CN212031512U - Finished product detection device of D-dimer detect reagent box - Google Patents

Abstract

The utility model discloses a finished product detection device of D-dimer detect reagent box, concretely relates to medical science detects technical field, including detecting the belt line, be provided with on the detecting belt line and feed subassembly and determine module, it is connected with storage position belt line to detect belt line front end, it is connected with storage assembly to detect belt line rear end, be provided with a plurality of detect reagent boxes in detecting the belt line, storing up position belt line and the storage assembly. The utility model discloses a drive the connecting rod swing when setting up the telescoping cylinder motion, gear A and gear B rotate thereupon, and sideboard A and sideboard B also swing simultaneously, and the motion of opposite direction is done to sideboard A and sideboard B for detect reagent box only flows out at every turn and detects the belt line, prevents to miss to examine, has increased and has detected automatic accuracy.

Description

Finished product detection device of D-dimer detect reagent box

Technical Field

The utility model relates to a medical science detects technical field, more specifically says, the utility model relates to a D-dimer detect reagent box's finished product detection device.

Background

Fibrin exists in blood, and fibrin is activated and hydrolyzed to generate specific degradation products, which are called fibrin degradation products. D-dimer is the simplest fibrin degradation product, and an elevated level of D-dimer indicates the presence of hypercoagulable state and secondary hyperfibrinolysis in vivo. Therefore, the mass concentration of the D-dimer has important significance for the diagnosis, the curative effect evaluation and the prognosis judgment of the thrombotic diseases.

In the prior art, the detection of the D-dimer detection kit is mostly carried out manually one by one, the speed is low, the efficiency is low, and the application and the popularization of the medical detection technology are greatly influenced, so that the finished product detection device of the D-dimer detection kit is provided.

SUMMERY OF THE UTILITY MODEL

In order to overcome the above-mentioned defects of the prior art, the embodiments of the present invention provide a finished product detecting device of a D-dimer detecting kit.

In order to achieve the above object, the utility model provides a following technical scheme: a finished product detection device of a D-dimer detection kit comprises a detection belt line, wherein a feeding component and a detection component are arranged on the detection belt line, the front end of the detection belt line is connected with a storage belt line, the rear end of the detection belt line is connected with a storage component, a plurality of detection reagent boxes are arranged in the detection belt line, the storage belt line and the storage component, the feeding component comprises a telescopic cylinder, the telescopic cylinder is hinged with the support, which is arranged at the bottom of a detection belt line through a support, the other end of the telescopic cylinder is connected with a connecting rod, the other end of the connecting rod is connected with a gear A, the gear A is meshed with the gear B, the gear A and the gear B are connected to a supporting seat through a bearing and a transmission shaft, the upper end of the gear A is fixedly connected with a baffle plate A, the upper end of the gear B is fixedly connected with a baffle plate B, and the baffle plate A and the baffle plate B are L-shaped.

In a preferred embodiment, the detection belt line comprises a support A, a motor A is arranged on the support A, a pair of rollers A is arranged on the support A, a belt A is arranged on the rollers A, baffle plates A are arranged on two sides of the belt A, and a feeding assembly and a detection assembly are further arranged on the support A.

In a preferred embodiment, the detection assembly comprises a laser emitter and a light sensor, which are respectively mounted on both sides of the belt a.

In a preferred embodiment, the storage belt line comprises a bracket B, a motor B is arranged on the bracket B, a pair of rollers B is arranged on the bracket B, a belt B is arranged on the rollers B, and baffles B are arranged on two sides of the belt B.

In a preferred embodiment, the storage assembly comprises a base, a storage tank is arranged above the base, the storage tank is in a disc shape, and a spiral baffle is arranged inside the storage tank, so that the inside of the disc is divided into a spiral channel.

In a preferred embodiment, the test kit is provided with a small diameter cylinder at the upper part and a small diameter cylinder at the lower part.

