阅读说明：本技术 用于中药成分进行检测的离心分离装置、方法和应用 (Centrifugal separation device, method and application for detecting traditional Chinese medicine components ) 是由 李海燕 于 2021-07-13 设计创作，主要内容包括：一种用于中药成分进行检测的离心分离装置、方法和应用,包含有用于作为支撑体的箱壳(1)、设置在箱壳(1)上的定子芯轴(2)、设置在定子芯轴(2)上的转子套轴(3)、设置在转子套轴(3)上的试管压紧装置、设置在定子芯轴(2)和转子套轴(3)之间的绕线组装置、设置在绕线组装置和转子套轴(3)之间的电极环组(8),通过箱壳(1),实现了对定子芯轴(2)的支撑,通过定子芯轴(2)、转子套轴(3)、绕线组装置和电极环组(8),实现了盘轴离心转动,通过试管压紧装置,实现了对离心试管的夹紧,因此提高了对进行检测的中药成分离心分离效果。(A centrifugal separation device, a method and an application for detecting traditional Chinese medicine components comprise a box shell (1) used as a support body, a stator core shaft (2) arranged on the box shell (1), a rotor sleeve shaft (3) arranged on the stator core shaft (2), a test tube pressing device arranged on the rotor sleeve shaft (3), a winding group device arranged between the stator core shaft (2) and the rotor sleeve shaft (3), and an electrode ring group (8) arranged between the winding group device and the rotor sleeve shaft (3), the stator core shaft (2) is supported by the box shell (1), the disc shaft is centrifugally rotated by the stator core shaft (2), the rotor sleeve shaft (3), the winding group device and the electrode ring group (8), through test tube closing device, realized pressing from both sides tightly to the centrifugal test tube, consequently improved the traditional chinese medicine composition centrifugation effect to carrying out the detection.)

1. A centrifugal separation device for detecting traditional Chinese medicine components is characterized in that: include and be used for case shell (1) as the supporter, set up stator dabber (2) on case shell (1), rotor sleeve (3) of setting on stator dabber (2), set up test tube closing device on rotor sleeve (3), set up the wire winding group device between stator dabber (2) and rotor sleeve (3), set up electrode ring group (8) between wire winding group device and rotor sleeve (3).

2. The centrifugal separation device for detecting Chinese herbal medicine components according to claim 1, wherein: according to the way that the disc shaft rotates centrifugally, a box shell (1), a stator core shaft (2), a rotor sleeve shaft (3), a test tube pressing device, a winding group device and an electrode ring group (8) are connected with one another.

3. The centrifugal separation device for detecting Chinese herbal medicine components according to claim 2, wherein: the stator core shaft (2), the rotor sleeve shaft (3), the winding group device and the electrode ring group (8) are connected with the box shell (1) and the test tube pressing device in a manner of generating centrifugal rotation of the disc shaft by magnetic excitation.

4. The centrifugal separation device for detecting Chinese herbal medicine components according to claim 1, wherein: the test tube pressing device comprises a pressing plate (94) and a screw rod (95),

or, the winding group device is provided to contain a first exciting coil (5) and a first primary coil (90),

or, a first accessory device is also included and arranged between the rotor sleeve shaft (3) and the housing (1), the first accessory device is arranged to include the stator ring (4), the second excitation coil (6) and the second primary coil (7),

or, a second accessory device is also included and arranged between the electrode ring group (8) and the box shell (1), the first accessory device is arranged as an electrode plate group (9),

or, a third accessory device is also included and is arranged between the rotor sleeve shaft (3) and the box shell (1), the third accessory device is arranged to include a first brake block (91), a second brake block (92) and an electric push rod (93),

or, a fourth attachment means is included and arranged between the rotor sleeve shaft (3) and the stator core shaft (2), the fourth attachment means being arranged as a support nut (96),

or, a fifth accessory device is further included and is arranged on the winding set device and the first accessory device, and the fifth accessory device is arranged as the motor winding frame.

5. The centrifugal separation device for detecting Chinese herbal medicine components according to claim 4, wherein: a stator mandrel (2), a stator ring (4) and an electric push rod (93) are respectively arranged on a box shell (1), a rotor sleeve shaft (3) is arranged on the stator mandrel (2), a support nut (96) is arranged between the rotor sleeve shaft (3) and the stator mandrel (2), a first excitation coil (5) and a first primary coil (90) are respectively arranged between the rotor sleeve shaft (3) and the stator mandrel (2), a second excitation coil (6) and a second primary coil (7) are respectively arranged between the stator ring (4) and the stator mandrel (2), an electrode ring group (8), a second brake disc (92) and a screw rod (95) are respectively arranged on the rotor sleeve shaft (3), an electrode plate group (9) is arranged between the electrode ring group (8) and the box shell (1), a first brake disc (91) is arranged between the second brake disc (92) and the electric push rod (93), and a pressure plate is arranged between the screw rod (95) and the rotor sleeve shaft (3) (94) The first excitation coil (5) and the second excitation coil (6) are arranged in connection with the electrode ring group (8).

6. The centrifugal separation device for detecting Chinese herbal medicine components according to claim 5, wherein: the box shell (1) is set to comprise a barrel part (11) and a supporting part (12), the lower end face part of the barrel part (11) is connected with the supporting part (12), mounting hole bodies (13) are respectively arranged in the middle parts of the upper end face and the lower end face of the barrel part (11), leakage windows (14) are arranged on the peripheral side face part of the barrel part (11), the mounting hole bodies (13) are connected with the stator core shaft (2) and the inner walls of the upper end face of the barrel part (11) are respectively connected with the electrode plate group (9) and the electric push rod (93), the inner walls of the peripheral side face of the barrel part (11) are connected with the stator ring (4) and the barrel part (11) is set to be a circular box body, the supporting part (12) is set to be a trapezoid block and the mounting hole bodies (13) are set to be a circular hole body, the leakage windows (14) are set to be a rectangular hole body and the supporting part (12) and the leakage windows (14) are respectively arranged to be distributed at intervals along the peripheral line of the barrel part (11),

or, an expansion shaft part (23) is arranged in the middle of the shaft part (21) of the stator core shaft (2) and a first containing hole body (22) is arranged at the upper end head of the shaft part (21), the ends of the shaft part (21) are respectively connected with the box shell (1) and the shaft part (21) is connected with the rotor sleeve shaft (3) in a penetrating way, the lower end head of the shaft part (21) is connected with a supporting nut (96) in a threaded way and the expansion shaft part (23) is connected with the first primary coil (90), the first containing hole body (22) is connected with the end head of the first primary coil (90) and the shaft part (21) and the expansion shaft part (23) are distributed in a middle-shaped shaft body, the first containing hole body (22) is arranged in an L-shaped hole body,

or, a first annular groove body (32) is arranged in the middle of the inner wall of a sleeve part (31) of the rotor sleeve shaft (3) and a second annular groove body (33) is arranged in the middle of the outer wall of the sleeve part (31), a third annular groove body (34) is arranged at the end part of the outer wall of the sleeve part (31) and a second containing hole body group (35) is arranged at the upper end of the sleeve part (31), the sleeve part (31) is connected with the stator core shaft (2) in a sleeved mode, the lower end surface part of the sleeve part (31) is connected with a support nut (96) in a contact mode, the first annular groove body (32) is connected with a first magnet exciting coil (5) in a contained mode, the third annular groove body (34) is connected with a second magnet exciting coil (6) in a contained mode, and the second annular groove bodies (33) are respectively connected with a pressure plate (94) and a screw rod (95) in a contained mode, the upper end face part of the inner wall of the second annular groove body (33) is in threaded connection with a screw rod (95), the upper end face part of the inner wall of the second annular groove body (33) is in contact connection with a pressing plate (94), the upper end head of the sleeve part (31) is in serial connection with the electrode ring group (8), the second containing hole body group (35) is respectively in connection with the head of the first excitation coil (5) and the head of the second excitation coil (6), the outer end face part of the third annular groove body (34) is in containing connection with the second braking piece (92), the sleeve part (31) is in a step cylinder body, the first annular groove body (32) is in a U-shaped annular groove body, the second annular groove body (33) is in an L-shaped annular groove body, an accommodating opening groove body (36) is arranged on the vertical part of the second annular groove body (33), and the third annular groove body (34) is in a Y-shaped annular groove body, the containing hole body of the second containing hole body group (35) is set to be an L-shaped hole body and the second containing hole body group (35) is set to be distributed corresponding to the first magnet exciting coil (5) and the second magnet exciting coil (6), the containing opening groove body (36) is set to be an arc-shaped groove body and the containing opening groove body (36) is set to be connected with the centrifugal test tube in a containing mode,

