CN113772459A - Synchronous feeding test paper box and detection test paper for in-vitro diagnosis primary and secondary test paper - Google Patents

Abstract

The invention discloses an in-vitro diagnosis primary and secondary test paper synchronous feeding test paper box and test paper, which comprises a shell, wherein a base is arranged at the bottom end of the shell, an object stage is arranged on one side of the shell, the object stage is installed on the base, a placing structure is arranged in the center of the interior of the shell and comprises a winder, a penetrating and guiding support, a first motor and a one-way bearing, the penetrating and guiding support is arranged on one side of the winder, the first motor is arranged on one side of the penetrating and guiding support far away from the winder, and the one-way bearing is connected in the winder in a penetrating mode. Has the advantages that: the driving structure provided by the invention is matched with the collection structure to have the function of automatically pricking and taking blood samples, so that the sampling efficiency is improved, the collector is a disposable collection device, and the collection structure is internally provided with the automatic device which is convenient to disassemble, so that the manual intervention can be further reduced, the sampled samples have higher reliability, the data detection precision is improved, the reliability of detected data is improved, and the probability of medical accidents is reduced.

Description

Synchronous feeding test paper box and detection test paper for in-vitro diagnosis primary and secondary test paper

Technical Field

The invention relates to the technical field of test paper production, in particular to a synchronous feeding test paper box for in-vitro diagnosis primary and secondary test paper and detection test paper.

Background

The test paper is usually applied to test paper for disease monitoring in medical diagnosis, such as blood glucose test paper, urine dry chemical test paper and the like, the existing test paper is directly placed in a test paper barrel, generally 20-100 pieces per barrel, and the test paper detection process is long, and the frequency of opening and closing the barrel cover is high, so that once the test paper barrel is opened, the test paper needs to be used as soon as possible, the test paper is prevented from being affected by moisture or other bacteria in the air, and sometimes, a user forgets to close the test paper easily, so that the test paper is affected with damp; in the process of directly taking the test paper by hand, the fingers can also pollute the test paper, certain influence is caused on the final detection result of the test paper, and the probability of the patient interfering blood to infect diseases is increased.

In the application number: the moisture-proof and anti-pollution blood sugar test paper tube of CN 106275881A provides a test paper tube and a test paper tube support which can automatically take test paper, a tube cover does not need to be opened in the process of taking the test paper, the test paper tube keeps sealed in the process of taking the test paper, and the situation that the test paper is affected with moisture and pollution is avoided.

However, the test paper provided by the invention is inconvenient to store, does not have the function of automatic cutting, does not have the function of automatic sampling, has single function and low automation degree, and cannot meet the social requirements.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the in-vitro diagnosis primary and secondary test paper synchronous feeding test paper box and the detection test paper, which have the functions of automatically cutting the test paper and automatically sampling, thereby solving the problems in the prior art.

(II) technical scheme

In order to realize the functions of the automatic cutting test paper and the automatic sampling, the invention adopts the following specific technical scheme:

a synchronous feeding test paper box and detection test paper for in-vitro diagnosis primary and secondary test paper comprises a shell, wherein a base is arranged at the bottom end of the shell, an object stage is arranged on one side of the shell and is installed on the base, a placing structure is arranged at the center inside the shell, a leading-out structure is arranged at one side inside the shell, a driving structure is arranged at the top end of the object stage, a cutting structure is arranged at one side of the leading-out structure, a collecting table is arranged at the bottom end of the driving structure, a collecting structure is arranged at the center of the top end of the collecting table, an inner groove is formed in the collecting table, and a placing piece is arranged at the center of the inner groove;

the placing structure comprises a winder, a penetrating and guiding support, a first motor and a one-way bearing, wherein the penetrating and guiding support is arranged on one side of the winder, the first motor is arranged on one side, away from the winder, of the penetrating and guiding support, and the one-way bearing is connected in the winder in a penetrating mode.

