CN114504979A - Medical treatment detects with vibration mixing device - Google Patents

Abstract

The invention discloses a vibration blending device for medical detection, which comprises: the fixing frame is arranged in a square structure, the front side surface and the rear side surface of the fixing frame are respectively provided with longitudinal load flat plates which are parallel to each other in the front-back direction, the square surface area at the bottom of the fixing frame is provided with shock absorption bases which are arranged in an array manner, and the surfaces of the longitudinal load flat plates close to the left side surface and the right side surface are provided with positioning lifting devices which are longitudinally and symmetrically arranged in the left-right direction; reciprocating lifting device is bilateral symmetry setting to vertically install in corresponding the left and right sides of mount, and the side of controlling install horizontally mixing subassembly between the reciprocating lifting device, the load cover frame is square structure form, installs in left and right sides on the location lifting device, its inside embedding have longitudinal and with the corresponding exhaust sealing device of bradyseism base.

Description

Medical treatment detects with vibration mixing device

Technical Field

The invention relates to the technical field of medical detection mixing, in particular to a vibration mixing device for medical detection.

Background

In the process of medical sample detection or experiment, a solvent is often added into a sample for detection, and the sample is shaken up and kept stand for waiting for detection or observation. Most of the test tubes are adopted to detect samples, after a plurality of groups of reagents are added, the reagents which are difficult to shake up manually are often adopted to shake up, or when the detected samples are more, the mixing equipment is adopted to operate. Most of the existing mixing equipment adopts a test tube and a reagent to be integrally rotated and mixed, wherein the reagent is incompletely filled in the test tube, so that the reagent can be separated from air and randomly flows and collides in the rotating process, the mixing purpose is achieved, and the mixing effect is improved; however, the mode of mixing like this, not only make the inside bubble of reagent after the mixing more, its bubble is longer along with mixing time, its bubble is littleer, and bubble density is higher, especially to the reagent that viscosity is higher a little, the dissipation required time of its later stage bubble is longer, not only influence detection efficiency, and its small bubble produces great influence to the experiment in-process, and then it is great to lead to detected data and actual deviation, reduce the authenticity of detected data, and during the mixing, the quantity of required test tube, most all need set up and install according to mixing equipment's symmetry, and then guarantee the mixing in-process, mixing equipment operation's stability, thereby improve the operation degree of difficulty.

Therefore, the technical personnel in the field provide a vibration blending device for medical detection to solve the problems in the background technology.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a medical treatment detects with vibration mixing device which includes:

the fixing frame is arranged in a square structure, the front side surface and the rear side surface of the fixing frame are respectively provided with longitudinal load flat plates which are parallel to each other in the front-back direction, the square surface area at the bottom of the fixing frame is provided with shock absorption bases which are arranged in an array manner, and the surfaces of the longitudinal load flat plates close to the left side surface and the right side surface are provided with positioning lifting devices which are longitudinally and symmetrically arranged in the left-right direction;

the reciprocating lifting device is arranged in bilateral symmetry and is longitudinally arranged on the left side and the right side of the corresponding fixed frame, the reciprocating lifting device comprises a screw rod, an auxiliary bearing strip sliding plate and a herringbone thread sleeve, the upper end and the lower end of the screw rod are arranged on the upper frame plate and the lower frame plate of the corresponding fixed frame through bearings, the lower end of the screw rod is fixed with the output end of a motor arranged on the fixed frame, the upper end and the lower end of the auxiliary bearing strip sliding plate are fixed with the upper frame plate and the lower frame plate of the fixed frame and are arranged in parallel with the screw rod, the left end and the right end of the herringbone thread sleeve are respectively sleeved outside the screw rod and are connected in a meshing manner, the outer side of the auxiliary bearing strip sliding plate is connected in a sliding manner, and the herringbone thread sleeve on the left side and the right side is provided with a horizontal blending assembly in a matching manner;

the load cover frame is in a square structure shape, is arranged on the left side and the right side of the positioning lifting device, and is internally embedded with a longitudinal exhaust sealing device corresponding to the cushioning base;

it should be noted that each group of the exhaust sealing devices and the corresponding cushioning bases can adapt to test tubes with different calibers and different calibers;

in the preferred embodiment, the test tube of the opposite sex and the test tube of a larger diameter are customized according to their diameters and appearance.