or, a first primary coil (90) and a second primary coil (7) are respectively set as motor stator windings and a first excitation coil (5) and a second excitation coil (6) are respectively set as motor rotor windings, the first primary coil (90) is set on the stator mandrel (2) and the second primary coil (7) is set on the stator ring (4), the first excitation coil (5) and the second excitation coil (6) are respectively set on the rotor sleeve shaft (3) and the end of the first excitation coil (5) and the end of the second excitation coil (6) are respectively set to be coupled with the electrode ring group (8), the end of the first primary coil (90) and the end of the second primary coil (7) are respectively set to be coupled with an external power supply interface through a switch and the first excitation coil (5) is set to be distributed corresponding to the first primary coil (90), the second excitation coil (6) is set to be distributed corresponding to the second primary coil (7),

or the electrode rings of the electrode ring group (8) are arranged into a copper ring body, the electrode ring group (8) is arranged into a sleeved connection with the rotor sleeve shaft (3), a first electrode ring of the electrode ring group (8) is arranged into a connection with the first excitation coil (5) and a second electrode ring of the electrode ring group (8) is arranged into a connection with the second excitation coil (6), the outer peripheral side surface part of the electrode rings of the electrode ring group (8) is arranged into a contact connection with the electrode plate group (9),

or the stator ring (4) is arranged into a circular ring body and the side surface part of the outer periphery of the stator ring (4) is arranged to be coupled with the case (1), the inner wall of the stator ring (4) is arranged to be coupled with the second primary coil (7),

or the electrode plate of the electrode plate group (9) is arranged into an L-shaped sheet body, the transverse part of the electrode plate group (9) is connected with the box shell (1), the vertical part of the electrode plate group (9) is provided with a contact point, the contact point of the electrode plate group (9) is connected with the electrode ring of the electrode ring group (8), the transverse part of the electrode plate group (9) is arranged into an interface with an external power supply through a switch, and the electrode plate group (9) is arranged into a distribution corresponding to the electrode ring group (8),

or the screw rod (95) is set to be a flat-head bolt, the screw rod (95) is set to be in threaded connection with the rotor sleeve shaft (3), the inner end head of the screw rod (95) is set to be in serial connection with the pressure plate (94) and the outer flange end head of the screw rod (95) is set to be in contact connection with the pressure plate (94),

or the pressing plate (94) is set to be an L-shaped sheet body and a long hole body is arranged at the transverse part of the pressing plate (94), the long hole body of the pressing plate (94) is set to be connected with the screw rod (95) in a sleeved mode and the end surface part of the outer end of the transverse part of the pressing plate (94) is set to be connected with the screw rod (95) in a contact mode, the end surface part of the inner end of the transverse part of the pressing plate (94) is set to be connected with the rotor sleeve shaft (3) in a contact mode and the vertical part of the pressing plate (94) is set to be distributed in an arc-shaped sheet shape, the vertical part of the pressing plate (94) is set to be connected with the centrifugal test tube in a contact mode,

or the second brake plate (92) is arranged to be an annular friction plate and the second brake plate (92) is arranged to be in embedded connection with the rotor sleeve shaft (3), the second brake plate (92) is arranged to be distributed corresponding to the first brake plate (91) and the included angle alpha between the second brake plate (92) and the horizontal plane of the rotor sleeve shaft (3) is set to be 13-22 degrees,

or the first brake block (91) is arranged to be a rectangular friction block body and the first brake block (91) is arranged to be coupled with the electric push rod (93), the first brake block (91) is arranged to be distributed corresponding to the second brake block (92),

or the supporting nut (96) is set to be a hexagon nut and the supporting nut (96) is set to be in threaded connection with the stator core shaft (2), the upper end surface part of the supporting nut (96) is set to be in contact connection with the rotor sleeve shaft (3),

or one end of the electric push rod (93) is arranged to be connected with the box shell (1) and the other end of the electric push rod (93) is arranged to be connected with the first brake plate (91), the power interface of the electric push rod (93) is arranged to be connected with an external power interface through a switch,

or the case shell (1), the stator mandrel (2), the rotor sleeve shaft (3), the first magnet exciting coil (5), the first primary coil (90), the electrode ring group (8), the electrode plate group (9), the pressing plate (94) and the screw (95) are distributed in a centrifugal motion mode according to a rotating shaft, the case shell (1), the stator mandrel (2), the rotor sleeve shaft (3), the first magnet exciting coil (5), the first primary coil (90), the electrode ring group (8), the electrode plate group (9), the pressing plate (94), the screw (95), the stator ring (4), the second magnet exciting coil (6) and the second primary coil (7) are distributed in a secondary excitation driving mode, and the case shell (1), the stator mandrel (2), the rotor sleeve shaft (3), the first magnet exciting coil (5), the first primary coil (90), the electrode ring group (8), the electrode plate group (9), The pressure plate (94), the screw (95), the first brake pad (91), the second brake pad (92) and the electric push rod (93) are distributed in an end braking mode, the box shell (1), the stator mandrel (2), the rotor sleeve shaft (3), the first magnet exciting coil (5), the first primary coil (90), the electrode ring group (8), the electrode plate group (9), the pressure plate (94), the screw (95) and the support nut (96) are distributed in a single-end supporting mode, the central line of the box shell (1), the central line of the stator mandrel (2), the central line of the rotor sleeve shaft (3), the central line of the stator ring (4), the central line of the first magnet exciting coil (5), the central line of the second magnet exciting coil (6), the central line of the first primary coil (90), the central line of the second primary coil (7), the central line of the electrode ring group (8) and the central line of the support nut (96) are arranged on the same straight line, a stator ring (4), a second field coil (6) and a second primary coil (7) are arranged to constitute a set of secondary field driving parts and the sets of secondary field driving parts are arranged to be spaced apart along a vertical center line of the rotor sleeve (3), a first stopper (91), a second stopper (92) and an electric push rod (93) are arranged to constitute a set of end stopper parts and at least three sets of end stopper parts are arranged at an upper end surface portion of the rotor sleeve (3), at least three sets of end stopper parts are arranged at a lower end surface portion of the rotor sleeve (3), a pressing plate (94) and a screw (95) are arranged to constitute a set of centrifugal test tube fixing parts and three sets of centrifugal test tube fixing parts are arranged to be spaced apart along a circumferential line of the rotor sleeve (3), the sleeve portion (31) is arranged to be coupled with the shaft portion (21), the shaft portion (21) is provided to be coupled with the mounting hole body (13).

7. The centrifugal separation device for detecting Chinese herbal medicine components according to claim 5, wherein: the first excitation coil (5), the second excitation coil (6), the first primary coil (90) and the second primary coil (7) are respectively arranged on a motor winding frame, the motor winding frame located on the first excitation coil (5) is arranged on the first annular groove body (32), the motor winding frame located on the second excitation coil (6) is arranged on the third annular groove body (34), the motor winding frame located on the first primary coil (90) is arranged on the expansion shaft portion (23), and the motor winding frame located on the second primary coil (7) is arranged on the stator ring (4).

8. A centrifugal separation method for detecting traditional Chinese medicine components is characterized by comprising the following steps: the method comprises the following steps: realized the support to stator dabber (2) by case shell (1), realized the dish axle centrifugation by stator dabber (2), rotor sleeve axle (3), wire winding group device and electrode ring group (8) and rotated, realized pressing from both sides tightly to the centrifugation test tube by test tube closing device.

