CN114653271B

CN114653271B - Anti-freezing pipe shakes even test-tube rack

Info

Publication number: CN114653271B
Application number: CN202210445563.6A
Authority: CN
Inventors: 操凯
Original assignee: First Affiliated Hospital of Zhejiang University School of Medicine
Current assignee: First Affiliated Hospital of Zhejiang University School of Medicine
Priority date: 2022-04-26
Filing date: 2022-04-26
Publication date: 2023-03-31
Anticipated expiration: 2042-04-26
Also published as: CN114653271A

Abstract

The invention relates to the technical field of medical supplies, in particular to an anti-coagulation tube shaking-up test tube rack which comprises anti-coagulation tube fixing seats, fixed shaft sleeves, a sliding rotating seat, fixed cap clamping plates, an anti-coagulation tube placing body and a shaking-up base. Has the advantages of automatically shaking up the anticoagulation tube, reducing the burden of workers and reducing the coagulation rate of the specimen.

Description

Anti-freezing pipe shakes even test-tube rack

Technical Field

The invention relates to the technical field of medical supplies, in particular to an anti-coagulation tube shaking test tube rack.

Background

The anticoagulation tube is a test tube treated by anticoagulant for preventing blood coagulation. Be used for the medical treatment, aspects such as biological assay, the hospital is used for the anticoagulation pipe of drawing blood, different colours represent different usage, and contain different anticoagulants, need carry out the anticoagulation pipe that has blood to save after medical personnel take a blood sample usually and need rock many times immediately, but collect blood specimen at patient and will gather multitube blood usually, fail in time to rock when a certain operating personnel gathers a tub of anticoagulation pipe and just take off a pipe, lead to the blood coagulation's phenomenon to appear in the sample, make the sample defective rate increase.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an anticoagulation tube shaking-up test tube rack.

The purpose of the invention is realized by the following technical scheme:

the utility model provides an anti-freezing pipe shakes even test-tube rack, including anti-freezing pipe fixing base, the dead axle sleeve, smooth seat that rotates, gu cap splint, anti-freezing pipe is put into the body and is shaken even base, shake even base and be used for driving a plurality of anti-freezing pipe fixing base and rotate, the equal rigid coupling of a plurality of anti-freezing pipe fixing bases is in the upper end of shaking even base, a plurality of dead axle sleeves rotate respectively and are connected with a plurality of smooth seat that rotates, a plurality of smooth seats that rotate all set up on anti-freezing pipe fixing base, the upper end of a plurality of dead axle sleeves all is provided with two and is gu cap splint, anti-freezing pipe is put into the body and is set up on shaking even base.

The working principle of the invention is as follows: when medical personnel samples, the shaking-up base starts to drive the anticoagulation tube fixing seats to rotate, the anticoagulation tube fixing seats are vertically provided with the fixed shaft sleeves which are respectively arranged on the anticoagulation tube fixing seats, the upper end surfaces of the plurality of fixing cap clamp plates are flush with the upper end surface of the anticoagulation tube placing body, because multi-tube blood extraction needs to be carried out, after the anticoagulation tube is extracted, the anticoagulation tube is directly inserted into the fixing cap clamp plates, after the anticoagulation tube completely enters the anticoagulation tube fixing seats, the fixing cap clamp plates automatically hold and fix the anticoagulation tube, the tube cap of the anticoagulation tube is ensured to be fixed, the phenomenon that the anticoagulation tube cap is not tightly covered to cause the blood stored in the anticoagulation tube to spill out in the shaking process is prevented, the blood can be prevented from being polluted by air, the reject ratio of samples is reduced, after the anticoagulation tube completely enters the anticoagulation tube fixing seats, the manual anticoagulation pipe cap of pressing of staff, fixed shaft cover and anticoagulation pipe are enclosed and are rotated around fixed shaft cover and smooth seat junction of rotating, fixed shaft cover is located the center of anticoagulation pipe when stall, the regional minimum of sweeping of anticoagulation pipe rotation, more save space, along with anticoagulation pipe fixing base drives smooth seat pivoted the anticoagulation pipe becomes the slope and rotates, put into body adjustment through anticoagulation pipe after rotating 5 rings and smooth seat of rotating and get back to in original position, anticoagulation pipe resumes vertical state when centering on fixed shaft cover and smooth seat junction pivoted, the rotation of anticoagulation pipe keeps the mixed state of internal liquid under vertical state, can fully rock evenly anticoagulation intraductal liquid, can put into or put into respectively simultaneously a plurality of anticoagulation pipes, still can guarantee anticoagulation pipe liquid and rock evenly.

