CN215931919U - Sample frame caching, conveying and information acquisition device - Google Patents

Sample frame caching, conveying and information acquisition device Download PDF

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Publication number
CN215931919U
CN215931919U CN202122425071.4U CN202122425071U CN215931919U CN 215931919 U CN215931919 U CN 215931919U CN 202122425071 U CN202122425071 U CN 202122425071U CN 215931919 U CN215931919 U CN 215931919U
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sample
sample rack
push handle
conveying
assembly
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荆轮子
赵鹏
安道奇
李慧超
刘利军
常文博
聂晶晶
王超
刘聪
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Autobio Labtec Instruments Zhengzhou Co Ltd
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Autobio Labtec Instruments Zhengzhou Co Ltd
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Abstract

The utility model discloses a sample rack caching, transmitting and information collecting device which comprises a substrate, wherein the substrate is provided with a caching transmission disc rotationally connected with the substrate, a transmission disc driving assembly for driving the caching transmission disc to rotate, a sampling guide rail, a push handle slidably connected with the sampling guide rail, a push handle transmitting assembly and an information collecting assembly for collecting sample rack bar code information, and the information collecting assembly is arranged on one side of the push handle transmitting assembly; the buffer transmission disc comprises a plurality of sample frame grooves for containing sample frames, a separation plate for separating two adjacent sample frame grooves and at least one push handle avoiding groove, the push handle avoiding groove is arranged on the bottom surface of the separation plate, and the push handle avoiding groove is communicated with the sample frame grooves; when the push handle slides to one end of the sampling guide rail close to the cache transfer disc and the sample frame groove rotates to be right above the push handle, the push handle is in clamping fit with the T-shaped connecting groove of the sample frame; therefore, the two-axis conveying of the sample rack is realized, the structure is simple and compact, the functions of the equipment are concentrated, and the space is saved.