9. The centrifugal separation method for detecting Chinese medicinal components according to claim 5, wherein: the method comprises the following steps: the screw rod (95) is enabled to rotate on the upper end face part of the inner wall of the second annular groove body (33), the screw rod (95) is in a loose state, the pressing plate (94) is moved outwards through the long hole body of the pressing plate (94), a centrifugal test tube containing traditional Chinese medicine liquid to be detected is placed on the accommodating opening groove body (36) through the leakage window (14), the pressing plate (94) is moved inwards, the vertical part of the pressing plate (94) acts on the centrifugal test tube, the screw rod (95) is enabled to rotate in the opposite direction on the upper end face part of the inner wall of the second annular groove body (33), the screw rod (95) is tightly pressed, the centrifugal test tube is installed between the pressing plate (94) and the accommodating opening groove body (36), the first magnet exciting coil (5) is enabled to be communicated with an external power supply interface through the electrode ring group (8) and the electrode plate group (9) through a switch, the first primary coil (90) is communicated with the external power supply interface, the sleeve part (31) is rotated on the shaft part (21) to perform centrifugal separation processing on the centrifugal test tube, when the switch is used, the second magnet exciting coil (6) is communicated with the external power interface through the electrode ring group (8) and the electrode plate group (9), the second primary coil (7) is communicated with the external power interface, the sleeve part (31) is rotated at an increased speed on the shaft part (21), the rotating speed of the centrifugal test tube is improved, after the centrifugal separation treatment of the centrifugal test tube is finished, the electric push rod (93) is in an extension state through a switch, the first brake block (91) acts on the second brake block (92), the sleeve part (31) is in a stop state by the friction force between the first brake piece (91) and the second brake piece (92), and the pressing plate (94) is moved outwards by the loosening state of the screw rod (95), so that the centrifugal test tube is taken out from between the pressing plate (94) and the accommodating opening groove body (36).

10. A centrifugal separation device and method for detecting Chinese medicinal components are used for carrying out centrifugal separation on Chinese medicinal component detection solution of Chinese medicinal preparation for treating hypertension, which contains 431g of ramulus Uncariae cum uncis, 340g of Prunellae Spica, 46g of fel Sus Domestica paste, 366g of herba Taxilli, 303g of Saviae Miltiorrhizae radix, 229g of semen plantaginis, 200g of rhizoma Ligustici Chuanxiong, 46g of Notoginseng radix, 300g of radix Stephaniae Tetrandrae and 300g of radix astragali.

Technical Field

The invention relates to a centrifugal separation device, a centrifugal separation method and application, in particular to a centrifugal separation device, a centrifugal separation method and application for detecting traditional Chinese medicine components.

Background

The Chinese traditional medicine theory is used for guiding the collection, processing and preparation, explaining the action mechanism and guiding the drugs for clinical application, which are collectively called as traditional Chinese medicines, the traditional Chinese medicines refer to substances for preventing, treating and diagnosing diseases and having the effects of rehabilitation and health care under the guidance of the Chinese traditional medicine theory, the traditional Chinese medicines are mainly derived from natural medicines and processed products thereof, including plant medicines, animal medicines, mineral medicines and partial chemical and biological products, so the centrifugal separation device, the method and the application for detecting the traditional Chinese medicine components are important detection devices, in the existing centrifugal separation device, the method and the application for detecting the traditional Chinese medicine components, a common centrifugal machine driven by a motor is also used, and the centrifugal separation effect of the traditional Chinese medicine components for detection is influenced due to the integration of the centrifugal machine and the motor by two independent parts,

similar patent documents are obtained by searching based on the technical book of the applicant at 6/15/2021, wherein the patent numbers are as follows: ZL201921457747.4 and the prior technical problems, technical characteristics and technical effects in the background art make the application technical proposal of the invention.

Disclosure of Invention

The object of the invention is a centrifugal separation device for detecting traditional Chinese medicine components,

the object of the invention is a centrifugal separation method for detecting the components of traditional Chinese medicine,

the invention aims to provide a centrifugal separation device for detecting traditional Chinese medicine components and application of the method.

In order to overcome the technical defects, the invention aims to provide a centrifugal separation device, a centrifugal separation method and application for detecting traditional Chinese medicine components, so that the centrifugal separation effect of the detected traditional Chinese medicine components is improved.

In order to achieve the purpose, the invention adopts the technical scheme that: the utility model provides a centrifugal separation device for chinese medicinal composition detects, includes the case shell that is used for as the supporter, sets up the stator dabber on the case shell, sets up at the epaxial test tube closing device of stator dabber, sets up at the epaxial test tube closing device of rotor sleeve, sets up the wire winding group device between stator dabber and rotor sleeve, sets up the electrode ring group between wire winding group device and rotor sleeve.

Owing to designed case shell, stator dabber, rotor sleeve, test tube closing device, wire winding group device and electrode ring group, through the case shell, realized the support to the stator dabber, through stator dabber, rotor sleeve, wire winding group device and electrode ring group, realized the dish axle centrifugation and rotated, through test tube closing device, realized pressing from both sides tight to the centrifugation test tube, consequently improved the traditional chinese medicine composition centrifugation separation effect to carrying out the detection.

The invention designs that a box shell, a stator core shaft, a rotor sleeve shaft, a test tube pressing device, a winding group device and an electrode ring group are connected with each other in a way that a disc shaft rotates centrifugally.

The invention designs that a stator core shaft, a rotor sleeve shaft, a winding group device and an electrode ring group are connected with a box shell and a test tube pressing device in a way of generating centrifugal rotation of a disc shaft by magnetic excitation.

The invention designs a test tube pressing device which comprises a pressing plate and a screw rod.

The invention designs that the winding group device is provided with a first excitation coil and a first primary coil.

The technical effects of the five technical schemes are as follows: the rotor sleeve shaft is used as a centrifugal shaft, so that centrifugal separation is realized in a high-speed state.

The invention contemplates that the apparatus further comprises a first accessory device disposed between the rotor sleeve and the housing, the first accessory device configured to include the stator ring, the second field coil, and the second primary coil.

The invention designs that the electrode plate box also comprises a second accessory device, the second accessory device is arranged between the electrode ring group and the box shell, and the first accessory device is arranged as the electrode plate group.

The invention designs that the device also comprises a third accessory device which is arranged between the rotor sleeve shaft and the box shell, and the third accessory device is arranged to comprise a first brake block, a second brake block and an electric push rod.

The invention contemplates that the apparatus further comprises a fourth attachment device disposed between the rotor sleeve shaft and the stator core shaft, the fourth attachment device being configured to support the nut.

The invention designs that the winding device further comprises a fifth accessory device, the fifth accessory device is arranged on the winding device and the first accessory device, and the fifth accessory device is arranged as a motor winding frame.

The technical effects of the five technical schemes are as follows: integrated mounting of other components is achieved.

The invention designs that a shell is respectively provided with a stator mandrel, a stator ring and an electric push rod, the stator mandrel is provided with a rotor sleeve shaft, a support nut is arranged between the rotor sleeve shaft and the stator mandrel, a first excitation coil and a first primary coil are respectively arranged between the rotor sleeve shaft and the stator mandrel, a second excitation coil and a second primary coil are respectively arranged between the stator ring and the stator mandrel, the rotor sleeve shaft is respectively provided with an electrode ring group, a second brake disc and a screw rod, an electrode plate group is arranged between the electrode ring group and the shell, a first brake disc is arranged between the second brake disc and the electric push rod, a pressure plate is arranged between the screw rod and the rotor sleeve shaft, and the first excitation coil and the second excitation coil are connected with the electrode ring group.

The technical effects of the technical scheme are as follows: the basic technical scheme of the invention is formed by a box shell, a stator mandrel, a rotor sleeve shaft, a stator ring, a first excitation coil, a second excitation coil, a first primary coil, a second primary coil, an electrode ring group, an electrode plate group, a first brake pad, a second brake pad, an electric push rod, a press plate, a screw rod and a support nut, and the technical problem of the invention is solved.

The invention designs that a box shell comprises a barrel part and a leg part, the lower end face part of the barrel part is connected with the leg part, the middle parts of the upper end face and the lower end face of the barrel part are respectively provided with a mounting hole body, the peripheral side face part of the barrel part is provided with a leakage window, the mounting hole body is connected with a stator mandrel, the inner wall of the upper end face of the barrel part is respectively connected with an electrode plate group and an electric push rod, the inner wall of the peripheral side face of the barrel part is connected with a stator ring, the barrel part is arranged into a circular box body, the leg part is arranged into a trapezoidal block body, the mounting hole body is arranged into a circular hole body, the leakage window is arranged into a rectangular hole body, and the leg part and the leakage window are respectively arranged into a distribution along the peripheral line of the barrel part at intervals.

The technical effects of the technical scheme are as follows: the accommodation and installation of other functional components are realized.