Anti-freezing pipe fixing base place the pipe including rotating base, limiting plate, guided way, angle adjustment piece and anti-freezing pipe, the rigid coupling has two limiting plates on rotating the base, all is provided with the guided way on two limiting plates, two angle adjustment pieces are sliding connection respectively in two guided ways, two angle adjustment pieces all place the pipe with anti-freezing pipe and rotate and be connected.

The guide rails are composed of guide sections and locking sections.

The anti-freezing pipe fixing base still include locating plate and reset spring, two locating plates rotate respectively and connect on two limiting plates, two locating plates respectively with correspond and be provided with reset spring between the angle adjustment piece on one side.

The sliding rotation seat comprises fixing columns, a rotation shaft sleeve, a fixing bearing, bottom limiting plates, transverse grooves and push plates, wherein the bottom of the rotation shaft sleeve is provided with the two bottom limiting plates, the two bottom limiting plates are provided with the transverse grooves, the two push plates are respectively connected in the corresponding transverse grooves in a sliding mode, springs are arranged between the transverse grooves and the push plates, the outer diameter of the rotation shaft sleeve is connected in the fixing bearing in a sliding mode, the upper end of the rotation shaft sleeve is fixedly connected with the two fixing columns, the two angle adjusting blocks are respectively connected in the two bottom limiting plates in a sliding mode, and the angle adjusting blocks are respectively in surface contact with the push plates.

The fixed shaft sleeve include elastic clamping plate, stable cover and rotate and decide the axle bed, stable cover is used for stabilizing anti-freezing pipe and the upper end is provided with two clamp plates, two rotate and decide the equal rigid coupling of axle bed and put at stable cover, the internal diameter that pipe was placed to stable cover and anti-freezing pipe equals, a plurality of fixed columns rotate respectively and connect in rotating and deciding the axle bed.

The two elastic clamping plates are made of elastic materials and are arranged in a splayed shape.

The cap fixing clamping plate comprises a cap positioning plate and rubber fixing columns, a plurality of rubber fixing columns are arranged on the inner side of the cap positioning plate, and cap positioning plates are arranged at the upper ends of a plurality of clamping plates.

The anti-coagulation pipe body of putting in include upper cover plate, position transfer board, adjustment lead screw and fixed support post, the upper cover plate bottom is provided with a plurality of fixed support posts, the adjustment lead screw sets up the bottom at the upper cover plate, position transfer board sliding connection is on a plurality of fixed support posts, the adjustment lead screw passes through screw drive with the position transfer board, is provided with a plurality of fixing bearing on the position transfer board.

Shake even base include base, transmission group and driving motor, the driving motor rigid coupling on the base, the transmission group sets up on driving motor's output shaft, the transmission group rotates to be connected on the base, a plurality of rotation bases of transmission group drive rotate, the rigid coupling has a plurality of fixed support posts on the base, the adjustment lead screw rotates to be connected on the base.

Compared with the prior art, the automatic shaking and placing device has the advantages that the automatic shaking and placing device can automatically shake the placed anticoagulation tube, the workload of workers is reduced, and the coagulation rate of a specimen is reduced.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is an overall view of the present invention;

fig. 2 is a fixing base of the anticoagulation tube;

fig. 3 is a partially enlarged view of the anticoagulant tube fixing seat according to the present invention;

FIG. 4 is a fixed bushing of the present invention;

FIG. 5 is a slip rotor base of the present invention;

FIG. 6 is a cleat of the present invention;

FIG. 7 is an anticoagulant tube insert of the present invention;

FIG. 8 is a shake up base of the present invention.

