CN112066653A - Green medicine production handles and uses dewatering device - Google Patents

Abstract

The invention discloses a dehydration device for green medicine production and treatment, which comprises a device fixing frame, wherein the bottom of the device fixing frame is fixedly connected with a centrifugal motor fixing frame, a centrifugal motor is fixedly connected inside the centrifugal motor fixing frame, the output end of the centrifugal motor is fixedly connected with a transmission bearing, the top of the device fixing frame is fixedly connected with a device cabin body, the middle position of the bottom of the device cabin body is fixedly connected with a first fixed bearing, and one side of the bottom of the device cabin body is fixedly connected with a water storage pipe. The device can collect the centrifuged water by the device cabin body, the device cabin body and the device cover body can be in a negative air pressure environment by the air pump, and the water is evaporated more quickly according to the lower air pressure and the lower boiling point of the water, so that the water is separated from the green medicament more thoroughly, and the separated water is discharged through the water storage pipe and the water outlet valve.

Description

Green medicine production handles and uses dewatering device

Technical Field

The invention relates to the technical field of a dehydrating device for green medicine production and treatment, in particular to a dehydrating device for green medicine production and treatment.

Background

The green medicine is a novel medicine application mode for daily medical treatment and health care of people by using medicinal plants and medicinal plants with curative effects and preparations thereof, the treatment concept conforms to the traditional Chinese medicine conditioning concept in China, the requirements of people on healthy life are met, the green medicine is produced and manufactured by the medicinal plants, the negative influence on the body when western medicines are applied is avoided, the health care effect is achieved, the effect of promoting new drug-resistant strains is avoided, and the green medicine has great significance for the current treatment situation of frequent application of antibiotics in China.

Green medicine comes from the plant, need process, purification, ratio and the production flow of neutralization to medicinal plant and preparation, need wash medicinal plant when carrying out preliminary working, clears away impurity and dirty thing that the plant brought from picking the environment, and the indispensable will dewater the plant after wasing for can not cause the pollution to the purification thing in guaranteeing next purification.

Most of the traditional dehydration modes are drying in the shade or airing, so that branches and leaves rich in the plants can run off, part of medicinal plants have strict requirements on storage environment and temperature, and the freshness also influences the quality of purified products, so the traditional dehydration modes are gradually replaced by modern industrial dehydration.

The mode of modern industrial dehydration is mostly centrifugal dehydration, press dehydration and intensification dehydration, centrifugal dehydration dewaters thoroughly easily, and let the plant collision each other because the rotation in the dehydration process easily, cause the plant fracture, reduce the output of purification thing, press dehydration destroys the cell of plant easily, influence the article looks of dehydration back plant, reduce the output of purification thing, intensification dehydration can change the temperature, destroy the effective material in the plant, reduce the output of purification thing, three kinds of current purification modes all have the shortcoming of different aspect, therefore, for solving above-mentioned problem, provide a dewatering device for green medicine production and treatment.

Disclosure of Invention

The invention aims to provide a dehydration device for green medicine production and treatment, which solves the problems that the existing green medicine dehydration device in the background art cannot dehydrate completely when in use, damages the integrity of plants in the dehydration process, and the temperature environment of dehydration influences the subsequent purification rate of the plants.

