CN114887968B - Multistage cleaning system of mountain dendrobe deep-processing - Google Patents

Abstract

The invention relates to a dendrobium huoshanense deep processing multistage cleaning system which comprises a platform frame, wherein a fixing frame is arranged at the rear side of the left end of the platform frame, a rotating disc is arranged at the upper end of the fixing frame through a driving motor, distribution modules capable of vibrating up and down are symmetrically arranged on the rotating disc, a collecting frame is arranged at the right end of the platform frame, the rotation modules and the distribution modules which are positioned in the collecting frame are mutually matched, and a cleaning module for reutilization of water resources is connected between the upper end of the collecting frame and the distribution modules. The invention can solve the problems that the cleaning object is put into the non-circulating water, even after the cleaning object is separated from the impurity particles for a short time by lifting of the cleaning basket, the impurity particles which cannot be discharged in the follow-up process are attached to the surface of the cleaning object again, so that the cleaning is not thorough, the cleaning object is put into a certain amount and is cleaned in a single mode, and the cleaning object is difficult to clean completely.

Description

Multistage cleaning system of mountain dendrobe deep-processing

Technical Field

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

Background

Dendrobium huoshanense, commonly known as dendrobium huoshanense, is a herb of dendrobium genus of Orchidaceae, and mostly grows between cliff gaps and on ancient tree of the participating days, on trunk in mountain forest and on valley rock. Dendrobium huoshanense can greatly improve SOD level in human body, and is very suitable for people who are frequently staying up night, use brain, have excessive smoking and drinking, are weak and debilitating, and are frequently drunk. The dendrobium huoshanense has the effects of improving eyesight, regulating yin and yang, strengthening yang, tonifying kidney, maintaining beauty and keeping young, so that the effects of health care and prolonging life are achieved, and the dendrobium huoshanense needs to be cleaned and dried in the deep processing process.

In current gene check out test set, like the chinese patent with bulletin number CN214718900U, it discloses a cleaning device for stem of noble dendrobium deep-processing, specifically includes the device shell, the inside left side department of device shell has been seted up the washing tank, the bottom of washing tank is provided with the waterproof board, the middle part of waterproof board runs through the activity and is provided with T type pole, the contact wheel is installed to the lower tip of T type pole, the lower extreme contact of contact wheel is provided with the cam, the cam is installed in the pivot, install the spring on the T type pole and be located the waterproof board below, the upper end of T type pole has the washing basket through connecting portion welding, the bottom of washing basket is provided with the hinge in the right side position, the right side of hinge is movable baffle, the limit lateral extension of washing tank is provided with the drain pipe, the inside of device shell and be located the right side of washing tank is provided with the support, the parcel has dry cloth on the inclined plane of support, the internally mounted of dry cloth has the heating wire, connect the silo has been seted up to the right side bottom of support. According to the invention, the stirring structure is replaced by the cleaning basket with the vibration water washing effect, so that the cleaning effect is ensured, and meanwhile, the damage to the dendrobium nobile during cleaning is reduced; the cleaned drying bracket is added, the moisture on the surface of the rolling dendrobium is absorbed by using the dry cloth, so that the time and the labor are saved, the dendrobium is not required to be put into a drying cylinder for drying, and the processing steps are reduced; the whole device is simple in design, convenient to operate and better in using effect compared with the 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.

In the prior art, the dendrobium in the basket is cleaned by lifting the cleaning basket, but the cleaning mode is to put the cleaning object into the non-circulating water, and even if the cleaning object is separated from the impurity particles briefly by lifting 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 incomplete, a certain amount of cleaning object is put in, and the cleaning object is difficult to clean completely in a single mode. Based on this, there is room for improvement over existing cleaning techniques.

Disclosure of Invention

1. Technical proposal

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

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a multistage cleaning system of mountain dendrobium huoshanense 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 to the upper end of mount, and the distribution module that shakes about the symmetry is installed on the rolling disc, and the collection frame is installed to the right-hand member of platform frame, is located to mutually support between the inside rotation module of collection frame and the distribution module, is connected with the cleaning module of water resource reutilization between the upper end of collection frame and the distribution module.

