CN114985032B - Finishing arrangement equipment for improving virus sample liquid detection efficiency - Google Patents

Abstract

The invention provides arrangement equipment for improving virus sample liquid detection efficiency, which comprises a support frame plate, wherein two sides of the support frame plate are respectively arranged on the top surface of a support base through a plurality of top plate screws, a bouncing fixed plate is arranged in the middle of the support base, a plurality of bouncing group rows are embedded in the middle of the bouncing fixed plate, spring sheet pressing plates are respectively arranged below the bouncing group rows, and the spring sheet pressing plates are respectively arranged on the inner bottom surface of the support base.

Description

Finishing arrangement equipment for improving virus sample liquid detection efficiency

Technical Field

The invention relates to the technical field of medical equipment, in particular to arrangement equipment for improving virus sample liquid detection efficiency.

Background

The detection and diagnosis of various diseases are carried out by collecting virus sample liquid, and the detection efficiency is required to be improved as much as possible.

The virus sample liquid is usually stored in the detection test tubes, a plurality of detection test tubes are arranged in a test tube bracket in groups, and the arrangement density of the test tubes needs to be increased as much as possible in order to improve the detection efficiency, so that the detection quantity is improved; but arrange more closely simultaneously, the space between the test tube is less, does not have the gap even, leads to the inspector to take the test tube from the array comparatively inconvenient, and the inspector still takes protective glove under most circumstances, is difficult to take single test tube from the array more, has hindered detection efficiency's improvement greatly, can not satisfy people's user demand.

Disclosure of Invention

The invention provides a sorting and arranging device for improving the detection efficiency of virus sample liquid, aiming at solving the technical problem that the prior art can increase the arrangement density of test tubes and simultaneously facilitate the taking of single test tubes.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an improve arrangement equipment of virus appearance liquid detection efficiency, includes the carriage plate, the top surface of support base is located through a plurality of roof screws respectively to the both sides of carriage plate, the middle part of support base is equipped with the spring fixed plate, the middle part of spring fixed plate inlays and is equipped with a plurality of spring group row, a plurality of the below that spring group was arranged is equipped with the shell fragment hold-down plate respectively, and is a plurality of the shell fragment hold-down plate is all located the inside bottom surface of support base.

Further, the support frame plate comprises an array top plate, and a plurality of test tube limiting rods are arranged on the bottom surface of the array top plate.

Further, a plurality of test tube arrangement holes are formed in the middle of the array top plate, a plurality of test tube arrangement holes are arranged in a honeycomb shape, stacking limiting external corner blocks are respectively arranged at four corners of the array top plate, and a plurality of screw holes are respectively formed in two sides of the array top plate.

Further, the support base includes the support bottom plate, the bottom surface four corners of support bottom plate is equipped with respectively stacks spacing interior angle block, the one end of support bottom plate is equipped with preceding backup pad, a plurality of mouths of dialling have been seted up to the lower part of preceding backup pad, the other end of support bottom plate is equipped with back backup pad, the middle part both sides of support bottom plate are equipped with the main tributary vaulting pole respectively, the top surface both ends of preceding backup pad back backup pad the top surface both ends, a plurality of the upper end of main tributary vaulting pole is equipped with the screw fixation hole respectively.

Further, total spacing groove has been seted up at the top surface middle part of spring fixed plate, a plurality of hexagon mounting groove have been seted up to the bottom surface of total spacing groove, and a plurality of the hexagon mounting groove is the honeycomb arrangement setting, bracing piece spacing groove has been seted up respectively to the both sides of spring fixed plate.

Further, the bouncing group comprises a plurality of bouncing units, the middles of the bouncing units are respectively arranged in the hexagonal installation grooves, the bottoms of the bouncing units are all arranged on the top surface of the locking spring plate, and the bottom surface of the upper part of the locking spring plate is arranged on the top surface of the spring plate compacting plate.

Further, the bouncing unit comprises a bouncing shell, the middle part of the bouncing shell is connected with a bouncing center column in a sliding mode, a bouncing top plate is arranged at the upper end of the bouncing center column, a plurality of folding springs are arranged on the bottom surface of the bouncing top plate, the lower ends of the folding springs are respectively provided with the top surface of a spring fixing ring, and the spring fixing rings are arranged on the bottom surface inside the bouncing shell.

Further, the upper portion of bouncing shell is equipped with the installation spacing ring, the spring groove has been seted up at the middle part of bouncing shell, the bottom surface of spring groove is equipped with the fixed ring of spring, the center pillar guide hole has been seted up at the bottom surface middle part of spring groove, the inside sliding connection of center pillar guide hole the bouncing center pillar.

Furthermore, a locking bevel is formed in one side of the middle part of the bouncing center column, and a spring sheet pushing block is arranged at the lower end of the bouncing center column.