The invention designs that an expansion shaft part is arranged in the middle of a shaft part of a stator core shaft, a first containing hole body is arranged at the upper end of the shaft part, the ends of the shaft part are respectively connected with a box shell, the shaft part is connected with a rotor sleeve shaft in a penetrating and serial mode, the lower end of the shaft part is connected with a supporting nut in a threaded mode, the expansion shaft part is connected with a first primary coil, the first containing hole body is connected with the end of the first primary coil, the shaft part and the expansion shaft part are distributed in a middle-shaped shaft-shaped body, and the first containing hole body is arranged in an L-shaped hole-shaped body.

The technical effects of the technical scheme are as follows: the support carrier serving as a power coil is realized, and the requirement of supporting the rotary motion of the rotor sleeve shaft is met.

The invention designs that a first annular groove body is arranged in the middle of the inner wall of a sleeve part of a rotor sleeve shaft, a second annular groove body is arranged in the middle of the outer wall of the sleeve part, a third annular groove body is arranged at the end head part of the outer wall of the sleeve part, a second accommodating hole body group is arranged at the upper end head of the sleeve part, the sleeve part is connected with a stator core shaft in a sleeved mode, the lower end face part of the sleeve part is connected with a supporting nut in a contact mode, the first annular groove body is connected with a first excitation coil in an accommodating mode, the third annular groove body is connected with a second excitation coil in an accommodating mode, the second annular groove bodies are respectively connected with a pressing plate and a screw rod in an accommodating mode, the upper end face part of the inner wall of the second annular groove body is connected with the screw rod in a threaded mode, the upper end face part of the inner wall of the second annular groove body is connected with the electrode ring group in a penetrating-series mode, and the second accommodating hole body group is respectively arranged For the end hookup with first excitation coil and the end of second excitation coil, the outer end face portion of third annular cell body sets up to holding the formula hookup with the second braking piece and the sleeve portion sets up to the step tube-shaped body, first annular cell body sets up to U font annular groove body and second annular cell body sets up to L font annular groove body, be provided with on the vertical portion of second annular cell body and hold the opening cell body and the third annular cell body sets up to Y font annular groove body, the contained hole body of second contained hole body group sets up to L font hole body and second contained hole body group sets up to distribute with first excitation coil and second excitation coil corresponding, hold the opening cell body and set up to the arc wall-shaped body and hold the opening cell body and set up to holding the formula hookup with centrifugal test tube.

The technical effects of the technical scheme are as follows: the support carrier as multistage power coil has been realized, has realized that the centrifugation axle directly carries out the motion state under the excitation coil effect, has realized holding the installation to the window formula of centrifugation test tube.

The invention designs that a first primary coil and a second primary coil are respectively set as a motor stator winding, a first excitation coil and a second excitation coil are respectively set as a motor rotor winding, the first primary coil is arranged on a stator mandrel, the second primary coil is arranged on a stator ring, the first excitation coil and the second excitation coil are respectively arranged on a rotor sleeve shaft, the end head of the first excitation coil and the end head of the second excitation coil are respectively set to be connected with an electrode ring group, the end head of the first primary coil and the end head of the second primary coil are respectively set to be connected with an external power supply interface through a switch, the first excitation coil is set to be distributed corresponding to the first primary coil, and the second excitation coil is set to be distributed corresponding to the second primary coil.

The technical effects of the technical scheme are as follows: the multi-stage power coil is driven to rotate, and the rotating speed of the rotor sleeve shaft is increased.

The invention designs that the electrode rings of the electrode ring group are arranged into copper ring bodies and the electrode ring group is arranged into sleeved connection with the rotor sleeve shaft, a first electrode ring of the electrode ring group is arranged into connection with a first excitation coil and a second electrode ring of the electrode ring group is arranged into connection with a second excitation coil, and the side surface part of the outer periphery of the electrode rings of the electrode ring group is arranged into contact connection with the electrode plate group.

The invention designs that the electrode plates of the electrode plate group are arranged into L-shaped sheet bodies, the transverse parts of the electrode plates of the electrode plate group are connected with a box shell, contact points are arranged on the vertical parts of the electrode plates of the electrode plate group and are connected with electrode rings of an electrode ring group, the transverse parts of the electrode plates of the electrode plate group are connected with an external power supply interface through a switch, and the electrode plate group is distributed corresponding to the electrode ring group.

The technical effects of the two technical schemes are as follows: the first magnet exciting coil and the second magnet exciting coil are connected with the external power supply.

The invention provides that the stator ring is arranged as a circular ring-shaped body and the outer peripheral side face of the stator ring is arranged to be coupled with the case, and the inner wall of the stator ring is arranged to be coupled with the second primary coil.

The technical effects of the technical scheme are as follows: an annular support as a power coil is realized.

The invention designs that the screw is a flat-head bolt and is in threaded connection with the rotor sleeve shaft, the inner end of the screw is in through serial connection with the pressure plate, and the outer flange end of the screw is in contact connection with the pressure plate.

The invention designs that the pressing plate is arranged into an L-shaped sheet body, the transverse part of the pressing plate is provided with a long hole body, the long hole body of the pressing plate is sleeved and connected with the screw rod, the end surface part of the outer end of the transverse part of the pressing plate is in contact connection with the screw rod, the end surface part of the inner end of the transverse part of the pressing plate is in contact connection with the rotor sleeve shaft, the vertical parts of the pressing plate are distributed in an arc-shaped sheet shape, and the vertical parts of the pressing plate are in contact connection with the centrifugal test tube.

The technical effects of the two technical schemes are as follows: the clamping of the centrifugal test tube is realized, and the centrifugal test tube is ensured to be installed in the rotor sleeve shaft.

The invention designs that the second brake plate is arranged to be an annular friction plate and is arranged to be in embedded connection with the rotor sleeve shaft, the second brake plate is arranged to be distributed corresponding to the first brake plate, and an included angle alpha between the second brake plate and the transverse horizontal plane of the rotor sleeve shaft is 13-22 degrees.

The invention designs that the first brake block is arranged into a rectangular friction block body and is arranged to be coupled with the electric push rod, and the first brake block is arranged to be distributed corresponding to the second brake block.

The invention designs that one end head of the electric push rod is connected with the box shell, the other end head of the electric push rod is connected with the first brake disc, and a power supply interface of the electric push rod is connected with an external power supply interface through a switch.

The technical effects of the three technical schemes are as follows: the brake device realizes the multi-point end surface brake of the rotor sleeve shaft, shortens the brake time of the rotor sleeve shaft, and ensures that the mutual invasion depth of the first brake block and the second brake block is minimum in the brake process by setting the numerical value of the included angle alpha, thereby preventing dust from being generated in the brake process.

The invention designs that the supporting nut is a hexagon nut and is in threaded connection with the stator mandrel, and the upper end surface part of the supporting nut is in contact connection with the rotor sleeve.

The technical effects of the technical scheme are as follows: the height of the rotor sleeve shaft is adjusted, and the accuracy of the corresponding size between the first magnet exciting coil and the first primary coil and between the second magnet exciting coil and the second primary coil is guaranteed.

The invention designs a box shell, a stator mandrel, a rotor sleeve shaft, a first excitation coil, a first primary coil, an electrode ring group, an electrode plate group, a pressure plate and a screw rod which are distributed in a mode of carrying out centrifugal motion according to a rotating shaft, and the box shell, the stator mandrel, the rotor sleeve shaft, the first excitation coil, the first primary coil, the electrode ring group, the electrode plate group, the pressure plate, the screw rod and a stator ring, a second excitation coil and a second primary coil which are distributed in a mode of driving secondary excitation, wherein the box shell, the stator mandrel, the rotor sleeve shaft, the first excitation coil, the first primary coil, the electrode ring group, the electrode plate group, the pressure plate, the screw rod, a first brake disc, a second brake disc and an electric push rod which are distributed in a mode of end braking are arranged, and the box shell, the stator mandrel, the rotor sleeve shaft, the first excitation coil, the first primary coil, the electrode ring group, the electrode plate group, the pressure plate, the screw rod and the first brake disc, the second brake disc and the electric push rod are distributed in a mode of end braking, The pressure plate, the screw and the support nut are distributed according to a single end support mode, the center line of the box shell, the center line of the stator core shaft, the center line of the rotor sleeve shaft, the center line of the stator ring, the center line of the first excitation coil, the center line of the second excitation coil, the center line of the first primary coil, the center line of the second primary coil, the center line of the electrode ring group and the center line of the support nut are arranged on the same straight line, one stator ring, one second excitation coil and one second primary coil are arranged to form a group of secondary excitation driving parts, a plurality of groups of secondary excitation driving parts are arranged to be distributed at intervals along the vertical center line of the rotor sleeve shaft, one first brake disc, one second brake disc and one electric push rod are arranged to form a group of end braking parts, and at least three groups of end braking parts are arranged at the upper end face part of the rotor sleeve shaft, at least three end braking component of group set up in the lower extreme terminal surface portion of rotor sleeve axle, and a clamp plate and a screw rod set up to constitute a set of centrifugal test tube fixed part and three centrifugal test tube fixed part of group set up to arrange the distribution along the circumferential edge interval of rotor sleeve axle, and the sleeve part sets up to link with the axial region, and the axial region sets up to link with the mounting hole body.

