CN116986294A - Sorting and correction conveying mechanism, buffer storage device and automatic reagent strip production equipment - Google Patents

Abstract

The application provides a strip tidying correction conveying mechanism, a buffer storage device and automatic reagent strip production equipment. Foretell reason strip correction conveying mechanism includes frame and conveying subassembly, reason strip correction conveying mechanism still includes first reason strip correction subassembly and second reason strip correction subassembly, first reason strip correction subassembly and second reason strip correction subassembly set up relatively along conveying component's direction of delivery's both sides, first reason strip correction subassembly includes first driver and first correction push pedal, first correction push pedal activity sets up in the frame, the drive end of first driver is connected with first correction push pedal, second reason strip correction subassembly includes second driver and second correction push pedal, second correction push pedal activity sets up in the frame. When the first correction push plate and the second correction push plate are close to each other, the first correction push plate and the second correction push plate respectively correct the two ends of the alignment reagent strip so as to avoid deflection, and the normal feeding of the subsequent process is facilitated.

Description

Reason strip correction conveying mechanism, buffer storage device and automatic reagent strip production equipment

Technical Field

The application relates to the technical field of automatic production equipment, in particular to a strip tidying correction conveying mechanism, a buffer storage device and automatic reagent strip production equipment.

Background

The conveying mechanism is often used in the automatic production process of the reagent strips so as to better realize the connection of the front working procedure and the rear working procedure. However, when the automatic clamping device places the cut reagent strips on the conveying mechanism, deviation exists, so that the phenomenon that the two ends of the reagent strips placed on the conveying mechanism are placed unevenly can occur, and the phenomenon that the reagent strips are easy to skew can be caused by vibration in the transportation process, so that the normal feeding of a subsequent process is not facilitated. Especially for reagent strips with more serious exposure, the reagent strips are easy to collide during transportation to cause damage.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a strip tidying correction conveying mechanism, a buffer storage device and automatic reagent strip production equipment which can realize correction and alignment of two ends of a reagent strip so as to avoid skew, and are beneficial to normal feeding in a subsequent process, high in production efficiency and good in suitability.

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

the strip tidying correction conveying mechanism comprises a frame and a conveying component, wherein the conveying component is arranged on the frame and is provided with a plurality of clamping grooves for placing reagent strips,

The carding correction conveying mechanism further comprises a first carding correction component and a second carding correction component, wherein the first carding correction component and the second carding correction component are oppositely arranged along the two sides of the conveying direction of the conveying component; the first strip tidying correction assembly comprises a first driver and a first correction push plate, the first correction push plate is movably arranged on the frame, and the driving end of the first driver is connected with the first correction push plate so as to drive the first correction push plate to be close to or far away from the second strip tidying correction assembly;

the second carding correction assembly comprises a second driver and a second correction push plate, the driving end of the second driver is connected with the second correction push plate, the second correction push plate is movably arranged on the frame, and the second driver is used for driving the second correction push plate to be close to or far away from the first correction push plate;

when the first correction push plate and the second correction push plate are close to each other, the first correction push plate and the second correction push plate are respectively corrected to align the two ends of the reagent strip.

In one embodiment, the right angle correction parts are formed on one surface of the first correction push plate and one surface of the second correction push plate, which face the clamping groove.

In one embodiment, the frame includes a first extension platform and a second extension platform, the first extension platform and the second extension platform being located on two sides of the transport assembly, respectively;

the first correction push plate is arranged on the first extension platform in a sliding manner, and the first driver is arranged on the first extension platform;

the second correction push plate is arranged on the second extension platform in a sliding manner, the second driver is arranged on the second extension platform, and the first correction push plate is arranged at the height of the first extension platform, the second correction push plate is arranged at the height of the second extension platform and the height of the clamping groove is arranged at the height phase adaptation of the rack.

In one embodiment, the first extension platform is formed with a first slider, and the first slider is screwed to the first correction push plate; and/or the number of the groups of groups,

the second extending platform is provided with a second sliding block, and the second sliding block is in threaded connection with the second correction push plate.

A buffer storage device comprises the strip tidying correction conveying mechanism according to any one of the embodiments.

In one embodiment, the buffer storage device further comprises a clamping correction conveying mechanism and a storage mechanism, the clamping correction conveying mechanism is arranged on one side of the strip tidying correction conveying mechanism, the storage mechanism is arranged on one side of the clamping correction conveying mechanism, and the clamping correction conveying mechanism is used for gathering and clamping and correcting the reagent strips of the strip tidying correction conveying mechanism and conveying the corrected reagent strips to the storage mechanism.

In one embodiment, the clamping correction handling mechanism comprises a linear die assembly, a clamping correction assembly and a driving assembly, the clamping correction assembly is movably arranged on the linear die assembly, the linear die assembly is used for driving the clamping correction assembly to do horizontal reciprocating motion, the driving end of the driving assembly is respectively in driving connection with a first clamping jaw piece and a second clamping jaw piece of the clamping correction assembly, and the driving assembly is used for driving the first clamping jaw piece and the second clamping jaw piece to close to each other, drawing in and clamping correction reagent strips, and loosening the reagent strips when the first clamping jaw piece and the second clamping jaw piece are far away from each other.

In one embodiment, the storage mechanism includes a storage platform having a plurality of storage slots formed therein.

In one embodiment, the storage mechanism further comprises a first adjusting member, the storage platform comprises a bearing table and a support, a first storage clamping plate and a second storage clamping plate, the bearing table is arranged on the support, the first storage clamping plate and the second storage clamping plate are oppositely arranged on the bearing table, the first storage clamping plate is formed with a plurality of first clamping blocks, the second storage clamping plate is formed with a plurality of second clamping blocks, the first clamping blocks and the second clamping blocks are staggered, the second storage clamping plate is movably arranged on the bearing table, the first adjusting member is connected with the second storage clamping plate, and the first adjusting member is used for adjusting the second storage clamping plate to be in the position of the bearing table.

An automated reagent strip manufacturing apparatus comprising a buffer storage device according to any one of the above embodiments.

Compared with the prior art, the invention has at least the following advantages:

1. because the conveying component is provided with a plurality of clamping grooves for placing reagent strips, the reagent strips can be placed in the clamping grooves independently, so that the reagent strips can be placed at intervals in batches, and the first and second strip sorting correction components are arranged opposite to each other along the two sides of the conveying direction of the conveying component, the driving end of the first driver is connected with the first correction push plate so as to drive the first correction push plate to be close to or far away from the second strip sorting correction component, the driving end of the second driver is connected with the second correction push plate so as to drive the second correction push plate to be close to or far away from the first correction push plate, when the first correction push plate and the second correction push plate are close to each other, the first correction push plate and the second correction push plate can respectively correct the two ends of the reagent strips, so that the ends of the reagent strips in batches placed on the conveying component can be aligned on a straight line, the phenomenon that individual reagent strips are exposed or inclined is avoided, and the subsequent procedure is normally fed; and effectively avoid exposing the phenomenon that the reagent strip of more serious collision easily takes place in the in-process of transportation so as to cause the damage.