In order to achieve the purpose, the invention provides the following technical scheme: a dewatering device for green medicine production and treatment comprises a device fixing frame, wherein the bottom of the device fixing frame is fixedly connected with a centrifugal motor fixing frame, a centrifugal motor is fixedly connected inside the centrifugal motor fixing frame, the output end of the centrifugal motor is fixedly connected with a transmission bearing, the top of the device fixing frame is fixedly connected with a device cabin body, the middle position of the bottom of the device cabin body is fixedly connected with a first fixed bearing, one side of the bottom of the device cabin body is fixedly connected with a water storage pipe, one end of the water storage pipe, away from the device cabin body, is provided with a water outlet valve, one end of the device cabin body is fixedly connected with an air exhaust pipeline, one end of the air exhaust pipeline, away from the device cabin body, is provided with an air exhaust pump, one side of the device cabin body is fixedly connected with a lower hinged seat, one end of the lower hinged seat, away from, and the top of the device cabin chuck is provided with a rubber gasket, a device cover body is sleeved above the top of the device cabin body, a barometer is arranged above the device cover body, a drying agent pipe is arranged above the device cover body, an air inlet valve is fixedly connected above the drying agent pipe, a second fixing bearing is fixedly connected to the top of the device cover body, an upper hinge seat is arranged on one side of the device cover body, a transmission rotating rod is sleeved inside the second fixing bearing, the top end of the transmission rotating rod is fixedly connected with a cover body rotating switch, the bottom of the transmission rotating rod is fixedly connected with a cover body clamping groove connecting piece, the bottom edge of the cover body clamping groove connecting piece is provided with a cover body clamping groove, the bottom end of the transmission rotating rod is fixedly connected with a connecting bearing, the bottom of the connecting bearing is fixedly connected with a limiting telescopic rod, and the, the centrifugal cabin cover is characterized in that a gas cabin fixing rod is vertically arranged in the middle of the inside of the centrifugal cabin cover, a gas cabin is arranged in the middle of the gas cabin fixing rod, an air bag pipe is arranged outside the gas cabin, a centrifugal cabin base is sleeved on the bottom side of the bottom end of the centrifugal cabin cover, an infiltration membrane is arranged inside the centrifugal cabin base, and a cross-shaped clamping head is arranged at the bottom of the centrifugal cabin base.

Preferably, the external diameter of drive bearing and first fixed bearing's internal diameter looks adaptation, first fixed bearing has seal structure, drive bearing inserts and establishes the inside cross dop that drives the top and set up of first fixed bearing and rotates in the device cabin body is inside.

Preferably, the one end that the device cabin body was kept away from to articulated seat down sets up to the pipe of bending, the one end that the device lid was kept away from to articulated seat on sets up to the pipe of bending, the size of a dimension looks adaptation of articulated seat and last articulated seat down, and carry out articulated each other through articulated seat down, articulated seat constitutes articulated the connection with last articulated seat down.

Preferably, the inside of device cabin dop is provided with the dop, the inside of lid draw-in groove is provided with the draw-in groove, dop and draw-in groove looks adaptation, under the device lid closed state, the dop position is less than the draw-in groove, and lets the device lid constitute seal structure through rubber packing ring and the device cabin body.

Preferably, the outer diameter of the second fixing bearing is matched with the inner diameter of the transmission rotating rod, the second fixing bearing and the transmission rotating rod form sealed rotating connection, the metal plate of the cover rotating switch can drive the transmission rotating rod to rotate inside the second fixing bearing, and the rotation of the transmission rotating rod drives the cover body clamping groove connecting piece and the cover body clamping groove which are fixedly connected with the bottom of the transmission rotating rod to rotate.

Preferably, the connecting bearing is arranged to be connected with the transmission rotating rod through the top outer bearing tube, the connecting bearing is arranged to be connected with the bottom inner bearing tube through the limiting telescopic rod, the connecting bearing can rotate along with the limiting telescopic rod, and the transmission rotating rod cannot be driven to rotate.

Preferably, an arc-shaped groove is formed in the bottom end of the centrifugal cabin cover, an arc-shaped convex groove is formed in the top end of the centrifugal cabin base, the groove formed in the centrifugal cabin cover is matched with the convex groove formed in the centrifugal cabin base, the centrifugal cabin cover is clamped on the upper portion of the centrifugal cabin base, the centrifugal cabin base can rotate to drive the centrifugal cabin cover to rotate, infiltration membranes are arranged on the inner walls of the centrifugal cabin cover and the centrifugal cabin base, the centrifugal cabin cover and the centrifugal cabin base are made of water-permeable materials, and the infiltration membranes are made of drugs smaller than dehydrated and larger than water.

