CN218808932U - Reagent strip post-processing device - Google Patents

Abstract

The utility model provides a reagent strip post-processing device, including first linear motion guiding groove, first linear motion guiding groove has reagent strip section of packing into and reagent strip release section, reagent strip section of packing into is provided with first reciprocal material pushing component, first reciprocal material pushing component can be along the guide direction reciprocating linear motion first preset distance of first linear motion guiding groove, be provided with in the first linear motion guiding groove between reagent strip section of packing into and the reagent strip release section and spout a yard subassembly; the reagent strip transferring assembly is provided with an electric clamping jaw, and the electric clamping jaw can clamp and transfer the reagent strips in the reagent strip assembly in the preset area to the reagent strip loading section. The utility model discloses an electronic clamping jaw can realize placing the mechanization and the automation of transfer in the section of packing into to the reagent strip, no longer needs manual handling, has reduced the cost of labor, has improved the efficiency of reagent strip aftertreatment technology.

Description

Reagent strip post-processing device

Technical Field

The utility model belongs to reagent strip makes the field, concretely relates to reagent strip aftertreatment device.

Background

The reagent strip manufacturing in the prior art roughly comprises two major processes of reagent strip filling and post-processing, wherein the filling process mainly comprises reagent filling, film sealing, cutting and other major steps, and the post-processing process mainly comprises code spraying (including information such as project name, batch number, validity period and the like), two-dimensional code identification and reagent strip elimination of the reagent strip. After the reagent strip is filled, the reagent strip needs to be in a 10 ten thousand grade purification workshop due to the fact that reagent information is sprayed and printed to generate smoke and ash, the reagent strip needs to be moved out of the purification workshop manually for post-treatment, namely, the reagent strip is taken out of a reagent strip clamping support and placed into a post-treatment system for post-treatment, and more time cost and labor cost are wasted.

SUMMERY OF THE UTILITY MODEL

Therefore, the to-be-solved technical problem of the utility model is to provide a reagent strip aftertreatment device to overcome among the prior art reagent strip and need artifical the taking out reagent strip to shift to reagent strip aftertreatment device after the filling finishes, consuming time hard not enough.

In order to solve the above problem, the utility model provides a reagent strip aftertreatment device, include:

the reagent strip loading section is provided with a first reciprocating pushing assembly, the first reciprocating pushing assembly can do reciprocating linear motion for a first preset distance along the guiding direction of the first linear moving guiding groove, and a code spraying assembly is arranged in the first linear moving guiding groove between the reagent strip loading section and the reagent strip pushing section;

the reagent strip transferring assembly is provided with an electric clamping jaw, and the electric clamping jaw can clamp and transfer the reagent strips in the reagent strip assembly in the preset area to the reagent strip loading section.

In some embodiments, the reagent strip transfer assembly further comprises:

the device comprises a bracket, a first linear guide rail and a first translation driving assembly, wherein the bracket is assembled with the first linear guide rail;

the lifting driving assembly is assembled on the electric clamping jaw, is in driving connection with the first translation driving assembly and is in sliding connection with the first linear guide rail; and/or the presence of a gas in the gas,

the electric clamping jaw comprises a plurality of groups of parallel clamping jaws.

In some embodiments, the reagent strip assembly comprises a reagent strip holder, a plurality of reagent strips are arranged on the reagent strip holder, and the support is provided with a reagent strip holder anti-lifting plate which can limit the upward displacement of the reagent strip holder.

In some embodiments, the first reciprocating pusher assembly comprises:

the push plate is positioned in the reagent strip loading section;

a first rotating electric machine having a gear on an output shaft thereof;

the rack and a second linear guide rail which is arranged in parallel with the rack at intervals are arranged on the groove wall of the first linear moving guide groove, the gear is meshed with the rack, the first rotary motor is fixedly connected with the push plate, and the first rotary motor is connected with the second linear guide rail in a sliding manner.

In some embodiments of the present invention, the substrate is,

the reagent strip pushing section is provided with a travel switch, the travel switch is used for detecting whether the reagent strips in the first linear movable guiding groove reach a preset position or not, and when the reagent strips reach the preset position, a feedback signal is given out so as to realize code spraying of the reagent strips at the code spraying bin.