The utility model discloses a technological effect and advantage:

1. the utility model discloses a setting up "the feeding subassembly includes the telescoping cylinder, the telescoping cylinder is articulated with the support, it is installed in detection belt line bottom through the support, the telescoping cylinder other end is connected with the connecting rod, the connecting rod other end is connected with gear A, gear A and gear B mesh, gear A and gear B pass through bearing and transmission shaft and connect on a supporting seat, gear A upper end fixedly connected with sideboard A, gear B upper end fixedly connected with sideboard B, baffle A and baffle B are L form", wherein the telescoping cylinder drives the connecting rod swing during the motion, gear A and gear B rotate thereupon, sideboard A and sideboard B also swing simultaneously, sideboard A and sideboard B do the motion of opposite direction, make detection kit only have an outflow detection belt line at every turn, prevent the omission, the accuracy of detecting automation has been increased;

2. the utility model discloses a "storage subassembly includes the base," the storage tank is provided with above the base, the storage tank is discoid, its inside is provided with the heliciform baffle, make the disc inside divide into a heliciform passageway ", when the detection kit detects the back and continues to enter the storage subassembly, because its structure of spiral commentaries on classics passageway, make the length of storage subassembly reduce, prevent the whole detection line device line body overlength and difficult problem of putting;

3. the utility model discloses a set up "detect reagent box upper portion and be a minor diameter cylinder, the lower part is a minor diameter cylinder", because the cylinder diameter differs about the detect reagent box for change two adjacent detect reagent boxes and part when feeding the subassembly and block, prevent that two adjacent detect reagent boxes from hugging closely and making a back detect reagent box leak to examine and leave the detection belt line.

4. The utility model discloses a set up "detection belt line, be provided with on the detection belt line and feed subassembly and determine module, detection belt line front end is connected with stores up a position belt line, detection belt line rear end is connected with storage assembly, detection belt line, be provided with a plurality of detect reagent boxes in storage position belt line and the storage assembly, it is used for storing the detect reagent box that does not detect to store up a position belt line, detect the belt line, feed subassembly and determine module and be used for carrying out automated inspection, storage assembly is used for storing the detect reagent box that has detected, above spare part can realize carrying out full automation's detection to a large amount of detect reagent boxes through the cooperation, the automation and the intellectuality of detection have been realized.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the structure of the feeding assembly on the shaft side of the present invention.

Fig. 3 is a schematic view of the bottom axial side structure of the feeding assembly of the present invention.

Fig. 4 is a schematic view of the structure of the belt line of the present invention.

Fig. 5 is a schematic structural diagram of the detecting assembly of the present invention.

Fig. 6 is a schematic view of the structure of the storage belt line of the present invention.

Fig. 7 is a schematic front view of the storage assembly structure of the present invention.

Fig. 8 is a schematic top view of the storage module according to the present invention.

The reference signs are: 1. detecting a belt line; 2. a feeding assembly; 3. a detection component; 4. storing the belt line; 5. a storage assembly; 6. a detection kit; 11. a bracket A; 12. a motor A; 13. a roller A; 14. a belt A; 15. a baffle A; 21. a telescopic cylinder; 22. a connecting rod; 23. a gear A; 24. a gear B; 25. a sideboard A; 26. a sideboard B; 31. a laser transmitter; 32. a light sensor; 41. a bracket B; 42. a motor B; 43. a roller B; 44. a belt B; 45. a baffle B; 51. a base; 52. a storage tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The finished product detection device of the D-dimer detection kit shown in the figures 1, 2 and 3 comprises a detection belt line 1, wherein a feeding assembly 2 and a detection assembly 3 are arranged on the detection belt line 1, the front end of the detection belt line 1 is connected with a storage belt line 4, the rear end of the detection belt line 1 is connected with a storage assembly 5, a plurality of detection kits 6 are arranged in the detection belt line 1, the storage belt line 4 and the storage assembly 5, the feeding assembly 2 comprises a telescopic cylinder 21, the telescopic cylinder 21 is hinged with a support and is arranged at the bottom of the detection belt line 1 through the support, the other end of the telescopic cylinder 21 is connected with a connecting rod 22, the other end of the connecting rod 22 is connected with a gear A23, a gear A23 is meshed with a gear B24, the gear A23 and a gear B24 are connected onto a support through a bearing and a transmission shaft, the upper end of the gear A23 is fixedly connected with a baffle A25, the upper, the baffle A25 and the baffle B26 are L-shaped, the upper part of the detection kit 6 is a small-diameter cylinder, and the lower part of the detection kit is a small-diameter cylinder; the detection kit 6 which is not detected is stored through the storage belt line 4, the detection belt line 1, the feeding component 2 and the detection component 3 are used for carrying out automatic detection, the storage component 5 is used for storing the detection kit 6 which is detected, so that full-automatic detection on a large number of detection kits 6 can be realized, in the feeding component, when the telescopic cylinder 21 extends out, the baffle A25 rotates anticlockwise through the transmission of the connecting rod 22, the gear A23 and the gear B24 so as to block the detection kit 6, the baffle B26 rotates clockwise so as to release the detection kit 6, when the telescopic cylinder 21 contracts, the baffle A25 rotates clockwise so as to release the detection kit 6, the baffle B26 rotates anticlockwise so as to block the detection kit 6, the detection belt line 1 keeps running in the process, one detection kit 6 which is detected is released through one extending and contracting working flow of the telescopic cylinder 21, the subsequent test kit 6 is blocked by the blocking plate A25 and then the blocking plate B26, thereby preventing the occurrence of missed test.