Preferably, the gas chamber dead lever sets up to have the pillar in the middle of having, and both ends are provided with the fixed block, the hollow gasbag of middle part annular, the gasbag pipe sets up to elastic rubber tube, the both ends and the gas chamber dead lever sealing connection of gasbag pipe, the inside air that sets up to standard atmospheric pressure of gas chamber, the confined space that the device cabin body and device lid constitute is in the negative pressure state after the aspiration pump starts, and the gas chamber can lead to the expansion of gasbag pipe with outside atmospheric pressure difference.

Preferably, the bottom of the centrifugal cabin base is provided with a groove, the cross chuck is arranged as a convex groove, the convex groove of the cross chuck is matched with the groove at the bottom of the centrifugal cabin base, the bottom of the cross chuck is fixedly connected with the transmission bearing, and the transmission bearing can rotate through the clamping of the cross chuck and the centrifugal cabin base and the rotation of the centrifugal cabin base and the centrifugal cabin cover.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the centrifugal dehydration device, the centrifugal motor is arranged to drive the centrifugal cabin cover and the centrifugal cabin base to rotate, the green medicines placed in the centrifugal cabin cover and the centrifugal cabin base are subjected to centrifugal dehydration treatment, the centrifuged water can be filtered by arranging the infiltration membrane, the water and the green medicines are separated, the centrifugal cabin cover and the centrifugal cabin base can keep a collision state in the rotating process by arranging the limiting telescopic rod, the green medicines in the centrifugal cabin cover and the centrifugal cabin base are prevented from slipping out, the device cabin body and the device cover body can be fixed more firmly by arranging the device cabin chuck and the cover body clamping groove, the sealing performance of the inner space of the device cabin body and the device cover body can be ensured by arranging the rubber gasket, and the device can be operated more conveniently and more firmly in the using process by arranging the transmission rotating rod and the cover body rotating switch;

2. according to the device, the air bin fixing rod, the air bin and the air bag pipe are arranged, the air bin is set to be in a normal air pressure environment, when the device is used, the air bag pipe is expanded due to a negative pressure environment formed by the device cabin body and the device cover body, and the inner spaces of the centrifugal cabin cover and the centrifugal cabin base are reduced due to the expansion of the air bag pipe, so that green plants placed inside the centrifugal cabin cover and the centrifugal cabin base are fixed, the integrity damage caused by the collision of green medicaments in the dehydration process is avoided, and the subsequent processing operation is facilitated;

3. the device can collect centrifuged water by arranging the device cabin body, the device cabin body and the device cover body can be in a negative air pressure environment by arranging the air suction pump, the water is evaporated more quickly according to the fact that the lower the air pressure is, the lower the boiling point of the water is, so that the water is separated from the green medicament more thoroughly, the separated water is discharged through the water storage pipe and the water outlet valve, the negative pressure state can be relieved after the green medicament is dehydrated by arranging the air inlet valve, the dryness of the outside air after entering the device cabin body and the device cover body can be ensured by arranging the drying agent pipe, and the moisture regain of the green medicament caused by the humidity of the environment is avoided;

description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic sectional elevation view of the structure of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is a schematic front perspective view of the structure of the cabin of the apparatus of the present invention;

FIG. 4 is a front perspective view of the cover of the device of the present invention;

FIG. 5 is a schematic structural front perspective view of a cover body slot connecting sheet according to the present invention;

FIG. 6 is a schematic front and bottom perspective view of the centrifugal lid of the present invention;

FIG. 7 is a schematic structural front and bottom perspective view of a centrifuge capsule base of the present invention;

fig. 8 is a front perspective view of the cross chuck according to the present invention.

