CN113398809B - Medical treatment clinical laboratory's medicine mixes uses sample oscillator - Google Patents

Abstract

The invention discloses a medical clinical laboratory medicine mixing sample oscillator, relates to the technical field of oscillators, and solves the problems that the existing oscillator cannot adjust the oscillation amplitude and has single track oscillation. A sample oscillator for mixing medicines for medical clinical laboratory comprises an oscillation carrier; the oscillating carrier comprises an oscillating tray, and a mode linkage block is screwed and fixed in the oscillating tray through screws. When the device is used, the oscillation frequency of the device can be controlled through the controller device, the oscillation amplitude of the oscillation carrier can be adjusted through the adjusting component, the oscillation tracks of the oscillation carrier are different when linkage blocks with different modes are installed, and the oscillation frequency, the oscillation amplitude and the oscillation moving track of the oscillation carrier can be adjusted independently and in a diversified mode, so that the device can meet the use requirements of mixed oscillation of different samples.

Description

Medical treatment clinical laboratory's medicine mixes uses sample oscillator

Technical Field

The invention belongs to the technical field of oscillators, and particularly relates to a medical clinical laboratory medicine mixing sample oscillator.

Background

The oscillator is also called an experiment table concentrator, is the most common medicine in the medical clinical laboratory and mixes the mixing instrument that mixes evenly, and the oscillator can automatic oscillation and the mixed sample in the mixing container, and the detection of follow-up sample is accurate, and need not the manual oscillation medicine sample of inspection personnel and mix convenient to use to liberation labour.

If the application number is: CN201610053441.7 discloses a method for testing the quality of a drug, in which the difference between the quality of the test drug and the quality of the reference drug is obtained by combining the result of comparing the disintegration time limits of the test drug and the reference drug with the result of testing the test drug. The method for detecting the quality of the medicine can reduce the cost for detecting the quality of the medicine, can improve the accuracy of detecting the quality of the medicine, and can identify the preparation process difference of the medicine, so that the method for detecting the quality of the medicine can detect the quality of the medicine more comprehensively, and provides an important basis for monitoring and improving the quality of the medicine.

Although the oscillation frequency can be adjusted to current oscillator, can't adjust the amplitude of oscillation, can't adapt to the oscillation operation of mixing to different medicine samples, and current oscillator is mostly circumference orbit oscillation when the oscillation, and the unable pluralism of oscillation orbit changes, and the function singleness, the adaptability is relatively poor, and the practicality is not high.

In view of the above, research and improvement are made on the existing structure and defects, and a sample oscillator for mixing medicines in medical clinical laboratory is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a sample oscillator for mixing medicines in medical clinical laboratory, which aims to solve the problems that the existing oscillator can adjust the oscillation frequency, but cannot adjust the oscillation amplitude, cannot adapt to the oscillation operation of mixing different medicine samples, and mostly oscillates along a circular track during oscillation, the oscillation track cannot be changed in a diversified manner, the function is single, the adaptability is poor, and the practicability is low.

The invention relates to a purpose and effect of a sample oscillator for mixing medicines in a medical clinical laboratory, which are achieved by the following specific technical means:

a sample oscillator for mixing medicines in medical clinical laboratory comprises a mounting component, an oscillation carrier and a bidirectional positioning frame;

the mounting assembly comprises a fixed support, a controller device, a driving motor and an adjusting assembly, wherein the controller device is screwed and fixed on the side face of the base of the fixed support through a screw, and the driving motor is screwed and fixed in the base of the fixed support through a screw;

the oscillating carrier comprises an oscillating tray and a positioning assembly, the oscillating tray is inserted into the top of the fixed support, and a mode linkage block is screwed and fixed in the oscillating tray through a screw;

the bottom of the bidirectional positioning frame is screwed and fixed at the top of the fixed support through screws.

Furthermore, two-way locating rack is "mouth" shape frame body, and two-way locating rack comprises longitudinal positioning frame and horizontal locating rack, and longitudinal positioning frame and horizontal locating rack all are equipped with two, and two fixed connection are distinguished at the both ends at two longitudinal positioning frame tops in the both ends of two horizontal locating racks, and the contained angle between adjacent horizontal locating rack and the longitudinal positioning rack is ninety degrees.