2. The first driver and the second driver can independently control the operation of the first correction push plate and the second correction push plate, so that a user can select to independently use the first correction push plate or the second correction push plate or simultaneously use the first correction push plate and the second correction push plate according to actual production requirements, and the adaptability of the strip tidying correction conveying mechanism is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view showing a direction of an automatic reagent strip producing apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating a direction of a buffer memory device according to an embodiment of the invention;

FIG. 3 is a schematic view illustrating a configuration of a strip tidying correction conveying mechanism according to an embodiment of the present invention;

FIG. 4 is an enlarged view at A shown in FIG. 3;

FIG. 5 is an enlarged view of portion B of FIG. 3;

FIG. 6 is a schematic view illustrating a structure of a clamping correction conveying mechanism according to an embodiment of the present invention;

FIG. 7 is a schematic view illustrating a direction of a clamping correction assembly according to an embodiment of the present invention;

FIG. 8 is an enlarged view at C shown in FIG. 7;

FIG. 9 is a schematic view of a partial construction of a connection of a first right jaw member and a second right jaw member in accordance with one embodiment of the present invention;

FIG. 10 is a schematic view of a partial construction of a connection of a first left jaw member and a second left jaw member in accordance with an embodiment of the present invention;

FIG. 11 is a diagram illustrating an operation state of the clamping correction assembly for collecting clamping correction according to an embodiment of the present invention;

FIG. 12 is a schematic diagram of a storage mechanism according to an embodiment of the present invention;

fig. 13 is a schematic partial structure of a storage mechanism according to an embodiment of the invention.

Reference numerals: 1. automatic production equipment for reagent strips; 10. a buffer storage device; 100. a strip tidying correction conveying mechanism; 110. a frame; 111. a first extension platform; 1111. a first slider; 112. a second extension platform; 1121. a second slider; 120. a transport assembly; 122. a clamping groove; 140. a first tidying correction assembly; 141. a first driver; 142. a first correction push plate; 150. a second tidying correction assembly; 151. a second driver; 152. a second correction push plate; 1522. a right angle correction unit; 160. leading-in cover plate; 170. a reagent strip; 200. clamping, correcting and carrying mechanisms; 210. a linear die assembly; 220. clamping the correction component; 221. a mounting frame; 222. a moving rack; 223. a right angle gathering groove; 224. the right angle folding buckling hook; 225. a first left jaw member; 2251. a first left mounting plate; 2252. a first left clamping portion; 2252a, a first right angle gathering tank; 226. a second left jaw member; 2261. a second left mounting plate; 2262. a second left clamping portion; 2262a, second right angle gathering groove; 227. a first hollow connecting frame; 228. a first right jaw member; 2281. a first right mounting plate; 2282. a first right clamping portion; 2282a, first right angle gathering clasp; 229. a second right jaw member; 2291. a second right mounting plate; 2292. a second right clamping portion; 2292a, second right angle folding fastening hook; 2293. a second hollow connecting frame; 230. a drive assembly; 231. a vertical driver; 232. a first horizontal driver; 233. a second horizontal driver; 241. a first limiting plate; 242. a second limiting plate; 300. a storage mechanism; 310. a storage platform; 311. a carrying platform; 3111. a first movable groove; 3112. a second movable groove; 312. a first front storage card; 3121. a first clamping block; 313. a first rear storage card; 3131. a second clamping block; 320. a storage tank; 314. a second front storage card; 315. a second rear storage clamping plate; 316. a bracket; 330. a first adjustment member; 340. a first connection frame; 350. a second connection frame; 360. a second adjusting member; 20. a slitting device; 30. and (5) bagging devices.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can 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 illustrative purposes only and are not meant to be the only embodiment.

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

For a better understanding of the technical solutions and advantageous effects of the present application, the present application will be described in further detail with reference to specific embodiments,

referring to fig. 1, the present application provides an automatic reagent strip production device 1, which comprises a buffer storage device 10, a strip cutting device 20 and a bagging device 30, wherein the buffer storage device 10 is located between the strip cutting device 20 and the bagging device 30, so as to ensure that the added buffer storage device 10 can provide sufficient feeding sources for the bagging device 30, and effectively avoid the problem of low production efficiency caused by feeding shortage of the bagging device 30 due to poor quality of the reagent strips 170.

It should be noted that, in the conventional automatic production of the reagent strip 170, the cut reagent strip 170 needs to be detected to be qualified before entering the bagging process, and in addition, the conventional feeding method is to feed the reagent strip one by one, when the reagent strip 170 with unqualified detection is encountered, the unqualified reagent needs to be discharged first, and then the next reagent strip 170 is clamped again for detection, especially when the defective discharge frequency is higher, the subsequent process is easy to be caused, such as the phenomenon that the material shortage occurs at the bagging device 30 to cause standby, so that the production efficiency is low. Therefore, the buffer storage device 10 is additionally arranged between the slitting device 20 and the bagging device 30, so that the additionally arranged buffer storage device 10 can provide a sufficient material source for the bagging device 30, the problem that the bagging device 30 is in shortage in material feeding due to poor quality of the reagent strips 170 so as to lower production efficiency is effectively avoided, and the method is particularly suitable for the application of automatic production equipment with higher reject frequency and higher production speed.

As shown in fig. 2, the buffer storage device 10 of an embodiment includes a strip sorting correction conveying mechanism 100, a clamping correction conveying mechanism 200, and a storage mechanism 300, where the clamping correction conveying mechanism 200 is disposed on one side of the strip sorting correction conveying mechanism 100, the storage mechanism 300 is disposed on one side of the clamping correction conveying mechanism 200, and the clamping correction conveying mechanism 200 is used for collecting, clamping and correcting the reagent strips 170 of the strip sorting correction conveying mechanism 100, and conveying the corrected reagent strips 170 onto the storage mechanism 300.