As a preferred technical scheme of the present invention, the blending component includes:

the end faces of the left side and the right side of the lifting flat plate are correspondingly fixed on the herringbone screw sleeves respectively, a horizontal square interlayer cavity is formed in the middle plate, accommodating hole grooves which are longitudinal and penetrate through the lifting flat plate and the square frame layer cavity and are arranged in an array form are formed in the middle plate, bearing rings are embedded in the separated groove walls at the upper end and the lower end of each accommodating hole groove, and the outer side rings of the bearing rings are fixed with the groove walls of the accommodating hole grooves;

the second motor is fixed on the lifting flat plate close to the left side, and the output end of the second motor is provided with a main gear which is positioned in the square shelf layer cavity;

the auxiliary gear rings are distributed in an array mode, are concentric with the containing hole grooves and are meshed with each other, a group of auxiliary gear rings positioned on the left side are meshed with the main gear, arc strips arranged in a circumferential mode are fixed to the upper ring surface end and the lower ring surface end of each auxiliary gear ring respectively, the arc strips on the upper side and the lower side are fixed to the inner side rings of the bearing rings on the upper side and the lower side, and first magnets arranged in a circumferential mode are embedded into the inner ring walls of the auxiliary gear rings;

the stirring leaf, with correspond the setting from the gear ring, the stirring leaf includes spacing ring, fan-shaped leaf is the circumference range and sets up with magnet one is corresponding, and is fixed in the spacing ring is outside, just install magnet two with magnet one looks attraction in the fan-shaped leaf.

In a preferred embodiment of the present invention, the arc center angle of the fan-shaped blade is 40 °.

As a preferable technical solution of the present invention, the arc center angle of the first magnet and the second magnet, which are arranged at the same arc center angle, is 30 °.

In a preferred embodiment of the present invention, the master gear and the slave gear rings are both wood structures.

As a preferred aspect of the present invention, the exhaust sealing device includes:

20866a type guide rail bracket, wherein the left and right side bracket plates of the guide rail bracket are provided with longitudinal lifting guide rails, the middle part of the top end of the guide rail bracket is fixedly embedded with a fastening rubber ring, and the lifting guide rails are provided with a first driving seat;

the left end and the right end of the load plate seat are correspondingly installed with the left driving seat and the right driving seat, the upper end surface of the load plate seat is provided with an air pump, the middle part of the load plate seat is embedded with a positioning cylinder, and the bottom and the top of the positioning cylinder are respectively provided with a sealing bag piece and a first sealing plug;

the gag lever post from top to bottom runs through in proper order the spacing ring in fastening rubber circle, sealing plug one, a location section of thick bamboo, sealed bag spare and the stirring leaf, and is located a sealing plug downside leave the air current seam chamber with sealed bag spare intercommunication between gag lever post lateral wall and the location section of thick bamboo inside wall, and lean on top department the air current seam chamber pass through the air duct with the air pump is linked together.

As a preferred aspect of the present invention, the sealing bladder includes:

the strip-shaped guide rails are circumferentially arranged in multiple groups, a second driving seat is mounted on each group of strip-shaped guide rails, a push-pull rod is hinged to each second driving seat, and a sealing gasket which is longitudinally arranged and moves along with the second driving seat is mounted at a sliding seam cavity where the second driving seat is connected with the strip-shaped guide rails;

the telescopic sleeves are of a multi-stage concentric layer sleeve free telescopic sliding structure, a plurality of groups of telescopic sleeves are arranged along the circumference of the outer wall of the positioning cylinder, the inner side end of the minimum inner diameter of each telescopic sleeve is fixed with the outer wall of the positioning cylinder, the outer ring wall of the outer side end of the maximum inner diameter of each telescopic sleeve is fixedly sleeved with an ear-shaped cylinder seat, and the ear seat on the ear-shaped cylinder seat is hinged with the lower end of the push-pull rod;