Furthermore, the inside vertical track groove that is equipped with of support body of longitudinal location frame, and fixing support's pedestal top is equipped with vertical track piece, and vertical track piece pegs graft in the inside of vertical track groove, and the bottom of vibration tray is equipped with horizontal track groove, and horizontal location frame pegs graft inside the cell body of horizontal track groove, and the cross-sectional shape of horizontal location frame and vertical track piece is "T" shape.

Furthermore, locating component comprises two locking pieces, and two locking pieces peg graft in the inside of vibration tray, and two locking pieces are the symmetry design in the inside of vibration tray, and the block side of locking piece is equipped with and breaks away from a spring, and the both ends that break away from a spring are fixed connection respectively in the block side of locking piece and the disk body inside of vibration tray.

Furthermore, the outside of locking piece is equipped with the locking cingulum, and the inboard at horizontal positioning frame support body top is equipped with the locking rack, the locking cingulum when reset state not with the teeth of a cogwheel joint of locking rack.

Further, the adjusting component comprises:

the driving turntable is rotationally connected with the inside of the fixed support and is in transmission connection with the driving motor through a gear;

two ends of the adjusting rod are respectively and rotatably connected to the inner part of the disc body of the driving turntable;

the positioning block is inserted in the disc body of the driving turntable.

Furthermore, the outside of adjusting the pole body in the middle part of the pole is equipped with the screw thread, and the block inside of locating piece is equipped with the screw hole, adjusts the pole and connects the inside at the screw hole through body of rod screw thread.

Further, the mode linkage piece divide into and rotates the vibration piece and the reciprocal vibration piece, and block top one side of mode linkage piece is circular design, and the block top opposite side of mode linkage piece is the design of square preventing slow-witted, and the both sides of rotating vibration piece block bottom are equipped with and dodge the groove, and the bottom of reciprocal vibration piece does not set up and dodge the groove, and the block inboard of lock block is equipped with the extrusion piece, and the outer end of extrusion piece stretches out the cell body that mode linkage piece was pegged graft in fixing support.

Furthermore, the one end of rotating the vibration piece block bottom is equipped with rotates the vibration hole, and the top of locating piece is equipped with the linkage post, and the linkage post plug-in connects in the inside of rotating the vibration hole.

Furthermore, reciprocating oscillation grooves are formed in the bottoms of the blocks of the reciprocating oscillation blocks, the groove bodies of the reciprocating oscillation grooves are long-strip-shaped, and the linkage columns are inserted into the groove bodies of the reciprocating oscillation grooves.

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

the device is when using, not only can be through controller device controlling means's oscillating frequency, can also adjust the oscillation amplitude of oscillating carrier through adjusting part, the oscillation orbit of oscillating carrier is also different when installing different mode linkage blocks simultaneously, to the oscillation frequency of oscillating carrier, the oscillation amplitude and the oscillation movement orbit all can be independent, the regulation of pluralism, can adapt to the different sample and mix the user demand of oscillation, convenient nimble strong adaptability has improved the device's flexibility and practicality.

Firstly, when the rotary oscillating block is assembled for use, the linkage column can drive the oscillating carrier to rotate along the circumferential track through the rotary oscillating hole to oscillate, under the common limiting action of the longitudinal track block, the longitudinal track groove, the transverse positioning frame and the transverse track groove, the oscillating tray can not rotate along with the linkage column during oscillation, so that a mixed sample in a container in the oscillating tray can be stably oscillated, when the rotary oscillating block is inserted into the fixed support for use, the avoiding groove can avoid the part of the extrusion block protruding out of the fixed support, the locking toothed belt and the locking rack can not be clamped and locked under the action of the top spring, the oscillating tray can freely oscillate in the transverse and longitudinal two-way movement through the two-way positioning frame, the basic oscillation function is realized, the use is stable and flexible, and the flexibility and the adaptability of the device are improved.