In the figure: 1. a device mount; 2. a centrifugal motor fixing frame; 3. a centrifugal motor; 4. a drive bearing; 5. an apparatus cabin; 6. a first fixed bearing; 7. a water storage pipe; 8. a water outlet valve; 9. an air extraction pipeline; 10. an air pump; 11. a lower hinge base; 12. a hinge bearing; 13. a device compartment chuck; 14. a rubber gasket; 15. a device cover body; 16. a barometer; 17. a desiccant tube; 18. an intake valve; 19. a second fixed bearing; 20. an upper hinge base; 21. a transmission rotating rod; 22. a cover body rotating switch; 23. a cover body clamping groove connecting sheet; 24. a cover body clamping groove; 25. connecting a bearing; 26. limiting the telescopic rod; 27. a centrifugal hatch; 28. a gas bin fixing rod; 29. a gas bin; 30. a balloon tube; 31. a centrifuge capsule base; 32. filtering the membrane; 33. a cross chuck.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, an embodiment of the present invention: a dehydration device for green medicine production treatment comprises a device fixing frame 1, wherein the bottom of the device fixing frame 1 is fixedly connected with a centrifugal motor fixing frame 2, the interior of the centrifugal motor fixing frame 2 is fixedly connected with a centrifugal motor 3, the output end of the centrifugal motor 3 is fixedly connected with a transmission bearing 4, the outer diameter of the transmission bearing 4 is matched with the inner diameter of a first fixing bearing 6, the first fixing bearing 6 is provided with a sealing structure, the transmission bearing 4 is inserted in the first fixing bearing 6 to drive a cross chuck 33 arranged at the top to rotate in a device cabin body 5, the device main body can be supported by the device fixing frame 1, the centrifugal motor 3 can be supported by the centrifugal motor fixing frame 2, the transmission bearing 4 arranged at the top of the centrifugal motor 3 drives the cross chuck 33 to rotate, and the transmission bearing 4 can penetrate through the device cabin body 5 to rotate by the arrangement of the first fixing bearing 6, the first stationary bearing 6 has a sealing structure that ensures the sealing of the inner spaces of the apparatus casing 5 and the apparatus cover 15.

The top of the device fixing frame 1 is fixedly connected with a device cabin body 5, the middle position of the bottom of the device cabin body 5 is fixedly connected with a first fixing bearing 6, one side of the bottom of the device cabin body 5 is fixedly connected with a water storage pipe 7, one end of the water storage pipe 7, which is far away from the device cabin body 5, is provided with a water outlet valve 8, one end of the device cabin body 5 is fixedly connected with an air exhaust pipeline 9, one end of the air exhaust pipeline 9, which is far away from the device cabin body 5, is provided with an air exhaust pump 10, one side of the device cabin body 5 is fixedly connected with a lower hinged seat 11, one end of the lower hinged seat 11, which is far away from the device cabin body 5, is provided with a bent pipe, one end of the lower hinged seat 11, which is far away from the device cabin body 5, is inserted with a hinged bearing 12, the inner side of the top of the device, an air pressure gauge 16 is arranged above the device cover body 15, a drying agent pipe 17 is arranged above the device cover body 15, an air inlet valve 18 is fixedly connected above the drying agent pipe 17, a second fixed bearing 19 is fixedly connected at the top of the device cover body 15, an upper hinged seat 20 is arranged on one side of the device cover body 15, one end, far away from the device cover body 15, of the upper hinged seat 20 is provided with a bent pipe, the size of the lower hinged seat 11 is matched with that of the upper hinged seat 20, the lower hinged seat 11 is hinged with the upper hinged seat 20, the water storage pipe 7 is arranged to collect water centrifuged in use, the water outlet valve 8 is arranged to keep the sealing performance of the device cabin body 5 and the device cover body 15 in use, the water collected by the water storage pipe 7 can be discharged after use, and the air exhaust pipeline 9 and the air pump 10 are arranged, the interior of the device cabin body 5 and the device cover body 15 can be in a negative pressure state, the lower the air pressure is, the lower the boiling point of water is, the more rapid the water evaporation can be realized, thereby assisting the centrifugal dehydration, the more thorough the dehydration can be realized, the heat conductivity of air is weakened by reducing the air in the device cabin body 5 and the device cover body 15, the temperature transmission in the device cabin body 5 and the device cover body 15 is not easy to diffuse, the deterioration of medical drugs caused by temperature is reduced, the problem of the subsequent reduction of the purification rate is avoided, the device cabin body 5 and the device cover body 15 can be twisted and connected by arranging the lower hinge seat 11, the hinge bearing 12 and the upper hinge seat 20, the device cover body 15 and the device cabin body 5 can be tightly jointed by arranging the device cabin clamp 13 and the rubber gasket 14, the sealing performance is improved, and by arranging the barometer 16, the internal air pressure of the device cabin body 5 and the device cover body 15 can be visually observed, the internal air pressure of the device cabin body 5 and the device cover body 15 to the dehydration of medical drugs can be conveniently controlled, the negative pressure state of the internal air pressure of the device cabin body 5 and the device cover body 15 can be ensured in use through the arrangement of the air inlet valve 18, the negative pressure of the device can be relieved after the device is used, the device cabin body 5 and the device cover body 15 can be conveniently opened, the drying treatment can be carried out on the entering air in the air inlet process of the air inlet valve 18 through the arrangement of the drying agent pipe 17, and the dehydration effect on green drugs is prevented from being influenced by moisture existing in.

