this, there is room for improvement over the existing cleaning techniques.

Disclosure of Invention

First, technical scheme

The invention aims to provide a dendrobium huoshanense deep-processing multistage cleaning system to solve the problems in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides a multistage cleaning system of hillstone dry measure used in former times deep-processing, includes the platform frame, the mount is installed to the left end rear side of platform frame, and the rolling disc is installed through driving motor in the upper end of mount, and the distribution module that can shake from top to bottom is installed to the symmetry on the rolling disc, and the collection frame is installed to the right-hand member of platform frame, lies in to mutually support between the inside rotation module of collection frame and the distribution module, collects the upper end of frame and is connected with the cleaning module of water resource reutilization between the distribution module.

The distribution module comprises a connecting ring, a centralized frame, a cam unit, a blocking unit and a back pushing unit, the connecting ring is fixedly installed on the rotating disc, the connecting ring and the centralized frame are in up-and-down sliding fit, an annular cavity is formed in the connecting ring, the cam mechanism is installed in the annular cavity, the rotatable blocking unit is arranged in the middle of the centralized frame, and the back pushing unit is installed at the lower end of the centralized frame.

The rotation module including rotating the platform, built-in subassembly, the rack ring, stripper plate and output unit, the rotating platform that is located collection frame inside is installed on the platform frame, the upper end of rotating the platform evenly is provided with along its circumference can the pivoted built-in subassembly alone, built-in subassembly cooperatees with the rack ring, built-in subassembly's lower extreme laminating has the stripper plate, from the rack ring of down arranging, the stripper plate is installed on the link, the upper end at collection frame is installed to the link, the open slot has been seted up to the rear end of stripper plate, the output unit that is located under the open slot is installed on the platform frame.

Preferably, the cam unit comprises a working motor, a cam, a power supply and a contact switch, the cam is mounted on an output shaft of the working motor mounted in the annular cavity, a power supply shell is arranged on the outer side of the connecting ring, the power supply and the contact switch in the power supply shell are electrically connected with the working motor, a Z-shaped sliding block is arranged on the outer side of the concentration frame, the Z-shaped sliding block is arranged on the connecting ring in a vertically sliding mode, and the cam is matched with the Z-shaped sliding block.

Preferably, the contact switch include conducting block, insulator spindle and conducting plate, the insulator spindle slides from top to bottom and sets up the lower extreme at the power shell, the insulator spindle is located between the conducting block, the conducting block is installed in the power shell, the conducting plate is installed to the upper end of insulator spindle.

Preferably, the unit that blocks include barrier plate, actuating motor, barrier plate violently inserts the middle part at concentrated frame, and the barrier plate is used for blockking the stem of noble dendrobium strip whereabouts, and the barrier plate passes through the connecting rod and installs actuating motor's on the rolling disc output shaft, and the apopore has evenly been seted up along its circumference in the middle part of concentrated frame, and the apopore is located the upside of barrier plate, and the connecting rod of initial position extrudees the insulator spindle lower extreme cambered surface piece and rises, and separates between the current conducting plate that rises in step and the conducting block.

Preferably, the push-back unit comprises a push-against ring, a sliding rod and a flexible ring, the push-against ring is installed at the lower end of the sliding rod which is arranged at the lower end of the connecting ring in a sliding manner, and the flexible ring is installed on the inner wall of the upper end of the sliding rod;

preferably, the flexible ring is made of rubber materials, and an inner cavity formed in the flexible ring is provided with a spring set.

Preferably, the rotating table comprises a vertical rod, a horizontal plate, an auxiliary motor and a sealing frame, the horizontal plate is installed at the upper end of the vertical rod, the sealing frame is arranged at the lower end of the vertical rod, the sealing frame and the platform frame are connected in a stable rotation fit mode, the sealing frame is connected with an output shaft of the auxiliary motor installed on the platform frame, and the auxiliary motor is located in the sealing frame in a sealed environment.

Preferably, the built-in assembly include swivel becket, annular rack, annular bracket, bottom plate, be connected for normal running fit between swivel becket and the horizontal plate, install annular rack on the lateral wall of swivel becket, annular rack meshes with the rack ring mutually, annular bracket is installed to the lower extreme of swivel becket, the bottom of annular bracket is provided with the bottom plate that can open through the round pin axle, the lower extreme laminating of bottom plate is on the stripper plate.