Secondly, when the assembly reciprocal vibration piece was used, the linkage post drives the vibration tray through reciprocal oscillation groove and only carries out longitudinal reciprocating motion, can extrude the extrusion piece of locking piece after the reciprocal vibration piece assembly, thereby locking piece outwards removes and blocks the locking toothed belt on the locking rack, thereby the unable lateral shifting of vibration tray this moment, and the linkage post drives the vibration tray through the mating reaction with rectangular shape reciprocal oscillation groove and only carries out longitudinal reciprocating motion, realize the pluralism of vibration orbit and use the regulation, and is convenient and flexible, and strong adaptability has improved the device's flexibility and adaptability.

Moreover, the amplitude of the oscillation of the device can be adjusted through the adjusting assembly, when the adjusting rod is rotated, the adjusting rod can drive the positioning block to move in the disc body of the driving turntable through the threaded hole, the rotating radius of the positioning block is changed, the amplitude of the rotation and the reciprocating oscillation of the oscillating tray is changed, the adjusting device is convenient to adjust and flexible to use, and the flexibility and the adaptability of the device are improved.

Drawings

FIG. 1 is a schematic diagram of the present invention.

Fig. 2 is a schematic view of the internal structure of the present invention when a rotary oscillating block is assembled.

Fig. 3 is a schematic view of the internal structure of the present invention when the reciprocating oscillating block is assembled.

FIG. 4 is a schematic view of the internal structure of the vibration carrier of the present invention after disassembly.

FIG. 5 is a schematic view of the two-way spacer of the present invention.

Fig. 6 is a schematic view of the construction of the mounting assembly of the present invention.

Fig. 7 is a disassembled structural schematic diagram of the adjusting assembly of the present invention.

Fig. 8 is a schematic structural view of the bottom of the rotary oscillating block of the present invention.

FIG. 9 is a schematic view of the structure of the bottom of the reciprocating oscillating block of the present invention.

Fig. 10 is an enlarged view of the portion a of fig. 2 according to the present invention.

Fig. 11 is an enlarged structural view of a portion B in fig. 3 according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. mounting the component; 101. a fixed support; 1011. a longitudinal rail block; 102. a controller device; 2. Oscillating the carrier; 201. oscillating the tray; 2011. a transverse rail groove; 3. a mode linkage block; 301. rotating the oscillating block; 3011. rotating the oscillation hole; 3012. an avoidance groove; 302. a reciprocating oscillating block; 3021. a reciprocating oscillation tank; 4. an adjustment assembly; 401. driving the turntable; 402. adjusting a rod; 403. positioning blocks; 4031. a threaded hole; 4032. a linkage column; 5. a bidirectional positioning frame; 501. a longitudinal positioning frame; 5011. a longitudinal track groove; 502. a transverse positioning frame; 5021. a locking rack; 6. a positioning assembly; 601. a locking block; 6011. disengaging the top spring; 6012. a locking toothed belt; 6013. and (5) extruding the block.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 11:

the invention provides a medical clinical laboratory medicine mixing sample oscillator, which comprises a mounting component 1, an oscillation carrier 2 and a bidirectional positioning frame 5, wherein the mounting component is a cylindrical component;

the mounting assembly 1 comprises a fixed support 101, a controller device 102, a driving motor and an adjusting assembly 4, wherein the controller device 102 is screwed and fixed on the side surface of the base of the fixed support 101 through a screw, and the driving motor is screwed and fixed inside the base of the fixed support 101 through a screw;

the driving motor is electrically connected with the controller device 102 and an external power supply, and the specific structure and the working principle of the driving motor are the existing mature technology, which is not described herein;

the oscillating carrier 2 comprises an oscillating tray 201 and a positioning component 6, the oscillating tray 201 is inserted at the top of the fixed support 101, and the mode linkage block 3 is screwed and fixed in the oscillating tray 201 through screws;

the adjusting assembly 4 comprises:

the driving turntable 401 is rotatably connected with the inside of the fixed support 101, and the driving turntable 401 is in transmission connection with a driving motor through a gear;

two ends of the adjusting rod 402 are respectively and rotatably connected to the inner part of the disc body of the driving turntable 401;

the positioning block 403 is inserted into the disc body of the driving turntable 401;