The invention designs that a first excitation coil, a second excitation coil, a first primary coil and a second primary coil are respectively arranged on a motor winding frame, the motor winding frame positioned on the first excitation coil is arranged on a first annular groove body, the motor winding frame positioned on the second excitation coil is arranged on a third annular groove body, the motor winding frame positioned on the first primary coil is arranged on an expansion shaft part, and the motor winding frame positioned on the second primary coil is arranged on a stator ring.

The technical effects of the technical scheme are as follows: the frame support fixing of the first magnet exciting coil, the second magnet exciting coil, the first primary coil and the second primary coil is realized, and the performances of the first magnet exciting coil, the second magnet exciting coil, the first primary coil and the second primary coil are improved.

The invention designs a centrifugal separation method for detecting traditional Chinese medicine components, which comprises the following steps: realized the support to the stator dabber by the case shell, realized the dish axle centrifugation by stator dabber, rotor sleeve axle, wire winding group device and electrode ring group and rotated, realized pressing from both sides tightly to the centrifugal test tube by test tube closing device.

The invention designs that the method comprises the following steps: make the screw rod rotate on the inner wall upper end face portion of second annular cell body, the screw rod is in the unclamped state, the rectangular hole body through the clamp plate, move the clamp plate outwards, place the centrifugal test tube containing the traditional Chinese medicine liquid medicine that needs to be detected on the holding opening cell body through the leakage window, move the clamp plate inwards, the vertical part of clamp plate is used on the centrifugal test tube, make the screw rod rotate in the opposite direction on the inner wall upper end face portion of second annular cell body, to carrying out screw rod compaction, install the centrifugal test tube between clamp plate and holding opening cell body, through the switch, through electrode ring group and electrode plate group, make first excitation coil and external power source interface intercommunication, first primary coil and external power source interface intercommunication, make the sleeve part rotate on the axial region, carry out centrifugal separation processing to the centrifugal test tube, when passing through the switch, through electrode ring group and electrode plate group, make second excitation coil and external power source interface intercommunication, second primary coil and external power source interface intercommunication, make the sleeve pipe part carry out the rotation of speeding on the axial region, improve the slew velocity of centrifugal test tube, after accomplishing centrifugal test tube and carrying out centrifugal separation and handling, through the switch, make electric putter be in the extension state, make first braking piece effect on the second braking piece, through the frictional force between first braking piece and the second braking piece, make the sleeve pipe part be in the stop state, the rethread screw rod is in the unclamping state, outwards remove the clamp plate, take out the centrifugal test tube from between clamp plate and the holding opening cell body.

The invention designs a centrifugal separation device and a centrifugal separation method for detecting traditional Chinese medicine components, and the centrifugal separation device and the centrifugal separation method are applied to the centrifugal separation of traditional Chinese medicine component detection liquid of traditional Chinese medicine preparation for treating hypertension, which contains 431g of uncaria, 340g of selfheal, 46g of pig bile paste, 366g of loranthus parasiticus, 303g of salvia miltiorrhiza, 229g of plantain seed, 200g of ligusticum wallichii, 46g of pseudo-ginseng, 300g of radix stephaniae tetrandrae and 300g of astragalus membranaceus.

The technical effects of the technical scheme are as follows: in the working process, when the detection solution of the traditional Chinese medicine components for treating hypertension, which comprises 431g of uncaria, 340g of selfheal, 46g of pig bile paste, 366g of loranthus parasiticus, 303g of salvia miltiorrhiza, 229g of plantain seed, 200g of ligusticum wallichii, 46g of pseudo-ginseng, 300g of radix stephaniae tetrandrae and 300g of astragalus mongholicus, is subjected to centrifugal separation, at least three times of liquid separation intervals are required, and the technical scheme of the invention can be used for centrifugal separation once.

In the technical scheme, a box shell, a stator mandrel, a rotor sleeve shaft and an electrode ring group are basic components and also are necessary technical characteristics of the invention, a stator ring, a first excitation coil, a second excitation coil, a first primary coil, a second primary coil, an electrode plate group, a first brake plate, a second brake plate, an electric push rod, a pressing plate, a screw rod and a support nut are functional components, the invention realizes other technical effects, and the design of the technical characteristics of a barrel part, a supporting leg part, a mounting hole body, a leakage window, a shaft part, a first containing hole body, an expansion shaft part, a sleeve part, a first annular groove body, a second annular groove body, a third annular groove body, a second containing hole body group and a containing opening groove body is a technical characteristic which accords with a patent method and implementation rules thereof.

In the technical scheme, a box shell with a centrifugally rotating disc shaft, a stator core shaft, a rotor sleeve shaft, a test tube pressing device, a winding group device and an electrode ring group are important technical characteristics, and the centrifugal separation device, the centrifugal separation method and the centrifugal separation device have novelty, creativity and practicability in the technical field of centrifugal separation devices, methods and applications for detecting traditional Chinese medicine components, and terms in the technical scheme can be explained and understood by patent documents in the technical field.

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.

Figure 1 is a schematic view of the present invention,

figure 2 is a schematic view of the connection of the sleeve portion 31, the second annular groove 33 and the receiving opening groove 36,

a box shell-1, a stator mandrel-2, a rotor sleeve shaft-3, a stator ring-4, a first magnet exciting coil-5, a second magnet exciting coil-6, a first primary coil-90, a second primary coil-7, an electrode ring group-8, an electrode plate group-9, a first brake plate-91, a second brake plate-92, an electric push rod-93, a pressure plate-94, a screw rod-95, a support nut-96, a barrel part-11, a leg part-12, a mounting hole body-13, a leakage window-14, a shaft part-21, a first accommodating hole body-22, an expansion shaft part-23, a sleeve part-31, a first annular groove body-32, a second annular groove body-33, a third annular groove body-34, a second accommodating hole body group-35, a first accommodating hole body-23, a second accommodating hole body group-35, a second magnet exciting coil-6, a first magnet exciting coil-90, a second primary coil-7, a second magnet coil-7, a pole ring-8, a pole ring-9, a pole plate group-9, a pole plate-9, a second brake plate, a pole plate-95, a pole plate, a barrel, accommodating an open channel-36.

Detailed Description

Terms such as "having," "including," and "comprising," as used with respect to the present invention, are to be understood as not specifying the presence or addition of one or more other elements or combinations thereof, in accordance with the examination guidelines.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, technical features involved in various embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other, and unless otherwise specified, devices and materials used in the following examples are commercially available, and if processing conditions are not explicitly specified, please refer to a purchased product specification or follow a conventional method in the art.

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.

A centrifugal separation device for detecting traditional Chinese medicine components, wherein FIG. 1 is one of the first embodiments of the invention, and the embodiment is specifically described with reference to the accompanying drawings, and comprises a housing 1, a stator core shaft 2, a rotor sleeve shaft 3, a stator ring 4, a first excitation coil 5, a second excitation coil 6, a first primary coil 90, a second primary coil 7, an electrode ring group 8, an electrode plate group 9, a first brake pad 91, a second brake pad 92, an electric push rod 93, a pressure plate 94, a screw 95 and a support nut 96, wherein the housing 1 is respectively provided with the stator core shaft 2, the stator ring 4 and the electric push rod 93, the stator core shaft 2 is provided with the rotor sleeve shaft 3 and the support nut 96 between the rotor sleeve shaft 3 and the stator core shaft 2, the rotor sleeve shaft 3 and the stator core shaft 2 are respectively provided with the first excitation coil 5 and the first primary coil 90, and the stator ring 4 and the stator core shaft 2 are respectively provided with the second excitation coil 6 and the second primary coil 7, an electrode ring group 8, a second brake pad 92 and a screw 95 are respectively arranged on the rotor sleeve shaft 3, an electrode plate group 9 is arranged between the electrode ring group 8 and the case 1, a first brake pad 91 is arranged between the second brake pad 92 and the electric push rod 93, a pressure plate 94 is arranged between the screw 95 and the rotor sleeve shaft 3, and the first excitation coil 5 and the second excitation coil 6 are arranged to be coupled with the electrode ring group 8.