It can be understood that, first, the strip trimming correction conveying mechanism 100 is disposed adjacent to the strip cutting device 20, so as to reduce the distance between the strip cutting device 20 and the strip trimming correction conveying mechanism 100, so as to ensure that the cut reagent strips 170 can be fed to the strip trimming correction conveying mechanism 100 quickly, and ensure that the strip trimming correction conveying mechanism 100 can correct the two ends of the freshly fed reagent strips 170, so as to avoid exposing or skewing the individual reagent strips 170, thereby facilitating the normal feeding of the following process, and effectively avoiding the phenomenon that the reagent strips 170 with serious exposure are easy to collide in the transportation process to cause damage.

Then, since the clamping correction conveying mechanism 200 is disposed on one side of the strip correction conveying mechanism 100, the clamping correction conveying mechanism 200 can perform batch folding and clamping correction on the reagent strips 170 of the strip correction conveying mechanism 100, so as to vertically correct the reagent strips 170, and effectively avoid the phenomenon that the reagent strips 170 are askew, so that the corrected reagent strips 170 can be quickly, accurately and neatly placed in the storage mechanism 300.

Finally, the correction and conveying mechanism 200 is moved to the storage mechanism 300 to convey the corrected reagent strips 170 to the storage mechanism 300, so that a sufficient material source can be provided for the bagging device 30, and the problem that the bagging device 30 is in material shortage due to poor quality of the reagent strips 170 to lower production efficiency is effectively avoided.

It should be noted that, firstly, the strip tidying correction conveying mechanism 100 can be used for correcting both ends of the reagent strips 170, and the reagent strips 170 can be adjusted to be in a proper clamping range, so that the clamping correction conveying mechanism 200 can comprehensively collect, clamp and correct the batch reagent strips 170 on the strip tidying correction conveying mechanism 100, the missing phenomenon caused by that the individual reagent strips 170 are not in the clamping range is effectively avoided, the accuracy of the clamping correction conveying mechanism 200 for carrying the reagent strips 170 in batches is improved, the blank and no material are prevented from being generated in the single batch of the storage mechanism 300 to influence the feeding speed, and the production efficiency is further reduced.

As shown in fig. 3 to 5, the strip-sorting and correcting conveying mechanism 100 of an embodiment includes a frame 110 and a conveying component 120, the conveying component 120 is disposed on the frame 110, the conveying component 120 is formed with a plurality of clamping slots 122 for placing reagent strips, the strip-sorting and correcting conveying mechanism 100 further includes a first strip-sorting and correcting component 140 and a second strip-sorting and correcting component 150, the first strip-sorting and correcting component 140 and the second strip-sorting and correcting component 150 are disposed opposite to each other along two sides of the conveying direction of the conveying component 120, the first strip-sorting and correcting component 140 includes a first driver 141 and a first correction push plate 142, the first correction push plate 142 is movably disposed on the frame 110, and a driving end of the first driver 141 is connected with the first correction push plate 142 so as to drive the first correction push plate 142 to approach or separate from the second strip-sorting and correcting component 150; the second strip correction assembly 150 includes a second driver 151 and a second correction push plate 152, where the driving end of the second driver 151 is connected to the second correction push plate 152, the second correction push plate 152 is movably disposed on the frame 110, the second driver 151 is used to drive the second correction push plate 152 to approach or separate from the first correction push plate 142, and when the first correction push plate 142 and the second correction push plate 152 approach each other, the first correction push plate 142 and the second correction push plate 152 respectively correct and align two ends of the reagent strip 170.

It will be appreciated that, since the conveying assembly 120 is formed with the plurality of clamping slots 122 for placing the reagent strips 170, the plurality of clamping slots 122 can be used for placing the reagent strips 170 independently, so as to implement batch space placement of the reagent strips 170 for clamping, and since the first and second strip correction assemblies 140 and 150 are disposed opposite to each other along the conveying direction of the conveying assembly 120, the driving end of the first driver 141 is connected with the first correction push plate 142 to drive the first correction push plate 142 to approach or separate from the second strip correction assembly 150, the driving end of the second driver 151 is connected with the second correction push plate 152, and the second driver 151 is used for driving the second correction push plate 152 to approach or separate from the first correction push plate 142, when the first correction push plate 142 and the second correction push plate 152 approach each other, the first correction push plate 142 and the second correction push plate 152 can respectively align the two ends of the reagent strips 170, so as to ensure that the ends of the reagent strips 170 placed on the conveying mechanism in batches can be aligned on a straight line, so as to avoid the serious collision or the appearance of the reagent strips 170 from being damaged easily, and the serious collision phenomenon of the reagent strips 170 is avoided.

Further, since the first and second drivers 141 and 151 can individually control the operations of the first and second correction pushing plates 142 and 152, a user can select to use either the first correction pushing plate 142 or the second correction pushing plate 152 alone or both the first and second correction pushing plates 142 and 152 according to actual production requirements, thereby improving the suitability of the strip tidying correction conveying mechanism 100.

As shown in fig. 4, in one embodiment, the right angle correction portions 1522 are formed on the sides of the first correction push plate 142 and the second correction push plate 152 facing the clamping groove 122, so as to ensure that when the first correction push plate 142 and the second correction push plate 152 approach each other, the right angle correction portions 1522 disposed opposite to each other can vertically correct two ends of the batch of reagent strips 170 on the conveying assembly 120, so as to ensure that the ends of the batch of reagent strips 170 on the conveying assembly 120 can be aligned on a straight line, so as to avoid exposing or skewing the individual reagent strips 170, and to enable the clamping correction conveying mechanism 200 to rapidly feed the batch.

Specifically, in one embodiment, the right angle correction portion 1522 is an upward bending structure, so that the upward bending structure can be well attached to two ends of the reagent strips 170, thereby ensuring the accuracy of correction on two ends of the batch of reagent strips 170, and compared with the downward bending structure, the contact area between the downward bending structure and the rack 110 is well ensured, so as to ensure the stability of the first correction push plate 142 and the second correction push plate 152 when being mutually close to each other, thereby ensuring that the right angle correction portion 1522 can well vertically correct two ends of the batch of reagent strips 170 on the conveying assembly 120, ensuring that the ends of the batch of reagent strips 170 on the conveying assembly 120 can be aligned on a straight line, and further improving the accuracy of correction on the batch of reagent strips 170 by the strip tidying correction conveying mechanism 100.