Preferably, the output unit comprises a dropping frame and a delivery pump, the dropping frame is installed on the platform frame, an air cavity formed in the dropping frame is communicated with the delivery pump installed on the platform frame, the inlet position at the upper end of the dropping frame corresponds to the position of the opening groove, the air cavity is uniformly provided with spray holes, and the direction of the spray holes points to the outlet position arranged backwards of the dropping frame.

Preferably, the cleaning module include the water storage frame, the water delivery pump, the water spray board, the raceway, the delivery pump, the water spray frame, the water spray board of arc structure is installed to the upper end of collecting the frame, the water spray board of seting up the hole for water spraying is linked together through water delivery pump and the water storage frame of installing on the platform frame, collect the inside import position intercommunication through raceway and delivery pump of frame, the inside filter screen that is provided with of water delivery pipe, the export position of the delivery pump of installing on the water spray frame is put through with the built-in hole switch-on of the inside setting up of water spray frame, the water spray frame passes through the fixed bolster and installs on the platform frame, be provided with the sewage collection frame under the water spray frame, the sewage collection frame is installed on the platform frame.

Secondly, the beneficial effects

1. According to the dendrobium huoshanense deep processing multistage cleaning system, the dendrobium stem strips are treated in a multistage flushing mode of firstly flushing the region and then flushing the region independently, water after flushing flows away in time, re-adhesion is avoided, the region flushing is to flush the placed dendrobium stem strips for the first time, most impurity particles are flushed, then the dendrobium stem strips are subjected to shaking distribution to enable the dendrobium stem strips to be independently distributed into the built-in assemblies, and the dendrobium stem strips rotating synchronously are flushed in an all-around mode through secondary flushing along with rotation of the built-in assemblies;

2. according to the multi-stage cleaning system for dendrobium huoshanense deep processing, the distribution module is matched with the rotation module to distribute loosely placed dendrobium strips into each built-in component, the number of the dendrobium strips in each built-in component is one, the dendrobium strips in the middle can smoothly fall into the built-in components in a vibration and edge back-pushing mode in the distribution process, and then the dendrobium strips in the middle can be cleaned in a targeted and all-around manner through clean water sprayed from the water spray holes.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a first configuration of the present invention;

FIG. 2 is a second schematic structural view of the present invention;

FIG. 3 is an overall cross-sectional view of the present invention;

FIG. 4 is a schematic view of the structure between the rotating disk, dispensing module, rotating table, built-in assembly, rack ring and stripper plate of the present invention;

FIG. 5 is an enlarged view of a portion of the invention at X of FIG. 3;

fig. 6 is a partial enlarged view of the invention at Y of fig. 3.

Detailed Description

Embodiments of the present invention will be described below with reference to the drawings. In this process, the width of the lines or the size of the components in the drawings may be exaggerated for clarity and convenience of description.

In addition, the following terms are defined based on the functions of the present invention, and may be different depending on the intention of a user or an operator or a common practice. Therefore, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 6, a multistage cleaning system of hillstone dendrobium stem deep-processing, including platform frame 1, the mount is installed to platform frame 1's left end rear side, and carousel 3 is installed through driving motor 2 in the upper end of mount, and the distribution module 4 that can shake from top to bottom is installed to the symmetry on the carousel 3, and collection frame 5 is installed to platform frame 1's right-hand member, is located and mutually supports between 5 inside rotation module 6 of collection frame and the distribution module 4, is connected with water resource reutilization's cleaning module 7 between collection frame 5's upper end and the distribution module 2.

Distribution module 4 include go-between 41, concentrated frame 42, cam unit 43, block unit 44, push back unit 45, go-between 41 fixed mounting is on rolling disc 3, be about sliding fit between go-between 41 and the concentrated frame 42, the annular chamber is seted up to the inside of go-between 41, install cam mechanism 43 in the annular chamber, vibrate from top to bottom through cam mechanism 43 drive concentrated frame 42, under the effect of vibrations, do benefit to the single whereabouts of stem of noble dendrobium strip, the middle part of concentrated frame 42 is provided with rotatable block unit 44, push back unit 45 is installed to the lower extreme of concentrated frame 42.