Description

Sample frame caching, conveying and information acquisition device
Technical Field
The utility model relates to the technical field of in-vitro diagnostic equipment, in particular to a sample rack caching, transmitting and information collecting device.
Background
In the in vitro diagnosis process, in order to realize multi-channel detection, the sample rack needs to be cached, transmitted and read sample information.
In the existing in-vitro diagnosis equipment, the sample rack is conveyed through a three-axis conveying structure, so that the motion interference is avoided, the information acquisition assembly of the sample rack is separated from the conveying structure, the equipment structure is complex, the manufacturing cost is high, the equipment function is not concentrated, and the occupied space is large.
In summary, how to simplify and integrate the buffering, transmission and information acquisition structures of the sample rack is a problem to be solved urgently by those skilled in the art.
SUMMERY OF THE UTILITY MODEL
In view of this, the present invention provides a sample rack caching, transferring and information collecting apparatus, which realizes two-axis transfer of sample racks, centralizes functions of devices, and saves space.
In order to achieve the above purpose, the utility model provides the following technical scheme:
a sample rack caching, conveying and information collecting device comprises a substrate, wherein the substrate is provided with a caching conveying disc rotationally connected with the substrate, a conveying disc driving assembly driving the caching conveying disc to rotate, a sampling guide rail, a pushing handle slidably connected with the sampling guide rail, a pushing handle conveying assembly and an information collecting assembly used for collecting sample rack bar code information, and the information collecting assembly is arranged on one side of the pushing handle conveying assembly;
the buffer memory conveying disc comprises a plurality of sample frame grooves for containing sample frames, a separation plate for separating two adjacent sample frame grooves and at least one push handle avoiding groove, the push handle avoiding groove is formed in the bottom surface of the separation plate, and the push handle avoiding groove is communicated with the sample frame grooves;
when the pushing handle transmission assembly slides to the position that the sampling guide rail is close to one end of the cache transmission disc and the sample frame groove rotates to the position right above the pushing handle, the pushing handle is in clamping fit with the T-shaped connecting groove of the sample frame.
Preferably, the bottom surface of the partition plate is provided with an arc-shaped communication groove, and the arc-shaped communication groove is used for communicating the push handle avoiding groove with the sample frame grooves and two adjacent sample frame grooves;
the distance from the arc-shaped communication groove to the rotating shaft of the cache conveying disc is the same as the distance from the T-shaped connecting groove of the sample rack to the rotating shaft.
Preferably, the sample rack slots are evenly distributed in the circumferential direction of the buffer transfer disk.
Preferably, the bottom surface of each partition plate is provided with the pushing handle avoiding grooves, and the pushing handle avoiding grooves are uniformly distributed in the circumferential direction of the cache transfer disk.
Preferably, the push handle avoiding groove is positioned on a symmetry axis of the partition plate.
Preferably, the transmission disc driving assembly comprises a first driving motor, a transmission shaft for driving the buffer transmission disc and a first synchronous belt assembly, the driving wheel of the first synchronous belt assembly is sleeved on the output shaft of the first driving motor, and the driven wheel of the first synchronous belt assembly is sleeved on the transmission shaft.
Preferably, the push handle conveying assembly comprises a second driving motor and a second synchronous belt assembly connected with the push handle, and the second synchronous belt assembly is connected with the second driving motor.
Preferably, the second synchronous belt assembly comprises a first synchronous belt pulley, a second synchronous belt pulley, a third synchronous belt pulley and a second synchronous belt, and the first synchronous belt pulley is sleeved on an output shaft of the second driving motor;
the second hold-in range is not around warp one side of first synchronous pulley with the sample guide rail is parallel, the pushing hands connect in the second hold-in range is not around warp one side of first synchronous pulley.
Preferably, the information acquisition assembly comprises a sample rack presence detection sensor for detecting whether a sample rack exists on the sampling guide rail, a judgment sensor for detecting and judging the type of the sample tube and a bar code scanner for scanning bar code information, the judgment sensor comprises a high cup judgment sensor and a low cup judgment sensor, and the sample rack presence detection sensor is in signal connection with the bar code scanner.