Further, a plurality of sectional grooves are formed in the lower portion of the locking spring plate, the sectional grooves are arranged in a fold line shape, a poking rod is arranged at one end of the locking spring plate, and the upper portion of the locking spring plate is arranged in a bending shape.

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

the test tubes are sequentially bounced through the plurality of bouncing groups, so that the test tube array density is increased, the single test tube is conveniently taken, and the detection efficiency of virus sample liquid is greatly improved.

Drawings

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

FIG. 2 is a schematic diagram showing an opened internal structure of the present invention;

FIG. 3 is a second schematic diagram illustrating the opening of the internal structure of the present invention;

FIG. 4 is a schematic top view of the present invention;

FIG. 5 is a schematic view of a structure of a support frame according to the present invention;

FIG. 6 is a schematic view of a base structure of a bracket according to the present invention;

FIG. 7 is a second schematic view of the structure of the bracket base of the present invention;

FIG. 8 is a schematic view of a bouncing mounting plate structure in accordance with the present invention;

FIG. 9 is a schematic view of a bouncing mounting plate and a plurality of bouncing groups in accordance with the present invention;

FIG. 10 is a schematic view of a bouncing group matrix structure in accordance with the present invention;

FIG. 11 is a schematic view of a bouncing unit in cross-section;

FIG. 12 is a schematic view of a latch spring according to the present invention.

In the figure: 1. a support frame plate; 11. an array top plate; 111. holes are arranged on the test tube; 112. stacking limit outer corner blocks; 113. screw holes; 12. a test tube limit rod; 2. a top plate screw; 3. a bracket base; 31. a bracket base plate; 311. stacking limit inner corner blocks; 32. a front support plate; 321. a poking port; 322. screw fixing holes; 33. a rear support plate; 34. a main support rod; 4. a bouncing fixed plate; 41. a total limit groove; 42. a hexagonal mounting groove; 43. a support rod limit groove; 5. a bouncing group row; 51. a bouncing unit; 511. a bouncing outer shell; 5111. installing a limiting ring; 5112. a spring groove; 5113. a center pillar guide hole; 512. bouncing the middle column; 5121. a latch bezel; 5122. spring plate pushing blocks; 513. bouncing the top plate; 514. a folding spring; 515. a spring fixing ring; 52. a locking spring plate; 521. a segment groove; 522. a toggle rod; 6. the spring plate compresses tightly the board.

Detailed Description

In order that the invention may be more fully understood, a more particular description of the invention will be rendered by reference to the appended drawings, in which several embodiments of the invention are illustrated, but which may be embodied in different forms and are not limited to the embodiments described herein, which are, on the contrary, provided to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "mounted" on another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to the other element, it may be directly connected to the other element or intervening elements may also be present, the terms "vertical", "horizontal", "left", "right" and the like are used herein for the purpose of illustration only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly connected to one of ordinary skill in the art to which this invention belongs, and the knowledge of terms used in the description of this invention herein for the purpose of describing particular embodiments is not intended to limit the invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

1-3, please focus on an arrangement device for improving virus sample detection efficiency, which comprises a support frame plate 1, wherein two sides of the support frame plate 1 are respectively arranged on the top surface of a support base 3 through a plurality of top plate screws 2, a bouncing fixing plate 4 is arranged in the middle of the support base 3, a plurality of bouncing group rows 5 are embedded in the middle of the bouncing fixing plate 4, spring sheet compacting plates 6 are respectively arranged below the bouncing group rows 5, and the spring sheet compacting plates 6 are all arranged on the inner bottom surface of the support base 3.

Referring to fig. 4-5, the supporting frame plate 1 includes an array top plate 11, a plurality of test tube limiting rods 12 are disposed on a bottom surface of the array top plate 11, a plurality of test tube arranging holes 111 are disposed in a middle portion of the array top plate 11, a plurality of test tube arranging holes 111 are disposed in a honeycomb arrangement, stacking limiting outer corner blocks 112 are disposed at four corners of the array top plate 11, and a plurality of screw holes 113 are disposed at two sides of the array top plate 11.

Referring to fig. 6-7, the support base 3 includes a support base plate 31, stacking limit inner corner blocks 311 are respectively disposed at four corners of a bottom surface of the support base plate 31, a front support plate 32 is disposed at one end of the support base plate 31, a plurality of shifting ports 321 are disposed at a lower portion of the front support plate 32, a rear support plate 33 is disposed at the other end of the support base plate 31, main support rods 34 are respectively disposed at two sides of a middle portion of the support base plate 31, screw fixing holes 322 are respectively disposed at two ends of a top surface of the front support plate 32, two ends of a top surface of the rear support plate 33, and upper ends of the main support rods 34.