According to the finished product detection device of the D-dimer detection kit shown in FIG. 4, the detection belt line 1 comprises a bracket A11, a motor A12 is arranged on the bracket A11, a pair of rollers A13 are arranged on the bracket A11, a belt A14 is arranged on the roller A13, baffles A15 are arranged on two sides of the belt A14, and a feeding assembly 2 and a detection assembly 3 are further arranged on the bracket A11; the motor A12 rotates to drive the roller A13 to rotate, and further drives the belt A14 to run, so that the detection kit 6 on the belt A14 can move along with the belt A13, and the function of moving the detection kit 6 is achieved.

According to the finished product detecting apparatus of a D-dimer detecting kit shown in FIG. 5, the detecting unit 3 comprises a laser emitter 31 and a photo sensor 32, which are installed on both sides of a belt A14, respectively; laser light emitted by the laser emitter 31 penetrates through the detection kit 6, part of the laser light is absorbed by a D-dimer in the detection kit 6, and part of the laser light penetrates through the D-dimer and irradiates the light sensor 32, and the light intensity received by the light sensor 32 is used for judging whether the D-dimer reaches the detection standard, so that the detection kit 6 is used.

According to the finished product detection device of the D-dimer detection kit shown in FIG. 6, the storage belt line 4 comprises a bracket B41, a motor B42 is arranged on the bracket B41, a pair of rollers B43 are arranged on the bracket B41, a belt B44 is arranged on the roller B43, and baffles B45 are arranged on two sides of the belt B44; the motor B42 rotates to drive the roller B43 to rotate, and further drives the belt B44 to run, so that the detection reagent kit 6 on the belt B44 can move along with the roller, and the functions of storing and moving the detection reagent kit 6 are achieved.

According to the finished product detecting device of the D-dimer detecting kit shown in fig. 7 and 8, the storage component 5 comprises a base 51, a storage tank 52 is arranged above the base 51, the storage tank 52 is disc-shaped, and a spiral baffle is arranged in the storage tank 52, so that the interior of the disc is divided into a spiral channel; when the detection kit 6 enters the storage component 5, the detection kit 6 is pushed by the rear detection kit 6 to move along the spiral channel of the storage tank 52 and be stored in the storage component 5 in a spiral manner, so that the effect of storing the detection kit 6 after detection is achieved.

The utility model discloses the theory of operation:

with reference to the accompanying drawings 1, 2 and 3: when the device is used, the storage belt line 4 is used for storing undetected detection kits 6, the detection belt line 1, the feeding component 2 and the detection component 3 are used for carrying out automatic detection, the storage component 5 is used for storing detected detection kits 6, so that full-automatic detection on a large number of detection kits 6 can be realized, in the feeding component, when the telescopic cylinder 21 extends out, the baffle A25 rotates anticlockwise through the transmission of the connecting rod 22, the gear A23 and the gear B24 so as to block the detection kits 6, the baffle B26 rotates clockwise so as to release the detection kits 6, when the telescopic cylinder 21 contracts, the baffle A25 rotates clockwise so as to release the detection kits 6, the baffle B26 rotates anticlockwise so as to block the detection kits 6, the detection belt line 1 keeps running in the process, one detection kit 6 which is detected is completely released through one extending and contracting working flow of the telescopic cylinder 21, the subsequent detection kit 6 is firstly blocked by the baffle A25 and then blocked by the baffle B26, so that the condition of missed detection is prevented;

referring to the description of figure 4: when the detection kit 6 is placed on the detection belt line 1, the motor A12 rotates to drive the roller A13 to rotate, and further drive the belt A14 to run, so that the detection kit 6 on the belt A14 can move along with the belt A14, and the effect of moving the detection kit 6 is achieved;