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

The rotating module comprises a rotating table, a built-in assembly, a rack ring, an extrusion plate and an output unit, wherein the rotating table positioned inside the collecting frame is arranged on the platform frame, the upper end of the rotating table is uniformly provided with the built-in assembly capable of rotating independently along the circumferential direction of the rotating table, the built-in assembly is matched with the rack ring, the extrusion plate is attached to the lower end of the built-in assembly, the rack ring and the extrusion plate which are arranged downwards from top to bottom are arranged on the connecting frame, the connecting frame is arranged at the upper end of the collecting frame, the rear end of the extrusion plate is provided with an opening groove, and the output unit positioned right below the opening groove is arranged on the platform frame.

Preferably, the cam unit include work motor, cam, power, contact switch, install the cam on the output shaft of the work motor of annular intracavity, the outside of go-between is provided with the power shell, be electrically connected between power, contact switch and the work motor in the power shell, concentrate the outside of frame and be provided with Z type slider, Z type slider slides from top to bottom and sets up on the go-between, and the cam cooperatees with Z type slider.

Preferably, the contact switch comprises conductive blocks, insulating rods and conductive plates, wherein the insulating rods are arranged at the lower end of the power supply shell in a vertical sliding mode, the insulating rods are located between the conductive blocks, the conductive blocks are arranged in the power supply shell, and the conductive plates are arranged at the upper ends of the insulating rods.

Preferably, the blocking unit comprises a blocking plate and an execution motor, the blocking plate is transversely inserted in the middle of the centralized frame and used for blocking the dendrobium nobile from falling, the blocking plate is connected with an output shaft of the execution motor arranged on the rotating disc through a connecting rod, water outlets are uniformly formed in the middle of the centralized frame along the circumferential direction of the blocking plate, the water outlets are formed in the upper side of the blocking plate, the connecting rod at the initial position is used for extruding and rising an arc-shaped block at the lower end of the insulating rod, and the conductive plate and the conductive block which synchronously rise are separated.

Preferably, the push-back unit comprises a push-back ring, a sliding rod and a flexible ring, wherein the push-back ring is arranged 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 arranged on the inner wall of the upper end of the sliding rod;

preferably, the flexible ring is made of rubber material, and a spring group is arranged in an inner cavity formed in the flexible ring.

Preferably, the rotating table comprises a vertical rod, a horizontal plate, an auxiliary motor and a sealing frame, wherein the horizontal plate is arranged at the upper end of the vertical rod, the sealing frame is arranged at the lower end of the vertical rod, the sealing frame is connected with the platform frame in a stable rotating fit manner, the sealing frame is connected with an output shaft of the auxiliary motor arranged on the platform frame, and the auxiliary motor is positioned in the sealing frame in a sealing environment.

Preferably, the built-in assembly comprises a rotating ring, an annular rack, an annular bracket and a bottom plate, wherein the rotating ring is connected with the horizontal plate in a rotating fit manner, the annular rack is arranged on the outer side wall of the rotating ring and meshed with the rack ring, the annular bracket is arranged at the lower end of the rotating ring, the bottom of the annular bracket is provided with the openable bottom plate through a pin shaft, and the lower end of the bottom plate is attached to the extrusion plate.

Preferably, the output unit comprises a drop-in frame and a conveying pump, the drop-in frame is arranged on the platform frame, an air cavity formed in the drop-in frame is communicated with the conveying pump arranged on the platform frame, the position of an inlet at the upper end of the drop-in frame corresponds to the position of an opening slot, spray holes are uniformly formed in the air cavity, and the orientation of the spray holes is directed to the position of an outlet which is arranged backwards of the drop-in frame.

Preferably, the cleaning module comprises a water storage frame, a water conveying pump, a water spraying plate, a water conveying pipe, a conveying pump and a water spraying frame, wherein the upper end of the collecting frame is provided with the water spraying plate with an arc-shaped structure, the water spraying plate provided with water spraying holes is communicated with the water storage frame arranged on the platform frame through the water conveying pump, the inside of the collecting frame is communicated with the inlet position of the conveying pump through the water conveying pipe, a filter screen is arranged in the water conveying pipe, the outlet position of the conveying pump arranged on the water spraying frame is communicated with a built-in hole formed in the water spraying frame, the water spraying frame is arranged on the platform frame through a fixing support, a sewage collecting frame is arranged under the water spraying frame, and the sewage collecting frame is arranged on the platform frame.