In the present embodiment, the casing 1 is configured to include a barrel portion 11 and a leg portion 12 and a lower end surface portion of the barrel portion 11 is configured to be coupled to the leg portion 12, mounting hole bodies 13 are respectively disposed in middle portions of upper and lower end surfaces of the barrel portion 11 and leakage windows 14 are disposed in peripheral side portions of the barrel portion 11, the mounting hole bodies 13 are configured to be coupled to the stator core shaft 2 and an upper end surface inner wall of the barrel portion 11 is configured to be coupled to the electrode plate group 9 and the electric push rod 93, a peripheral side surface inner wall of the barrel portion 11 is configured to be coupled to the stator ring 4 and the barrel portion 11 is configured to be a circular box-shaped body, the leg portion 12 is configured to be a trapezoidal block-shaped body and the mounting hole bodies 13 are configured to be a circular hole-shaped body, the leakage windows 14 are configured to be rectangular hole-shaped bodies and the leg portion 12 and the leakage windows 14 are respectively configured to be arranged at intervals along a peripheral line of the barrel portion 11.

Through case shell 1, formed stator dabber 2, stator ring 4, electrode plate group 9 and electric putter 93's support tie point, by mounting hole body 13, realized being connected with stator dabber 2, by barrel 11, realized being connected with stator ring 4, realized being connected with electrode plate group 9, realized being connected with electric putter 93, by shank 12, realized supporting the processing to barrel 11, by leaking window 14, realized placing the centrifugal test tube and handle on rotor sleeve axle 3, its technical aim at: used as a support carrier for the stator core shaft 2, the stator ring 4, the electrode plate group 9 and the electric push rod 93.

In the present embodiment, an extension shaft portion 23 is provided at the middle portion of the shaft portion 21 of the stator core shaft 2 and a first housing hole 22 is provided at the upper end of the shaft portion 21, the ends of the shaft portions 21 are respectively provided to be coupled with the case 1 and the shaft portion 21 is provided to be coupled with the rotor sleeve shaft 3 in series, the lower end of the shaft portion 21 is provided to be coupled with the support nut 96 in a screw manner and the extension shaft portion 23 is provided to be coupled with the first primary coil 90, the first housing hole 22 is provided to be coupled with the end of the first primary coil 90 and the shaft portion 21 and the extension shaft portion 23 are provided to be distributed in a central-shaped shaft-like body, and the first housing hole 22 is provided to be an L-shaped hole-like body.

Through stator dabber 2, formed the support tie point to case shell 1, rotor sleeve shaft 3, first primary coil 90 and support nut 96, by axial region 21, realized being connected with case shell 1, realized being connected with rotor sleeve shaft 3, realized being connected with support nut 96, by first container hole body 22 and extension axial region 23, realized being connected with first primary coil 90, its technical purpose lies in: for serving as a support carrier for the rotor sleeve shaft 3 and the first primary coil 90.

In the present embodiment, the support nut 96 is provided as a hexagonal nut and the support nut 96 is provided to be screw-coupled with the stator spindle 2, and an upper end surface portion of the support nut 96 is provided to be contact-coupled with the rotor sleeve 3.

Through support nut 96, formed the support tie point to stator dabber 2 and rotor sleeve 3, by support nut 96, realized being connected with stator dabber 2, realized being connected with rotor sleeve 3, its technical aim at: for serving as a means for connection between the rotor sleeve shaft 3 and the stator core shaft 2.

In the present embodiment, a first annular groove body 32 is provided in the middle portion of the inner wall of the sleeve portion 31 of the rotor sleeve shaft 3 and a second annular groove body 33 is provided in the middle portion of the outer wall of the sleeve portion 31, a third annular groove body 34 is provided in the end portion of the outer wall of the sleeve portion 31 and a second housing hole body group 35 is provided in the upper end portion of the sleeve portion 31, the sleeve portion 31 is provided to be coupled to the stator core shaft 2 in a sleeved manner and the lower end surface portion of the sleeve portion 31 is provided to be coupled in contact with the support nut 96, the first annular groove body 32 is provided to be coupled in a housing manner to the first excitation coil 5 and the third annular groove body 34 is provided to be coupled in a housing manner to the second excitation coil 6, the second annular groove bodies 33 are provided to be coupled in a housing manner to the pressure plate 94 and the screw 95, the upper end surface portion of the inner wall of the second annular groove body 33 is provided to be coupled in a contact manner to the pressure plate 94, the upper end of the sleeve part 31 is arranged to be connected with the electrode ring group 8 in a penetrating manner and the second housing hole group 35 is arranged to be connected with the end of the first excitation coil 5 and the end of the second excitation coil 6, respectively, the outer end face of the third annular groove body 34 is arranged to be connected with the second brake piece 92 in a housing manner and the sleeve part 31 is arranged to be a stepped cylindrical body, the first annular groove body 32 is arranged to be a U-shaped annular groove body and the second annular groove body 33 is arranged to be an L-shaped annular groove body, be provided with on the vertical part of second annular groove 33 and hold open slot 36 and third annular groove 34 and set up to Y font annular groove, the contained hole body of second contained hole body group 35 sets up to L font poroid and second contained hole body group 35 sets up to distribute with first excitation coil 5 and second excitation coil 6 are corresponding, holds open slot 36 and sets up to the arc cell body and holds open slot 36 and set up to hold the formula hookup with the centrifugal test tube.

Through rotor sleeve shaft 3, the support tie point to stator dabber 2, first excitation coil 5, second excitation coil 6, electrode ring group 8, second braking piece 92, clamp plate 94, screw rod 95 and support nut 96 is formed, by bushing portion 31, the connection with stator dabber 2 has been realized, the connection with support nut 96 has been realized, the connection with electrode ring group 8 has been realized, by first annular cell body 32 and second accommodation pore body group 35, the connection with first excitation coil 5 has been realized, by third annular cell body 34 and second accommodation pore body group 35, the connection with second excitation coil 6 has been realized, the connection with second braking piece 92 has been realized, by second annular cell body 33, the connection with clamp plate 94 has been realized, the connection with screw rod 95 has been realized, by holding open cell body 36, the fixed processing to the centrifugation test tube has been realized, its technical aim at: used as a part for driving the centrifugal test tube to do centrifugal motion.

In the present embodiment, the stator ring 4 is provided as a circular ring-shaped body and the outer peripheral side face of the stator ring 4 is provided to be coupled with the case 1, and the inner wall of the stator ring 4 is provided to be coupled with the second primary coil 7.

Through stator ring 4, formed the support tie point to case shell 1 and second primary coil 7, by stator ring 4, realized being connected with case shell 1, realized being connected with second primary coil 7, its technical aim at: for acting as a support carrier for the second primary coil 7.

In the present embodiment, the first primary coil 90 and the second primary coil 7 are respectively provided as a motor stator winding and the first excitation coil 5 and the second excitation coil 6 are respectively provided as a motor rotor winding, the first primary coil 90 is provided on the stator core shaft 2 and the second primary coil 7 is provided on the stator ring 4, the first excitation coil 5 and the second excitation coil 6 are respectively provided on the rotor sleeve shaft 3 and the end of the first excitation coil 5 and the end of the second excitation coil 6 are respectively provided to be coupled with the electrode ring group 8, the end of the first primary coil 90 and the end of the second primary coil 7 are respectively provided to be coupled with an external power interface through a switch and the first excitation coil 5 is provided to be distributed corresponding to the first primary coil 90, and the second excitation coil 6 is provided to be distributed corresponding to the second primary coil 7.

Through first excitation coil 5, second excitation coil 6, first primary coil 90 and second primary coil 7, formed the support tie point to stator dabber 2, rotor sleeve shaft 3 and stator ring 4, by first primary coil 90, realized the connection with stator dabber 2, by first excitation coil 5 and second excitation coil 6, realized the connection with rotor sleeve shaft 3, by second primary coil 7, realized the connection with stator ring 4, its technical aim at: for rotation of the rotor sleeve shaft 3 on the stator core shaft 2.