In some embodiments, the reagent strip reprocessing device further comprises:

a second rectilinear motion guide groove provided in parallel with the first rectilinear motion guide groove;

the second reciprocating pushing assembly is perpendicular to the extending direction of the first linear moving guide groove so as to push the reagent strip in the reagent strip pushing section into the second linear moving guide groove;

the two-dimensional code quality inspection scanning assembly comprises a scanning module and is used for scanning two-dimensional codes which are located in a scanning area and are sprayed and painted on the reagent strips.

In some embodiments, the two-dimensional code quality inspection scanning component further comprises:

the scanning module bracket is provided with at least two scanning modules which are arranged at intervals along the guiding direction of the second linear movement guiding groove;

the second translation driving component is connected with the scanning module bracket so as to drive the scanning module bracket to do reciprocating linear motion along the guiding direction of the second linear motion guiding groove; and/or the presence of a gas in the atmosphere,

and a third reciprocating pushing assembly is arranged at the first end of the second linear movement guide groove and can do reciprocating linear movement for a second preset distance along the guide direction of the second linear movement guide groove.

In some embodiments, a waste rejecting component is further arranged in a downstream area of the two-dimensional code quality inspection scanning component, and the waste rejecting component can reject the waste reagent strips identified by the two-dimensional code quality inspection scanning component from the reagent strip sequence.

In some embodiments, the waste-rejecting assembly comprises: the cylinder is provided with a push rod which can be controlled to stretch out and draw back, and the cylinder is arranged perpendicular to the guiding direction of the second linear movement guiding groove; and/or the second linear moving guide groove is provided with a reagent strip collecting plate at the downstream of the reagent strip guide moving direction in the second linear moving guide groove.

In some embodiments, the waste-rejecting assembly further comprises: the electromagnetic clamping assembly is arranged corresponding to the air cylinder and is provided with a clamping state for forming clamping and positioning on the reagent strip and a separation state for removing the clamping and positioning on the reagent strip, the electromagnetic clamping assembly is in the separation state when the push rod of the air cylinder extends out, and the electromagnetic clamping assembly is in the clamping state when the push rod of the air cylinder retracts.

The utility model provides a pair of reagent strip aftertreatment device sets up reagent strip transfer assembly, and the electronic clamping jaw that has through it can realize placing the mechanization and the automation of transfer in the section of packing into to the reagent strip that the reagent strip has, no longer need the manual processing, has reduced the cost of labor, has improved the efficiency of reagent strip aftertreatment technology.

Drawings

FIG. 1 is a schematic structural diagram of a front half part of a reagent strip post-processing device according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a rear half portion of a reagent strip post-processing device according to an embodiment of the present invention.

The reference numbers are given as:

1. a first linear movement guide groove; 21. an electric clamping jaw; 22. a support; 221. the reagent strip supports the anti-lifting plate; 23. a first linear guide rail; 24. a first translation drive assembly; 241. a belt; 242. a second rotary electric machine; 243. a belt pulley; 25. a lift drive assembly; 31. a reagent strip; 32. a reagent strip holder; 41. pushing a plate; 42. a first rotary electric machine; 43. a rack; 44. a second linear guide; 5. a second rectilinear motion guide groove; 51. code spraying bins; 52. a travel switch; 53. a second reciprocating pusher assembly; 61. a scanning module; 62. a scanning module support; 63. a second translation drive assembly; 71. a cylinder; 72. an electromagnetic clamping assembly; 8. a reagent strip collection plate; 9. and the third reciprocating pushing assembly.