When the sample rack caching, transmitting and information collecting device works, an operator puts each sample rack into the caching transmission disc, a push handle slides to the sampling end under the action of a push handle transmission assembly, the push handle moves to the sampling end of the sampling guide rail through a push handle avoiding groove or an empty sample rack groove on the caching transmission disc, the transmission disc driving assembly drives the caching transmission disc to rotate so that the sample rack rotates to the position above the push handle, and a T-shaped connecting groove of the sample rack is clamped with the push handle; the pushing handle conveying assembly drives the pushing handle and the sample rack to be far away from the sampling end, and the information acquisition assembly scans and records the bar code information of the sample rack; then, the application of sample is to the sample frame that needs to carry out the edit test and is taken a sample, and the sample frame that accomplishes the sample and the sample frame that need not to carry out the edit test then are driven by the pushing hands and are returned the buffer memory and convey the dish and keep in, take away until by operating personnel.
Therefore, the sample rack caching, conveying and information collecting device provided by the utility model realizes two-axis conveying of the sample rack through the caching conveying disc and the pushing hands, and has a simple and compact structure compared with three-axis conveying in the prior art; the information acquisition assembly is arranged on the side face of the sampling guide rail, so that the functions of the equipment are concentrated and the space is saved.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.
FIG. 1 is a schematic diagram of a sample rack buffering and transferring structure according to an embodiment of the present invention;
FIG. 2 is a schematic cross-sectional view of FIG. 1 in a front elevation direction;
FIG. 3 is a schematic view of the pusher carriage assembly of FIG. 1;
FIG. 4 is a schematic diagram of the information acquisition assembly of FIG. 1;
FIG. 5 is a schematic view of the assembly of the pusher and the buffer transfer plate;
fig. 6 is a schematic view of the assembly of the pusher and the sample holder.
In fig. 1-6:
01 is a sample holder, 1 is a base plate, 2 is a buffer transmission disc, 21 is a sample holder groove, 22 is a partition plate, 23 is a push plate avoiding groove, 31 is a transmission shaft, 32 is a first synchronous belt component, 4 is a push handle, 5 is a push handle transmission component, 51 is a first synchronous belt wheel, 52 is a second synchronous belt wheel, 53 is a third synchronous belt wheel, 54 is a second synchronous belt, 6 is a sampling guide rail, 71 is a sample holder existence detection sensor, 72 is a high cup judgment sensor, 73 is a low cup judgment sensor, and 74 is a bar code scanner.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The core of the utility model is to provide a sample rack caching, transmitting and information collecting device, which realizes the two-axis transmission of the sample rack, concentrates the functions of equipment and saves space.
Please refer to fig. 1-6.
The utility model provides a sample rack caching, transmitting and information collecting device which comprises a substrate 1, wherein the substrate 1 is provided with a caching transmission disc 2 rotationally connected with the substrate 1, a transmission disc driving assembly for driving the caching transmission disc 2 to rotate, a sampling guide rail 6, a push handle 4 slidably connected with the sampling guide rail 6, a push handle transmitting assembly 5 and an information collecting assembly for collecting bar code information of a sample rack 01, and the information collecting assembly is arranged on one side of the push handle transmitting assembly 5; the buffer transmission disc 2 comprises a plurality of sample frame grooves 21 for holding the sample frames 01, a separation plate 22 for separating two adjacent sample frame grooves 21 and at least one push handle avoiding groove 23, the push handle avoiding groove 23 is arranged on the bottom surface of the separation plate 22, and the push handle avoiding groove 23 is communicated with the sample frame grooves 21; when the pushing handle 4 slides to one end of the sampling guide rail 6 close to the cache transfer disc 2 and the sample frame groove 21 rotates to the position right above the pushing handle 4, the pushing handle 5 is in clamping fit with the T-shaped connecting groove of the sample frame 01.
Referring to fig. 1 and 2, the buffer transfer plate 2 buffers the sample rack 01 containing the sample tube and drives the sample rack 01 to rotate around the axis of the buffer transfer plate 2, so as to change the angle of the sample rack 01 relative to the sampling guide rail 6; the sampling guide rail 6 is a sliding track of the push handle 4, and the sampling guide rail 6 is arranged in the working area of the sampling needle, so that the sampling needle can sample the sample rack 01 on the sampling guide rail 6; with the one end that sample guide rail 6 is close to buffer memory transfer dish 2 as the sample end, push handle 4 can slide along sample guide rail 6, and when push handle 4 moved to the sample end of sample guide rail 6, push handle 4 and sample frame 01's T type spread groove joint cooperation to push handle 4 drives sample frame 01 and slides along sample slide rail 6.