Further, the derivation structure includes first installation piece, first journal stirrup, the pulley, a driving motor, the control unit, first wear the groove, the interior guide pulley, the frictional layer, first journal stirrup is installed to the one end of first installation piece, install the pulley on the first journal stirrup, one side of pulley is equipped with a driving motor, one side of a driving motor is equipped with the control unit, first wear the groove has been seted up at the center of pulley, the outside of first wear the groove is equipped with the interior guide pulley, the outside of interior guide pulley is equipped with the frictional layer.

Further, the drive structure includes second motor, runner, biography guide slot, conduction pole, spout, connecting rod, and the top of second motor is equipped with the runner, and the week side of runner has been seted up and has been passed the guide slot, and the in-connection that passes the guide slot has the conduction pole, and one side of runner is equipped with the spout, and the spout is equipped with the connecting rod in the one side of keeping away from the runner.

According to another aspect of the present invention, a test strip is provided, which includes a test strip structure, the test strip structure includes a first test strip, a second test strip, and a pre-open line, the second test strip is disposed at a bottom end of the first test strip, and the pre-open line is disposed between the first test strip and the second test strip.

(III) advantageous effects

Compared with the prior art, the invention provides the in-vitro diagnosis primary and secondary test paper synchronous feeding test paper box and the detection test paper, and the invention has the following beneficial effects:

(1) the cutting structure provided by the invention can be matched with the guiding structure to guide out and automatically cut the test paper structure, so that the efficiency of test paper sampling can be improved, the manual intervention is reduced, the automation degree is improved, the anti-creep structure in the cutting structure can further accelerate the automatic cutting of the test paper sampling, the transmission efficiency is improved, the equipment failure rate is reduced, the cost of manual maintenance is reduced, the service life of the equipment is prolonged, and the economic cost is reduced.

(2) The driving structure provided by the invention is matched with the collection structure to have the function of automatically pricking and taking blood samples, so that the sampling efficiency is improved, the collector is a disposable collection device, and the collection structure is internally provided with the automatic device which is convenient to disassemble, so that the manual intervention can be further reduced, the sampled samples have higher reliability, the data detection accuracy is improved, the data detection reliability is improved, and the probability of medical accidents is reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of a main structure of an in vitro diagnostic mother-son test paper synchronous feeding test paper box and a test paper according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the internal structure of the main structure of an in vitro diagnostic mother-son test paper synchronous feeding test paper box and a test paper according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a placement structure of a synchronous in-vitro diagnostic mother-son test paper feeding test paper box and a test paper feeding test paper according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a part of a derived structure of an in-vitro diagnostic mother-son test paper synchronous feeding test paper box and a detection test paper according to an embodiment of the invention;

FIG. 5 is a schematic structural diagram of a conduction wheel for synchronously feeding test paper boxes and test paper by using in-vitro diagnostic mother-son test paper according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a cutting structure of a test paper box and test paper box for synchronously feeding in-vitro diagnostic mother and daughter test paper according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a cutting wheel structure of an in vitro diagnostic mother-son test paper synchronous feeding test paper box and a detection test paper according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of an anti-creeping structure of an in-vitro diagnostic mother-son test paper synchronous feeding test paper box and a detection test paper according to an embodiment of the present invention;

FIG. 9 is a schematic diagram of a driving structure of an in vitro diagnostic mother-son test paper synchronous feeding test paper box and a test paper according to an embodiment of the present invention;

FIG. 10 is a schematic diagram of an acquisition structure of an in vitro diagnostic mother-son test paper synchronous feeding test paper box and test paper according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a test paper box for synchronously feeding in-vitro diagnostic mother-son test paper and test paper for detecting the test paper according to an embodiment of the invention.