Detailed Description

Referring to fig. 1 to 2 in combination, according to an embodiment of the present invention, there is provided a reagent strip post-processing apparatus, including: the reagent strip feeding device comprises a first linear moving guide groove 1, wherein the first linear moving guide groove 1 is provided with a reagent strip feeding section and a reagent strip pushing section, a first reciprocating pushing assembly (not marked in the drawing) is arranged at the reagent strip feeding section and can reciprocate for a first preset distance along the guide direction of the first linear moving guide groove 1 so as to translate a plurality of reagent strips 31 arranged in the reagent strip feeding section towards one side of the reagent strip pushing section for a certain distance, and a code spraying assembly is arranged in the first linear moving guide groove 1 between the reagent strip feeding section and the reagent strip pushing section and can realize code spraying treatment on the reagent strips 31 in a code spraying area, such as two-dimensional code spraying and other identification information spraying; the reagent strip transferring assembly is provided with an electric clamping jaw 21, the electric clamping jaw 21 can clamp and transfer the reagent strip 31 in the reagent strip assembly in a preset area to a reagent strip loading section, and the preset area is the position of the reagent strip assembly after the reagent filling process is completed.

Among this technical scheme, set up reagent strip and shift the subassembly, can realize through its electronic clamping jaw 21 that has that reagent strip 31 places the mechanization and the automation of shifting in to the reagent strip section of packing into, no longer need artifical the processing, reduced the cost of labor, improved the efficiency of reagent strip aftertreatment technology.

In some embodiments, the reagent strip transfer assembly further comprises: a bracket 22 serving as a bearing structure, wherein a first linear guide rail 23 and a first translation driving assembly 24 are assembled on the bracket 22; the lifting driving assembly 25 is assembled with the electric clamping jaw 21, the lifting driving assembly 25 is in driving connection with the first translation driving assembly 24 and is in sliding connection with the first linear guide rail 23, so that the adjustment of the horizontal position and the height position of the electric clamping jaw 21 is realized through the first translation driving assembly 24 and the lifting driving assembly 25, and further the stable and reliable clamping transfer of the reagent strip 31 is realized. Referring to fig. 1, the aforementioned first translation driving assembly 24 specifically includes a second rotation motor 242 fixedly assembled on the bracket 22, and a belt pulley 243 is sleeved on an output shaft of the second rotation motor 242, and meanwhile, a corresponding belt pulley (not shown) is also provided on the lifting driving assembly 25, and a belt 241 is tensioned between the two belt pulleys, so that the purpose of translating the circumferential displacement of the second rotation motor 242 into the horizontal linear displacement of the lifting driving assembly 25 is achieved, and meanwhile, as the lifting driving assembly is connected with the electric clamping jaw 21 as a whole, the linear reciprocating adjustment of the horizontal position of the electric clamping jaw 21 is also achieved. The lifting driving component 25 may be a lifting component such as an electric telescopic rod on the market, and will not be described in detail.

The electric clamping jaw 21 may be a commercially available electric clamping jaw with a suitable specification, and in a preferred embodiment, the electric clamping jaw 21 includes a plurality of groups of parallel clamping jaws to clamp and transfer a plurality of reagent strips 31 at one time, so as to further improve the working efficiency.

The reagent strip assembly comprises a reagent strip support 32, a plurality of reagent strips 31 are arranged on the reagent strip support 32, a reagent strip support anti-lifting plate 221 is arranged on the support 22, and the reagent strip support anti-lifting plate 221 can limit upward displacement of the reagent strip support 32, so that the reagent strip support 32 cannot be lifted when the reagent strips 31 on the reagent strip support are clamped by the electric clamping jaws 21 and is reserved in an original area, and smooth transfer of the reagent strips 31 is guaranteed.

The first reciprocating pusher assembly includes: a push plate 41 in the reagent strip loading section; a first rotary electric machine 42 having a gear on an output shaft thereof; the rack 43 and the second linear guide rail 44 parallel to the rack are arranged on the groove wall of the first linear moving guide groove 1 at intervals, the gear is meshed with the rack 43, the first rotary motor 42 is fixedly connected with the push plate 41, and the first rotary motor 42 is connected with the second linear guide rail 44 in a sliding manner. In this technical scheme, the rotary driving of first rotary motor 42 will be because the meshing of gear and rack 43 and turn into linear motion, and is concrete, because rack 43 and cell wall are fixed motionless, first rotary motor 42 will take rather than fixed connection's push pedal 41 linear motion, it is worth particular emphasis to be in this technical scheme, adopt such linear driving mode, can guarantee to be in the reliable removal of numerous reagent strips 31 in first linear guiding groove 1 in this technical scheme, generally speaking, in the device operation of the utility model discloses an except the initial stage, reagent strips 31 in this guiding groove will almost be covered with the full length of cell body, and this obviously needs a more reliable and drive the sufficient material pushing component of power.