The rotating module 6 comprises a rotating table 61, a built-in component 62, a rack ring 63, an extrusion plate 64 and an output unit 65, the rotating table 61 positioned inside the collecting frame 5 is installed on the platform frame 1, the built-in component 62 capable of rotating independently is uniformly arranged at the upper end of the rotating table 61 along the circumferential direction of the rotating table, the built-in component 62 is matched with the rack ring 63, the built-in component 62 rotates independently along the rack ring 63, the extrusion plate 64 is attached to the lower end of the built-in component 62, the arrangement of the extrusion plate 64 is used for sealing the lower end of the built-in component 62, the dendrobium stem strip is prevented from falling down when being washed, when the built-in component 62 rotates to the upper part of an open slot, the cleaned dendrobium stem strip falls into the collecting frame 5, the rack ring 63 and the extrusion plate 64 arranged from top to bottom are installed on a connecting frame, the connecting frame is installed at the upper end of the collecting frame 5, the open slot is formed at the rear end of the extrusion plate 64, the output unit 65 located right below the open groove is mounted on the stage 1.

Specifically, the bundled dendrobium strips are placed into the concentration frame 42, the dendrobium strips are loosely and vertically placed into the concentration frame 42, the dendrobium strips cannot fall down due to the partition of the blocking unit 44 on the middle part of the concentration frame 42, then the dendrobium strips are washed by the washing module 7, the washed dendrobium strips rotate to the upper part of the rotating module 6 under the coordination of the rotating disc 3 and the driving motor 2, the concentration frame 42 and the built-in component 62 which rotates to the leftmost side are arranged in an up-and-down alignment manner, at the moment, the blocking unit 44 rotates and withdraws, the lower end of the concentration frame 42 is in an opening state, the cam unit 43 drives the concentration frame 42 to vibrate up and down, one dendrobium strip in the loose dendrobium strip pile falls onto the built-in component 62, and in order to reduce the difficulty of smooth falling of a single dendrobium strip, the dendrobium strips around the outlet position at the lower end of the concentration frame 42 are upwards pushed by the push-back unit 45 in coordination with the vibration of the concentration frame 42, therefore, the difficulty of descending the dendrobium strips in the middle is reduced, after the dendrobium strips fall to the built-in component 62, the built-in component 62 is driven to rotate intermittently by the rotating platform 61, the next built-in component 62 rotates to the lower part of the concentration frame 42 to wait for the dendrobium strips to fall, the dendrobium strips which are already positioned in the built-in component 62 rotate independently by matching with the rack ring 63 while rotating the whole rotating platform 61, so that the dendrobium strips rotate, the self-body position of the dendrobium strips is ensured to be washed in all directions when the dendrobium strips in the built-in component 62 are washed by the washing module 7, when the built-in component 62 rotates to the upper part of an open slot, the lower part of the built-in component 62 is opened, the dendrobium strips which are washed twice fall to the output unit 65 and are blown out by air, the washing module 7 is used for shaking the dendrobium strips which rotate to the left side in the concentration frame 42 and for double washing the dendrobium strips in the built-in component 62, earlier after the large tracts of land is washed separately omnidirectional wash, improved the cleanliness, and rotate the right side after washing in concentrating the frame 42, later lead to vibrations and return the mode that pushes away and make single stem of noble dendrobium strip fall into built-in assembly 62 in, cooperation between the rack makes the stem of noble dendrobium strip in built-in assembly 62 rotate alone, can the omnidirectional wash, has guaranteed that the cleanliness on output stem of noble dendrobium strip surface obtains the maximum value.

In another embodiment provided by the present invention, further, the cam unit 43 includes a working motor 431, a cam 432, a power source 433, and a contact switch 434, the cam 432 is installed on an output shaft of the working motor 431 installed in the annular cavity, a power source housing is installed on an outer side of the connecting ring 41, the power source 433 and the contact switch 434 in the power source housing are electrically connected to the working motor 431, a Z-shaped slider is installed on an outer side of the centering frame 42, the Z-shaped slider is slidably installed on the connecting ring 41 up and down, and the cam 432 is matched with the Z-shaped slider, the working motor 431 drives the cam 432 to rotate after being powered on, so as to drive the Z-shaped slider to slide up and down, and further drive the centering frame 42 to vibrate up and down.