As shown in fig. 3 and 4, in one embodiment, the rack 110 includes a first extension platform 111 and a second extension platform 112, where the first extension platform 111 and the second extension platform 112 are respectively located on two sides of the conveying assembly 120, so that the first extension platform 111 and the second extension platform 112 can provide better support for the first strip correction assembly 140 and the second strip correction assembly 150, so as to ensure the stability of the operation of the strip correction conveying mechanism 100; the first correction push plate 142 is slidably disposed on the first extension platform 111, and the first driver 141 is disposed on the first extension platform 111, so that the first driver 141 can drive the first correction push plate 142 to make a reciprocating motion on the first extension platform 111; the second correction push plate 152 is slidably disposed on the second extension platform 112, and the second driver 151 is disposed on the second extension platform 112, so that the second driver 151 can drive the second correction push plate 152 to make a reciprocating motion on the second extension platform 112; because the height of the first correction push plate 142 at the first extending platform 111 and the height of the second correction push plate 152 at the second extending platform 112 are matched with the height of the clamping groove 122 at the frame 110, the height of the first correction push plate 142, the height of the second correction push plate 152 and the height of the reagent strip 170 are matched, and the first correction push plate 142 and the second correction push plate 152 can be movably abutted against the two ends of the reagent strip 170 when being close to each other, so that correction on the two ends of the reagent strip 170 is realized.

As shown in fig. 3 and 4, in one embodiment, the first extension platform 111 is formed with a first sliding block 1111, and the first sliding block 1111 is screwed to the first correction push plate 142, so as to connect the first extension platform 111 with the first correction push plate 142, so that the first driver 141 can drive the first correction push plate 142 to slide on the first extension platform 111. In addition, since the first sliding block 1111 is screwed to the first correction pushing plate 142, the first sliding block 1111 is detachably connected to the first correction pushing plate 142, so that a user can replace the damaged first correction pushing plate 142 independently, thereby reducing maintenance cost, and the user can select the first correction pushing plates 142 with different specifications according to actual production requirements, thereby improving adaptability of the strip tidying correction conveying mechanism 100.

Likewise, the second extension platform 112 is formed with a second sliding block 1121, and the second sliding block 1121 is screwed to the second correction push plate 152, so as to connect the second extension platform 112 with the second correction push plate 152, so that the second driver 151 can drive the second correction push plate 152 to slide on the second extension platform 112. In addition, since the second sliding block 1121 is screwed to the second correction push plate 152, the second sliding block 1121 and the second correction push plate 152 are detachably connected, so that a user can replace the damaged second correction push plate 152 independently, thereby reducing maintenance cost, and the user can select the second correction push plates 152 with different specifications according to actual production requirements, thereby improving the adaptability of the strip tidying correction conveying mechanism 100.

As shown in fig. 5, in one embodiment, the strip tidying correction delivery mechanism 100 further includes a lead-in cover 160, where the lead-in cover 160 is disposed adjacent to the feeding end of the delivery assembly 120, so that the lead-in cover 160 can assist the reagent strip 170 to enter the clamping groove 122 of the delivery assembly 120, and effectively avoid the falling phenomenon of the reagent strip 170 at the feeding end of the delivery assembly 120.

It can be appreciated that the width range of the reagent strips 170 on the market is generally 2.5 mm-8.0 mm, so as to better adapt to batch clamping and correction of reagent strips 170 with different width specifications, in one embodiment, the clamping groove 122 is larger than 10mm, so as to better satisfy the placement of reagent strips 170 with different width specifications on the market at present, and no corresponding parts need to be manually disassembled and assembled, thereby improving the suitability of the strip tidying correction conveying mechanism 100 for reagent strips 170 with different width specifications.

It should be further noted that, when the difference between the width and the length of the reagent strip 170 exceeds 2mm, the reagent strip 170 is easily skewed during transportation, which is not beneficial to normal feeding in the subsequent process or damage to the reagent strip 170. Therefore, in the present application, the first and second strip correction assemblies 140 and 150 are added on two sides of the conveying direction of the conveying assembly 120, so that two ends of the reagent strips 170 in batches on the conveying mechanism can be corrected, on one hand, the ends of the reagent strips 170 in batches on the conveying mechanism can be aligned on a straight line, so as to avoid exposing or skewing phenomena of individual reagent strips 170, so that the subsequent process can feed normally, and on the other hand, the reagent strips 170 can be adjusted to be within a proper clamping range, so that the clamping correction conveying mechanism 200 can fully collect, clamp and correct the reagent strips 170 in batches on the strip correction conveying mechanism 100, and the missing phenomena caused by the fact that the individual reagent strips 170 are not in the clamping range are effectively avoided, so that the accuracy of the clamping correction conveying mechanism 200 for carrying the reagent strips 170 in batches is improved, the blank in the single batch of the storage mechanism 300 is prevented so as to affect the feeding speed, and further the production efficiency is reduced.

It should be noted that, firstly, the strip tidying correction conveying mechanism 100 is adopted to correct two ends of the batch of reagent strips 170 on the conveying mechanism so as to ensure that two ends of the batch of reagent strips 170 are aligned on the same straight line respectively, and then the clamping correction conveying mechanism 200 is adopted to comprehensively collect, clamp and correct the batch of reagent strips 170 on the strip tidying correction conveying mechanism 100 so as to realize vertical correction of the batch of reagent strips 170, so that the clamping correction conveying mechanism 200 can rapidly and accurately place the batch of reagent strips 170 on the storage mechanism 300 in order to facilitate subsequent normal feeding.

As shown in fig. 6 to 8, in one embodiment, the gripping and correcting mechanism 200 includes a linear die assembly 210, a gripping and correcting assembly 220 and a driving assembly 230, where the gripping and correcting assembly 220 is movably disposed on the linear die assembly 210, so that the linear die assembly 210 can drive the gripping and correcting assembly 220 to make a horizontal reciprocating motion to achieve a linear reciprocating motion of the Y axis, the driving end of the driving assembly 230 is respectively in driving connection with the first jaw member and the second jaw member of the gripping and correcting assembly 220, and the driving assembly 230 is used to drive the first jaw member and the second jaw member to retract the gripping and correcting reagent strip 170 when they are close to each other, so as to achieve vertical correction of the batch reagent strip 170, thereby ensuring that the batch reagent strip 170 can be placed on the storage mechanism 300 neatly, and when the gripping and correcting assembly 220 is moved to a preset position of the storage mechanism 300, the first jaw member and the second jaw member are driven to release the reagent strip 170 when they are far away from each other, so that the gripping and correcting mechanism 200 can quickly and accurately place the batch reagent strip 170 on the storage mechanism 300.