A transmission rotating rod 21 is sleeved in the second fixed bearing 19, the outer diameter of the second fixed bearing 19 is matched with the inner diameter of the transmission rotating rod 21, the second fixed bearing 19 and the transmission rotating rod 21 form a sealed rotary connection, the top end of the transmission rotating rod 21 is fixedly connected with a cover body rotating switch 22, the bottom of the transmission rotating rod 21 is fixedly connected with a cover body clamping groove connecting piece 23, the bottom edge of the cover body clamping groove connecting piece 23 is provided with a cover body clamping groove 24, the metal plate of the cover body rotating switch 22 can drive the transmission rotating rod 21 to rotate in the second fixed bearing 19, the rotation of the transmission rotating rod 21 drives the cover body clamping groove connecting piece 23 and the cover body clamping groove 24 which are fixedly connected at the bottom of the transmission rotating rod 21 to rotate, a clamping groove is arranged in the cover body clamping groove 24, a clamping head 13 of the device cabin is provided with the clamping groove matched with the clamping groove arranged in the cover body clamping groove 24, and, the device cover body 15 and the device cabin body 5 form a sealing structure through the rubber gasket 14, the sealing performance of the device cabin body 5 and the device cover body 15 can be ensured while the transmission rotating rod 21 can rotate in the second fixed bearing 19 by arranging the second fixed bearing 19, the transmission rotating rod 21 can rotate in the second fixed bearing 19 in a labor-saving manner by arranging the cover body rotating switch 22, the transmission rotating rod 21 can drive the cover body clamping groove 24 arranged at the edge of the cover body clamping groove connecting piece 23 to rotate by arranging the cover body clamping groove connecting piece 23, the clamping groove arranged on the cover body clamping groove 24 can be matched with the clamping head arranged on the device cabin clamping head 13, after the device cover body 15 is closed, the cover body clamping groove 24 passes through the clamping head arranged on the device cabin clamping head 13, the top of the cover body clamping groove 24 is attached to the bottom of the device cabin clamping head 13, and then the cover body rotating switch 22 is rotated, the device cabin clamping heads 13 and the cover body clamping grooves 24 are clamped and connected in a staggered manner under the driving of the transmission rotating rod 21, so that the device cabin body 5 and the device cover body 15 are kept fixedly sealed.