In the figure: 1. a housing; 2. a base; 3. an object stage; 4. a placement structure; 401. a winder; 402. a guide bracket is penetrated; 403. a first motor; 404. a one-way bearing; 5. exporting the structure; 501. a first mounting block; 502. a first lug; 503. a transmission wheel; 504. a first drive motor; 505. a control unit; 506. a first through groove; 507. an inner guide wheel; 508. a friction layer; 6. a drive structure; 601. a second motor; 602. a rotating wheel; 603. a transmission groove; 604. a conductive rod; 605. a chute; 606. a connecting rod; 7. cutting the structure; 701. a second mounting block; 702. a second lug; 703. a cutting wheel; 704. a second drive motor; 705. an anti-creep structure; 7051. a cutting knife; 7052. mounting grooves; 7053. a sliding groove; 7054. a slider; 7055. a strut; 7056. anti-climbing wheels; 7057. a spring; 706. a limiting block; 707. a second through groove; 8. a collection table; 9. collecting the structure; 901. a fixed block; 902. a screw thread pushing block; 903. a threaded rod; 904. a micro-driver; 905. a collector; 906. a puncture end; 907. a sampling end; 10. placing the sheet; 11. a test paper structure; 1101. a first test paper; 1102. a second test paper; 1103. pre-opening the wire.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to the embodiment of the invention, the in-vitro diagnosis primary and secondary test paper synchronous feeding test paper box is provided.

Referring to the drawings and the detailed description, as shown in fig. 1-10, the in vitro diagnosis primary and secondary test paper synchronous feeding test paper box according to the embodiment of the invention comprises a housing 1, a base 2 is arranged at the bottom end of the housing 1, an object stage 3 is arranged on one side of the housing 1, the object stage 3 is mounted on the base 2, a placement structure 4 is arranged at the center inside the housing 1, a lead-out structure 5 is arranged on one side inside the housing 1, a driving structure 6 is arranged at the top end of the object stage 3, a cutting structure 7 is arranged on one side of the lead-out structure 5, a collection table 8 is arranged at the bottom end of the driving structure 6, a collection structure 9 is arranged at the center of the top end of the collection table 8, an inner groove is arranged on the collection table 8, and a placement sheet 10 is arranged at the center of the inner groove.

Through the technical scheme, base 2 is used for supporting installation casing 1, objective table 3 is used for supporting drive structure 6 and installation collection platform 8, the structure 4 of placing in the casing 1 is used for placing the test paper to the lapping, draw the test paper to deriving structure 5 simultaneously, the test paper can be through tailorring structure 7 after deriving structure 5, it can tailor the test paper to tailor structure 7, drive structure 6 can drive collection structure 9 simultaneously and carry out blood sample collection, and with the blood sample collection after gathering to placing in the test paper on piece 10, accomplish the preliminary work to the test paper detection.

As shown in fig. 1 to 10, the placing structure 4 includes a winding device 401, a penetrating bracket 402, a first motor 403, and a one-way bearing 404, the penetrating bracket 402 is disposed on one side of the winding device 401, the first motor 403 is disposed on one side of the penetrating bracket 402 far from the winding device 401, and the one-way bearing 404 is penetrated inside the winding device 401.

The leading-out structure 5 comprises a first mounting block 501, a first lug 502, a conducting wheel 503, a first driving motor 504, a control unit 505, a first through groove 506, an inner guide wheel 507 and a friction layer 508, wherein the first lug 502 is mounted at one end of the first mounting block 501, the conducting wheel 503 is mounted on the first lug 502, the first driving motor 504 is arranged on one side of the conducting wheel 503, the control unit 505 is arranged on one side of the first driving motor 504, the first through groove 506 is formed in the center of the conducting wheel 503, the inner guide wheel 507 is arranged on the outer side of the first through groove 506, and the friction layer 508 is arranged on the outer side of the inner guide wheel 507.

The driving structure 6 includes a second motor 601, a rotating wheel 602, a conducting groove 603, a conducting rod 604, a sliding groove 605 and a connecting rod 606, the rotating wheel 602 is disposed at the top end of the second motor 601, the conducting groove 603 is disposed on the peripheral side of the rotating wheel 602, the conducting rod 604 is connected in the conducting groove 603, the sliding groove 605 is disposed on one side of the rotating wheel 602, and the connecting rod 606 is disposed on one side of the sliding groove 605 away from the rotating wheel 602.