the annular piston is sleeved at the outer side ends of a plurality of groups of ear-shaped cylinder seats in a horizontal circular arrangement form;

the sliding shell sleeve is sleeved outside the limiting rod, the upper end and the lower end of the sliding shell sleeve are respectively fixed with a second sealing plug, the outer side wall of the sliding shell sleeve is hinged with an inclination angle adjusting rod which is arranged in a circumferential arrangement mode, and the upper end of the inclination angle adjusting rod is hinged with the lower lug seat corresponding to the lug-shaped cylinder seat;

and the upper end and the lower end of the elastic sealing cover below are respectively and hermetically connected with the upper end of the driving seat II and the upper end surface of the annular piston, and the upper end and the lower end of the elastic sealing cover below are respectively and hermetically connected with the lower end surface of the annular piston and the outer side wall of the sliding shell sleeve.

As a preferred technical scheme of the invention, a square round hole plate is arranged at the bottom of the V20866A-shaped guide rail frame, longitudinal shifting clamping plates are hinged on the left and right side plate surfaces of the round hole in the square round hole plate, the outer side plate surfaces of the shifting clamping plates are connected with the side frame of the V-shaped guide rail frame through compression springs, and square elastic clamping pads with round hole-shaped middle parts are arranged on the inner side plate surfaces of the shifting clamping plates on the left and right sides in a matched manner.

As a preferred technical solution of the present invention, a friction force between the second sealing plug and the stopper rod is less than a friction force between the first sealing plug and the stopper rod is less than a friction force between the fastening rubber ring and the stopper rod.

As a preferred technical scheme of the invention, the shock absorption base comprises attached cotton belts which are connected in a multi-section hinged mode, and the outer side of each group of attached cotton belts is connected with a shock absorption spring pointing to the circle center.

Compared with the prior art, the invention provides a vibration blending device for medical detection, which has the following beneficial effects: 1. according to the invention, redundant air in the test tube is discharged through the exhaust sealing device, and meanwhile, the test tube is sealed by the sealing bag, so that no air enters the reagent in the stirring process of the test tube, thereby avoiding the generation of bubbles, directly carrying out detection and experiment without waiting for the dissipation of the bubbles after the reagent is uniformly mixed, and further improving the detection and experiment efficiency.

2. According to the invention, through the supporting and drawing structure of the magnetic force in the blending assembly and the driving and matching of the reciprocating lifting device, the complexity of a structural component for blending the reagent can be reduced, the reagent can be subjected to horizontal centrifugal force and can move vertically in the vertical and horizontal directions again, the conventional fixed stirring device is prevented from forming a fixed vortex form, the reagent is subjected to rotary centrifugal action and can move vertically and reciprocally, vortex is broken up, the rolling strength of molecules in the reagent is higher and faster, and the blending efficiency and the blending uniformity of the reagent are improved.

Drawings

FIG. 1 is a schematic structural view of a vibrating and mixing device according to the present invention;

FIG. 2 is an enlarged schematic view of a portion of the mixing assembly of the present invention viewed from above;

FIG. 3 is an enlarged view of a portion of the exhaust seal assembly of the present invention;

FIG. 4 is an enlarged view of a portion of the sealed capsule of the present invention;

in the figure: 1. a fixed mount; 2. a cushioning base; 3. a reciprocating lifting device; 4. positioning a lifting device; 5. a load mask frame; 6. an exhaust sealing device; 21. a damping spring; 22. attaching a cotton tape; 31. a screw; 32. an auxiliary bearing strip sliding plate; 33. a Chinese character 'shi' shaped turnbuckle; 34. a first motor; 35. a blending component; 351. lifting the flat plate; 352. a bearing ring; 353. a second motor; 354. a main gear; 355. a slave gear ring; 356. arc strip plates; 357. a first magnet; 358. stirring blades; 359. a second magnet; 61. 20866a type guide rail bracket; 62. a first driving seat; 63. a load plate seat; 64. a positioning cylinder; 65. sealing the bladder member; 66. a limiting rod; 67. fastening a rubber ring; 68. an air pump; 69. sealing a first plug; 651. a strip-shaped guide rail; 652. a second driving seat; 653. a push-pull rod; 654. a telescopic sleeve; 655. an ear-shaped cylinder base; 656. an annular piston; 657. a sliding shell sleeve; 658. an inclination angle adjusting rod; 659. a second sealing plug; 6510. an elastic sealing cover.