the positioning assembly 6 is composed of two locking blocks 601, the two locking blocks 601 are inserted into the oscillating tray 201, the two locking blocks 601 are symmetrically designed in the oscillating tray 201, a disengaging top spring 6011 is arranged on the side face of a block body of the locking block 601, and two ends of the disengaging top spring 6011 are fixedly connected to the side face of the block body of the locking block 601 and the inner portion of the tray body of the oscillating tray 201 respectively;

the bottom of the bidirectional positioning frame 5 is screwed and fixed on the top of the fixed support 101 through screws;

in use, when the device is in use, the oscillation frequency of the device can be controlled through the controller device 102, the oscillation amplitude of the oscillation carrier 2 can be adjusted through the adjusting component 4, the oscillation tracks of the oscillation carrier 2 are different when the linkage blocks 3 with different modes are installed, the oscillation frequency, the oscillation amplitude and the oscillation moving track of the oscillation carrier 2 can be adjusted independently and in a diversified mode, the use requirements of mixed oscillation of different samples can be met, the device is convenient, flexible and high in adaptability, and the flexibility and the practicability of the device are improved.

The bidirectional positioning frame 5 is a square frame, the bidirectional positioning frame 5 is composed of a longitudinal positioning frame 501 and a transverse positioning frame 502, the longitudinal positioning frame 501 and the transverse positioning frame 502 are respectively provided with two ends, the two ends of the two transverse positioning frames 502 are respectively fixedly connected to the two ends of the tops of the two longitudinal positioning frames 501, the included angle between the adjacent transverse positioning frame 502 and the longitudinal positioning frame 501 is ninety degrees, a longitudinal rail groove 5011 is formed in the frame body of the longitudinal positioning frame 501, a longitudinal rail block 1011 is arranged at the top of the seat body of the fixed support 101 and is inserted in the longitudinal rail groove 5011, a transverse rail groove 2011 is formed in the bottom of the oscillating tray 201, the transverse positioning frame 502 is inserted in the groove body of the transverse rail groove 2011, the cross sections of the transverse positioning frame 502 and the longitudinal rail block 1011 are both in a T shape, in use, the oscillating tray 201 freely oscillates in a transverse oscillation mode and a longitudinal bidirectional movement mode through the bidirectional positioning frame 5, the basic function is achieved, the use is stable and flexible, and flexibility and adaptability of the device are improved.

Wherein, the outside of locking piece 601 is equipped with locking cingulum 6012, and the inboard at horizontal positioning frame 502 support body top is equipped with locking rack 5021, and locking cingulum 6012 does not block with the teeth of a cogwheel joint of locking rack 5021 when reset state, and in use, locking cingulum 6012 and locking rack 5021 can not the joint locking under the effect that breaks away from top spring 6011 when the device reset state.

Wherein, the outside of adjusting the pole body in the middle part of pole 402 is equipped with the screw thread, and the inside screw hole 4031 that is equipped with of block of locating piece 403, adjust pole 402 and twist through the pole body screw thread and connect in the inside of screw hole 4031, in use, through the amplitude of the adjustable the device oscillation of adjusting part 4, when rotating to adjust pole 402, it can drive locating piece 403 through screw hole 4031 and move in the disk body of drive carousel 401, change the turning radius of locating piece 403, thereby the rotation of oscillating tray 201 has been changed, the amplitude of reciprocal oscillation, it is convenient to adjust, it is flexible to use, the flexibility and the adaptability of the device have been improved.

Wherein, the mode linkage block 3 is divided into a rotary oscillation block 301 and a reciprocating oscillation block 302, one side of the top of the block of the mode linkage block 3 is circular, the other side of the top of the block of the mode linkage block 3 is square and foolproof, the two sides of the bottom of the block of the rotary oscillation block 301 are provided with avoidance grooves 3012, the bottom of the reciprocating oscillation block 302 is not provided with avoidance grooves 3012, the inner side of the block of the locking block 601 is provided with an extrusion block 6013, and the outer end of the extrusion block 6013 extends out of the groove body of the mode linkage block 3 inserted in the fixed support 101, in use, when the rotary oscillation block 301 is assembled for use, the avoidance grooves 3012 can avoid the part of the extrusion block 6013 protruding out of the fixed support 101, when the reciprocating oscillation block 302 is assembled for use, the extrusion block 6013 of the locking block 601 can be extruded after the reciprocating oscillation block 302 is assembled, so that the locking block 601 moves outwards to clamp the locking toothed belt 6012 on the rack 5021, thereby the tray 201 can not move transversely at this time.