Structure 7 of tailorring includes second installation piece 701, second journal stirrup 702, tailor wheel 703, second driving motor 704, anti-climbing structure 705, stopper 706, second wear groove 707, second journal stirrup 702 is installed to the one end of second installation piece 701, the erection joint has on the second journal stirrup 702 tailors wheel 703, one side of tailorring wheel 703 is equipped with second driving motor 704, the week side of tailorring wheel 703 is equipped with anti-climbing structure 705, the both sides of anti-climbing structure 705 are equipped with stopper 706, the second wear groove 707 has been seted up at the center of tailorring wheel 703.

The anti-climbing structure 705 comprises a cutting knife 7051, a mounting groove 7052, a sliding groove 7053, a sliding block 7054, a support rod 7055, an anti-climbing wheel 7056 and a spring 7057, wherein the mounting grooves 7052 are arranged on two sides of the cutting knife 7051, the sliding groove 7053 is formed in the top end of the mounting groove 7052, the sliding block 7054 is mounted in the sliding groove 7053, the support rod 7055 is mounted on the sliding block 7054, the anti-climbing wheel 7056 is arranged on the top end of the support rod 7055, and the spring 7057 is arranged at the bottom end of the sliding block 7054.

The acquisition structure 9 comprises a fixed block 901, a thread push block 902, a threaded rod 903, a micro driver 904, an acquisition device 905, a puncture end 906 and a sampling end 907, wherein the thread push block 902 is arranged at the top end of the fixed block 901, the threaded rod 903 is arranged in the thread push block 902, the micro driver 904 is arranged at the end part of the threaded rod 903, the acquisition device 905 is fixed at the center of the fixed block 901, the puncture end 906 is arranged at the top end of the acquisition device 905, and the sampling end 907 is arranged at the end, far away from the puncture end 906, of the acquisition device 905.

As shown in fig. 11, according to an embodiment of the present invention, there is further provided a test strip, which includes a test strip structure 11, where the test strip structure 11 includes a first test strip 1101, a second test strip 1102, and a pre-open line 1103, a second test strip 1102 is disposed at a bottom end of the first test strip 1101, and the pre-open line 1103 is disposed between the first test strip 1101 and the second test strip 1102 connected to each other.

Through the technical scheme, the primary test paper and the secondary test paper are formed by the first test paper 1101 and the second test paper 1102 of the test paper structure 11, the pre-opening line 1103 arranged between the connected test papers is synonymous with the virtual opening line, so that the test paper cutting is convenient to perform, the first test paper 1101 and the second test paper 1102 have good blood sample immersion performance, the test paper detection can be performed on a blood sample fully, the detection efficiency and the detection accuracy are improved, when the first test paper 1101 and the second test paper 1102 are positive, it can be judged that a corresponding reactant exists in the blood sample of a detected person, and the primary and secondary test paper can greatly improve the detection accuracy.

For the convenience of understanding the technical solutions of the present invention, the following detailed description will be made on the working principle or the operation mode of the present invention in the practical process.