Detailed Description

Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a medical treatment detects with vibration mixing device which includes:

the device comprises a fixing frame 1 which is arranged in a square structure, wherein the front side surface and the rear side surface of the fixing frame are respectively provided with a longitudinal load flat plate which is parallel to each other in the front-back direction, the square surface area at the bottom of the fixing frame is provided with shock absorption bases 2 which are arranged in an array manner, and the left side surface and the right side surface of the longitudinal load flat plate are provided with positioning lifting devices 4 which are longitudinally and symmetrically arranged in the left-right direction;

the reciprocating lifting device 3 is arranged in bilateral symmetry and is longitudinally arranged on the left side and the right side of the corresponding fixed frame 1, the reciprocating lifting device 3 comprises a screw rod 31, an auxiliary bearing strip sliding plate 32 and a herringbone thread sleeve 33, the upper end and the lower end of the screw rod 31 are all arranged on the upper frame plate and the lower frame plate of the corresponding fixed frame 1 through bearings, the lower end of the screw rod 31 is fixed with the output end of a motor 34 arranged on the fixed frame 1, the upper end and the lower end of the auxiliary bearing strip sliding plate 32 are all fixed with the upper frame plate and the lower frame plate of the fixed frame 1 and are arranged in parallel with the screw rod 31, the left end and the right end of the herringbone thread sleeve 33 are respectively sleeved outside the screw rod 31 and are connected in a meshing manner, the outer side of the auxiliary bearing strip sliding plate 32 is connected in a sliding manner, the horizontal blending component 35 is arranged on the herringbone thread sleeve 33 in a matching manner, the reciprocating lifting device is arranged in bilateral symmetry, so that the driving force is more uniform in the up-and down reciprocating movement process of the blending component, thereby improving the motion stability of the blending component;

the load cover frame 5 is in a square structure shape, is arranged on the left and right positioning lifting devices 4, and is internally embedded with a longitudinal exhaust sealing device 6 corresponding to the cushioning base 2;

as the best embodiment, the exhaust sealing device and the cushioning base are installed and placed in an embedded mode, so that the corresponding device exceeding the caliber range of the test tube adapted to the corresponding device can be replaced conveniently, and the use flexibility of the device is improved.

In this embodiment, the blending component 35 includes:

the end faces of the left side and the right side of the lifting flat plate 351 are correspondingly fixed on the herringbone thread sleeves 33 respectively, a horizontal square interlayer cavity is formed in the middle plate, the middle plate is provided with accommodating hole grooves which are vertical and penetrate through the lifting flat plate 351 and the square frame layer cavity and are arranged in an array manner, bearing rings 352 are embedded in the separated groove walls at the upper end and the lower end of the accommodating hole grooves, and the outer side rings of the bearing rings 352 are fixed with the groove walls of the accommodating hole grooves;

a second motor 353 fixed on the lifting plate 351 near the left side, wherein the output end of the second motor is provided with a main gear 354, and the main gear 354 is positioned in the square frame layer cavity;

the slave gear rings 354 are distributed in an array form and are concentric with the accommodating hole grooves, and are meshed with each other, a group of slave gear rings 354 on the left side are meshed with the master gear 354, arc slats 356 arranged in a circumferential arrangement are respectively fixed at the upper and lower annular ends of the slave gear rings 354, the upper and lower arc slats 356 are fixed with the inner rings of the bearing rings 352 on the upper and lower sides, and first magnets 357 arranged in a circumferential arrangement are embedded in the inner annular wall of the slave gear rings 354;

the stirring blades 358 are arranged corresponding to the secondary gear ring 354, each stirring blade comprises a limiting ring and fan-shaped blades, the fan-shaped blades are arranged in a circumferential manner, are arranged corresponding to the first magnets 357 and are fixed outside the limiting rings, and the second magnets 359 attracted to the first magnets 357 are installed in the fan-shaped blades;

in this regard, as a preferred embodiment, the diameter of the circle surrounded by the first magnet on the inner side of the gear ring is 1.5 times the diameter of the outermost circle of the stirring blade, so as to avoid the magnetic force from weakening when the first magnet is too far away from the second magnet.