As shown in fig. 7 and 8, in one embodiment, the gripping and correcting assembly 220 includes a mounting frame 221, a moving frame 222, a first clamping jaw member and a second clamping jaw member, the mounting frame 221 is movably disposed on the linear mold assembly 210, and the moving frame 222 is movably disposed on the mounting frame 221, so as to realize that the moving frame 222 is connected with the mounting frame 221, and when the mounting frame 221 moves along with the linear mold assembly 210, the mounting frame 221 and the moving frame 222 are driven to move together; the first jaw member and the second jaw member are arranged on the moving frame 222 in a staggered manner, and the first jaw member and the second jaw member are both arranged on the moving frame 222 in a sliding manner; the driving assembly 230 includes a vertical driver 231, a first horizontal driver 232, and a second horizontal driver 233, where the driving end of the vertical driver 231 is connected to the moving frame 222, and the vertical driver 231 is used to drive the moving frame 222 to reciprocate in a vertical direction, that is, reciprocate linearly along a Z axis; the driving end of the first horizontal driver 232 is connected with the first clamping jaw member, so that the first horizontal driver 232 drives the first clamping jaw member to move away from or close to the second clamping jaw member, the driving end of the second horizontal driver 233 is connected with the second clamping jaw member, so that the second horizontal driver 233 drives the second clamping jaw member to move away from or close to the first clamping jaw member, and a plurality of first clamping portions of the first clamping jaw member can collect and clamp the correction reagent strip 170 when approaching a plurality of second clamping portions of the second clamping jaw member, and release the reagent strip 170 when moving away from the first clamping jaw member, wherein the plurality of first clamping portions and the plurality of second clamping portions are staggered.

It can be understood that, because the first clamping portions and the second clamping portions are staggered, the first clamping portions and the second clamping portions can form a plurality of correction clamping cavities, when the reagent strips 170 of the strip correction conveying mechanism 100 are required to be clamped, the linear die assembly 210 moves the mounting frame 221 to the first preset position of the strip correction conveying mechanism 100, then the vertical driver 231 drives the moving frame 222 to press down to the second preset position, then the first horizontal driver 232 and the second horizontal driver 233 are driven simultaneously, so that the first clamping jaw members and the second clamping jaw members can move relatively close together at the same time, the first clamping portions and the second clamping jaw members can retract mutually to form a plurality of correction clamping cavities, and the details can refer to fig. 11, so that the batch reagent strips 170 can be clamped, and the collected reagent strips 170 can only be moved to the second preset position in the limited correction clamping cavities, so that the collected reagent strips 170 can move smoothly to the first clamping frame 170, and the second clamping jaw members can move smoothly, and the first clamping jaw members can be driven to the first clamping frame 170 to the first position, and the second clamping frame 170 can move smoothly, and the second clamping frame 170 can move relatively well, and the second clamping frame 170 can be driven to the second clamping frame 170, and the second clamping frame 170 can move smoothly, and the first clamping frame 170 can move relatively to the second clamping frame 170, and the second clamping frame 170 can move smoothly, and the second clamping frame 170 can move relatively well, and the first and the fourth clamping frame 170 can be guaranteed to move relatively well, and move up and the first and 170, and 170 can be guaranteed to move well, and the device can move up and move.

It will also be appreciated that since vertical alignment of the reagent strips 170 is achieved during gripping, not only is the operation simple and quick, but production efficiency is better ensured. Further, because the reagent strip 170 is folded and clamped in the correction clamping cavity, compared with the traditional clamping structure, the reagent strip 170 is not extruded by the clamping force of the clamping structure, the phenomenon that the reagent strip 170 is deformed due to overlarge clamping force in the clamping process is effectively avoided, the product quality of the reagent strip 170 is well ensured, and the detection accuracy of the reagent strip 170 is further ensured.

In one embodiment, the calibration gripping chamber is adapted to the width of the reagent strip 170 to ensure gripping and calibration of the reagent strip 170.

As shown in fig. 10, in one embodiment, the first clamping jaw member includes a first mounting plate and a plurality of first clamping portions, the first mounting plate is slidably disposed on the moving frame 222, and the first mounting plate is connected to the driving end of the first horizontal driver 232, so that the first horizontal driver 232 can drive the first mounting plate to make a linear reciprocating motion on the X axis of the moving frame 222, each of the first clamping portions is disposed on the first mounting plate at intervals, and each of the first clamping portions is formed with a right angle drawing groove 223, so as to ensure that a plurality of right angle drawing grooves 223 can be formed on the first mounting plate by the plurality of first clamping portions, so as to ensure that a plurality of correction clamping cavities can be formed by cooperation with a plurality of second clamping portions.

Further, since the second clamping jaw member includes the second mounting plate and the plurality of second clamping portions, the second mounting plate is disposed adjacent to one side of the first mounting plate, so that the plurality of second clamping portions and the plurality of first clamping portions of the second mounting plate form correction clamping cavities with smaller length distances when being close to each other, so as to improve the reliability of the first clamping jaw member and the second clamping jaw member for clamping the reagent strips 170 in batches, and since the first mounting plate and the second mounting plate can independently operate, a user can better control the plurality of second clamping portions and the plurality of first clamping portions to form correction clamping cavities with different widths when being close to each other, so that the adaptability of the clamping correction assembly 220 to reagent strips 170 with different widths is improved; the second mounting plate is slidably disposed on the moving frame 222, and the second mounting plate is connected to the driving end of the second horizontal driver 233, so that the second horizontal driver 233 can drive the second mounting plate to make a linear reciprocating motion on the X axis of the moving frame 222, each second clamping portion and each first clamping portion are staggered, each second clamping portion is formed with a right-angle folding fastening hook 224 toward the corresponding first clamping portion, so as to ensure that when the second clamping portions and the first clamping portions are close to each other, the right-angle folding grooves 223 and the right-angle folding fastening hooks 224 can form a plurality of correction clamping cavities in a one-to-one correspondence manner, thereby realizing batch folding clamping correction of the reagent strips 170, namely realizing batch feeding of the reagent strips 170, and further improving the production efficiency.

In one embodiment, the right angle tucking and fastening hooks 224 are "poly" shaped so that the right angle tucking and fastening hooks 224 better grip the calibration reagent strip 170. The port of the right-angle folding buckling hook 224 is formed with a folding avoiding part and a folding leading-in part, the folding avoiding part is opposite to the folding leading-in part, the folding leading-in part is positioned below the port of the right-angle folding buckling hook 224, and the folding avoiding part is positioned above the port of the right-angle folding buckling hook 224, so that the reagent strip 170 is ensured to have certain buffering when the right-angle folding buckling hook 224 is folded, the phenomenon that the reagent strip 170 collides with the right-angle folding buckling hook 224 to cause damage is avoided, and the phenomenon that the reagent strip 170 can enter the right-angle folding buckling hook 224 well is ensured, and the phenomenon that the reagent strip 170 is damaged is effectively avoided.

In one embodiment, the folding avoidance portion and the folding introduction portion are both formed with an outwardly-opened arc structure, and the starting portion of the folding introduction portion is aligned with the folding tail portion of the folding avoidance portion, so that the reagent strip 170 is prevented from being damaged to the greatest extent in the folding and clamping process.