In the embodiment, please refer to fig. 8, a total limit groove 41 is provided in the middle of the top surface of the bounce fixing plate 4, a plurality of hexagonal installation grooves 42 are provided on the bottom surface of the total limit groove 41, a plurality of hexagonal installation grooves 42 are arranged in a honeycomb shape, and support bar limit grooves 43 are provided on two sides of the bounce fixing plate 4, so that the bounce units 51 in the bounce group 5 are positioned and installed through the bounce fixing plate 4.

Referring to fig. 9-10, the bouncing group 5 includes a plurality of bouncing units 51, the middle parts of the bouncing units 51 are respectively disposed in the hexagonal mounting groove 42, the bottom surfaces of the bouncing units 51 are respectively disposed on the top surfaces of the locking spring plates 52, and the bottom surfaces of the upper parts of the locking spring plates 52 are disposed on the top surfaces of the spring plate compacting plates 6.

Referring to fig. 11, the bouncing unit 51 includes a bouncing housing 511, a bouncing center pillar 512 is slidably connected in the middle of the bouncing housing 511, a bouncing top plate 513 is disposed at an upper end of the bouncing center pillar 512, a plurality of folding springs 514 are disposed on a bottom surface of the bouncing top plate 513, top surfaces of spring fixing rings 515 are disposed at lower ends of the folding springs 514, the spring fixing rings 515 are disposed on an inner bottom surface of the bouncing housing 511, a mounting limiting ring 5111 is disposed at an upper portion of the bouncing housing 511, a spring groove 5112 is disposed in a middle of the bouncing housing 511, a center pillar guide hole 5113 is disposed in a middle of a bottom surface of the spring groove 5112, a latch bevel 5121 is disposed at one side of the middle of the bouncing center pillar 512, a spring pusher 5122 is disposed at a lower end of the bouncing center pillar 512, and the bouncing center pillar 512 is driven to move downward by sampling the bouncing center pillar 513, and then is reset by the plurality of folding springs 512.

In the embodiment, please refer to fig. 12, a plurality of segment slots 521 are formed at the lower portion of the latch spring 52, a plurality of segment slots 521 are arranged in a zigzag shape, a toggle rod 522 is disposed at one end of the latch spring 52, and the upper portion of the latch spring 52 is arranged in a bent shape.

Principle of operation: firstly, one side of a sampling test tube is inserted into a test tube arrangement hole 111 on a support frame plate 1 from one end close to a front support plate 32, a bouncing top plate 513 is pressed by the sampling test tube to drive a bouncing center column 512 to move downwards, a clamping spring plate 52 at a corresponding position is pushed away by a spring plate push block 5122 at the lower end of the bouncing center column 512 and moves to the position where the spring plate push block 5122 is lower than the lowest end of the clamping spring plate 52, the clamping spring plate 52 resets and clamps a clamping bevel 5121, namely, one sampling test tube is inserted, one row is inserted at a time, then the next row is inserted until the sampling test tube is inserted, and the array density of the sampling test tube is maximized through a plurality of test tube arrangement holes 111 which are arranged in a honeycomb shape, so that the detection quantity is greatly improved; the plurality of the devices can be safely and stably piled together through the cooperation of the plurality of the stacking limit inner corner blocks 311 and the plurality of the stacking limit outer corner blocks 112, so that the stacking quantity of detection sample liquid is further improved; when the sampling test tube needs to be taken, the first section of the locking spring piece 52 is driven to move out of the locking bevel 5121 by the light poking rod 522, so that the bouncing center column 512 in the first bouncing unit 51 is released, and then the bouncing center column 512 is driven to reset by the plurality of folding springs 514, so that the first sampling test tube is ejected upwards, and the detection personnel can conveniently take the sample test tube; after the sampling test tube is used, the first sampling test tube is inserted into the original position, the bouncing top plate 513 is pressed by the sampling test tube to drive the bouncing center column 512 to move downwards, one end of the next section of locking spring piece 52 is pushed away by the spring piece pushing block 5122 at the lower end of the bouncing center column 512, so that the next section of locking spring piece 52 is moved out of the locking bevel 5121 at the lower end of the bouncing center column 512 in the next bouncing unit 51, the bouncing center column 512 in the next bouncing unit 51 is released, the bouncing center column 512 is driven to reset by the plurality of folding springs 514 to pop up the next sampling test tube, and meanwhile, the bouncing center column 512 in the first bouncing unit 51 continues to move downwards until the locking bevel 5121 at one side of the bouncing center column 512 in the first bouncing unit 51 is clamped by the first section of locking spring piece 52, and the first sampling test tube is locked; after the next sampling test tube is used, the original position is inserted back, the next sampling test tube can be ejected, and the like, so that the single test tube can be conveniently taken while the arrangement density of the test tubes is increased, and the detection efficiency of virus sample liquid is greatly improved.