When the rotary oscillating block 301 is assembled for use, the linkage column 4032 can drive the oscillating carrier 2 to oscillate circumferentially by rotating the oscillating hole 3011, and under the common limiting action of the longitudinal rail block 1011, the longitudinal rail groove 5011, the transverse positioning frame 502 and the transverse rail groove 2011, the oscillating tray 201 cannot rotate along with the linkage column 4032 during oscillation, so that a mixed sample in a container in the oscillating tray 201 can be stably oscillated.

Wherein, the block bottom of reciprocating oscillation piece 302 is equipped with reciprocating oscillation groove 3021, and reciprocating oscillation groove 3021's cell body shape is rectangular shape, inside linkage post 4032 pegs graft reciprocating oscillation groove 3021's the cell body, in use, when the assembly reciprocating oscillation piece 302 was used, linkage post 4032 only carries out longitudinal reciprocating motion through driving the oscillation tray 201 under the mating action with rectangular shape reciprocating oscillation groove 3021, realize the pluralism of oscillation orbit and use the regulation, convenient and flexible, and strong adaptability has improved the flexibility and the adaptability of the device.

The specific use mode and function of the embodiment are as follows:

in the invention, the oscillation amplitude of the oscillation carrier 2 of the device is adjusted according to the oscillation amplitude required by the inspection, the oscillation amplitude of the device can be adjusted through the adjusting component 4, when the adjusting rod 402 is rotated, the adjusting rod 402 can drive the positioning block 403 to move in the disc body of the driving turntable 401 through the threaded hole 4031, the rotation radius of the positioning block 403 is changed, and thus the rotation and reciprocating oscillation amplitude of the oscillation tray 201 is changed;

according to the oscillation track required by the inspection, the corresponding mode linkage block 3 is selected to be assembled:

when the rotary oscillating block 301 is assembled for use, the linkage column 4032 can drive the oscillating carrier 2 to rotate along the circumferential track through the rotary oscillating hole 3011 to oscillate, under the common limiting action of the longitudinal track block 1011, the longitudinal track groove 5011, the transverse positioning frame 502 and the transverse track groove 2011, the oscillating tray 201 cannot rotate along with the linkage column 4032 during oscillation, so that a mixed sample in a container in the oscillating tray 201 can be stably oscillated, and when the rotary oscillating block 301 is inserted into the fixed support 101 for use, the avoiding groove 3012 can avoid the part of the extrusion block 6013 protruding out of the fixed support 101, the locking toothed belt 6012 and the locking rack 5021 cannot be clamped and locked under the action of the top spring 6011, so that the oscillating tray 201 can freely oscillate in a transverse and longitudinal two-way movement through the two-way positioning frame 5, a basic oscillation function is realized, and the use is stable and flexible;

when the reciprocating oscillating block 302 is assembled for use, the linkage column 4032 drives the oscillating tray 201 to do longitudinal reciprocating movement only through the reciprocating oscillating groove 3021, and the extrusion block 6013 of the locking block 601 can be extruded after the reciprocating oscillating block 302 is assembled, so that the locking block 601 moves outwards to clamp the locking toothed belt 6012 on the locking rack 5021, the oscillating tray 201 cannot move transversely at the moment, and the linkage column 4032 drives the oscillating tray 201 to do longitudinal reciprocating movement only through the matching effect of the linear reciprocating oscillating groove 3021, so that diversified use and adjustment of an oscillation track are realized;

after the adjustment and assembly are completed, the container containing the sample is placed in the oscillating tray 201, then the oscillating can be started, the oscillating frequency of the oscillating carrier 2 can be adjusted through the controller device 102, and after the oscillating is completed, the power supply of the controller device 102 is turned off, and then the sample container is taken down for inspection.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (2)