In order to ensure that the right-angle folding and buckling hooks 224 can not only achieve folding and clamping fixation of the reagent strips 170 in the folding and clamping process, but also avoid the phenomenon that the reagent strips 170 are damaged in the folding and clamping process to the greatest extent, in one embodiment, the folding and leading-in part occupies 1/20-1/5 of the width of the right-angle folding and buckling hooks 224. In one embodiment, the right-angle folding groove 223 is in an open frame shape, so that when the right-angle folding groove 223 is matched with the right-angle folding fastening hook 224 for use, the batch folding clamping correction of the reagent strip 170 can be better realized.

It should be noted that, the first horizontal driver 232 and the second horizontal driver 233 can independently control the movement of the first jaw member and the second jaw member, so that a user can select the movement modes of the first jaw member and the second jaw member according to actual production requirements, thereby improving the applicability of the clamping correction mechanism.

In one embodiment, as shown in fig. 10, the first clamping portion is screwed to the first mounting plate, so as to realize detachable connection of the first clamping portion and the first mounting plate, so that a user can replace the damaged first clamping portion independently, thereby reducing maintenance cost.

Also, as shown in fig. 9, in one embodiment, the second clamping portion is screwed to the second mounting plate, so as to realize detachable connection of the second clamping portion and the second mounting plate, so that a user can individually replace the damaged second clamping portion, thereby reducing maintenance cost.

As shown in fig. 8, in one embodiment, the number of the first clamping jaw members is two, namely, a first left clamping jaw member 225 and a second left clamping jaw member 226, the number of the second clamping jaw members is two, namely, a first right clamping jaw member 228 and a second right clamping jaw member 229, respectively, the first left clamping jaw member 225 and the second left clamping jaw member 226 are respectively disposed at two sides of the movable frame 222, the first right clamping jaw member 228 is disposed adjacent to the first left clamping jaw member 225, and the second right clamping jaw member 229 is disposed adjacent to the second left clamping jaw member 226.

It can be appreciated that by providing two first jaw members and two second jaw members, the first left jaw member 225 and the first right jaw member 228 are correspondingly configured to form a first correction clamping cavity, so as to achieve a first end of the reagent strip 170, and the second left jaw member 226 and the second right jaw member 229 are correspondingly configured to form a second correction clamping cavity, so as to achieve a second end of the reagent strip 170, so that the two first jaw members and the two second jaw members can perform a collection clamping correction on two ends of the reagent strip 170, thereby not only improving the reliability of the batch collection clamping of the reagent strip 170 by the clamping correction mechanism, but also improving the uniformity of the correction of the batch reagent strip 170, and ensuring that the batch reagent strip 170 can be placed on the storage mechanism 300 more quickly, accurately and neatly.

As shown in fig. 10, in one embodiment, the first left clamping jaw member 225 includes a first left mounting plate 2251 and a plurality of first left clamping portions 2252, each of the first left clamping portions 2252 is formed with a first right-angle gathering slot 2252a, the second left clamping jaw member 226 includes a second left mounting plate 2261 and a plurality of second left clamping portions 2262, each of the second left clamping portions 2262 is formed with a second right-angle gathering slot 2262a, the first left mounting plate 2251 and the second left mounting plate 2261 are connected to form a first hollow connecting frame 227, and the first hollow connecting frame 227 is connected to the driving end of the first horizontal driver 232 to ensure that the first left clamping jaw member 225 and the second left clamping jaw member 226 can be simultaneously moved using only one first horizontal driver 232, so that not only the structure of the clamping correction assembly 220 is ensured to be simple and compact, but also the consistency of the operation of the first left clamping jaw member 225 and the second left clamping jaw member 226 is ensured to ensure that the correct correction of the reagent strip 170 is well corrected for the clamping jaw assembly 170.

Further, the first right clamping jaw member 228 includes a first right mounting plate 2281 and a plurality of first right clamping portions 2282, each of the first right clamping portions 2282 is formed with a first right-angle folding fastening hook 2282a, the second right clamping jaw member 229 includes a second right mounting plate 2291 and a plurality of second right clamping portions 2292, each of the second right clamping portions 2292 is formed with a second right-angle folding fastening hook 2292a, the first right mounting plate 2281 is located at the outer side of the first left mounting plate 2251, the second right mounting plate 2291 is located at the outer side of the second left mounting plate 2261, the first right mounting plate 2281 and the second right mounting plate 2291 are connected to form a second hollow connecting frame 2293, and the second hollow connecting frame 2293 is connected to the driving end of the second horizontal driver 233, so as to ensure that the first right clamping jaw member 228 and the second right clamping jaw member 229 can be driven to move simultaneously by only using one second horizontal driver 233, so as to ensure that the clamping correction assembly 220 is simple in structure and the right clamping jaw member 228 and the reagent is well matched with the two ends of the second clamping jaw member 220, thereby ensuring that the reagent is well aligned to take up the reagent from the two ends of the correction assembly 170.

In one embodiment, the moving frame 222 is located in the first hollow connecting frame 227 and the second hollow connecting frame 2293, and the vertical driver 231, the first horizontal driver 232 and the second horizontal driver 233 are all disposed on the moving frame 222, so that the compactness of the clamping correction assembly 220 is further improved, and the operational reliability of the clamping correction assembly 220 is better ensured.

In one embodiment, the vertical driver 231 drives the movement 222 to move linearly along the Z-axis, and the first horizontal driver 232 and the second horizontal driver 233 each reciprocate linearly along the X-axis.

It should be noted that, as shown in fig. 8, since the first right mounting plate 2281 is located at the outer side of the first left mounting plate 2251, and the second right mounting plate 2291 is located at the outer side of the second left mounting plate 2261, so that the plurality of first right clamping portions 2282 and the plurality of second right clamping portions 2292 are located at the outer sides of the plurality of first left clamping portions 2252 and the plurality of second left clamping portions 2262, the plurality of first right folding fastening hooks 2282a and the plurality of second right folding fastening hooks 2292a are located at the outer sides of the clamping correction assembly 220, so that the plurality of first right folding fastening hooks 2282a and the plurality of second right folding fastening hooks 2292a can well clamp the two ends of the batch of reagent strips 170, so that the clamping correction assembly 220 is prevented from being easily hollow in the process of clamping, and the accuracy of the clamping correction assembly 220 on batch of the reagent strips 170 is improved.