2. Advantageous effects

1. According to the dendrobium huoshanense deep processing multistage cleaning system, a multistage flushing mode that is firstly used for flushing in areas and then is used for flushing alone is adopted for processing dendrobium huoshanense strips, water after flushing flows away in time, the situation of re-adhesion cannot occur, the area flushing is used for flushing the put dendrobium huoshanense strips for the first time, the purpose of flushing most of impurity particles is achieved, and then the dendrobium huoshanense strips are subjected to shaking distribution so that the dendrobium huoshanense strips are independently separated into each built-in component, and the dendrobium huoshanense strips which synchronously rotate are flushed in an omnibearing manner through secondary flushing along with rotation of the built-in components, so that compared with non-circulation cleaning in a single mode, cleaning cleanliness is improved;

2. according to the dendrobium huoshanense deep processing multistage cleaning system, the distribution module is matched with the rotation module to distribute the loosely placed dendrobium nobile stacks into each built-in component, the number of the dendrobium nobile strips in each built-in component is one, the dendrobium nobile strips in the middle part are smoothly dropped into the built-in components in a vibration and edge push-back mode in the distribution process, and then clear water sprayed from the water spraying holes is used for carrying out targeted all-round cleaning on the dendrobium nobile strips in rotation.

Drawings

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

FIG. 1 is a first schematic construction 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 of the invention between the rotating disk, the dispensing module, the rotating table, the built-in assembly, the rack ring and the stripper plate;

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

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

Detailed Description

Embodiments of the present invention are described below with reference to the accompanying drawings. In this process, to ensure clarity and convenience of description, the widths of the lines or the sizes of the constituent elements in the drawings may be exaggerated.

In addition, the terms hereinafter are defined based on functions in the present invention, and may be different according to intention of a user, an operator, or a convention. Accordingly, these terms are defined based on the entire contents of the present specification.

As shown in fig. 1 to 6, a dendrobium huoshanense deep-processing multistage cleaning system comprises a platform frame 1, a fixing frame is installed at the left end rear side of the platform frame 1, a rotating disc 3 is installed at the upper end of the fixing frame through a driving motor 2, a distribution module 4 capable of vibrating up and down is symmetrically installed on the rotating disc 3, a collecting frame 5 is installed at the right end of the platform frame 1, a rotating module 6 and the distribution module 4 which are located inside the collecting frame 5 are matched with each other, and a cleaning module 7 for water resource secondary utilization is connected between the upper end of the collecting frame 5 and the distribution module 4.

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

The rotating module 6 comprises a rotating table 61, a built-in assembly 62, a rack ring 63, a squeezing plate 64 and an output unit 65, wherein the rotating table 61 positioned in the collecting frame 5 is arranged on the platform frame 1, the built-in assembly 62 which can rotate independently is uniformly arranged at the upper end of the rotating table 61 along the circumferential direction of the rotating table, the built-in assembly 62 is matched with the rack ring 63, the built-in assembly 62 rotates independently along the rack ring 63, the squeezing plate 64 is attached to the lower end of the built-in assembly 62, the squeezing plate 64 seals the lower end of the built-in assembly 62, the dendrobium nobile strip is prevented from falling down when the dendrobium nobile strip rotates to the upper side of an open slot, the lower end of the built-in assembly 62 is opened, the cleaned dendrobium nobile strip falls into the collecting frame 5, the rack ring 63 and the squeezing plate 64 which are arranged from top to bottom are arranged on a connecting frame, the connecting frame is arranged at the upper end of the collecting frame 5, an open slot is formed at the rear end of the squeezing plate 64, and the output unit 65 positioned right below the open slot is arranged on the platform frame 1.