1. The utility model provides a medical treatment clinical laboratory medicine mixes uses sample oscillator which characterized in that: comprising a mounting assembly (1);

the mounting assembly (1) comprises a fixed support (101), a controller device (102), a driving motor and an adjusting assembly (4), wherein the controller device (102) is screwed and fixed on the side face of a seat body of the fixed support (101) through a screw, and the driving motor is screwed and fixed inside the seat body of the fixed support (101) through a screw;

the vibration carrier (2) comprises a vibration tray (201) and a positioning assembly (6), the vibration tray (201) is inserted into the top of the fixed support (101), and the vibration tray (201) is internally screwed and fixed with a mode linkage block (3) through screws;

the bottom of the bidirectional positioning frame (5) is screwed and fixed on the top of the fixed support (101) through a screw; the positioning assembly (6) is composed of two locking blocks (601), the two locking blocks (601) are inserted into the oscillating tray (201), the two locking blocks (601) are symmetrically designed in the oscillating tray (201), the side face of the block body of each locking block (601) is provided with a separation top spring (6011), and two ends of each separation top spring (6011) are fixedly connected to the side face of the block body of each locking block (601) and the inside of the tray body of the oscillating tray (201) respectively;

the mode linkage block (3) is divided into a rotary oscillation block (301) and a reciprocating oscillation block (302), one side of the top of a block of the mode linkage block (3) is designed in a circular shape, the other side of the top of the block of the mode linkage block (3) is designed in a square shape, avoidance grooves (3012) are formed in two sides of the bottom of the block of the rotary oscillation block (301), the avoidance grooves (3012) are not formed in the bottom of the reciprocating oscillation block (302), an extrusion block (6013) is arranged on the inner side of the block of the locking block (601), and the outer end of the extrusion block (6013) extends out of a groove body of the mode linkage block (3) and is inserted into the fixed support (101);

the adjusting assembly (4) comprises a driving turntable (401), the driving turntable (401) is rotatably connected with the inside of the fixed support (101), and the driving turntable (401) is in transmission connection with a driving motor through a gear;

the two ends of the adjusting rod (402) are respectively and rotatably connected to the inner part of the disc body of the driving turntable (401);

the positioning block (403), the positioning block (403) is inserted into the disc body of the driving turntable (401);

one end of the bottom of the block body of the rotary oscillating block (301) is provided with a rotary oscillating hole (3011), the top of the positioning block (403) is provided with a linkage column (4032), and the linkage column (4032) is inserted into the rotary oscillating hole (3011);

a reciprocating oscillation groove (3021) is formed in the bottom of the block body of the reciprocating oscillation block (302), the groove body of the reciprocating oscillation groove (3021) is long, and the linkage column (4032) is inserted into the groove body of the reciprocating oscillation groove (3021); the bidirectional positioning frame (5) is a square frame body, the bidirectional positioning frame (5) consists of a longitudinal positioning frame (501) and two transverse positioning frames (502), the longitudinal positioning frame (501) and the transverse positioning frames (502) are respectively provided with two, two ends of the two transverse positioning frames (502) are respectively and fixedly connected with two ends of the tops of the two longitudinal positioning frames (501), and an included angle between the adjacent transverse positioning frame (502) and the longitudinal positioning frame (501) is ninety degrees; a longitudinal rail groove (5011) is formed in the frame body of the longitudinal positioning frame (501), a longitudinal rail block (1011) is arranged at the top of the seat body of the fixed support (101), the longitudinal rail block (1011) is inserted into the longitudinal rail groove (5011), a transverse rail groove (2011) is formed in the bottom of the oscillating tray (201), the transverse positioning frame (502) is inserted into the groove body of the transverse rail groove (2011), and the cross sections of the transverse positioning frame (502) and the longitudinal rail block (1011) are T-shaped; the outside of locking piece (601) is equipped with locking cingulum (6012), and the inboard at horizontal locating rack (502) support body top is equipped with locking rack (5021), locking cingulum (6012) when reset state not with the teeth of a cogwheel joint of locking rack (5021).

2. The medical clinical laboratory drug mixing sample oscillator according to claim 1, wherein: the adjusting rod (402) is characterized in that threads are arranged on the outer portion of the middle rod body, a threaded hole (4031) is formed in the block body of the positioning block (403), and the adjusting rod (402) is screwed in the threaded hole (4031) through the rod body threads.

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