In the present embodiment, the electrode rings of the electrode ring group 8 are provided as copper rings and the electrode ring group 8 is provided to be coupled with the rotor sleeve 3 in a sleeved manner, a first electrode ring of the electrode ring group 8 is provided to be coupled with the first excitation coil 5 and a second electrode ring of the electrode ring group 8 is provided to be coupled with the second excitation coil 6, and an outer peripheral side surface portion of the electrode rings of the electrode ring group 8 is provided to be coupled with the electrode plate group 9 in a contact manner.

Through electrode ring group 8, formed the support tie point to rotor sleeve axle 3, first excitation coil 5, second excitation coil 6 and electrode plate group 9, by electrode ring group 8, realized being connected with rotor sleeve axle 3, realized being connected with first excitation coil 5, realized being connected with second excitation coil 6, realized being connected with electrode plate group 9, its technical purpose lies in: and is used as one of the parts for connecting the first excitation coil 5 and the second excitation coil 6 with an external power interface.

In this embodiment, the electrode plates of the electrode plate group 9 are arranged into L-shaped sheet-like bodies, the horizontal portions of the electrode plates of the electrode plate group 9 are arranged to be connected with the box casing 1, the vertical portions of the electrode plates of the electrode plate group 9 are provided with contact points, the contact points of the electrode plates of the electrode plate group 9 are arranged to be connected with the electrode rings of the electrode ring group 8, the horizontal portions of the electrode plates of the electrode plate group 9 are arranged to be connected with an external power supply through switches, and the electrode plate group 9 is arranged to be distributed corresponding to the electrode ring group 8.

Through electrode plate group 9, formed the support tie point to case shell 1 and electrode ring group 8, by electrode plate group 9, realized being connected with case shell 1, realized being connected with electrode ring group 8, its technical aim at: and the second part is used as a part for connecting the first excitation coil 5 and the second excitation coil 6 with an external power interface.

In the present embodiment, the screw 95 is provided as a flat head bolt and the screw 95 is provided to be screw-coupled with the rotor sleeve shaft 3, an inner end of the screw 95 is provided to be coupled with the pressure plate 94 in series and an outer flange end of the screw 95 is provided to be coupled with the pressure plate 94 in contact.

Through screw rod 95, formed the support tie point to rotor sleeve 3 and clamp plate 94, by screw rod 95, realized being connected with rotor sleeve 3, realized being connected with clamp plate 94, its technical aim at: one of the parts for connecting the centrifuge tube to the rotor shaft 3.

In the present embodiment, the pressing plate 94 is provided as an L-shaped plate and a long hole is provided at the lateral portion of the pressing plate 94, the long hole of the pressing plate 94 is provided to be coupled with the screw 95 in a sleeved manner and the lateral outer end surface of the pressing plate 94 is provided to be coupled with the screw 95 in a contact manner, the lateral inner end surface of the pressing plate 94 is provided to be coupled with the rotor sleeve shaft 3 in a contact manner and the vertical portion of the pressing plate 94 is provided to be distributed in an arc-shaped strip, and the vertical portion of the pressing plate 94 is provided to be coupled with the centrifugal test tube in a contact manner.

Through clamp plate 94, formed the support tie point to rotor sleeve 3 and screw rod 95, by clamp plate 94, realized being connected with rotor sleeve 3, realized being connected with screw rod 95, its technical aim at: and the second part is used as a centrifugal test tube and connected with the rotor sleeve shaft 3.

In the present embodiment, the second brake plate 92 is configured as an annular friction plate and the second brake plate 92 is configured to be embedded with the rotor sleeve shaft 3, the second brake plate 92 is configured to be distributed corresponding to the first brake plate 91 and an included angle α between the second brake plate 92 and a horizontal plane of the rotor sleeve shaft 3 is set to be 13-22 °.

The second brake piece 92 forms a support connection point between the rotor sleeve shaft 3 and the first brake piece 91, and the second brake piece 92 is connected to the rotor sleeve shaft 3 and the first brake piece 91, and the technical purpose is to: one of the components for braking the rotor sleeve shaft 3 on the stator core shaft 2.

In the present embodiment, the first brake pad 91 is configured as a rectangular friction block and the first brake pad 91 is configured to couple with the electric push rod 93, and the first brake pad 91 is configured to be distributed corresponding to the second brake pad 92.

The first brake sheet 91 forms a support connection point for the second brake sheet 92 and the electric push rod 93, and the first brake sheet 91 is connected with the second brake sheet 92 and the electric push rod 93, and the technical purpose is that: and a second part used for braking the rotor sleeve shaft 3 on the stator core shaft 2.

In the embodiment, one end of the electric push rod 93 is configured to be coupled with the cabinet 1, the other end of the electric push rod 93 is configured to be coupled with the first brake pad 91, and the power interface of the electric push rod 93 is configured to be connected with an external power source through a switch.

Through electric putter 93, formed the support tie point to case shell 1 and first stopper 91, by electric putter 93, realized being connected with case shell 1, realized being connected with first stopper 91, its technical aim at: and a third part for braking the rotor sleeve shaft 3 on the stator core shaft 2.

In the present embodiment, the case 1, the stator core shaft 2, the rotor sleeve shaft 3, the first field coil 5, the first primary coil 90, the electrode ring group 8, the electrode plate group 9, the pressure plate 94, and the screw 95 are arranged to be distributed in such a manner as to perform centrifugal motion in accordance with the rotation axis and the case 1, the stator core shaft 2, the rotor sleeve shaft 3, the first field coil 5, the first primary coil 90, the electrode ring group 8, the electrode plate group 9, the pressure plate 94, the screw 95, the stator ring 4, the second field coil 6, and the second primary coil 7 are arranged to be distributed in such a manner as to be driven by secondary excitation, the case 1, the stator core shaft 2, the rotor sleeve shaft 3, the first field coil 5, the first primary coil 90, the electrode ring group 8, the electrode plate group 9, the pressure plate 94, the screw 95, the first brake pad 91, the second brake pad 92, and the electric push rod 93 are arranged to be distributed in such a manner as to be end-braked and the case 1, the first field coil 5, the second brake pad 92, and the electric rod 93 are arranged to be end-braked, The stator core shaft 2, the rotor sleeve shaft 3, the first excitation coil 5, the first primary coil 90, the electrode ring group 8, the electrode plate group 9, the pressure plate 94, the screw 95 and the support nut 96 are arranged to be distributed in a single-end supporting manner, the center line of the box shell 1, the center line of the stator core shaft 2, the center line of the rotor sleeve shaft 3, the center line of the stator ring 4, the center line of the first excitation coil 5, the center line of the second excitation coil 6, the center line of the first primary coil 90, the center line of the second primary coil 7, the center line of the electrode ring group 8 and the center line of the support nut 96 are arranged on the same straight line, one stator ring 4, one second excitation coil 6 and one second primary coil 7 are arranged to form a group of secondary excitation driving parts and a plurality of groups of secondary excitation driving parts are arranged to be distributed at intervals along the vertical center line of the rotor sleeve shaft 3, a first stopper 91, a second stopper 92 and an electric push rod 93 are provided to constitute a set of end stopper parts and at least three sets of end stopper parts are provided at an upper end surface portion of the rotor sleeve 3, at least three sets of end stopper parts are provided at a lower end surface portion of the rotor sleeve 3, a pressing plate 94 and a screw 95 are provided to constitute a set of centrifugal test tube fixing parts and three sets of centrifugal test tube fixing parts are provided to be arranged at intervals along a circumferential edge of the rotor sleeve 3, the sleeve part 31 is provided to be coupled with the shaft part 21, and the shaft part 21 is provided to be coupled with the mounting hole body 13.

In one of the supporting examples of the first embodiment of the present invention, the angle α between the second brake pad 92 and the horizontal plane of the rotor sleeve shaft 3 is set to 13 °.

In a second supporting example of the first embodiment of the present invention, an angle α between the second brake pad 92 and a horizontal plane of the rotor sleeve shaft 3 is set to 22 °.

In a third supporting example of the first embodiment of the present invention, an angle α between the second brake pad 92 and a horizontal plane of the rotor sleeve shaft 3 is set to 17 °.