In practical application, a coiled test paper is installed in the winder 401, the winder 401 is connected with a first motor 403 through a one-way bearing 404, the first motor 403 can drive the winder 401 to guide out the test paper, the one-way bearing 404 can prevent the motor from rotating, the guided test paper passes through a through hole formed in a guide bracket 402, the guide bracket 402 is connected with a resistance bearing arranged on one side of the one-way bearing 404 and can tighten the test paper, the test paper passes through a conduction wheel 503 of the guide structure 5, the conduction wheel 503 is installed on a first installation block 501 through a first support lug 502, the installation block is connected with the inner wall of the housing 1, a first driving motor 504 is arranged on one side of the conduction wheel 503 and used for driving the conduction wheel 503, a control unit 505 is used for controlling the driving motor, a first through groove 506 is used for connecting the conduction wheel 503 with the first driving motor 504, the conduction wheel 503 is arranged in an alignment manner, another group of conduction wheels 503 is arranged at a symmetrical position in the housing 1, an inner guide wheel 507 in the transmission wheel 503 is directly connected with a driving device of a driving motor, the inner guide wheel 507 drives a friction layer 508 to rotate, the friction layer 508 can effectively increase the friction force between the friction layer 508 and test paper and is used for preventing relative sliding from occurring, the test paper passing through the leading-out structure 5 enters a cutting wheel 703 of a cutting structure 7, the cutting wheel 703 is installed on a second installation block 701 through a second supporting lug 702, the second installation block 701 is installed on the shell 1, a second driving motor 704 is installed on one side of the cutting wheel 703, the second driving motor 704 is used for driving the cutting wheel 703 to rotate, an inner second penetrating groove 707 is used for being connected with the second driving motor 704 through a transmission rod, an anti-climbing structure 705 is arranged on the peripheral side surface of the cutting wheel 703, limiting blocks 706 arranged on two sides of the anti-climbing structure 705 can limit the position of the test paper transmitted on the cutting wheel 703, a sliding block 7054 is arranged in a sliding groove 7053 arranged in an installation groove 7052 of the anti-climbing structure 705, the sliding block 7054 is provided with a supporting rod 7055 through a resistance bearing, the anti-climbing wheel 7056 on the supporting rod 7055 can stress the anti-climbing wheel 7056 when test paper passes through the anti-climbing wheel 7056, the sliding block 7054 is pressed down by the supporting rod 7055, a spring 7057 at the bottom end of the sliding block 7054 is pressed to deform, the supporting rod 7055 can drive the anti-climbing wheel 7056 to move towards two sides, and meanwhile, pressure can be generated on the test paper, when the cutting knife 7051 is nearly vertical to the test paper, the anti-climbing wheels 7056 at two sides of the cutting knife 7051 can apply pulling force to the test paper at two sides, when the test paper is completely vertical to the cutting knife 7051, the cutting knife 7051 can directly act on a virtual open line of the test paper, the test paper can be more quickly cut by the pulling force of the anti-climbing wheel 7056 and the cutting knife 7051, the probability of failure of cutting is reduced, the finished test paper enters the cutting piece to be placed on the cutting piece 10 in the collecting table 8, a part to be cut by a detected person, which needs to be cut is positioned at the upper end 906 of the collecting structure 9, at this time, the second motor 601 of the driving structure 6 drives the rotating wheel 602 to rotate, the rotating wheel 602 drives the conducting rod 604 to move up and down through the transmission slot 603, the conducting rod 604 drives the sliding block in the sliding chute 605 to move up and down, the sliding block drives the connecting rod 606 to move up and down, the connecting rods 606 on both sides of the collecting structure 9 simultaneously move to drive the fixing block 901 to move up and down, the fixing block 901 drives the collector 905 to move up and down, the collector 905 drives the puncture end 906 to move up and down, the puncture end 906 creates a wound on the detected person, after the wound is created, the blood sample is transmitted to the sampling end 907 through the collector 905, the sampling end 907 transmits the blood sample to the surface of the test paper, the sampling work is completed, after the sampling is completed, the threaded rod 903 is driven by the micro-driver 904, the threaded rod 903 drives the threaded push block 902 to slide along the sliding rail, and the threaded push blocks 902 on both sides of the collector 905 are not fixed any more, collector 905 may now be replaced.