Specifically, bundled dendrobium bars are placed into a centralizing frame 42, the dendrobium bars are loosely vertically placed in the centralizing frame 42, the dendrobium bars cannot fall down due to the blocking unit 44 blocking the middle of the centralizing frame 42, then the dendrobium bars are washed by a washing module 7, the washed dendrobium bars rotate to the upper side of a rotating module 6 under the cooperation of a rotating disc 3 and a driving motor 2, so that the centralizing frame 42 and a built-in component 62 rotating to the leftmost side are arranged in an up-down alignment mode, at the moment, the blocking unit 44 rotates and withdraws, the lower end of the centralizing frame 42 is in an opening state, the centralizing frame 42 is driven to vibrate up and down through a cam unit 43, one dendrobium bar in the loose dendrobium bar stack falls onto the built-in component 62, in order to reduce the difficulty of smooth falling of the single dendrobium bar, the centralizing frame 42 is vibrated while the dendrobium bars at the periphery of the outlet position of the lower end of the centralizing frame 42 are pushed upwards by a pushing unit 45, thereby reducing the difficulty of descending the dendrobium nobile in the middle part, after the dendrobium nobile falls to the built-in component 62, the built-in component 62 is driven to intermittently rotate by the rotating table 61, so that the next built-in component 62 rotates to the lower part of the centralizing frame 42, the dendrobium nobile in the built-in component 62 waits for falling, and the dendrobium nobile in the built-in component 62 rotates integrally at the rotating table 61 and is matched with the rack ring 63 to independently rotate, so that the body of the dendrobium nobile can rotate, the cleaning module 7 is ensured to flush different positions of single dendrobium nobile when cleaning the dendrobium nobile in the built-in component 62, when the built-in component 62 rotates to the upper part of the open slot, the lower part of the built-in component 62 is opened, the dendrobium nobile which is cleaned twice at this moment falls into the output unit 65, and the dendrobium nobile is blown under the action of air, the dendrobium nobile strips in the centralized frame 42 rotating to the left side are subjected to double cleaning through the cleaning module 7, the dendrobium nobile strips in the built-in component 62 are cleaned in a large-area mode firstly, then are cleaned independently and comprehensively, the cleanliness is improved, the right side is rotated after being cleaned in the centralized frame 42, then the single dendrobium nobile strips fall into the built-in component 62 in a vibrating and push-back mode, the dendrobium nobile strips in the built-in component 62 are independently rotated by matching with racks, the comprehensive cleaning is achieved, and the cleanliness of the surface of the output dendrobium nobile strips is guaranteed to be maximum.

In another embodiment of the present invention, further, the cam unit 43 includes a working motor 431, a cam 432, a power supply 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 supply housing is disposed at an outer side of the connection ring 41, the power supply 433, the contact switch 434 and the working motor 431 in the power supply housing are electrically connected, a Z-shaped slider is disposed at an outer side of the focusing frame 42, the Z-shaped slider is disposed on the connection ring 41 in a vertically sliding manner, the cam 432 is matched with the Z-shaped slider, and the cam 432 is driven to rotate after the working motor 431 is powered on, so as to drive the Z-shaped slider to slide vertically, and further drive the focusing frame 42 to vibrate vertically.

Further, the contact switch 434 includes a conductive block 4341, an insulating rod 4342 and a conductive plate 4343, the insulating rod 4342 is disposed at the lower end of the power supply shell in a vertically sliding manner, the insulating rod 4342 is disposed between the conductive blocks 4341, the conductive block 4341 is installed in the power supply shell, and the conductive plate 4343 is installed at the 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 in the middle of the collecting frame 42, the blocking plate 441 is used for blocking the dendrobium stem from falling, the blocking plate 441 is connected with an output shaft of the actuating motor 442 mounted on the rotating disc 3 through a connecting rod, water outlet holes are uniformly formed in the middle of the collecting frame 42 along the circumferential direction of the water outlet holes, the water outlet holes are formed in the upper side of the blocking plate 441, normal discharge of the washed sewage is ensured, the connecting rod in the initial position extrudes and rises the cambered surface block at the lower end of the insulating rod 4342, the synchronously rising conductive plate 4343 and the conductive block 4341 are separated, and when the connecting rod and the lower end of the insulating rod 4342 are separated and then need to be powered off again, the blocking plate 441 is driven to reversely rotate and reset only through the actuating motor 442, and at the moment, the connecting rod extrudes the lower end of the insulating rod 4342 again, so that the conductive plate 4343 and the conductive block 4341 are powered off again.

Further, the push-back unit 45 include support ring 451, slide bar 452 and flexible ring 453, slide the lower extreme of setting up the slide bar 452 at the link 41 lower extreme and install support ring 451, flexible ring 453 is installed to the upper end inner wall of slide bar 452, flexible ring 453 be made by the rubber material, and the inner chamber that flexible ring 453 offered is provided with the spring group, the rubber material and the spring group's constitution have all guaranteed when flexible ring 453 and the contact of stem of noble dendrobium strip, the region of both contacts is in the state of hugging closely, does benefit to the stem of noble dendrobium strip and upwards promotes.