Further, the contact switch 434 includes a conductive block 4341, an insulating rod 4342 and a conductive plate 4343, the insulating rod 4342 is slidably disposed at a lower end of the power supply housing, the insulating rod 4342 is located between the conductive blocks 4341, the conductive block 4341 is installed in the power supply housing, and the conductive plate 4343 is installed at an upper end of the insulating rod 4342.

Further, the blocking unit 44 includes a blocking plate 441 and an actuating motor 442, the blocking plate 441 is transversely inserted into the middle of the concentration frame 42, the blocking plate 441 is used for blocking the dendrobium stems from falling, the blocking plate 441 is connected with an output shaft of the actuating motor 442 installed on the rotating disc 3 through a connecting rod, water outlet holes are uniformly formed in the middle of the concentration frame 42 along the circumferential direction thereof, and the water outlet hole is positioned at the upper side of the barrier plate 441, so that the sewage after washing can be discharged normally, the connecting rod at the initial position extrudes and rises the arc surface block at the lower end of the insulating rod 4342, and the conductive plate 4343 and the conductive block 4341 which rise synchronously are separated, when the power needs to be cut off again after the connecting rod is separated from the lower end of the insulating rod 4342, the blocking plate 441 is driven to rotate reversely by the actuating motor 442 for resetting, and at this time, the connecting rod re-extrudes the lower end of the insulating rod 4342, so that the conductive plate 4343 and the conductive block 4341 are separated again for power failure.

Further, the push-back unit 45 comprises a push-against ring 451, a sliding rod 452 and a flexible ring 453, the lower end of the sliding rod 452 is slidably arranged at the lower end of the connecting ring 41 and is provided with the push-against ring 451, the inner wall of the upper end of the sliding rod 452 is provided with the flexible ring 453, the flexible ring 453 is made of rubber, an inner cavity formed by the flexible ring 453 is provided with a spring group, the rubber and the spring group are formed, the contact area of the flexible ring 453 and the dendrobium strip is in a tightly attached state when the two contact areas are ensured, and the dendrobium strip is favorably pushed upwards.

Specifically, when the concentration frame 42 rotates to the rightmost side, the execution motor 442 drives the blocking plate 441 to rotate, so that the blocking plate 441 does not block the concentration frame 42 any more, the dendrobium nobile strip in the concentration frame 42 can fall down, at this time, the connecting rod rotating synchronously does not press the lower end of the insulating rod 4342 any more, so that the conductive plate 4343 and the conductive block 4341 are contacted, at this time, the working motor 431 drives the cam 432 to rotate after being electrified, the cam moves to separate from the concentration frame 42 and vibrate up and down, so as to shake the dendrobium nobile strip in the concentration frame 42, when the concentration frame 42 vibrates, the propping ring 451 and the lower end of the concentration frame 42 generate intermittent motion, when the concentration frame 42 descends to the lowest position, the sliding rod 452 is in a state of ascending relative to the lower end of the concentration frame 42, at this time, the flexible ring 453 at the upper end of the sliding rod 452 pushes the dendrobium nobile strip upwards, because the flexible ring 453 has a high contact rate with the peripheral dendrobium nobile strip, consequently, this kind of mode of promoting has guaranteed that the stem of noble dendrobium strip that is in the middle part pushes back the probability that rises less, can upwards jack-up peripheral stem of noble dendrobium strip when the lower extreme of a plurality of stem of noble dendrobium strips all extrudes concentrating frame 42 lower extreme opening, has improved the probability that the stem of noble dendrobium strip that is located the middle part falls smoothly, has improved the smooth degree of single stem of noble dendrobium strip whereabouts through shake and peripheral mode of pushing back.

Further, the rotating table 61 comprises vertical rod, horizontal plate, auxiliary motor and sealed frame, the horizontal plate is installed to the upper end of vertical rod, the lower extreme of vertical rod is provided with sealed frame, be connected for stable normal running fit between sealed frame and the platform frame 1, sealed frame and the output shaft of installing the auxiliary motor on platform frame 1, and the auxiliary motor is located sealed frame of sealed environment, the setting of sealed frame has avoided collecting the condition that frame 5 interior water contacted auxiliary motor, has avoided the condition that auxiliary motor intake.