In a preferred embodiment, a code spraying bin 51 is arranged at a region where the first linear moving guide groove 1 corresponds to the code spraying component, the code spraying component can specifically adopt a laser code spraying gun, the code spraying bin 51 can form physical isolation on sprayed materials of the code spraying component to prevent the sprayed materials from overflowing to the external environment to cause pollution, a stroke switch 52 is arranged at an end position of the reagent strip pushing-out section, the stroke switch 52 is used for detecting whether a reagent strip 31 in the first linear moving guide groove 1 reaches a preset position or not, and giving a feedback signal when the reagent strip reaches the preset position to realize code spraying on the reagent strip located at the code spraying bin 51, namely, the stroke switch 52 is used as a detection part when the reagent strip 31 reaches the code spraying region and can form linkage with a control part of the device, so as to finally realize accurate control of the code spraying action of the code spraying component by the control part.

Referring to fig. 2, the reagent strip post-processing device further includes: a second rectilinear motion guide groove 5 which is arranged in parallel with the first rectilinear motion guide groove 1 and is arranged in close proximity thereto; a second reciprocating pushing assembly 53 perpendicular to the extending direction of the first linearly moving guide groove 1 to push the reagent strip 31 in the reagent strip pushing section into the second linearly moving guide groove 5; two-dimensional code quality inspection scanning assembly, including scanning module 61, a two-dimensional code for the scanning is in spray drawing on its scanning area's reagent strip 31, through the non-collinear setting between second rectilinear movement guiding groove 5 and the first rectilinear movement guiding groove 1, can make the overall arrangement of each part more reasonable, compact, the whole space of device obtains optimizing, can discern the two-dimensional code of spouting a yard subassembly spraying of upper reaches through two-dimensional code quality inspection scanning assembly and verify, guarantee reagent strip 31 spout a yard quality, and effectively improved product quality, and can understand, reagent strip 31 that can not be discerned by two-dimensional code quality inspection scanning assembly is then the unqualified reagent strip of quality, and can be discerned by it then is qualified reagent strip. In addition, it should be noted that scanning module 61 and the corresponding processing unit of aforementioned two-dimensional code quality testing scanning subassembly are industry's prior art in the aspect of the function realization, and its specific structure, structure and implementation are not the utility model discloses the intention is protected, the utility model discloses it is integrated with it to be intended to protect in the device of the utility model, and then realized the integration of function, improved reagent strips after-treatment device's multi-functional and high efficiency.

Specifically, referring to fig. 2, the two-dimensional code quality inspection scanning assembly further includes: a scanning module bracket 62 on which at least two scanning modules 61 arranged at intervals along the guiding direction of the second rectilinear motion guiding groove 5 are mounted; and a second translation driving unit 63 connected to the scan module supporter 62 to drive the scan module supporter 62 to reciprocate linearly along the guide direction of the second rectilinear motion guide groove 5. To take fig. 2 to show as an example, the utility model provides a scanning module 61 is provided with two, can be through the position change adjustment of second translation drive assembly 63 (containing initial position, twice position of readjustment can), realize through two scanning module 61 to the two-dimensional code scanning of a set of six reagent strips 31, need not to correspond a scanning module 61 respectively to six reagent strips 31, has saved and has made the cost. The second translational driving component 63 and the first translational driving component 24 may adopt the same design in terms of implementation principle and structure, and are not described herein again.

The first end of the second rectilinear motion guide groove 5, that is, the end corresponding to the reagent strip pushing section, is provided with a third reciprocating material pushing assembly 9, and the third reciprocating material pushing assembly 9 can reciprocate linearly for a second preset distance along the guiding direction of the second rectilinear motion guide groove 5, so that each reagent strip 31 can form flow transmission along the guiding direction of the second rectilinear motion guide groove 5.