In one embodiment, the first hollow connecting frame 227 is an integrally formed structure, so as to ensure the stability of the structure of the first hollow connecting frame 227. Likewise, in one embodiment, the second hollow connecting frame 2293 is an integrally formed structure to ensure structural stability of the second hollow connecting frame 2293.

In one embodiment, the mounting frame 221 is formed with a mounting cavity, and the vertical driver 231 and the moving frame 222 are both located in the mounting cavity, so as to better improve the compactness of the structure of the clamping correction mechanism.

In one embodiment, the clamping correction assembly 220 further includes a first limiting plate 241 and a second limiting plate 242, the first limiting plate 241 is located at two sides of the clamping correction assembly 220, the first limiting plate 241 and the second limiting plate 242 are both connected with the mounting frame 221, and the first limiting plate 241 and the second limiting plate 242 are used for limiting the reagent strip 170 from falling when moving, which is particularly suitable for the application with larger movement range of the clamping correction assembly 220.

As shown in fig. 7, in one embodiment, the first limiting plate 241 is screwed to the mounting frame 221 to realize detachable connection between the first limiting plate 241 and the mounting frame 221, and the second limiting plate 242 is screwed to the mounting frame 221 to realize detachable connection between the second limiting plate 242 and the mounting frame 221, so that a user can replace the corresponding first limiting plate 241 or the second limiting plate 242 according to actual production needs, thereby improving the adaptability of the clamping correction assembly 220 to reagent strips 170 with different specifications, and being convenient for the user to replace the damaged first limiting plate 241 or the damaged second limiting plate 242 independently, thereby reducing maintenance cost.

In one embodiment, a first avoidance groove is formed on a surface of the first limiting plate 241 facing the clamping correction assembly 220, and a second avoidance groove is formed on a surface of the second limiting plate 242 facing the clamping correction assembly 220. It can be appreciated that the added first and second avoidance grooves can effectively avoid the phenomenon that the first and second limiting plates 241 and 242 collide with the clamping correction assembly 220 during operation.

In one embodiment, as shown in fig. 12, the storage mechanism 300 includes a storage platform 310, and a plurality of storage slots 320 are formed on the storage platform 310 to enable batch storage of the reagent strips 170.

In one embodiment, the storage mechanism 300 further includes a first adjusting member 330, the storage platform 310 includes a carrying platform 311 and a support 316, a first storage card and a second storage card, the carrying platform 311 is disposed on the support 316, the first storage card and the second storage card are relatively disposed on the carrying platform, the first storage card is formed with a plurality of first clamping blocks 3121, the second storage card is formed with a plurality of second clamping blocks 3131, and each first clamping block 3121 is staggered with each second clamping block 3131, the second storage card is movably disposed on the carrying platform 311, the first adjusting member 330 is connected with the second storage card, and the first adjusting member 330 is used for adjusting the positions of the second storage card on the carrying platform 311 and the support 316.

It can be appreciated that, since the first storage clamping plate and the second storage clamping plate are disposed on the carrying platform relatively, and each of the first clamping blocks 3121 and each of the second clamping blocks 3131 are disposed in a staggered manner, so that a plurality of storage slots 320 can be formed by a plurality of first clamping blocks 3121 and a plurality of second clamping blocks 3131, and since the second storage clamping plate is movably disposed on the carrying platform 311, and the first adjusting member 330 is connected with the second storage clamping plate, a user can adjust the second storage clamping plate on the carrying platform 311 through the first adjusting member 330, thereby shortening the distance between the second clamping blocks 3131 and the first clamping blocks 3121, so as to adjust the size of the storage slots 320, and further improving the suitability of the storage mechanism 300 for the reagent strips 170 with different width specifications.

In order to improve the flexibility of the bidirectional adjustment of the storage mechanism 300, in one embodiment, the storage mechanism 300 further includes a second adjusting member 360, the first storage clamping plate is movably disposed on the carrying table 311, and the second adjusting member 360 is connected with the second storage clamping plate, so that a user can adjust the first storage clamping plate on the carrying table 311 through the second adjusting member 360, thereby shortening the distance between the second clamping block 3131 and the first clamping block 3121, so as to achieve the function of bidirectional adjustment, further improve the flexibility of the bidirectional adjustment of the storage mechanism 300, and better improve the adaptability of the storage mechanism 300 to the reagent strips 170 with different width specifications.

As shown in fig. 13, in one embodiment, the number of the first storage cards is two, namely, the first front storage card 312 and the second front storage card 314, and the number of the second storage cards is two, namely, the first rear storage card 313 and the second rear storage card 315, so that the first front storage card 312 and the first rear storage card 313 form a first storage slot, and the second front storage card 314 and the second rear storage card 315 form a second storage slot, so that the first storage slot and the second storage slot can realize the fixation of two ends of the reagent strip 170, thereby ensuring that the reagent strip 170 can be placed on the bearing table 311 and the bracket 316 more neatly, and is not easy to be distorted due to external interference, so as to ensure normal feeding.

In order to improve the consistency of the bidirectional adjustment of the storage mechanism 300, as shown in fig. 12 and 13, in one embodiment, the storage mechanism 300 further includes a first connection frame 340 and a second connection frame 350, wherein a first movable slot 3111 and a second movable slot 3112 are respectively formed on two sides of the carrying platform 311 and the carrying platform of the bracket 316, the first front storage clamping plate 312 and the second front storage clamping plate 314 are respectively disposed on two sides of the first connection frame 340, and the first connection frame is movably disposed on the bracket; the first front clamping block of the first front storage clamping plate 312 and the first rear clamping block of the first rear storage clamping plate 313 are at least partially protruded in the first movable slot 3111, so that the first front clamping block and the first rear clamping block can form the storage slot 320; the first rear storage clamping plate 313 and the second rear storage clamping plate 315 are respectively disposed at two sides of the second connection frame 350, the second connection frame 350 is sleeved on the first connection frame 340, and the second connection frame 350 is movably disposed on the bracket; the second front clamping block of the second front storage clamping plate 314 and the second rear clamping block of the second rear storage clamping plate 315 are at least partially protruded in the second movable groove 3112, the first end of the first connecting frame 340 is provided with a first through hole, the first end of the second connecting frame 350 is provided with a second through hole, the first end of the bracket is provided with a first threaded hole, the first adjusting piece 330 passes through the first through hole, the second through hole and the first threaded hole and is in threaded connection with the side wall of the first threaded hole, so that the first adjusting piece 330 is in threaded connection with the first connecting frame 340, when a user needs to adjust the size of the storage groove 320, the first adjusting piece 330 can be rotated clockwise or anticlockwise, so that the first connecting frame 340 moves on the bearing table 311, and the first rear storage clamping plate 313 and the second rear storage clamping plate 315 move, so that one direction of the storage mechanism 300 is adjusted.