The bottom end of the transmission rotating rod 21 is fixedly connected with a connecting bearing 25, the bottom of the connecting bearing 25 is fixedly connected with a limiting telescopic rod 26, the bottom of the limiting telescopic rod 26 is fixedly connected with a centrifugal hatch cover 27, the bottom end of the centrifugal hatch cover 27 is provided with an arc-shaped groove, an air bin fixing rod 28 is vertically arranged in the middle of the inside of the centrifugal hatch cover 27, an air bin 29 is arranged in the middle of the air bin fixing rod 28, an air bag pipe 30 is arranged outside the air bin 29, the air bin fixing rod 28 is provided with a support pillar in the middle, fixing blocks are arranged at two ends of the air bin, an annular hollow air bag is arranged in the middle of the air bin, the air bag pipe 30 is arranged to be an elastic rubber pipe, two ends of the air bag pipe 30 are in sealing connection with the air bin fixing rod 28, air with standard air pressure is arranged inside the air bin 29, a sealing space formed by the device cabin body 5 and the device cover body 15 after the 21, a connecting bearing 25 is a bearing with a bottom end inner bearing tube connected with a limit telescopic rod 26, the connecting bearing 25 can rotate along with the limit telescopic rod 26 and can not drive the transmission rotating rod 21 to rotate, the centrifugal cabin cover 27 can be supported by the connecting bearing 25, the centrifugal cabin cover 27 and the centrifugal cabin base 31 can keep a state of interference, the top of the connecting bearing 25 is fixed at the bottom of the transmission rotating rod 21, the centrifugal cabin cover 27 and the centrifugal cabin base 31 can keep stable when rotating, the centrifugal cabin cover 27 and the infiltration membrane 32 can keep sealed by the limit telescopic rod 26, the air bag tube 30 can be supported by the air chamber fixing rod 28, the air chamber 29 with normal air pressure is arranged, the air pressure in the centrifugal cabin cover 27 and the centrifugal cabin base 31 is reduced when in use, the volume of the air chamber 29 is increased, and the air bag tube 30 is expanded, the expansion of gasbag pipe 30 can fill centrifugal cabin cover 27 and centrifugal cabin base 31's inner space, and the removal of the inside green medicine of restriction centrifugal cabin cover 27 and centrifugal cabin base 31 has avoided green medicine to produce collision and fracture in rotatory in-process, improves the quality after the green medicine dehydration and the purification rate of dehydration postprocessing, improves work efficiency and security.

The bottom of centrifugal cabin cover 27 is equipped with centrifugal cabin base 31 in the side cover, centrifugal cabin base 31 bottom is provided with the recess, centrifugal cabin base 31 top is provided with the arc tongue, and the inside of centrifugal cabin base 31 is provided with infiltration membrane 32, the recess that centrifugal cabin cover 27 set up and the tongue looks adaptation that centrifugal cabin base 31 set up, centrifugal cabin cover 27 card with behind centrifugal cabin base 31 upper portion, the rotation of centrifugal cabin base 31 can drive the rotation of centrifugal cabin cover 27, the inner wall of centrifugal cabin cover 27 and centrifugal cabin base 31 all is provided with infiltration membrane 32, and centrifugal cabin cover 27 and centrifugal cabin base 31 set up to the material that permeates water, infiltration membrane 32 sets up to have the medicine that is less than the dehydration, be greater than the infiltration membrane of the hole of water. Can carry out the centrifugation to green medicine through being provided with centrifugation cabin cover 27 and centrifugation cabin base 31, be the material that permeates water through setting up centrifugation cabin cover 27 and centrifugation cabin base 31, can let the water of centrifugation play enter into the inside of device cabin body 5 and device lid 15, can let the inside that the moisture of centrifugation play enters into the device cabin body 5 and device lid 15 through being provided with infiltration membrane 32 through centrifugation cabin cover 27 and centrifugation cabin base 31, impurity has been filtered simultaneously, avoid impurity to depend on the inside influence water permeability of 27 centrifugation cabin bases 31 of centrifugation cabin cover, infiltration membrane 32 sets up to the material that can breathe freely, can let the inside atmospheric pressure of centrifugation cabin cover 27 and centrifugation cabin base 31 keep the same with the device cabin body 5 and the inside of device lid 15, thereby improve the dehydration effect of green medicine.