Specifically, when the centralized frame 42 rotates to the rightmost side, afterwards, the motor 442 is executed to drive the blocking plate 441 to rotate, so that the blocking plate 441 does not separate the centralized frame 42 any more, the dendrobium strips in the centralized frame 42 can fall down, at this time, the connecting rod which synchronously rotates does not squeeze 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 is electrified to drive the cam 432 to rotate, the centralized frame 42 is driven to vibrate up and down according to the cam motion, intermittent motion is generated between the propping ring 451 and the lower end of the centralized frame 42 when the centralized frame 42 vibrates, the sliding rod 452 is in an ascending state relative to the lower end of the centralized frame 42 when the centralized frame 42 falls down, at this time, the flexible ring 453 at the upper end of the sliding rod 452 pushes up the dendrobium strips, and the peripheral dendrobium strips are smoothly pushed up by the flexible ring 453, the probability of pushing up the dendrobium strips in the middle is small, and the peripheral dendrobium strips can smoothly fall down by the peripheral dendrobium strips when the lower ends of the plurality of dendrobium strips are extruded at the lower ends of the frame 42.

Further, the rotating table 61 comprises a vertical rod, a horizontal plate, an auxiliary motor and a sealing frame, wherein the horizontal plate is arranged at the upper end of the vertical rod, the sealing frame is arranged at the lower end of the vertical rod, the sealing frame is connected with the platform frame 1 in a stable rotating fit manner, the sealing frame is connected with an output shaft of the auxiliary motor arranged on the platform frame 1, the auxiliary motor is arranged in the sealing frame in a sealing environment, the condition that water in the collecting frame 5 contacts the auxiliary motor is avoided due to the arrangement of the sealing frame, and the condition that the auxiliary motor is water-in is avoided.

Specifically, the vertical rod and the horizontal plate are driven to intermittently and horizontally rotate through the auxiliary motor, when rotation is stopped, when a single dendrobium strip falls into the built-in component 62, the next dendrobium strip can continue to rotate until the next built-in component 62 rotates to the position below the dendrobium strip to be fallen to catch.

Further, the built-in assembly 62 includes a rotating ring 621, a ring rack 622, a ring bracket 623, and a bottom plate 624, wherein the rotating ring 621 is connected with the horizontal plate in a rotating fit manner, the ring rack 622 is installed on the outer side wall of the rotating ring 621, the ring rack 622 is meshed with the rack ring 63, the ring bracket 623 is installed at the lower end of the rotating ring 621, the bottom of the ring 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 extrusion plate 64, and the bottom plate 624 seals the bottom of the ring bracket 623 under the extrusion of the extrusion plate 64.

Specifically, after the dendrobium nobile strips enter the annular bracket 623, along with the continuous rotation of the rotating table 61, the built-in components 62 integrally rotate circumferentially, and for the single built-in components 62, the annular racks 622 in the single built-in components 62 are meshed with the rack rings 63 to drive the built-in components 62 to rotate while the integral rotation of the built-in components 62 is ensured, and each built-in component 62 independently rotates, so that the built-in dendrobium nobile strips also rotate, and the subsequent omnibearing cleaning is facilitated.

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

Specifically, when the inner assembly 62 rotates above the open slot, the bottom plate 624 is not extruded by the extruding plate 64, so that the lower end of the annular bracket 623 is opened, and the cleaned dendrobium strips drop into the inlet position of the drop frame 651, and are blown out towards the outlet position under the blowing of the gas in the spray hole.