Specifically, drive vertical pole, horizontal plate intermittent type formula horizontal rotation through auxiliary motor, when stall, when single stem of noble dendrobium strip fell into built-in component 62, can continue to rotate until next built-in component 62 rotates the below of the stem of noble dendrobium strip that is about to fall and catches before the next stem of noble dendrobium strip falls.

Further, the built-in component 62 includes a rotating ring 621, an annular rack 622, an annular bracket 623 and a bottom plate 624, the rotating ring 621 is connected with the horizontal plate in a rotating fit manner, the annular rack 622 is mounted on the outer side wall of the rotating ring 621, the annular rack 622 is meshed with the rack ring 63, the annular bracket 623 is mounted at the lower end of the rotating ring 621, the bottom of the annular bracket 623 is provided with the openable bottom plate 624 through a pin shaft, the lower end of the bottom plate 624 is attached to the pressing plate 64, and the bottom plate 624 seals the bottom of the annular bracket 623 under the pressing of the pressing plate 64.

Specifically, the stem of noble dendrobium strip enters into annular bracket 623 after, along with the continuation rotation of revolving stage 61, built-in subassembly 62 is whole to be circumferential direction, to single built-in subassembly 62, in whole pivoted, under annular rack 622 and the meshing cooperation of rack ring 63 in single built-in subassembly 62, drive built-in subassembly 62 and rotate, when guaranteeing built-in subassembly 62 whole pivoted, every built-in subassembly 62 rotates alone for built-in stem of noble dendrobium strip also takes place to rotate, do benefit to subsequent all-round washing.

Further, the output unit 65 includes a dropping frame 651 and a delivery pump 652, the dropping frame 651 is mounted on the platform frame 1, an air cavity formed inside the dropping frame 651 is communicated with the delivery pump 652 mounted on the platform frame 1, an inlet position at the upper end of the dropping frame 651 corresponds to the position of the opening groove, the air cavity is uniformly provided with spray holes, the direction of the spray holes points to an outlet position arranged backwards of the dropping frame 651, and external air is input and sprayed out from the spray holes through the delivery pump 652, so that air blowing delivery is assisted.

Specifically, when the built-in assembly 62 rotates to the upper side of the open slot, the bottom plate 624 is not pressed by the pressing plate 64, so that the angle is adjusted, the lower end of the annular bracket 623 is opened, and the cleaned dendrobium stems fall into the inlet position of the frame 651 and are blown out towards the outlet position by the gas sprayed in the spray holes.

Further, the cleaning module 7 comprises a water storage frame 71, a water delivery pump 72, a water spraying plate 73, a water delivery pipe 74, a delivery pump 75 and a water spraying frame 76, the water spraying plate 73 with an arc structure is installed at the upper end of the collecting frame 5, the water spraying plate 73 plays a role of water retaining when washing, the water spraying plate 73 with water spraying holes is communicated with the water storage frame 71 installed on the platform frame 1 through the water delivery pump 72, the inside of the collecting frame 5 is communicated with the inlet position of the delivery pump 75 through the water delivery pipe 74, a filter screen is arranged inside the water delivery pipe 74, the outlet position of the delivery pump 75 installed on the water spraying frame 76 is communicated with a built-in hole formed inside the water spraying frame 76, the water spraying frame 76 is installed on the platform frame 1 through a fixed support, a sewage collecting frame is arranged right below the water spraying frame 76 and installed on the platform frame 1, the water spraying frame 7 utilizes water resource for the second time, the dendrobium strips in the built-in assembly 62 are washed through clear water, the water that washes enters into in the water spray frame 76 through the high pressure pump of delivery pump 75, and then washes the stem of noble dendrobium in the frame 42 of concentrating, because the interior stem of noble dendrobium strip that gets of built-in subassembly 62 has been washed once, the cleanliness of the water discharging after washing the interior stem of noble dendrobium strip of built-in subassembly 62 is higher, wash this part of water to just putting into the stem of noble dendrobium strip of concentrating in the frame 42, the main aim at washes large tracts of land granule impurity, later the clear water of rethread in the water storage frame 71 washes the stem of noble dendrobium strip surface clean, two kinds of main purposes that wash no longer are on the same point, the regional washing of earlier stage aim at impurity that washes away, the independent washing of later stage aim at washes totally.