And a waste rejecting component is arranged in the downstream area of the two-dimensional code quality inspection scanning component and can reject the waste reagent strips identified by the two-dimensional code quality inspection scanning component from the reagent strip sequence, so that the final quality of the reagent strips 31 is controllable. Specifically, the waste removal assembly comprises: and the air cylinder 71 is provided with a controllably telescopic push rod, the air cylinder 71 is arranged perpendicular to the guiding direction of the second rectilinear motion guiding groove 5, after the two-dimensional code quality inspection scanning assembly identifies the unqualified reagent strip 31, when the unqualified reagent strip 31 is conveyed to a corresponding position, the push rod of the air cylinder 71 at the corresponding position is controlled to extend out, so that the unqualified reagent strip 31 is pushed out from the second rectilinear motion guiding groove 5, a waste box is arranged at the corresponding position to collect the unqualified reagent strip 31, and particularly, the position of the waste box is arranged in a downstream area of a reagent strip pushing section and in one side area of the second rectilinear motion guiding groove 5 towards the first rectilinear motion guiding groove 1.

In a preferred embodiment, the waste rejecting assembly further includes an electromagnetic clamping assembly 72, which is disposed corresponding to the air cylinder 71 and has a clamping state for clamping and positioning the reagent strip 31 and a releasing state for releasing the clamping and positioning of the reagent strip 31, wherein the electromagnetic clamping assembly 72 is in the releasing state when the push rod of the air cylinder 71 is extended, and the electromagnetic clamping assembly 72 is in the clamping state when the push rod of the air cylinder 71 is retracted, so that each qualified reagent strip 31 can be reliably positioned in the waste rejecting process of the air cylinder 71, and the qualified reagent strips 31 adjacent to the qualified reagent strip 31 can be prevented from being taken away in the rejecting process of the unqualified reagent strip 31. As shown in fig. 2, the plurality of electromagnetic clamping assemblies 72 and the plurality of air cylinders 71 are provided, and are arranged in a one-to-one correspondence. The electromagnetic clamping assembly 72 includes, for example, an electromagnetic push rod, the linear motion of which is controlled by the attraction or repulsion of an electromagnet, and is also controlled by a spring disposed corresponding to the electromagnetic push rod, in general, the electromagnetic push rod is in a disengaged state to ensure normal flow transmission of the reagent strips 31, at this time, the electromagnet is in a power-off state, and when waste is to be rejected, the electromagnet corresponding to the qualified reagent strip 31 is in a power-on state to enable the electromagnetic push rod to be in a clamping state, and the electromagnet corresponding to the unqualified reagent strip 31 maintains the power-off state to enable the electromagnetic push rod to be in the disengaged state, so that the unqualified reagent strip 31 can be removed from the queue.

The second rectilinear motion guide groove 5 has a reagent strip collecting plate 8 at a downstream side in the direction of the reagent strip guiding motion therein to collect the acceptable reagent strip 31 therein.

It is readily understood by a person skilled in the art that the advantageous ways described above can be freely combined, superimposed without conflict.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent replacements, and improvements made within the spirit and principle of the present invention should be included within the protection scope of the present invention. The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A reagent strip reprocessing apparatus, comprising:

the reagent strip feeding device comprises a first linear moving guide groove (1), wherein the first linear moving guide groove (1) is provided with a reagent strip feeding section and a reagent strip pushing section, a first reciprocating pushing assembly is arranged at the reagent strip feeding section and can reciprocate linearly for a first preset distance along the guide direction of the first linear moving guide groove (1), and a code spraying assembly is arranged in the first linear moving guide groove (1) between the reagent strip feeding section and the reagent strip pushing section;

the reagent strip transferring assembly is provided with a motor-driven clamping jaw (21), and the motor-driven clamping jaw (21) can clamp and transfer and place the reagent strip (31) in the reagent strip assembly in the preset area to the reagent strip loading section.

2. The reagent strip reprocessing device of claim 1, wherein the reagent strip transfer assembly further comprises:

a bracket (22), wherein a first linear guide rail (23) and a first translation driving component (24) are assembled on the bracket (22);

the lifting driving component (25) is assembled on the electric clamping jaw (21), and the lifting driving component (25) is in driving connection with the first translation driving component (24) and is in sliding connection with the first linear guide rail (23); and/or the presence of a gas in the gas,

the electric clamping jaw (21) comprises a plurality of groups of parallel clamping jaws.