In summary, according to the above technical solution of the present invention, the base 2 is used for supporting and mounting the housing 1, the objective table 3 is used for supporting the driving structure 6 and the mounting and collecting table 8, the placing structure 4 in the housing 1 is used for placing the coiled test paper, and simultaneously leading the test paper to the leading-out structure 5, the test paper passes through the leading-out structure 5 and then passes through the cutting structure 7, the cutting structure 7 cuts the test paper, meanwhile, the driving structure 6 can drive the collecting structure 9 to collect a blood sample, and collect the collected blood sample into the test paper on the placing sheet 10, thereby completing a preliminary work of test paper detection, the first test paper 1101 and the second test paper 1102 of the test paper structure 11 together form a mother-son test paper, and the pre-open line 1103 arranged between the connected test papers is synonymous with the virtual open line, so as to facilitate cutting the test paper, the first test paper 1101 and the second test paper 1102 have good blood sample immersion performance, the test paper detection can be fully carried out on a blood sample, the detection efficiency and the detection accuracy are improved, when the first test paper 1101 and the second test paper 1102 are positive, corresponding reactants in the blood sample of a detected person can be judged, the primary test paper and the secondary test paper can greatly improve the detection accuracy, the coiled test paper is installed in the winder 401, the winder 401 is connected with the first motor 403 through the one-way bearing 404, the first motor 403 can drive the winder 401 to conduct test paper export, the one-way bearing 404 can prevent the motor from rotating, the exported test paper passes through the through hole formed in the penetrating support 402, the penetrating support 402 is connected with the one side of the one-way bearing 404 through the resistance bearing, the test paper can be tightened, then the test paper passes through the conduction wheel 503 of the exporting structure 5, the conduction wheel 503 is installed on the first installation block 501 through the first support lug 502, and the installation block is connected with the inner wall of the shell 1, the first driving motor 504 is arranged at one side of the transmission wheel 503 and is used for driving the transmission wheel 503, the control unit 505 is used for controlling the driving motor, the first through groove 506 is used for connecting the transmission wheel 503 with the first driving motor 504, the transmission wheel 503 is arranged in an aligned manner, another group of transmission wheels 503 are arranged at symmetrical positions in the housing 1, an inner guide wheel 507 in the transmission wheel 503 is directly connected with a driving device of the driving motor, the inner guide wheel 507 drives the friction layer 508 to rotate, the friction layer 508 can effectively increase the friction force between the test paper and is used for preventing relative sliding, the test paper passing through the leading-out structure 5 enters the cutting wheel 703 of the cutting structure 7, the cutting wheel 703 is arranged on the second mounting block 701 through the second lug 702, the second mounting block 701 is arranged on the housing 1, the second driving motor 704 is arranged at one side of the cutting wheel 703, and the second driving motor 704 is used for driving the cutting wheel 703 to rotate, the inner second through groove 707 is used for connecting with the second driving motor 704 through a transmission rod, the circumferential side of the cutting wheel 703 is provided with an anti-climbing structure 705, the limiting blocks 706 arranged at the two sides of the anti-climbing structure 705 can limit the position of the test paper conducted on the cutting wheel 703, the sliding groove 7053 arranged in the installation groove 7052 of the anti-climbing structure 705 is internally provided with a sliding block 7054, the sliding block 7054 is provided with a support rod 7055 through a resistance bearing, the anti-climbing wheel 7056 on the support rod 7055 can make the anti-climbing wheel 7056 stressed when the test paper passes through, the support rod 7055 is forced to press the sliding block 7054 downwards, a spring 7057 at the bottom end of the sliding block 7054 is pressed to deform, the support rod 7055 can drive the anti-climbing wheel 7056 to move towards two sides and generate pressure on the test paper, when the cutting knife 7051 is nearly perpendicular to the test paper, the anti-climbing wheels 7056 at the two sides of the cutting knife 7051 apply pulling force to the test paper towards the two sides, when the cutting knife 7051 is completely perpendicular to the test paper, the test paper can be cut more quickly by the pulling force of the anti-creeping wheel 7056 and the cutting knife 7051, the probability of failure cutting is reduced, the cut test paper enters the placing piece 10 in the collecting table 8, the part to be cut by a detected person is positioned at the upper end of the puncture end 906 of the collecting structure 9, at the moment, the second motor 601 of the driving structure 6 drives the rotating wheel 602 to rotate, the rotating wheel 602 drives the conducting rod 604 to move up and down through the conducting groove 603, the conducting rod 604 drives the sliding block in the sliding groove 605 to move up and down, the sliding block drives the connecting rod 606 to move up and down, the connecting rods 606 at two sides of the collecting structure 9 simultaneously move to drive the fixed block 901 to move up and down, the fixed block 901 drives the collector 905 to move up and down, the collector 905 drives the puncture end 906 to move up and down, the puncture end 906 creates the detected person, and after creation, a blood sample is conducted to the sampling end 907 through the collector 905, sampling end 907 conducts the blood sample to the test paper surface, accomplishes the sampling work, drives threaded rod 903 through micro driver 904 after the sampling, makes threaded rod 903 drive screw ejector pad 902 slide along the slide rail, makes the screw ejector pad 902 of collector 905 both sides no longer fix it, can change collector 905 this moment.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. The in-vitro diagnosis primary and secondary test paper synchronous feeding test paper box is characterized by comprising a shell (1), wherein a base (2) is arranged at the bottom end of the shell (1), an object stage (3) is arranged on one side of the shell (1), the object stage (3) is installed on the base (2), a placing structure (4) is arranged at the center of the interior of the shell (1), a leading-out structure (5) is arranged on one side of the interior of the shell (1), a driving structure (6) is arranged at the top end of the object stage (3), a cutting structure (7) is arranged on one side of the leading-out structure (5), a collecting table (8) is arranged at the bottom end of the driving structure (6), a collecting structure (9) is arranged at the center of the top end of the collecting table (8), an inner groove is formed in the collecting table (8), and a placing sheet (10) is arranged at the center of the inner groove;