Further, the cleaning module 7 include water storage frame 71, water delivery pump 72, water spray plate 73, raceway 74, delivery pump 75, water spray frame 76, the water spray plate 73 of arc structure is installed to the upper end of collecting frame 5, water spray plate 73 has played the effect of manger plate when washing, water spray plate 73 that sets up the water spray hole is linked together through water delivery pump 72 and the water storage frame 71 of installing on platform frame 1, collect frame 5 inside and be linked together through the import position of raceway 74 and delivery pump 75, the raceway 74 inside is provided with the filter screen, the exit position of delivery pump 75 of installing on water spray frame 76 and the built-in hole switch-on that water spray frame 76 inside was seted up, water spray frame 76 passes through the fixed bolster and installs on platform frame 1, be provided with the sewage collection frame under the water collection frame 76, install on platform frame 1, the reutilization of cleaning module 7 has practiced thrift the water resource, the dendrobium nobile in to built-in subassembly 62 through the clear water, the high pressure of conveyer pump 75 is sent into frame 76, and then carry out the dendrobium in to concentrate frame 42 through the water pump 74, the dendrobium nobile in the subassembly, the dendrobium nobile is washed in the main area is washed out to the main area is put into to the inside the main flush region after the dendrobium nobile in the main stage of the dendrobium nobile, the dendrobium nobile is washed in the main area is washed out in the main stage, the area is washed out by the clean place after the dendrobium nobile is washed in the inside the piece, the inside the dendrobium nobile, the surface is washed in the main, the area is washed in the clean place is washed area is washed in the place, and the inside the dendrobium is washed.

Specifically, the clear water in the water storage frame 71 is pumped out through the water delivery pump 72 and sprayed out from the water spraying holes on the water spraying plate 73, so that the rotating dendrobium nobile strips are cleaned in all directions, because the dendrobium nobile strips are washed once at this moment, dirt particles attached to the surfaces of the dendrobium nobile strips are fewer, the cleaned water falls into the collecting frame 5, the water is pumped into the water spraying frame 76 through the delivery pump 75 and sprayed out from the built-in holes, the loosely erected dendrobium nobile strips put in are washed for the first time, sewage generated by washing falls into the sewage collecting frame to be collected and discharged in a concentrated mode, and the water after the second washing is used in the first washing, so that the utilization of water resources is improved.

The working process comprises the following steps:

s1, putting bundled dendrobium strips into a centralized frame 42, enabling the dendrobium strips to be loosely erected in the centralized frame 42, flushing the dendrobium strips for the first time through water sprayed out of built-in holes, and discharging the flushed sewage from water outlets and flowing into a sewage collecting frame;

s2, after flushing, the dendrobium nobile is rotated to the upper side of the rotating module 6, so that the centralizing frame 42 and the built-in component 62 which is rotated to the leftmost side are arranged in an up-down alignment mode, then the blocking plate 441 is rotated and withdrawn, the lower end of the centralizing frame 42 is opened, and single dendrobium nobile is dropped onto the built-in component 62 from the loosely erected dendrobium nobile stack through the vibrating centralizing frame 42 and the push-back unit 45;

s3, after falling down to the built-in component 62, the rotating table 61 continues to rotate, so that the next built-in component 62 rotates below the centralized frame 42, and the dendrobium bars located in the built-in component 62 and the built-in component 62 can independently rotate when the rotating table 61 rotates, so that clear water sprayed out of the water spraying holes can wash different positions of a single dendrobium bar in all directions;

s4, when the built-in assembly 62 rotates to the position above the open slot, the bottom plate 624 is opened, and the dendrobe strips which are cleaned twice at the moment fall into the output unit 65 and are output 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 modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the invention, which is defined by the appended claims.

Claims (7)

1. The utility model provides a multistage cleaning system of mountain dendrobe deep-processing, includes platform frame (1), its characterized in that: the device is characterized in that a fixing frame is arranged at the rear side of the left end of the platform frame (1), a rotating disc (3) is arranged at the upper end of the fixing frame through a driving motor (2), distribution modules (4) capable of vibrating up and down are symmetrically arranged on the rotating disc (3), a collecting frame (5) is arranged at the right end of the platform frame (1), a rotating module (6) positioned in the collecting frame (5) is matched with the distribution modules (4), and a cleaning module (7) for reutilizing water resources is connected between the upper end of the collecting frame (5) and the distribution modules (4);