Specifically, clear water in the water storage frame 71 is pumped out by the water delivery pump 72 and sprayed out from the water spraying holes in the water spraying plate 73, so that the rotating dendrobium strips are cleaned in all directions, and the dendrobium strips are washed once at the moment, so that fewer dirty particles are attached to the surfaces of the dendrobium strips, the cleaned water falls into the collection frame 5, the water is pumped into the water spraying frame 76 by the delivery pump 75 and sprayed out from the built-in holes, so that the placed loose and upright dendrobium strips are washed for the first time, sewage generated by washing falls into the sewage collection frame for centralized collection and discharge, the water after the second washing is utilized in the first washing, and the utilization of water resources is improved.

The working process is as follows:

s1, putting the bundled dendrobium strips into the concentration frame 42 to enable the dendrobium strips to be loosely erected in the concentration frame 42, washing the dendrobium strips for the first time through water sprayed from the built-in holes, and discharging the washed sewage from the water outlet hole to flow into the sewage collection frame;

s2, after washing, rotating the module to the upper side of the rotating module 6 to enable the concentrating frame 42 and the built-in component 62 which rotates to the leftmost side to be arranged in an up-and-down alignment mode, then, rotating and withdrawing the blocking plate 441, opening the lower end of the concentrating frame 42, and enabling the single dendrobium stem strip to fall onto the built-in component 62 from the loose and upright dendrobium stem strip stack through the vibrating concentrating frame 42 and the push-back unit 45;

s3, after the dendrobium stem strips fall into the built-in components 62, the rotating platform 61 continues to rotate, so that the next built-in component 62 rotates to the position below the concentration frame 42, the dendrobium stem strips which are positioned in the built-in components 62 and the built-in components 62 can independently rotate when the rotating platform 61 rotates, and the clear water sprayed from the water spray holes can conveniently carry out all-directional washing on different positions of a single dendrobium stem strip;

s4, when the built-in component 62 rotates to the upper part of the open slot, the bottom plate 624 is opened, and the dendrobium strips cleaned twice fall into the output unit 65 and are blown out by air under the action of air blowing.

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

1. The utility model provides a multistage cleaning system of hillstone dry measure used in former times of hopcalite dendrobium nobile processing, includes platform frame (1), its characterized in that: a fixed frame is installed on the rear side of the left end of the platform frame (1), a rotating disc (3) is installed at the upper end of the fixed frame through a driving motor (2), distribution modules (4) capable of vibrating up and down are symmetrically installed on the rotating disc (3), a collection frame (5) is installed at the right end of the platform frame (1), a rotating module (6) located inside the collection frame (5) is matched with the distribution modules (4), and a cleaning module (7) for secondary utilization of water resources is connected between the upper end of the collection frame (5) and the distribution modules (2);

the distribution module (4) comprises a connecting ring (41), a concentration frame (42), a cam unit (43), a blocking unit (44) and a push-back unit (45), the connecting ring (41) is fixedly mounted on the rotating disc (3), the connecting ring (41) and the concentration frame (42) are in up-and-down sliding fit, an annular cavity is formed in the connecting ring (41), a cam mechanism (43) is mounted in the annular cavity, the rotatable blocking unit (44) is arranged in the middle of the concentration frame (42), and the push-back unit (45) is mounted at the lower end of the concentration frame (42);

rotation module (6) including rotating platform (61), built-in subassembly (62), rack ring (63), stripper plate (64) and output unit (65), be located and collect that rotation platform (61) inside frame (5) is installed on platform frame (1), the upper end of rotating platform (61) evenly is provided with built-in subassembly (62) that can rotate alone along its circumference, built-in subassembly (62) cooperatees with rack ring (63), the lower extreme laminating of built-in subassembly (62) has stripper plate (64), rack ring (63) of arranging down from the top, stripper plate (64) are installed on the link, the link is installed in the upper end of collecting frame (5), the open slot has been seted up to the rear end of stripper plate (64), output unit (65) that are located under the open slot are installed on platform frame (1).

2. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 1, characterized in that: the cam unit (43) comprises a working motor (431), a cam (432), a power supply (433) and a contact switch (434), wherein the cam (432) is installed on an output shaft of the working motor (431) installed in the annular cavity, a power supply shell is arranged on the outer side of the connecting ring (41), the power supply (433) and the contact switch (434) in the power supply shell are electrically connected with the working motor (431), a Z-shaped sliding block is arranged on the outer side of the central frame (42), the Z-shaped sliding block is arranged on the connecting ring (41) in a vertically sliding mode, and the cam (432) is matched with the Z-shaped sliding block.