In the figure: an anticoagulation pipe fixing seat 1; a rotating base 11; a limiting plate 12; a guide rail 13; an angle adjusting block 14; an anticoagulation tube holding tube 15; a positioning plate 16; a return spring 17; a fixed shaft sleeve 2; an elastic clamp plate 21; a stabilizer sleeve 22; a rotating fixed shaft seat 23; a sliding rotation base 3; a fixed column 31; a spindle sleeve 32; a fixed bearing 33; a bottom limiting plate 34; a transverse slot 35; a push plate 36; a cap fixing splint 4; a cap positioning plate 41; a rubber fixing post 42; an anticoagulation tube inserting body 5; an upper cover plate 51; a position adjusting plate 52; an adjusting screw 53; a fixed support column 54; shaking up the base 6; a base 61; a drive train 62; the motor 63 is driven.

Detailed Description

Referring to fig. 1 to 8, schematic diagrams of an embodiment of automatically shaking up anticoagulation tubes after putting a plurality of anticoagulation tubes respectively or putting a single anticoagulation tube in accordance with the present invention are shown, and further,

the utility model provides an anti-freezing pipe shakes even test-tube rack, including anti-freezing pipe fixing base 1, fixed axle sleeve 2, smooth rotation seat 3, gu cap splint 4, anti-freezing pipe is put into the body 5 and is shaken even base 6, shake even base 6 and be used for driving a plurality of anti-freezing pipe fixing base 1 and rotate, a plurality of anti-freezing pipe fixing base 1 equal rigid couplings are shaking the upper end of even base 6, a plurality of fixed axle sleeves 2 rotate respectively and are connected with a plurality of smooth rotation seats 3, a plurality of smooth rotation seats 3 all set up on anti-freezing pipe fixing base 1, a plurality of fixed axle sleeve 2's upper end all is provided with two and is gu cap splint 4, anti-freezing pipe is put into body 5 and is setting up on shaking even base 6. When medical personnel collect, the shaking-up base 6 starts to drive the plurality of anticoagulation tube fixing seats 1 to rotate, at the moment, the plurality of fixed shaft sleeves 2 respectively arranged on the plurality of anticoagulation tube fixing seats 1 are in a vertical state, the upper end faces of the plurality of fixing cap clamping plates 4 are parallel and level with the upper end face of the anticoagulation tube placing body 5, as the extraction of multi-tube blood is needed, after the extraction is completed, the anticoagulation tubes are directly inserted into the fixing cap clamping plates 4, after the anticoagulation tubes completely enter the anticoagulation tube fixing seats 1, the anticoagulation tubes are automatically clamped and fixed by the fixing cap clamping plates 4, the fixation of the caps of the anticoagulation tubes is ensured, the phenomenon that the anticoagulation tube caps are not tightly covered enough to cause the blood stored in the anticoagulation tubes in the shaking process is prevented, the blood can also be prevented from being polluted by air, the disqualification rate is reduced, after the anticoagulation tubes completely enter the anticoagulation tube fixing seats 1, the manual anticoagulation pipe cap of pressing of staff, fixed shaft cover 2 and anticoagulation pipe are enclosed and are rotated with smooth rotation seat 3 junction around fixed shaft cover 2, fixed shaft cover 2 is located the center of anticoagulation pipe when stall, along with anticoagulation pipe fixing base 1 drives smooth rotation seat 3 pivoted while anticoagulation pipe becomes the slope and rotates, put into 5 adjustment slip rotation seats of body 3 through anticoagulation pipe after rotating 5 rings and get back to in original position, anticoagulation pipe resumes vertical state when centering on fixed shaft cover 2 and smooth rotation seat 3 junction pivoted, the rotation of anticoagulation pipe keeps the mixed state of inside liquid under vertical state, can fully rock evenly anticoagulation intraductal liquid, can put into simultaneously or put into respectively to a plurality of anticoagulation pipes simultaneously, can guarantee still that anticoagulation pipe liquid rocks evenly.