referring to the description of figure 5: when the detection kit 6 passes by, the laser emitter 31 generates laser which penetrates through the detection kit 6, part of the laser is absorbed by the D-dimer in the detection kit 6, and part of the laser penetrates through the D-dimer and irradiates the light sensor 32, and the light intensity received by the light sensor 32 is used for judging whether the D-dimer reaches the detection standard, so that the detection kit 6 is played;

referring to the description of figure 6: when the detection kit 6 is placed on the storage belt line 4, the motor B42 rotates to drive the roller B43 to rotate, and further drive the belt B44 to run, so that the detection kit 6 on the belt B44 can move along with the rotation, and the functions of storing and moving the detection kit 6 are achieved;

referring to the description figures 7 and 8: when the detection kit 6 enters the storage component 5 after the detection is finished, the detection kit 6 is pushed by the rear detection kit 6 to move along the spiral channel of the storage groove 52 and is stored in the storage component 5 in a spiral manner, so that the effect of storing the detection kit 6 after the detection is finished is achieved.

The points to be finally explained are: first, in the description of the present application, it should be noted that, unless otherwise specified and limited, the terms "mounted," "connected," and "connected" should be understood broadly, and may be a mechanical connection or an electrical connection, or a communication between two elements, and may be a direct connection, and "upper," "lower," "left," and "right" are only used to indicate a relative positional relationship, and when the absolute position of the object to be described is changed, the relative positional relationship may be changed;

secondly, the method comprises the following steps: in the drawings of the disclosed embodiments of the present invention, only the structures related to the disclosed embodiments are referred to, and other structures can refer to the common design, and under the condition of no conflict, the same embodiment and different embodiments of the present invention can be combined with each other;

and finally: the above description is only for the preferred embodiment of the present invention and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a finished product detection device of D-dimer detect reagent box, includes detection belt line (1), its characterized in that: the detection belt line is characterized in that a feeding assembly (2) and a detection assembly (3) are arranged on the detection belt line (1), the front end of the detection belt line (1) is connected with a position storage belt line (4), the rear end of the detection belt line (1) is connected with a storage assembly (5), a plurality of detection kits (6) are arranged in the detection belt line (1), the position storage belt line (4) and the storage assembly (5), the feeding assembly (2) comprises a telescopic cylinder (21), the telescopic cylinder (21) is hinged with a support and is arranged at the bottom of the detection belt line (1) through the support, the other end of the telescopic cylinder (21) is connected with a connecting rod (22), the other end of the connecting rod (22) is connected with a gear A (23), the gear A (23) is meshed with a gear B (24), and the gear A (23) and the gear B (24) are connected onto a support through a bearing and a, the upper end of the gear A (23) is fixedly connected with a baffle plate A (25), the upper end of the gear B (24) is fixedly connected with a baffle plate B (26), and the baffle plate A (25) and the baffle plate B (26) are L-shaped.

2. The device for detecting the final product of a D-dimer detection kit according to claim 1, wherein: detect belt line (1) including support A (11), be provided with motor A (12) on support A (11), be provided with a pair of cylinder A (13) on support A (11), be provided with belt A (14) on cylinder A (13), belt A (14) both sides are provided with baffle A (15), still be provided with on support A (11) and feed subassembly (2) and determine module (3).

3. The finished product detecting device of the D-dimer detecting kit according to claim 1 or 2, wherein: the detection component (3) comprises a laser emitter (31) and a light sensor (32), which are respectively arranged on two sides of the belt A (14).

4. The device for detecting the final product of a D-dimer detection kit according to claim 1, wherein: store up position belt line (4) including support B (41), be provided with motor B (42) on support B (41), be provided with a pair of cylinder B (43) on support B (41), be provided with belt B (44) on cylinder B (43), belt B (44) both sides are provided with baffle B (45).

5. The device for detecting the final product of a D-dimer detection kit according to claim 1, wherein: the storage assembly (5) comprises a base (51), a storage tank (52) is arranged above the base (51), the storage tank (52) is disc-shaped, and a spiral baffle is arranged in the storage tank to enable the disc to be internally divided into a spiral channel.

6. The device for detecting the final product of a D-dimer detection kit according to claim 1, wherein: the upper part of the detection kit (6) is a small-diameter cylinder, and the lower part of the detection kit is a small-diameter cylinder.

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