3. The reagent strip post-processing device of claim 2,

the reagent strip assembly comprises a reagent strip support (32), a plurality of reagent strips (31) are arranged on the reagent strip support (32), a reagent strip support anti-lifting plate (221) is arranged on the support (22), and the reagent strip support anti-lifting plate (221) can limit upward displacement of the reagent strip support (32).

4. The reagent strip reprocessing device of claim 1 wherein said first reciprocating pusher assembly comprises:

a push plate (41) in the reagent strip loading section;

a first rotary electric machine (42) having a gear on an output shaft thereof;

the rack (43) and the second linear guide rail (44) which is arranged in parallel with the rack at intervals are arranged on the groove wall of the first linear moving guide groove (1), the gear is meshed with the rack (43), the first rotary motor (42) is fixedly connected with the push plate (41), and the first rotary motor (42) is connected with the second linear guide rail (44) in a sliding manner.

5. The reagent strip post-processing device of claim 1,

the reagent strip code spraying device is characterized in that a code spraying bin (51) is arranged in the region, corresponding to the code spraying assembly, of the first linear movable guide groove (1), a travel switch (52) is arranged at the end position of the reagent strip pushing section, the travel switch (52) is used for detecting whether a reagent strip (31) in the first linear movable guide groove (1) reaches a preset position or not, and when the reagent strip reaches the preset position, a feedback signal is given to achieve code spraying of the reagent strip in the code spraying bin (51).

6. The reagent strip reprocessing device of claim 1 further comprising:

a second rectilinear motion guide groove (5) provided in parallel with the first rectilinear motion guide groove (1);

the second reciprocating pushing assembly (53) is perpendicular to the extending direction of the first linear moving guide groove (1) and used for pushing the reagent strip (31) in the reagent strip pushing section into the second linear moving guide groove (5);

the two-dimensional code quality inspection scanning assembly comprises a scanning module (61) which is used for scanning a two-dimensional code sprayed on the reagent strip (31) in a scanning area of the scanning module.

7. The reagent strip post-processing device of claim 6, wherein the two-dimensional code quality inspection scanning assembly further comprises:

a scanning module bracket (62) on which at least two scanning modules (61) are mounted at intervals along the guiding direction of the second rectilinear motion guiding groove (5);

the second translation driving component (63) is connected with the scanning module bracket (62) so as to drive the scanning module bracket (62) to do reciprocating linear motion along the guiding direction of the second linear motion guiding groove (5); and/or the presence of a gas in the atmosphere,

and a third reciprocating pushing assembly (9) is arranged at the first end of the second rectilinear motion guide groove (5), and the third reciprocating pushing assembly (9) can reciprocate for a second preset distance along the guide direction of the second rectilinear motion guide groove (5).

8. The reagent strip post-processing device of claim 6,

and a waste rejecting assembly is further arranged in the downstream area of the two-dimensional code quality inspection scanning assembly and can reject the waste reagent strips identified by the two-dimensional code quality inspection scanning assembly from the reagent strip sequence.

9. The reagent strip reprocessing device of claim 8, wherein the reject assembly comprises:

the air cylinder (71) is provided with a push rod capable of controlling expansion and contraction, and the air cylinder (71) is arranged perpendicular to the guide direction of the second linear motion guide groove (5); and/or the second rectilinear motion guide groove (5) is provided with a reagent strip collecting plate (8) which is arranged at the downstream of the reagent strip guide motion direction.

10. The reagent strip reprocessing device of claim 9 wherein the reject assembly further comprises:

the electromagnetic clamping assembly (72) is arranged corresponding to the air cylinder (71) and has a clamping state for clamping and positioning the reagent strip (31) and a disengagement state for releasing the clamping and positioning of the reagent strip (31), the electromagnetic clamping assembly (72) is in the disengagement state when the push rod of the air cylinder (71) extends out, and the electromagnetic clamping assembly (72) is in the clamping state when the push rod of the air cylinder (71) retracts.

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