The buffer conveying disc 2 is internally provided with a plurality of sample frame grooves 21 for accommodating the sample frames 01, the inner diameters of the sample frame grooves 21 are determined according to the outer diameters of the sample frames 01, and the number of the sample frame grooves 21 is determined according to the maximum detection channel number of the equipment in actual production and other factors.
Preferably, the sample rack slots 21 are evenly distributed in the circumferential direction of the buffer carousel 2.
The partition plate 22 is used for separating two adjacent sample rack grooves 21, in order to avoid that the push handle 4 cannot move to the sampling end of the sampling guide rail 6 as shown in fig. 5 when the sample rack grooves 21 in the buffer transmission disc 2 are fully full, a push handle avoiding groove 23 communicated with the sample rack grooves 21 is arranged below the partition plate 22, so that the push handle 4 can slide to the sampling end through the push handle avoiding groove 23, and then the buffer transmission disc 2 is controlled to rotate, so that the sample rack 01 to be grabbed is arranged above the push handle 4.
It should be noted that the pushing handle avoiding groove 23 may be a limiting groove disposed on the bottom surface of the partition plate 22 as shown in fig. 5; the bottom height of the partition plate 22 may be lower than the bottom height of the sample rack groove 21, and the specific shape and size are not limited as long as the requirement that the push handle can move along the push handle avoiding groove 23 to the sampling end and the sample rack groove 21 can be satisfied.
In order to simplify the structure of the buffer transfer disk 2, preferably, the bottom surface of the partition plate 22 is provided with an arc-shaped communication groove for communicating the push handle avoiding groove 23 with the sample rack groove 21 and two adjacent sample rack grooves 21; the distance from the arc-shaped communication groove to the rotating shaft of the buffer conveying disc 2 is the same as the distance from the T-shaped connecting groove of the sample rack 01 to the rotating shaft.
When the sampling device works, an operator puts each sample rack 01 into the cache transfer disc 2, the push handle 4 slides towards the sampling end under the action of the push handle transfer component 5, the push handle 4 moves to the sampling end of the sampling guide rail 6 through the push handle avoiding groove 23 or the vacant sample rack groove 21 on the cache transfer disc 2, the transfer disc driving component drives the cache transfer disc 2 to rotate so that the sample rack 01 rotates to the position above the push handle 4, and the T-shaped connecting groove of the sample rack 01 is clamped with the push handle 4; the pushing handle conveying assembly 5 drives the pushing handle 4 and the sample rack 01 to be far away from the sampling end, and the information acquisition assembly scans and records the bar code information of the sample rack 01; then, the application of sample is to the sample frame 01 that needs to carry out the edit test and is taken a sample, and the sample frame 01 that accomplishes the sample and the sample frame 01 that need not to carry out the edit test then drive by the pushing hands and return cache transfer dish 2 and keep in, take away until by operating personnel.
Therefore, the sample rack caching, conveying and information collecting device provided by the embodiment realizes two-axis conveying of the sample rack through the caching conveying disc 2 and the pushing handle 4, and compared with three-axis conveying in the prior art, the sample rack caching, conveying and information collecting device is simple and compact in structure; the information acquisition assembly is arranged on the side surface of the sampling guide rail 6, so that the functions of the equipment are concentrated and the space is saved.
Preferably, the bottom surface of each partition plate 22 is provided with a push handle avoiding groove 23, and the push handle avoiding grooves 23 are uniformly distributed in the circumferential direction of the buffer transfer disk 2, so as to reduce the time required for matching the sample rack 01 with the push handle 4.
Preferably, the push handle avoiding groove 23 is located on the symmetry axis of the partition plate 22.
On the basis of the above embodiment, the structure of the transmission disk driving assembly is limited, the transmission disk driving assembly includes a first driving motor, a transmission shaft 31 for driving the buffer transmission disk 2, and a first synchronous belt assembly 32, the driving wheel of the first synchronous belt assembly 32 is sleeved on the output shaft of the first driving motor, and the driven wheel of the first synchronous belt assembly 32 is sleeved on the transmission shaft 31.