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

the push-back unit (45) comprises a push-back ring (451), a sliding rod (452) and a flexible ring (453), wherein the push-back ring (451) is arranged at the lower end of the sliding rod (452) which is arranged at the lower end of the connecting ring (41) in a sliding manner, and the flexible ring (453) is arranged on the inner wall of the upper end of the sliding rod (452);

the flexible ring (453) is made of rubber materials, and a spring group is arranged in an inner cavity formed in the flexible ring (453);

the rotating module (6) comprises a rotating table (61), a built-in assembly (62), a rack ring (63), a squeezing plate (64) and an output unit (65), wherein the rotating table (61) positioned in the collecting frame (5) is arranged on the platform frame (1), the built-in assembly (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 assembly (62) is matched with the rack ring (63), the squeezing plate (64) is attached to the lower end of the built-in assembly (62), the rack ring (63) and the squeezing plate (64) which are arranged from top to bottom are arranged on the connecting frame, the connecting frame is arranged at the upper end of the collecting frame (5), an open slot is formed in the rear end of the squeezing plate (64), and the output unit (65) positioned right below the open slot is arranged on the platform frame (1);

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), wherein the upper end of the collecting frame (5) is provided with the water spraying plate (73) with an arc-shaped structure, the water spraying plate (73) provided with the water spraying hole is communicated with the water storage frame (71) arranged 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), the outlet position of the delivery pump (75) arranged on the water spraying frame (76) is communicated with a built-in hole arranged inside the water spraying frame (76), the water spraying frame (76) is arranged on the platform frame (1) through a fixed support, a sewage collecting frame is arranged under the water spraying frame (76), and the sewage collecting frame is arranged on the platform frame (1).

2. The dendrobium huoshanense deep processing multistage cleaning system according to claim 1, wherein: 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) in the annular cavity, a power supply shell is arranged on the outer side of the connecting ring (41), the power supply (433), the contact switch (434) and the working motor (431) in the power supply shell are electrically connected, a Z-shaped sliding block is arranged on the outer side of the centralized frame (42), the Z-shaped sliding block is arranged on the connecting ring (41) in an up-down sliding mode, and the cam (432) is matched with the Z-shaped sliding block.

3. The dendrobium huoshanense deep processing multistage cleaning system according to claim 2, wherein: 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 the power supply shell in a vertical sliding mode, the insulating rods (4342) are located between the conductive blocks (4341), the conductive blocks (4341) are arranged in the power supply shell, and the conductive plates (4343) are arranged at the upper ends of the insulating rods (4342).

4. A dendrobium huoshanense deep processing multistage cleaning system according to claim 3, wherein: the blocking unit (44) comprises a blocking plate (441) and an execution motor (442), the blocking plate (441) is transversely inserted into the middle of the centralizing frame (42), the blocking plate (441) is used for blocking dendrobium strips from falling, the blocking plate (441) is connected with an output shaft of the execution motor (442) arranged on the rotating disc (3) through a connecting rod, water outlets are uniformly formed in the middle of the centralizing frame (42) along the circumferential direction of the centralizing frame, the water outlets are arranged on the upper side of the blocking plate (441), the connecting rod at the initial position extrudes and rises an arc surface block 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 dendrobium huoshanense deep processing multistage cleaning system according to claim 1, wherein: the rotating table (61) consists of a vertical rod, a horizontal plate, an auxiliary motor and a sealing frame, wherein the horizontal plate is arranged at the upper end of the vertical rod, the sealing frame is arranged at the lower end of the vertical rod, the sealing frame is connected with the platform frame (1) in a stable rotating fit manner, the sealing frame is connected with an output shaft of the auxiliary motor arranged on the platform frame (1), and the auxiliary motor is positioned in the sealing frame in a sealing environment.

6. The dendrobium huoshanense deep processing multistage cleaning system according to claim 1, wherein: the built-in assembly (62) comprises a rotating ring (621), an annular rack (622), an annular bracket (623) and a bottom plate (624), wherein 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 openable bottom plate (624) is arranged at the bottom of the annular bracket (623) through a pin shaft, and the lower end of the bottom plate (624) is attached to the extrusion plate (64).

7. The dendrobium huoshanense deep processing multistage cleaning system according to claim 1, wherein: the output unit (65) comprises a falling frame (651) and a conveying pump (652), the falling frame (651) is arranged on the platform frame (1), an air cavity formed in the falling frame (651) is communicated with the conveying pump (652) arranged on the platform frame (1), the position of an inlet at the upper end of the falling frame (651) corresponds to the position of an opening groove, spray holes are uniformly formed in the air cavity, and the direction of the spray holes is directed to the position of an outlet which is arranged backwards of the falling frame (651).