Referring to fig. 1-3, schematic diagrams of an embodiment of the anticoagulation tube after placement according to the invention are shown, and further,

the anticoagulant tube fixing seat 1 comprises a rotating base 11, limiting plates 12, guide rails 13, angle adjusting blocks 14 and an anticoagulant tube placing tube 15, wherein the rotating base 11 is fixedly connected with the two limiting plates 12, the two limiting plates 12 are respectively provided with the guide rails 13, the two angle adjusting blocks 14 are respectively connected in the two guide rails 13 in a sliding mode, the two angle adjusting blocks 14 are respectively connected with the anticoagulant tube placing tube 15 in a rotating mode, the anticoagulant tube fixing seat 1 further comprises a positioning plate 16 and a reset spring 17, the two positioning plates 16 are respectively connected on the two limiting plates 12 in a rotating mode, the reset spring 17 is respectively arranged between the two positioning plates 16 and the angle adjusting blocks 14 on the corresponding side, an anticoagulant tube is placed in the anticoagulant tube placing body 5, finally, the anticoagulant tube 15 completely enters the anticoagulant tube placing tube 15 to complete fixation, the initial state is that the anticoagulant tube placing tube 15 is perpendicular to the rotating base 11, a plurality of guided ways 13 comprise guide section and locking section, angle adjustment block 14 is located the left end that corresponds 13 guide sections of guided ways, when carrying out the anti-freezing pipe after accomplishing fixed and pressing, angle adjustment block 14 slides in the guide section of guided ways 13, up to sliding to the rightmost end of 13 guide sections of guided ways, it is the biggest to place 15 inclination of pipe, for the limit of pressing anti-freezing pipe, later staff's lax hand, lift angle adjustment block 14 to the locking section under reset spring 17's spring action in, it diminishes to place 15 inclination of pipe, at this moment, accomplish the fixing to placing pipe 15, rotating base 11 and driving corresponding placing pipe 15 and rotate 5 backs, control anti-freezing pipe and put into body 5 and drive slip rotation seat 3 and move down a section distance and make later at the rebound, just can make anti-freezing pipe put into body 5 resume to initial condition.

Referring to fig. 1 and 5, there are shown schematic views illustrating an example of how the anticoagulation tube is returned to a vertical starting state after shaking according to the present invention, and further,

the sliding rotating seat 3 comprises fixing columns 31, a rotating shaft sleeve 32, a fixing bearing 33, bottom limiting plates 34 and transverse grooves 35, two bottom limiting plates 34 are arranged at the bottom of the rotating shaft sleeve 32, the transverse grooves 35 are formed in the two bottom limiting plates 34, the outer diameter of the rotating shaft sleeve 32 is connected in the fixing bearing 33 in a sliding mode, the upper end of the rotating shaft sleeve 32 is fixedly connected with the two fixing columns 31, two angle adjusting blocks 14 are connected in the two bottom limiting plates 34 in a sliding mode respectively, push plates 36 are connected in the transverse grooves 35 in a sliding mode, springs are arranged between the push plates 36 and the transverse grooves 35, the angle adjusting blocks 14 are in surface contact with the push plates 36 respectively, when the angle adjusting blocks 14 slide in the guide sections of the corresponding guide rails 13, the angle adjusting blocks 14 push the push plates 36 to compress the springs and slide in the transverse grooves 35, after the corresponding placing pipes 15 are driven by the rotating base 11 to rotate for 5 circles, the anticoagulant pipe placing body 5 is controlled to drive the sliding rotating seat 3 to move downwards for a certain distance, the push plates 36 enable the locking sections of the angle adjusting blocks 14 and the guide rails 13 to be in a locking section in a vertical direction, and then the anticoagulant pipe placing body can be placed in a dislocation state after the rotating shaft sleeve 32, and the anticoagulant body can be restored to be in a vertical state.

Referring to fig. 1 and 4, there is shown a schematic diagram of an embodiment of stabilizing an anticoagulation tube in shaking according to the present invention, and further,

fixed axle sleeve 2 include elastic clamping plate 21, stable cover 22 and rotation fixed axle seat 23, stable cover 22 is used for stabilizing anti-freezing pipe and the upper end is provided with two clamp plates 21, two rotate the equal rigid couplings of fixed axle seat 23 on stable cover 22, it is equal with anti-freezing pipe placement tube 15's internal diameter to stabilize cover 22, a plurality of fixed columns 31 rotate respectively and connect in rotating fixed axle seat 23, two elastic clamping plate 21 adopt elastic material and are "splayed" setting, clamp plate 21 itself has elasticity, after putting into anti-freezing pipe, two clamp plates 21 are produced deformation by anti-freezing pipe extrusion, continuously generate pressure to anti-freezing pipe, make anti-freezing pipe shake even in the operation and keep stable.