While the invention has been described above with reference to the accompanying drawings, it will be apparent that the invention is not limited to the embodiments described above, but is intended to be within the scope of the invention, as long as such insubstantial modifications are made by the method concepts and technical solutions of the invention, or the concepts and technical solutions of the invention are applied directly to other occasions without any modifications.

Claims (2)

1. Improve virus sample liquid detection efficiency's arrangement equipment, its characterized in that: the novel support comprises a support frame plate (1), wherein two sides of the support frame plate (1) are respectively arranged on the top surface of a support base (3) through a plurality of top plate screws (2), a bouncing fixed plate (4) is arranged in the middle of the support base (3), a plurality of bouncing group rows (5) are embedded in the middle of the bouncing fixed plate (4), a plurality of elastic sheet pressing plates (6) are respectively arranged below the bouncing group rows (5), and a plurality of elastic sheet pressing plates (6) are respectively arranged on the inner bottom surface of the support base (3);

the support frame plate (1) comprises an array top plate (11), and a plurality of test tube limiting rods (12) are arranged on the bottom surface of the array top plate (11);

a plurality of test tube arrangement holes (111) are formed in the middle of the array top plate (11), the test tube arrangement holes (111) are arranged in a honeycomb shape, stacking limiting external corner blocks (112) are respectively arranged at four corners of the array top plate (11), and a plurality of screw holes (113) are respectively formed in two sides of the array top plate (11);

the middle part of the top surface of the bouncing fixed plate (4) is provided with a total limit groove (41), the bottom surface of the total limit groove (41) is provided with a plurality of hexagon mounting grooves (42), the hexagon mounting grooves (42) are arranged in a honeycomb shape, and two sides of the bouncing fixed plate (4) are respectively provided with a support rod limit groove (43);

the bouncing group row (5) comprises a plurality of bouncing units (51), the middle parts of the bouncing units (51) are respectively arranged in the hexagonal mounting groove (42), the bottom surfaces of the bouncing units (51) are all arranged on the top surface of a locking spring piece (52), and the bottom surface of the upper part of the locking spring piece (52) is arranged on the top surface of the spring piece pressing plate (6);

the bouncing unit (51) comprises a bouncing shell (511), the middle part of the bouncing shell (511) is connected with a bouncing center column (512) in a sliding mode, a bouncing top plate (513) is arranged at the upper end of the bouncing center column (512), a plurality of folding springs (514) are arranged on the bottom surface of the bouncing top plate (513), top surfaces of spring fixing rings (515) are arranged at the lower ends of the folding springs (514), and the spring fixing rings (515) are arranged on the inner bottom surface of the bouncing shell (511);

the upper part of the bouncing shell (511) is provided with a mounting limiting ring (5111), the middle part of the bouncing shell (511) is provided with a spring groove (5112), the bottom surface of the spring groove (5112) is provided with a spring fixing ring (515), the middle part of the bottom surface of the spring groove (5112) is provided with a middle column guide hole (5113), and the inside of the middle column guide hole (5113) is in sliding connection with the bouncing middle column (512);

a locking bevel (5121) is formed in one side of the middle part of the bouncing center column (512), and a spring sheet pushing block (5122) is arranged at the lower end of the bouncing center column (512);

a plurality of sectional grooves (521) are formed in the lower portion of the locking spring piece (52), the sectional grooves (521) are arranged in a fold line shape, a toggle rod (522) is arranged at one end of the locking spring piece (52), and the upper portion of the locking spring piece (52) is arranged in a bending shape;

after the device is used, the first sampling test tube is inserted back to the original position, the bouncing top plate (513) is pressed through the sampling test tube to drive the bouncing center column (512) to move downwards, one end of the next section of locking spring piece (52) is pushed away through the spring piece push block (5122) at the lower end of the bouncing center column (512), and accordingly the next section of locking spring piece (52) is moved out of the locking bevel (5121) at the lower end of the bouncing center column (512) in the next bouncing unit (51), and the bouncing center column (512) in the next bouncing unit (51) is released.

2. The arrangement device for improving the detection efficiency of virus-like liquid according to claim 1, wherein: the support base (3) comprises a support base plate (31), the bottom surface four corners of support base plate (31) are equipped with respectively and stack spacing interior angle piece (311), the one end of support base plate (31) is equipped with preceding backup pad (32), a plurality of mouths of dialling (321) have been seted up to the lower part of preceding backup pad (32), the other end of support base plate (31) is equipped with back backup pad (33), the middle part both sides of support base plate (31) are equipped with main tributary vaulting pole (34) respectively, the top surface both ends of preceding backup pad (32) the top surface both ends of back backup pad (33), a plurality of the upper end of main tributary vaulting pole (34) are equipped with screw fixation hole (322) respectively.