The second embodiment of the present invention, which will be described in detail with reference to the accompanying drawings, further includes a motor winding frame, and the first field coil 5, the second field coil 6, the first primary coil 90 and the second primary coil 7 are respectively disposed on the motor winding frame, the motor winding frame located on the first field coil 5 is disposed on the first annular slot 32, the motor winding frame located on the second field coil 6 is disposed on the third annular slot 34, the motor winding frame located on the first primary coil 90 is disposed on the expansion shaft portion 23, and the motor winding frame located on the second primary coil 7 is disposed on the stator ring 4.

By the motor winding frame, realized being connected with stator dabber 2, realized being connected with rotor sleeve axle 3, realized being connected with stator ring 4, realized being connected with first excitation coil 5, realized being connected with second excitation coil 6, realized being connected with first primary coil 90, realized being connected with second primary coil 7, its technical aim lies in: the first and second field coils 5 and 6 are connected to the rotor sleeve shaft 3, the first primary coil 90 is connected to the stator core shaft 2, and the second primary coil 7 is connected to the stator ring 4.

The invention is further described below with reference to the following examples, which are intended to illustrate the invention but not to limit it further.

A centrifugal separation method for detecting traditional Chinese medicine components comprises the following steps: the screw 95 is rotated on the upper end face of the inner wall of the second annular groove 33, the screw 95 is in a loose state, the pressing plate 94 is moved outward by passing through the long hole of the pressing plate 94, the centrifugal test tube containing the liquid medicine to be tested is placed on the containing opening groove 36 through the leakage window 14, the pressing plate 94 is moved inward, the vertical part of the pressing plate 94 acts on the centrifugal test tube, the screw 95 is rotated in the opposite direction on the upper end face of the inner wall of the second annular groove 33 to press the screw 95, the centrifugal test tube is installed between the pressing plate 94 and the containing opening groove 36, the first exciting coil 5 is communicated with the external power supply interface by the switch through the electrode ring group 8 and the electrode plate group 9, the first primary coil 90 is communicated with the external power supply interface, the sleeve part 31 is rotated on the shaft part 21 to perform centrifugal separation treatment on the centrifugal test tube, when the second excitation coil 6 is communicated with the external power supply interface through the electrode ring group 8 and the electrode plate group 9 by the switch, the second primary coil 7 is communicated with the external power supply interface, the sleeve part 31 is accelerated to rotate on the shaft part 21, the rotating speed of the centrifugal test tube is improved, after the centrifugal separation treatment of the centrifugal test tube is completed, the electric push rod 93 is in an extension state through the switch, the first brake piece 91 is acted on the second brake piece 92, the sleeve part 31 is in a stop state through the friction force between the first brake piece 91 and the second brake piece 92, the screw 95 is in a loosening state, the press plate 94 is moved outwards, and the centrifugal test tube is taken out from between the press plate 94 and the accommodating opening groove body 36.

A centrifugal separation device and method for detecting Chinese medicinal components are applied to the centrifugal separation of Chinese medicinal component detection liquid of Chinese medicinal preparation for treating hypertension, which contains 431g of uncaria, 340g of selfheal, 46g of pig bile paste, 366g of parasitic loranthus, 303g of red sage root, 229g of plantain seed, 200g of ligusticum wallichii, 46g of pseudo-ginseng, 300g of radix stephaniae tetrandrae and 300g of astragalus.

The prescription contains animal and plant components, the components in the traditional Chinese medicine component detection liquid are complex to combine, the technical difficulty of centrifugal separation of the components in the traditional Chinese medicine component detection liquid is high, and the embodiment realizes one-time centrifugal separation of the components in the traditional Chinese medicine component detection liquid.

In the second embodiment of the invention, the box shell 1, the stator mandrel 2, the rotor sleeve shaft 3, the test tube pressing device, the winding group device and the electrode ring group 8 are connected with each other in a way that the disc shafts rotate centrifugally.

In this embodiment, the stator spindle 2, the rotor sleeve shaft 3, the winding assembly device and the electrode ring assembly 8 are coupled to the housing 1 and the test tube holding device in such a way that the magnetic excitation produces a centrifugal rotation of the disk shaft.

In this embodiment, the test tube pressing device includes a pressing plate 94 and a screw 95.

In the present embodiment, the winding group device is provided to include the first excitation coil 5 and the first primary coil 90.

In this embodiment, a first accessory device is also included and is disposed between the rotor sleeve shaft 3 and the housing 1, the first accessory device being configured to include the stator ring 4, the second field coil 6, and the second primary coil 7.

In this embodiment, a second accessory device is also included and is disposed between the electrode ring set 8 and the enclosure 1, the first accessory device being provided as an electrode plate set 9.

In this embodiment, a third accessory device is further included and is disposed between the rotor sleeve shaft 3 and the housing 1, and the third accessory device is configured to include a first brake pad 91, a second brake pad 92 and an electric push rod 93.

In this embodiment, a fourth attachment means is also included and is arranged between the rotor sleeve shaft 3 and the stator core shaft 2, the fourth attachment means being arranged to support the nut 96.

In this embodiment, a fifth accessory device is further included and is disposed on the winding set device and the first accessory device, the fifth accessory device being configured as a motor winding rack.

A second embodiment of the invention is based on the first embodiment,

the second embodiment of the present invention comprises the steps of: realized the support to stator dabber 2 by case shell 1, realized the centrifugal rotation of dish axle by stator dabber 2, rotor sleeve shaft 3, wire winding group device and electrode ring group 8, realized pressing from both sides tightly to the centrifugal test tube by test tube closing device.

A second embodiment of the invention is based on the first embodiment.

The invention has the following characteristics:

1. owing to designed case shell 1, stator dabber 2, rotor sleeve shaft 3, test tube closing device, wire winding group device and electrode ring group 8, through case shell 1, realized the support to stator dabber 2, through stator dabber 2, rotor sleeve shaft 3, wire winding group device and electrode ring group 8, realized the dish axle centrifugation and rotated, through test tube closing device, realized pressing from both sides tight to the centrifugation test tube, consequently improved the traditional chinese medicine composition centrifugation effect to carrying out the detection.

2. Due to the design of the pressure plate 94 and the screw 95, the fixation of the centrifugal test tube by the plate pressure is realized.

3. Due to the design of the first excitation coil 5 and the first primary coil 90, a primary coil excitation is achieved.

4. Due to the design of the stator ring 4, the second excitation coil 6 and the second primary coil 7, a multi-stage coil excitation is achieved.

5. Due to the design of the electrode plate group 9, electrode type power line connection is realized.

6. Due to the design of the first brake disc 91, the second brake disc 92 and the electric push rod 93, the holding brake is realized, and the brake effect of the rotor sleeve shaft 3 is improved.

7. Due to the design of the support nut 96, the mounting accuracy between the stator core shaft 2 and the rotor sleeve shaft 3 is improved.

8. Due to the design of the motor winding frame, the installation accuracy of the first excitation coil 5, the second excitation coil 6, the first primary coil 90 and the second primary coil 7 is improved.

9. Because the structural shape is limited by the numerical range, the numerical range is the technical characteristic of the technical scheme of the invention, and is not the technical characteristic obtained by formula calculation or limited tests, and tests show that the technical characteristic of the numerical range achieves good technical effect.

10. Due to the design of the technical characteristics of the invention, tests show that each performance index of the invention is at least 1.7 times of the existing performance index under the action of the single and mutual combination of the technical characteristics, and the invention has good market value through evaluation.

Still other technical features associated with the housing 1 for the eccentric rotation of the disk shaft, the stator core shaft 2, the rotor sleeve shaft 3, the test tube pressing device, the winding set device and the electrode ring set 8 are all one of the embodiments of the present invention, and the technical features of the above-mentioned embodiments can be combined arbitrarily, and in order to meet the requirements of patent laws, patent practice rules and examination guidelines, all possible combinations of the technical features of the above-mentioned embodiments will not be described.

The above embodiment is only one implementation form of the centrifugal separation device, the method and the application for detecting the traditional Chinese medicine components provided by the invention, and according to other variations of the scheme provided by the invention, the components or steps in the centrifugal separation device are increased or reduced, or the centrifugal separation device is used in other technical fields close to the invention, and all the centrifugal separation device, the method and the application belong to the protection scope of the invention.