The type and power of the first driving motor, the shape, size and material of the transmission shaft 31, the type, size and connection mode of the first synchronous belt assembly 32, etc. are determined according to the prior art in actual production, and are not described herein again.
When the first driving motor rotates, the driving wheel of the first synchronous belt assembly 32 is driven to rotate, so as to drive the first synchronous belt to rotate, the driven wheel of the first synchronous belt assembly 32 drives the transmission shaft 31 to rotate, and the buffer memory transmission disc 2 rotates around the transmission shaft 31 as the buffer memory transmission disc 2 is sleeved on the transmission shaft 31.
Of course, the first timing belt assembly 32 may be eliminated, and the transmission shaft 31 may be directly driven by a motor; or the first timing belt assembly 32 may be replaced with another transmission assembly such as a gear.
On the basis of the above-described embodiment, the structure of the pusher transport assembly 5 is further defined, and the pusher transport assembly 5 includes a second driving motor and a second timing belt assembly connected to the pusher 4, the second timing belt assembly being connected to the second driving motor.
Preferably, referring to fig. 3, in order to make the transmission assembly compact, the second timing belt assembly includes a first timing pulley 51, a second timing pulley 52, a third timing pulley 53 and a second timing belt 54, the first timing pulley 51 is sleeved on the output shaft of the second driving motor; the second timing belt 54 is not wound around the first timing pulley 41 and is parallel to the sampling rail 6, and the pusher 4 is connected to the second timing belt 54 not wound around the first timing pulley 51.
The second synchronous belt wheels 52 are mostly arranged at two ends of the sampling guide rail 6, and the connection line of the circle centers of the two second synchronous belt wheels 52 is parallel to the sampling guide rail 6; in order to avoid an excessively large opening angle of the second timing belt 54 and the second timing pulley 52 in consideration of a long length of the sampling rail 6, a third timing pulley 53 is provided between the first timing pulley 51 and the second timing pulley 52.
When the second driving motor rotates, the first synchronous pulley 51 and the second synchronous belt 54 are driven to rotate, and the pushing handle 4 connected with the second synchronous belt 54 is driven to slide along the sampling guide rail 6 in the same direction.
On the basis of the above embodiment, the information collection assembly includes the sample rack presence detection sensor 71 for detecting whether the sample rack 01 is present on the sampling rail 6, the judgment sensor for detecting and judging the type of the sample tube, and the barcode scanner 74 for scanning barcode information, and the judgment sensor includes the high cup judgment sensor 72 and the low cup judgment sensor 73.
During information collection, the sample rack existence detection sensor 71 is used for judging whether the sample rack 01 to be detected exists on the sampling guide rail 6, the high cup judgment sensor 72 and the low cup judgment sensor 73 are used for jointly detecting and judging the type of the sample tube, and the bar code scanner 74 is used for scanning bar code information on the surface of the sample rack 01.
It should be noted that the high cup judgment sensor 72, the low cup judgment sensor 73 and the barcode scanner 74 may all be kept in a normally open state, or the sample rack presence detection sensor 71 may control the on/off of the three, that is, the three are all in signal connection with the sample rack presence detection sensor 71, and when the sample rack presence detection sensor 71 detects the sample rack 01, the three are turned on to operate.
The types, signals, connection modes, and the like of the specimen rack presence detection sensor 71, the high cup judgment sensor 72, the low cup judgment sensor 73, and the barcode scanner 74 are determined according to actual detection needs with reference to the prior art, and are not described herein again.
It should be noted that the first, second and third of the first and second driving motors, the first and second timing belt assemblies 32 and 32, the first, second and third timing pulleys 51, 52 and 53, and the first and second timing belts 54 mentioned in this document are only used to distinguish the difference of the positions, and do not limit the sequence.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.
The sample rack caching, transmitting and information collecting device provided by the utility model is described in detail above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that, for those skilled in the art, it is possible to make various improvements and modifications to the present invention without departing from the principle of the present invention, and those improvements and modifications also fall within the scope of the claims of the present invention.