The bottom of the centrifugal cabin base 31 is provided with a cross chuck 33, the cross chuck 33 is arranged into a convex groove, the convex groove of the cross chuck 33 is matched with the groove at the bottom of the centrifugal cabin base 31, the bottom of the cross chuck 33 is fixedly connected with the transmission bearing 4, the transmission bearing 4 can be rotated by clamping the cross chuck 33 and the centrifugal cabin base 31 and driving the centrifugal cabin base 31 and the centrifugal cabin cover 27 to rotate, so that the cross chuck 33 and the centrifugal cabin base 31 form clamping and connection, the disassembly and the cleaning are convenient, when in use, a proper amount of green medicine needing to be dehydrated can be placed in the centrifugal cabin base 31 firstly, then the green medicine is inserted on the cross chuck 33, then the device cabin body 5 and the device cover body 15 are closed, the closing of the device cabin body 5 and the device cover body 15 can drive the centrifugal cabin cover 27 and the centrifugal cabin base 31 to be closed, then the air suction pump 10 is opened, and the air in the device cabin body 5 and the, after the air bag pipe 30 is drawn to a certain degree, the air bag pipe expands due to pressure difference, green plants in the centrifugal cabin cover 27 and the centrifugal cabin base 31 are fixed, and then the centrifugal motor 3 is started to carry out centrifugal dehydration.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a green medicine production is handled and is used dewatering device, includes device mount (1), its characterized in that: the device comprises a device fixing frame (1), wherein the bottom of the device fixing frame (1) is fixedly connected with a centrifugal motor fixing frame (2), the inside of the centrifugal motor fixing frame (2) is fixedly connected with a centrifugal motor (3), the output end of the centrifugal motor (3) is fixedly connected with a transmission bearing (4), the top of the device fixing frame (1) is fixedly connected with a device cabin body (5), the middle position of the bottom of the device cabin body (5) is fixedly connected with a first fixing bearing (6), one side of the bottom of the device cabin body (5) is fixedly connected with a water storage pipe (7), one end, away from the device cabin body (5), of the water storage pipe (7) is provided with a water outlet valve (8), one end of the device cabin body (5) is fixedly connected with an air exhaust pipeline (9), one end, away from the device cabin body (5), of the air exhaust pipeline (9) is provided with an air pump, and one end of the lower hinged seat (11) far away from the device cabin body (5) is inserted with a hinged bearing (12), the top inner side of the device cabin body (5) is fixedly connected with a device cabin clamping head (13), the top of the device cabin clamping head (13) is provided with a rubber gasket (14), a device cover body (15) is sleeved above the top of the device cabin body (5), a barometer (16) is arranged above the device cover body (15), a drying agent pipe (17) is arranged above the device cover body (15), an air inlet valve (18) is fixedly connected above the drying agent pipe (17), a second fixed bearing (19) is fixedly connected at the top of the device cover body (15), an upper hinged seat (20) is arranged at one side of the device cover body (15), a transmission rotating rod (21) is sleeved inside the second fixed bearing (19), and a cover body rotating switch (22) is fixedly connected at the top end of the transmission rotating rod (21), the bottom of the transmission rotating rod (21) is fixedly connected with a cover body clamping groove connecting sheet (23), and the bottom edge of the cover body clamping groove connecting sheet (23) is provided with a cover body clamping groove (24), the bottom end of the transmission rotating rod (21) is fixedly connected with a connecting bearing (25), the bottom of the connecting bearing (25) is fixedly connected with a limiting telescopic rod (26), and the bottom of the limit telescopic rod (26) is fixedly connected with a centrifugal hatch cover (27), an air chamber fixing rod (28) is vertically arranged in the middle of the inner part of the centrifugal chamber cover (27), an air chamber (29) is arranged in the middle of the air chamber fixing rod (28), an air bag pipe (30) is arranged outside the air bin (29), a centrifugal bin base (31) is sleeved on the bottom side of the bottom end of the centrifugal bin cover (27), and the inside of the centrifugal chamber base (31) is provided with a percolating membrane (32), and the bottom of the centrifugal chamber base (31) is provided with a cross chuck (33).

2. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: the external diameter of transmission bearing (4) and the internal diameter looks adaptation of first fixed bearing (6), first fixed bearing (6) have seal structure, transmission bearing (4) are inserted and are established and are driven cross dop (33) that the top set up in first fixed bearing (6) inside and rotate in the device cabin body (5) is inside.

3. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: the one end that the device cabin body (5) was kept away from to articulated seat (11) down sets up to the pipe of bending, the one end that the device lid (15) was kept away from to last articulated seat (20) sets up to the pipe of bending, the size of a dimension looks adaptation of articulated seat (11) and last articulated seat (20) down, and carry out articulated each other through articulated seat (11) down, articulated seat (11) constitute articulated the connection with last articulated seat (20) down.

4. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: the inside of device cabin dop (13) is provided with the dop, the inside of lid draw-in groove (24) is provided with the draw-in groove, dop and draw-in groove looks adaptation, under device lid (15) closed state, the dop position is less than the draw-in groove, and lets device lid (15) constitute seal structure through rubber packing ring (14) and the device cabin body (5).

5. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: the outer diameter of the second fixed bearing (19) is matched with the inner diameter of the transmission rotating rod (21), the second fixed bearing (19) and the transmission rotating rod (21) form sealed rotating connection, the cover body rotating switch (22) can drive the transmission rotating rod (21) to rotate inside the second fixed bearing (19), and the rotation of the transmission rotating rod (21) drives the cover body clamping groove connecting piece (23) and the cover body clamping groove (24) which are fixedly connected with the bottom of the transmission rotating rod (21) to rotate.

6. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: the connecting bearing (25) is arranged to be connected with the transmission rotating rod (21) through the top outer bearing tube, the connecting bearing (25) is arranged to be connected with the bottom inner bearing tube through the limiting telescopic rod (26), the connecting bearing (25) can rotate along with the limiting telescopic rod (26), and the transmission rotating rod (21) cannot be driven to rotate.

7. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: the centrifugal filter is characterized in that an arc-shaped groove is formed in the bottom end of the centrifugal hatch cover (27), an arc-shaped convex groove is formed in the top end of the centrifugal hatch base (31), the groove formed in the centrifugal hatch cover (27) is matched with the convex groove formed in the centrifugal hatch base (31), the centrifugal hatch cover (27) is clamped behind the upper portion of the centrifugal hatch base (31), the centrifugal hatch cover (27) can be driven to rotate by rotation of the centrifugal hatch cover (31), the inner walls of the centrifugal hatch cover (27) and the centrifugal hatch base (31) are provided with infiltration membranes (32), the centrifugal hatch cover (27) and the centrifugal hatch base (31) are made of water-permeable materials, and the infiltration membranes (32) are made of drugs smaller than dehydrated and are larger than infiltration membranes of holes of water.

8. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: gas storehouse dead lever (28) set up to have the pillar in the middle of having, and both ends are provided with the fixed block, the hollow gasbag of middle part annular, gasbag pipe (30) set up to elastic rubber tube, the both ends and the gas storehouse dead lever (28) sealing connection of gasbag pipe (30), the inside air that sets up to standard atmospheric pressure of gas storehouse (29), the confined space that sets up the cabin body (5) and device lid (15) constitution after aspiration pump (10) start is in the negative pressure state, and the atmospheric pressure difference of gas storehouse (29) and outside can lead to the inflation of gasbag pipe (30) to enlarge.

9. The dehydration apparatus for green medicine production and processing according to claim 1, wherein: centrifugal chamber base (31) bottom is provided with the recess, cross dop (33) set up to the tongue, and the tongue of cross dop (33) and the recess looks adaptation of centrifugal chamber base (31) bottom, cross dop (33) bottom and driving bearing (4) fixed connection, the card of rotation accessible cross dop (33) and centrifugal chamber base (31) of driving bearing (4) and drive centrifugal chamber base (31) and centrifugal cabin lid (27) and rotate.

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