3. The multi-stage cleaning system for dendrobium huoshanense deep processing according to claim 2, characterized in that: the contact switch (434) comprises conductive blocks (4341), insulating rods (4342) and conductive plates (4343), wherein the insulating rods (4342) are arranged at the lower end of a power supply shell in a vertically sliding mode, the insulating rods (4342) are located between the conductive blocks (4341), the conductive blocks (4341) are installed in the power supply shell, and the conductive plates (4343) are installed at the upper ends of the insulating rods (4342).

4. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 3, characterized in that: the blocking unit (44) comprises a blocking plate (441), an execution motor (442), the blocking plate (441) is transversely inserted in the middle of the concentrated frame (42), the blocking plate (441) is used for blocking the dendrobium strips from falling, the blocking plate (441) is connected with an output shaft of the execution motor (442) installed on the rotating disc (3) through a connecting rod, water outlet holes are uniformly formed in the middle of the concentrated frame (42) along the circumferential direction of the central frame, the water outlet holes are located on the upper side of the blocking plate (441), the connecting rod at the initial position extrudes and rises the arc-shaped blocks at the lower end of the insulating rod (4342), and the conductive plate (4343) and the conductive block (4341) which synchronously rise are separated.

5. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 1, characterized in that: the push-back unit (45) comprises a push-against ring (451), a sliding rod (452) and a flexible ring (453), the push-against ring (451) is installed at the lower end of the sliding rod (452) which is arranged at the lower end of the connecting ring (41) in a sliding mode, and the flexible ring (453) is installed on the inner wall of the upper end of the sliding rod (452);

the flexible ring (453) is made of rubber materials, and an inner cavity formed in the flexible ring (453) is provided with a spring set.

6. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 1, characterized in that: the rotating table (61) is composed of a vertical rod, a horizontal plate, an auxiliary motor and a sealing frame, the horizontal plate is installed at the upper end of the vertical rod, the sealing frame is arranged at the lower end of the vertical rod, the sealing frame and the platform frame (1) are connected in a stable rotating fit mode, the sealing frame is connected with an output shaft of the auxiliary motor installed on the platform frame (1), and the auxiliary motor is located in the sealing frame in a sealed environment.

7. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 1, characterized in that: built-in subassembly (62) including rotating ring (621), annular rack (622), annular bracket (623), bottom plate (624), be connected for normal running fit between rotating ring (621) and the horizontal plate, install annular rack (622) on the lateral wall of rotating ring (621), annular rack (622) and rack ring (63) mesh mutually, annular bracket (623) are installed to the lower extreme of rotating ring (621), the bottom of annular bracket (623) is provided with bottom plate (624) that can open through the round pin axle, the lower extreme laminating of bottom plate (624) is on extrusion board (64).

8. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 1, characterized in that: the output unit (65) comprises a falling frame (651) and a delivery pump (652), the falling frame (651) is installed on the platform frame (1), an air cavity formed in the falling frame (651) is communicated with the delivery pump (652) installed on the platform frame (1), the inlet position of the upper end of the falling frame (651) corresponds to the position of the opening groove, spray holes are uniformly formed in the air cavity, and the direction of the spray holes points to the outlet position of the falling frame (651) which is arranged towards the back.

9. The multistage cleaning system of dendrobium huoshanense deep-processing of claim 1, characterized in that: cleaning module (7) including water storage frame (71), water delivery pump (72), water spray plate (73), raceway (74), delivery pump (75), water spray frame (76), water spray plate (73) of arc structure is installed to the upper end of collection frame (5), water spray plate (73) of seting up the hole for water spraying are linked together through water delivery pump (72) and water storage frame (71) of installing on platform frame (1), the inside import position intercommunication through raceway (74) and delivery pump (75) of collection frame (5), the exit position of installing delivery pump (75) on water spray frame (76) is put through with the inside built-in hole of seting up of water spray frame (76), water spray frame (76) are installed on platform frame (1) through the fixed bolster, be provided with the sewage collection frame under water spray frame (76), the sewage collection frame is installed on platform frame (1).