Referring to fig. 1 and 6, schematic diagrams of an embodiment of fixing the anticoagulation tube cap after placing the anticoagulation tube according to the invention are shown, and further,

gu cap splint 4 include block locating plate 41 and rubber fixed column 42, the inboard of block locating plate 41 is provided with a plurality of rubber fixed columns 42, a plurality of clamp plate 21 upper ends all are provided with block locating plate 41, put into the back completely at the anti-coagulation pipe, the block locating plate 41 that corresponds produces pressure to fixed anti-coagulation pipe cap under the elastic clamping plate 21 spring action, setting up through a plurality of rubber fixed columns 42 has increased the frictional force of rubber fixed column 42 with anti-coagulation pipe cap, the effectual position that keeps anti-coagulation pipe cap in two block locating plates 41 is unchangeable.

Referring to fig. 1 and 7, schematic diagrams of an embodiment of fixing the anticoagulation tube cap after placing the anticoagulation tube according to the invention are shown, and further,

the anticoagulant tube inserting body 5 comprises an upper cover plate 51, a position adjusting plate 52, an adjusting screw rod 53 and fixed supporting columns 54, a plurality of fixed supporting columns 54 are arranged at the bottom of the upper cover plate 51, the adjusting screw rod 53 is arranged at the bottom of the upper cover plate 51, a power source such as a servo motor is externally connected to the adjusting screw rod 53, the position adjusting plate 52 is connected to the fixed supporting columns 54 in a sliding mode, the adjusting screw rod 53 and the position adjusting plate 52 are in threaded transmission, the fixed bearing 33 is fixedly connected to the position adjusting plate 52, when the rotating shaft sleeve 32 is pushed downwards, the rotating shaft sleeve 32 slides in the fixed bearing 33 until the rotating shaft sleeve 32 is pushed to be in contact with the position adjusting plate 52, and the position adjusting plate 52 moves downwards first and then upwards until the anticoagulant tube inserting body 5 is restored to a vertical initial state through adjustment of the adjusting screw rod 53.

Referring to fig. 1 and 8, there is shown a schematic diagram of an embodiment of shaking up an anticoagulation tube by driving a plurality of rotating bases to rotate according to the present invention, and further,

the shaking base 6 comprises a base 61, a transmission group 62 and a driving motor 63, the driving motor 63 is fixedly connected to the base 61, the transmission group 62 is arranged on an output shaft of the driving motor 63, the transmission group 62 is rotatably connected to the base 61, the transmission group 62 drives a plurality of rotating bases 11 to rotate, a plurality of fixed supporting columns 54 are fixedly connected to the base 61, an adjusting screw 53 is rotatably connected to the base 61, the transmission group 62 comprises a plurality of gears and a plurality of toothed belts, the plurality of gears positioned on the outer ring are transmitted through one toothed belt, the gear on the inner ring is transmitted through one toothed belt, two gears close to the plurality of gears on the inner ring and the outer ring are transmitted through the toothed belt, the gears of the transmission group 62 connected by starting and driving of the driving motor 63 rotate, the plurality of gears can rotate simultaneously, the rotating bases 11 can rotate simultaneously, the anticoagulation tube is inclined, the center of the anticoagulation tube is positioned on the axis of the rotating base 11 and rotates around the axis of the rotating base 11, after 5 turns, the anticoagulation tube rotates when the self angle changes, full automatic shaking is realized, the coagulation phenomenon is prevented, and the coagulation rate is reduced.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although a large number of terms are used here more, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.