Claims (9)

1. The sample rack caching, conveying and information collecting device is characterized by comprising a substrate (1), wherein the substrate (1) is provided with a caching conveying disc (2) rotatably connected with the substrate (1), a conveying disc driving assembly driving the caching conveying disc (2) to rotate, a sampling guide rail (6), a push handle (4) slidably connected with the sampling guide rail (6), a push handle conveying assembly (5) and an information collecting assembly used for collecting bar code information of a sample rack (01), and the information collecting assembly is arranged on one side of the push handle conveying assembly (5);
the buffer transmission disc (2) comprises a plurality of sample frame grooves (21) for accommodating sample frames (01), a separation plate (22) for separating two adjacent sample frame grooves (21) and at least one pushing handle avoiding groove (23), the pushing handle avoiding groove (23) is arranged on the bottom surface of the separation plate (22), and the pushing handle avoiding groove (23) is communicated with the sample frame grooves (21);
when pushing hands (4) slide to sample guide rail (6) are close to the one end of buffer memory transfer dish (2) just sample frame groove (21) rotate extremely when pushing hands (4) are directly over, pushing hands (4) with the cooperation of T type spread groove joint of sample frame (01).
2. The sample rack caching, conveying and information collecting device according to claim 1, wherein an arc-shaped communication groove is formed in the bottom surface of the partition plate (22) and is used for communicating the push handle avoiding groove (23) with the sample rack groove (21) and two adjacent sample rack grooves (21);
the distance from the arc-shaped communication groove to the rotating shaft of the cache transfer disc (2) is the same as the distance from the T-shaped connecting groove of the sample rack (01) to the rotating shaft.
3. Sample rack buffering, transporting and information collecting device according to claim 2, characterized in that the sample rack slots (21) are evenly distributed in the circumferential direction of the buffer carousel (2).
4. The sample rack buffering, conveying and information collecting device according to claim 3, wherein the bottom surface of each partition plate (22) is provided with the push handle avoiding grooves (23), and the push handle avoiding grooves (23) are uniformly distributed in the circumferential direction of the buffer conveying disc (2).
5. The sample rack buffering, conveying and information collecting device according to claim 4, wherein the push handle avoiding groove (23) is located on the symmetry axis of the partition plate (22).
6. The sample rack buffering, conveying and information collecting device according to any one of claims 1 to 5, wherein the conveying disc driving assembly comprises a first driving motor, a transmission shaft (31) for driving the buffering conveying disc (2), and a first synchronous belt assembly (32), wherein a driving wheel of the first synchronous belt assembly (32) is sleeved on an output shaft of the first driving motor, and a driven wheel of the first synchronous belt assembly (32) is sleeved on the transmission shaft (31).
7. The specimen rack buffering, conveying and information collecting device according to any of claims 1 to 5, characterized in that the pusher conveyor assembly (5) comprises a second drive motor and a second timing belt assembly connected to the pusher (4), the second timing belt assembly being connected to the second drive motor.
8. The sample rack buffering, conveying and information collecting device according to claim 7, wherein the second synchronous belt assembly comprises a first synchronous pulley (51), a second synchronous pulley (52), a third synchronous pulley (53) and a second synchronous belt (54), the first synchronous pulley (51) is sleeved on the output shaft of the second driving motor;
the second synchronous belt (54) does not wind through one side of the first synchronous belt wheel (51) and is parallel to the sampling guide rail (6), and the pushing handle (4) is connected to one side of the second synchronous belt (54) which does not wind through the first synchronous belt wheel (51).
9. The sample rack buffering, conveying and information collecting device according to any one of claims 1-5, wherein the information collecting assembly comprises a sample rack presence detecting sensor (71) for detecting whether a sample rack (01) is present on the sampling rail (6), a judging sensor for detecting and judging the type of sample tube, and a barcode scanner (74) for scanning barcode information, and the judging sensor comprises a high cup judging sensor (72) and a low cup judging sensor (73).
CN202122425071.4U 2021-10-08 2021-10-08 Sample frame caching, conveying and information acquisition device Active CN215931919U (en)

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CN202122425071.4U CN215931919U (en) 2021-10-08 2021-10-08 Sample frame caching, conveying and information acquisition device

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113917170A (en) * 2021-10-08 2022-01-11 安图实验仪器(郑州)有限公司 Sample frame caching, conveying and information acquisition device

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113917170A (en) * 2021-10-08 2022-01-11 安图实验仪器(郑州)有限公司 Sample frame caching, conveying and information acquisition device
CN113917170B (en) * 2021-10-08 2024-09-06 安图实验仪器(郑州)有限公司 Sample frame buffering, conveying and information acquisition device

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