the placing structure (4) comprises a winder (401), a penetrating and guiding support (402), a first motor (403) and a one-way bearing (404), wherein the penetrating and guiding support (402) is arranged on one side of the winder (401), the first motor (403) is arranged on one side, away from the winder (401), of the penetrating and guiding support (402), and the one-way bearing (404) is penetrated and connected inside the winder (401).

2. The in vitro diagnosis mother-son test paper synchronous feeding test paper box of claim 1, the guiding structure (5) comprises a first mounting block (501), a first lug (502), a conducting wheel (503), a first driving motor (504), a control unit (505), a first through groove (506), an inner guide wheel (507) and a friction layer (508), a first lug (502) is arranged at one end of the first mounting block (501), a transmission wheel (503) is arranged on the first lug (502), a first driving motor (504) is arranged on one side of the guide wheel (503), a control unit (505) is arranged on one side of the first driving motor (504), a first through groove (506) is formed in the center of the transmission wheel (503), an inner guide wheel (507) is arranged on the outer side of the first through groove (506), and a friction layer (508) is arranged on the outer side of the inner guide wheel (507).

3. The in vitro diagnosis primary and secondary test paper synchronous feeding test paper box as claimed in claim 1, wherein the driving structure (6) comprises a second motor (601), a rotating wheel (602), a conduction groove (603), a conduction rod (604), a sliding groove (605) and a connecting rod (606), the rotating wheel (602) is arranged at the top end of the second motor (601), the conduction groove (603) is formed in the peripheral side surface of the rotating wheel (602), the conduction rod (604) is connected in the conduction groove (603), the sliding groove (605) is formed in one side of the rotating wheel (602), and the connecting rod (606) is arranged on one side of the sliding groove (605) far away from the rotating wheel (602).

4. A test strip, characterized in that, the test paper box for synchronously feeding test paper by using in vitro diagnostic son-mother test paper according to claim 1 comprises a test paper structure (11), wherein the test paper structure (11) comprises a first test paper (1101), a second test paper (1102) and a pre-open line (1103), the second test paper (1102) is arranged at the bottom end of the first test paper (1101), and the pre-open line (1103) is arranged between the first test paper (1101) and the second test paper (1102) which are connected.

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