In this embodiment, the arc center angle of the fan-shaped blades is 40 °, and as an optimal embodiment, the number of the fan-shaped blades is three, so that the stability of the distance between adjacent fan-shaped blades and the strength of the magnetic force is improved, the strength of the mutual interference of the magnetic force is reduced, the impact strength on the reagent can be improved, and the stability of the operation of the reagent can be further improved.

In this embodiment, the first magnet 357 and the second magnet 357 that are arranged at the same arc center angle have an arc center angle of 30 °.

In this embodiment, the master gear 354 and the slave gear 355 are both made of wood.

In this embodiment, the exhaust seal device 6 includes:

20866and a longitudinal lifting guide rail is arranged on the left and right side frame plates of the guide rail bracket 61, a fastening rubber ring 67 is fixedly embedded in the middle of the top end of the guide rail bracket, and a first driving seat 62 is arranged on the lifting guide rail;

the left end and the right end of the load plate seat 63 are correspondingly arranged with the left driving seat I62 and the right driving seat I62, the upper end surface of the load plate seat is provided with an air pump 68, the middle part of the load plate seat is embedded with a positioning cylinder 64, and the bottom and the top end of the positioning cylinder 64 are respectively provided with a sealing bag 65 and a sealing plug I69;

the limiting rod 66 sequentially penetrates through the fastening rubber ring 67, the first sealing plug 69, the positioning tube 64, the sealing bag 65 and the limiting ring in the stirring blade 358 from top to bottom, an airflow slot cavity communicated with the sealing bag 65 is reserved between the outer side wall of the limiting rod 66 and the inner side wall of the positioning tube 64 and is positioned on the lower side of the first sealing plug 69, and the airflow slot cavity close to the top end is communicated with the air pump 68 through an air guide tube;

the air pump is mainly used for ensuring the external form of the sealed capsule and reducing the nonuniformity of the external reagent impact.

In this embodiment, the sealing capsule 65 includes:

the strip-shaped guide rails 651 are circumferentially arranged in multiple groups, a second driving seat 652 is mounted on each group of strip-shaped guide rails 651, a push-pull rod 653 is hinged on each group of second driving seats 652, and a sealing gasket which is longitudinally arranged and moves along with the second driving seat 652 is mounted at the position where the second driving seats 652 are connected with the strip-shaped guide rails 651;

the telescopic sleeves 654 are of a multi-stage concentric layer sleeve free telescopic sliding structure, and are arranged in groups along the circumference of the outer wall of the positioning cylinder 64, the inner side end of the minimum inner diameter is fixed with the outer wall of the positioning cylinder 64, the outer ring wall of the outer side end of the maximum inner diameter is fixedly sleeved with an ear-shaped cylinder seat 655, and the ear seat on the ear-shaped cylinder seat 655 is hinged with the lower end of the push-pull rod 653;

an annular piston 656 sleeved on the outer ends of a plurality of groups of the ear-shaped cylinder bases 655 in a horizontal circular arrangement;

the sliding shell sleeve 657 is sleeved outside the limiting rod 66, the upper end and the lower end of the sliding shell sleeve 657 are respectively fixed with a second sealing plug 659, the outer side wall of the sliding shell sleeve 657 is hinged with an inclination angle adjusting rod 658 which is arranged in a circumferential arrangement manner, and the upper end of the inclination angle adjusting rod 658 is hinged with the lower ear seat corresponding to the ear-shaped cylinder seat 655;

the upper end and the lower end of the upper elastic sealing cover 6510 are respectively connected with the upper end of the second driving seat 652 and the upper end surface of the annular piston 656 in a sealing manner, and the upper end and the lower end of the lower elastic sealing cover 6510 are respectively connected with the lower end surface of the annular piston 656 and the outer side wall of the sliding shell sleeve 657 in a sealing manner;