Likewise, the second end of the second connection frame 350 is provided with a third through hole, the second end of the second connection frame 350 is provided with a fourth through hole, the second end of the bracket is provided with a second threaded hole, the second adjusting piece 360 passes through the third through hole, the fourth through hole and the second threaded hole and is in threaded connection with the side wall of the second threaded hole, so that the second adjusting piece 360 is in threaded connection with the second connection frame 350, when a user needs to adjust the size of the storage groove 320, the second adjusting piece 360 can be rotated clockwise or anticlockwise, so that the second connection frame 350 is driven to move on the bearing table 311, and the first front storage clamping plate 312 and the second front storage clamping plate 314 are further driven to move, so that bidirectional adjustment of the storage mechanism 300 is realized.

In one embodiment, the bearing platform 311 is formed with graduation marks to allow a user to better adjust the size of the storage slot 320.

Compared with the prior art, the invention has at least the following advantages:

1. because the conveying assembly 120 is formed with the plurality of clamping slots 122, the plurality of clamping slots 122 can be used for independently placing the reagent strips 170, and because the first strip sorting correction assembly 140 and the second strip sorting correction assembly 150 are oppositely arranged along two sides of the conveying direction of the conveying assembly 120, the driving end of the first driver 141 is connected with the first correction push plate 142 so as to drive the first correction push plate 142 to be close to or far away from the second strip sorting correction assembly 150, the driving end of the second driver 151 is connected with the second correction push plate 152, and the second driver 151 is used for driving the second correction push plate 152 to be close to or far away from the first correction push plate 142, so that the two ends of the reagent strips 170 can be aligned when the first correction push plate 142 and the second correction push plate 152 are close to each other, the ends of the reagent strips 170 in batches placed on the conveying mechanism can be aligned on a straight line, the phenomenon that the individual reagent strips 170 are exposed or skewed is avoided, the phenomenon that the subsequent procedure is normally fed is convenient, and the phenomenon that the reagent strips 170 are easily damaged in the transportation process is effectively avoided.

2. Since the first and second drivers 141 and 151 can individually control the operations of the first and second correction pushing plates 142 and 152, a user can select to use either the first correction pushing plate 142 or the second correction pushing plate 152 alone or both the first and second correction pushing plates 142 and 152 according to actual production demands, thereby improving the adaptability of the strip correction conveying mechanism 100.

The above-described embodiments represent only a few embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. The strip tidying correction conveying mechanism comprises a frame and a conveying component, wherein the conveying component is arranged on the frame and is provided with a plurality of clamping grooves for placing reagent strips,

the carding correction conveying mechanism further comprises a first carding correction component and a second carding correction component, wherein the first carding correction component and the second carding correction component are oppositely arranged along the two sides of the conveying direction of the conveying component; the first strip tidying correction assembly comprises a first driver and a first correction push plate, the first correction push plate is movably arranged on the frame, and the driving end of the first driver is connected with the first correction push plate so as to drive the first correction push plate to be close to or far away from the second strip tidying correction assembly;

The second carding correction assembly comprises a second driver and a second correction push plate, the driving end of the second driver is connected with the second correction push plate, the second correction push plate is movably arranged on the frame, and the second driver is used for driving the second correction push plate to be close to or far away from the first correction push plate;

when the first correction push plate and the second correction push plate are close to each other, the first correction push plate and the second correction push plate are respectively corrected to align the two ends of the reagent strip.

2. The tidying correction conveying mechanism according to claim 1, wherein the first correction push plate and the second correction push plate are each formed with a right angle correction portion on a face facing the detent.

3. The strip correction delivery mechanism of claim 1, wherein the frame includes a first extension platform and a second extension platform, the first extension platform and the second extension platform being located on respective sides of the delivery assembly;

the first correction push plate is arranged on the first extension platform in a sliding manner, and the first driver is arranged on the first extension platform;

the second correction push plate is arranged on the second extension platform in a sliding manner, the second driver is arranged on the second extension platform, and the first correction push plate is arranged at the height of the first extension platform, the second correction push plate is arranged at the height of the second extension platform and the height of the clamping groove is arranged at the height phase adaptation of the rack.

4. The strip tidying correction feed mechanism as claimed in claim 3, wherein the first projecting platform is formed with a first slider screwed to the first correction push plate, and/or,

the second extending platform is provided with a second sliding block, and the second sliding block is in threaded connection with the second correction push plate.

5. A buffer storage device comprising the tidying correction conveying mechanism according to any one of claims 1 to 4.

6. The buffer storage device according to claim 5, further comprising a clamping correction conveying mechanism and a storage mechanism, wherein the clamping correction conveying mechanism is disposed on one side of the strip tidying correction conveying mechanism, the storage mechanism is disposed on one side of the clamping correction conveying mechanism, and the clamping correction conveying mechanism is used for gathering and clamping the reagent strips for correcting the strip tidying correction conveying mechanism, and conveying the corrected reagent strips onto the storage mechanism.

7. The buffer storage device according to claim 6, wherein the clamping correction handling mechanism comprises a linear die assembly, a clamping correction assembly and a driving assembly, the clamping correction assembly is movably arranged on the linear die assembly, the linear die assembly is used for driving the clamping correction assembly to do horizontal reciprocating motion, the driving end of the driving assembly is respectively in driving connection with a first clamping jaw piece and a second clamping jaw piece of the clamping correction assembly, and the driving assembly is used for driving the first clamping jaw piece and the second clamping jaw piece to close to each other, and for folding and clamping the correction reagent strip, and for loosening the reagent strip when the first clamping jaw piece and the second clamping jaw piece are far away from each other.

8. The buffer storage device of claim 6, wherein the storage mechanism comprises a storage platform having a plurality of storage slots formed thereon.

9. The buffer storage device of claim 8, wherein the storage mechanism further comprises a first adjusting member, the storage platform comprises a bearing table and a support, a first storage clamping plate and a second storage clamping plate, the bearing table is arranged on the support, the first storage clamping plate and the second storage clamping plate are oppositely arranged on the bearing table, the first storage clamping plate is provided with a plurality of first clamping blocks, the second storage clamping plate is provided with a plurality of second clamping blocks, the first clamping blocks and the second clamping blocks are arranged in a staggered manner, the second storage clamping plate is movably arranged on the bearing table, the first adjusting member is connected with the second storage clamping plate, and the first adjusting member is used for adjusting the position of the second storage clamping plate on the bearing table.

10. An automated reagent strip manufacturing apparatus comprising a buffer storage device according to any one of claims 5 to 9.