Claims

1. The utility model provides an anti-freezing pipe shakes even test-tube rack which characterized in that: comprises an anticoagulation tube fixing seat (1), a fixed shaft sleeve (2), a sliding rotating seat (3), a plurality of anticoagulation tube fixing seats (1), a plurality of anticoagulation tube placing bodies (5) and a shaking-up base (6), the shaking-up base (6) is used for driving the anticoagulation tube fixing seats (1) to rotate, the anticoagulation tube fixing seats (1) are all fixedly connected at the upper end of the shaking-up base (6), the anticoagulation tube placing bodies (5) are respectively and rotatably connected with the sliding rotating seats (3), the sliding rotating seats (3) are all arranged on the anticoagulation tube fixing seats (1), the upper ends of the fixed shaft sleeves (2) are respectively provided with two anticoagulation cap clamping plates (4), the anticoagulation tube placing bodies (5) are arranged on the shaking-up base (6), the anticoagulation tube fixing seats (1) comprise a rotating base (11), limiting plates (12), guide rails (13), angle adjusting blocks (14) and anticoagulation tube placing tubes (15), two limiting plates (12) are fixedly connected on the rotating base (11), two guide rails (13) and two guide tube adjusting blocks (13) are respectively connected with a plurality of guide tube positioning blocks (13), two guide tube adjusting blocks (13) and two guide tube placing springs (16), two locating plates (16) are respectively rotatably connected to two limiting plates (12), a reset spring (17) is arranged between each two locating plates (16) and an angle adjusting block (14) on one corresponding side, each sliding rotating seat (3) comprises a fixed column (31), a rotating shaft sleeve (32), a fixed bearing (33), bottom limiting plates (34), transverse grooves (35) and a push plate (36), two bottom limiting plates (34) are arranged at the bottom of each rotating shaft sleeve (32), transverse grooves (35) are arranged on the two bottom limiting plates (34), the two push plates (36) are respectively slidably connected in the corresponding transverse grooves (35), springs are arranged between the transverse grooves (35) and the push plates (36), the outer diameter of each rotating shaft sleeve (32) is slidably connected in the corresponding fixed bearing (33), the upper end of each rotating shaft sleeve (32) is fixedly connected with the two fixed columns (31), the two angle adjusting blocks (14) are respectively slidably connected in the two bottom limiting plates (34), and the angle adjusting blocks (14) are respectively in surface contact with the push plates (36).

2. An anticoagulation tube shaking test tube rack according to claim 1, characterized in that: fixed axle sleeve (2) including elastic clamping plate (21), stable cover (22) and rotate and decide axle bed (23), stable cover (22) are used for stabilizing anti-freezing pipe and the upper end is provided with two clamp plates (21), two rotate and decide the equal rigid couplings of axle bed (23) on stable cover (22), the internal diameter that pipe (15) were placed with anti-freezing pipe to stable cover (22) equals, a plurality of fixed columns (31) rotate respectively and connect in rotating and deciding axle bed (23).

3. The anticoagulation tube shaking-up test tube rack according to claim 2, characterized in that: the two elastic clamping plates (21) are made of elastic materials and are arranged in a splayed shape.

4. An anticoagulation tube shaking test tube rack according to claim 3, characterized in that: the cap fixing clamping plate (4) comprises a cap positioning plate (41) and rubber fixing columns (42), a plurality of rubber fixing columns (42) are arranged on the inner side of the cap positioning plate (41), and the cap positioning plate (41) is arranged at the upper end of each of the clamping plates (21).

5. The anti-coagulation tube shaking-up test tube rack according to claim 4, characterized in that: the anticoagulation tube containing body (5) comprises an upper cover plate (51), a position adjusting plate (52), an adjusting screw rod (53) and fixing support columns (54), wherein the plurality of fixing support columns (54) are arranged at the bottom of the upper cover plate (51), the adjusting screw rod (53) is arranged at the bottom of the upper cover plate (51), the position adjusting plate (52) is connected onto the plurality of fixing support columns (54) in a sliding mode, the adjusting screw rod (53) and the position adjusting plate (52) are in threaded transmission, and a plurality of fixing bearings (33) are arranged on the position adjusting plate (52).

6. The anticoagulation tube shaking-up test tube rack according to claim 5, characterized in that: shake even base (6) include base (61), transmission group (62) and driving motor (63), driving motor (63) rigid coupling is on base (61), transmission group (62) set up on the output shaft of driving motor (63), transmission group (62) rotate to be connected on base (61), transmission group (62) drive a plurality of rotation bases (11) and rotate, the rigid coupling has a plurality of fixed support post (54) on base (61), adjustment lead screw (53) rotate to be connected on base (61).