in this, mainly adjust through the cooperation of push-and-pull rod regulation and control and inclination adjusting rod, can make the piston ring carry out the change of small-range diameter, and then the less test tube of adaptation bore difference, wherein, inclination adjusting rod's effect, through the outside form profile of its flexible change below elastic sealing cover, as the best embodiment, especially, be used for carrying out the reagent of mutual reaction, and can emit gaseous situation, to separating the shelves, through the cooperation use of inclination adjusting rod and air pump, make elastic sealing cover's outside profile be the toper curved surface form, and inclination, carry out height measurement to its gas, gaseous volume content is directly calculated to accessible volume formula, and again through adding inert gas filling device, drive the packing to the air of top elastic sealing cover, thereby be convenient for follow-up collection and the analysis to gas.

In this embodiment, be located the square round hole board is installed by the bottom to the type guide rail frame 61, all articulated on the side face of the side about the round hole in the square round hole board have fore-and-aft group splint, just group splint outside face through the pressure spring with the homotype guide rail frame 61 side bearer is connected, controls the side group splint inboard face cooperation is installed the square elasticity clamp pad that the middle part is the round hole form.

In this embodiment, the friction between the second sealing plug 659 and the limiting rod 66 is less than the friction between the first sealing plug 69 and the limiting rod 66 is less than the friction between the fastening rubber ring 67 and the limiting rod 66.

In this embodiment, the cushioning base 2 includes attached cotton tape 22, attached cotton tape 22 links up with the articulated mode of multistage, and every group attached cotton tape 22 outside all is connected with the damping spring 21 of directional centre of a circle.

In particular implementation, the method comprises the following steps:

s1: the method comprises the following steps that through the cooperation of a positioning lifting device and a group of empty test tubes held by hands, when the upper ends of the empty test tubes are stably embedded into a square elastic clamping pad, the position of a load cover frame is recorded as h1, and then the positioning lifting device lifts the load cover frame to a certain height;

s2: the height of the lifting flat plate is driven by the first motor and adjusted to be just at the top of the empty test tube, and the empty test tube can be supported in an auxiliary mode;

s3: after S1 and S2 are finished, the test tubes containing the reagents to be mixed are sequentially and slightly obliquely arranged on the mixing component and the cushioning base, the process is that the upper ends of the test tubes penetrate through the gear ring, so that the stirring blades are positioned in the test tubes, and the bottom ends of the test tubes are embedded into the cushioning base to be fixed until all the test tubes are installed;

s4: the height of the lifting flat plate is adjusted and driven by the motor I again, so that the stirring blades are embedded into the bottom of the reagent;

s5: then the positioning lifting device regulates and controls the load cover frame to gradually descend, at the moment, the top end of the test tube is embedded into the inner wall of the shifting plate and upwards moves upwards to be embedded into the square elastic clamping pad along the trend until the load cover frame is reset to h 1;

s6: at the moment, all the limiting rods are adjusted to penetrate through the bottom of the test tube;

s7: then regulating the downward movement of the sealing bag piece through a lifting guide rail in a 20866;, so that the elastic sealing cover below the annular piston is gradually immersed into the reagent until the upper surface of the reagent is just closely superposed with the lower surface of the annular piston, and no gas exists, driving the regulating ear-shaped cylinder seat through a driving seat II, so that the annular piston is closely attached to the inner wall of the test tube, wherein in the immersion process, the air pressure value in the sealing bag piece is regulated and controlled by an air pump, so that the appearance form of the sealing bag piece is relatively consistent with the initial state;

s8: and after S7, the second motor is started to drive the main gear to drive the driven gear ring to rotate, the stirring blades are rotated and stirred under the adsorption action of the first magnet and the second magnet, and simultaneously, the first motor is started again to drive the herringbone thread sleeve to move up and down, so that the reagent is stirred horizontally, centrifugally and mixed, and is vertically mixed and stirred.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a medical treatment detects with vibration mixing device which characterized in that: it includes:

the device comprises a fixing frame (1) which is arranged in a square structure, wherein the front side surface and the rear side surface of the fixing frame are respectively provided with longitudinal load flat plates which are parallel to each other in the front-back direction, the square surface area at the bottom of the fixing frame is provided with shock absorption bases (2) which are arranged in an array manner, and the left side surface and the right side surface of each longitudinal load flat plate are provided with positioning lifting devices (4) which are longitudinally and bilaterally symmetrically arranged;

the reciprocating lifting devices (3) are arranged in bilateral symmetry and are longitudinally arranged on the left side surface and the right side surface of the corresponding fixed frame (1), and the reciprocating lifting device (3) comprises a screw rod (31), an auxiliary bearing strip sliding plate (32) and a Chinese character 'shi' thread sleeve (33), the upper end and the lower end of the screw rod (31) are respectively arranged on the upper frame plate and the lower frame plate of the corresponding fixed frame (1) through bearings, the lower end of the motor is fixed with the output end of a first motor (34) arranged on the fixed frame (1), the upper end and the lower end of the auxiliary bearing strip sliding plate (32) are fixed with the upper frame plate and the lower frame plate of the fixed frame (1), the left end and the right end of the Chinese character 'ji' shaped screw sleeve (33) are respectively sleeved on the outer side of the screw rod (31) and are connected in a meshing manner, the outer side of the auxiliary bearing strip sliding plate (32) is connected in a sliding manner, and the left side and the right side of the Chinese character 'ji' shaped screw sleeve (33) are provided with a horizontal blending component (35) in a matching manner;

the load cover frame (5) is in a square structure shape, is arranged on the left side and the right side of the positioning lifting device (4), and is internally embedded with a longitudinal exhaust sealing device (6) corresponding to the cushioning base (2).

2. The medical detection vibration blending device according to claim 1, characterized in that: the blending component (35) comprises:

the left end face and the right end face of the lifting flat plate (351) are correspondingly fixed on the herringbone thread sleeves (33) respectively, a horizontal square interlayer cavity is formed in the middle plate, the middle plate is provided with accommodating hole grooves which are longitudinally arranged, penetrate through the lifting flat plate (351) and the square frame layer cavity and are arranged in an array manner, bearing rings (352) are embedded into the separated groove walls at the upper end and the lower end of the accommodating hole grooves, and the outer side ring of each bearing ring (352) is fixed with the groove walls of the accommodating hole grooves;

a second motor (353) which is fixed on the lifting flat plate (351) close to the left side, the output end of the second motor is provided with a main gear (354), and the main gear (354) is positioned in the square frame layer cavity;

the auxiliary gear rings (354) are distributed in an array form and are concentrically arranged with the accommodating holes and are meshed with each other, a group of auxiliary gear rings (354) positioned on the left side are meshed with the main gear (354), arc-shaped strips (356) arranged in a circumferential array form are respectively fixed at the upper ring surface end and the lower ring surface end of each auxiliary gear ring (354), the arc-shaped strips (356) on the upper side and the lower side are fixed with the inner side rings of the bearing rings (352) on the upper side and the lower side, and first magnets (357) arranged in a circumferential array form are embedded in the inner ring wall of each auxiliary gear ring (354);

and the stirring blades (358) are correspondingly arranged with the secondary gear ring (354), each stirring blade comprises a limiting ring and a fan-shaped blade, the fan-shaped blades are arranged in a circumferential manner, are arranged corresponding to the first magnet (357), are fixed outside the limiting rings, and are internally provided with a second magnet (359) attracted with the first magnet (357).

3. The medical detection vibration blending device according to claim 2, characterized in that: the arc center angle of the fan-shaped blade is 40 degrees.

4. The medical detection vibration blending device according to claim 2, characterized in that: the arc center angles of the first magnet (357) and the second magnet (357) which are arranged at the same arc center angle are 30 degrees.

5. The medical detection vibration blending device according to claim 2, characterized in that: the main gear (354) and the auxiliary gear ring (355) are both of wood structures.

6. The medical detection vibration blending device according to claim 1, characterized in that: the exhaust gas sealing device (6) comprises:

20866a type guide rail frame (61), wherein the left and right side frame plates of the type guide rail frame are provided with longitudinal lifting guide rails, the middle part of the top end of the type guide rail frame is fixedly embedded with a fastening rubber ring (67), and the lifting guide rails are provided with a first driving seat (62);

the left end and the right end of the load plate seat (63) are correspondingly arranged with the left driving seat I (62) and the right driving seat I (62), the upper end surface of the load plate seat is provided with an air pump (68), the middle part of the load plate seat is embedded with a positioning cylinder (64), and the bottom and the top end of the positioning cylinder (64) are respectively provided with a sealing bag part (65) and a sealing plug I (69);

gag lever post (66), run through in proper order from top to bottom fastening rubber circle (67), sealing plug (69), a location section of thick bamboo (64), sealed bag spare (65) and spacing ring in stirring leaf (358), and be located sealing plug (69) downside leave the air current seam chamber with sealed bag spare (65) intercommunication between gag lever post (66) lateral wall and a location section of thick bamboo (64) inside wall, and lean on top department the air current seam chamber pass through the air duct with air pump (68) are linked together.

7. The medical detection vibration blending device according to claim 6, wherein: the sealing bladder (65) comprises:

the strip-shaped guide rails (651) are arranged in a plurality of groups in a circumferential manner, a second driving seat (652) is installed on each group of strip-shaped guide rails (651), a push-pull rod (653) is hinged on each group of second driving seats (652), and a sealing gasket which is longitudinally arranged and moves along with the second driving seat (652) is installed at a sliding seam cavity where the second driving seat (652) is connected with the strip-shaped guide rails (651);

the telescopic sleeves (654) are of a multi-stage concentric layer sleeve free telescopic sliding structure, a plurality of groups are arranged along the circumference of the outer wall of the positioning cylinder (64), the inner side end of the minimum inner diameter is fixed with the outer wall of the positioning cylinder (64), the outer ring wall of the outer side end of the maximum inner diameter is fixedly sleeved with an ear-shaped cylinder seat (655), and the upper ear seat of the ear-shaped cylinder seat (655) is hinged with the lower end of the push-pull rod (653);

the annular piston (656) is sleeved at the outer side ends of a plurality of groups of ear-shaped cylinder seats (655) in a horizontal circular arrangement form;

the sliding shell sleeve (657) is sleeved on the outer side of the limiting rod (66), the upper end and the lower end of the sliding shell sleeve are respectively fixed with a second sealing plug (659), the outer side wall of the sliding shell sleeve (657) is hinged with a tilt angle adjusting rod (658) which is arranged in a circumferential arrangement manner, and the upper end of the tilt angle adjusting rod (658) is hinged with the lower ear seat corresponding to the ear-shaped barrel seat (655);

and the upper end and the lower end of the elastic sealing cover (6510) at the upper part are respectively connected with the upper end of the second driving seat (652) and the upper end surface of the annular piston (656) in a sealing way, and the upper end and the lower end of the elastic sealing cover (6510) at the lower part are respectively connected with the lower end surface of the annular piston (656) and the outer side wall of the sliding shell sleeve (657) in a sealing way.

8. The medical detection vibration blending device according to claim 6, wherein: be located it installs square round hole board to lean on the bottom to v 20866a type guide rail frame (61), all articulated on the side face of the side about the round hole in the square round hole board have fore-and-aft group splint, just dial splint outside face through the pressure spring with the same type guide rail frame (61) side bearer is connected, controls the side dial the inboard face cooperation of splint and install the square elastic clamp pad that the middle part is the round hole form.

9. The medical detection vibration blending device according to claim 7, wherein: the friction force between the second sealing plug (659) and the limiting rod (66) is less than the friction force between the first sealing plug (69) and the limiting rod (66) is less than the friction force between the fastening rubber ring (67) and the limiting rod (66).

10. The medical detection vibration blending device according to claim 1, characterized in that: bradyseism base 2 is including attached cotton area 22, attached cotton area 22 links up with the articulated mode of multistage, and every group attached cotton area 22 outside all is connected with the damping spring 21 of directional centre of a circle.

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