CN210626334U - Assembly structure of full-automatic high-flux biochip detection platform - Google Patents

Abstract

The utility model discloses a general assembly structure of a full-automatic high-flux biochip detection platform, which comprises a computer detection and analysis unit (1) and a plurality of detection instruments and devices (5), wherein the general assembly structure is distributed according to an arc shape; the computer detection and analysis unit (1) is arranged in the middle of the arc; on both sides of the computer detection and analysis unit (1), the detection instrument and the device (5) are respectively arranged on the arc positions according to the sequence of detection operation. By adopting the technical scheme, through the design of the mounting structure of the detection instrument and the device, the detection operation is convenient, the observation is clear, the detection efficiency is improved, the normal operation of the detection is ensured, the detection efficiency and the automation degree of the biochip are improved, and the detection accuracy is improved.

Description

Assembly structure of full-automatic high-flux biochip detection platform

Technical Field

The utility model belongs to the technical field of medical science and biological detection. More specifically, the utility model relates to a full-automatic high flux biochip testing platform's assembly structure.

Background

The disease can cause the change of gene expression, mRNA samples in normal tissues and pathological tissues are hybridized on a gene chip at the same time, and differential expression genes are found out by comparing gene expression profiles, thereby providing important clues for the research of pathogenesis of the disease, and especially playing an important role in the research aspect of oncogenes.

The mapping of the working draft of the human genome has succeeded in transitioning the study of the genome from that of a structural genome to that of a functional genome. In many methods for analyzing and testing gene expression, microarray biochip combines PCR amplification technology, and uses such as laser scanning confocal microscope analysis and detection system to collect and process data of experimental results through labeled probe and molecular hybridization reaction, so as to quantitatively analyze gene expression.

However, to date, there is no final assembly structure that can be fully adapted to a fully automated, high throughput biochip assay platform, limiting the development and application of biochip assay platform technology.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic, high flux biochip testing platform's final assembly structure.

In order to realize the purpose, the utility model discloses the technical scheme who takes does:

the utility model discloses a general assembly structure of a full-automatic high-flux biochip detection platform, which comprises a computer detection and analysis unit, a plurality of detection instruments and devices, wherein the general assembly structure is distributed according to an arc shape; the computer detection and analysis unit is arranged in the middle of the arc; the detection instrument and the device are respectively arranged on the arc positions at two sides of the computer detection and analysis unit according to the sequence of detection operation.

The assembly structure is an installation base according to the arc shape, and the detection instrument and the device are connected with the installation base through the slot.

The structure of the plurality of slots for mounting the inspection instruments and the devices is the same.

Arranging an operator seat at the position of the center of the arc; the seat is a rotatable seat.

The front surfaces of the detection instrument and the detection device, namely the surfaces where the display and the chip socket are positioned, face the direction of the circle center of the arc.

The detection instrument and the device have the detection operation sequence in the clockwise direction.

The installation base is evenly distributed with a plurality of power sockets and signal wire connecting terminals.

The above technical scheme is adopted in the utility model, through the design of the mounting structure of detecting instrument and device for detect convenient operation, observe clearly, improve detection efficiency, guarantee the normal clear of detection, and then improved biochip detection efficiency and degree of automation, improved the accuracy of detection simultaneously.

Drawings

The contents of the drawings and the reference numbers in the drawings are briefly described as follows:

fig. 1 is a schematic structural diagram of the present invention.

Labeled as:

1. computer detection and analysis unit, 2, installation base, 3, slot, 4, operator seat, 5, detecting instrument and device.

Detailed Description

The following examples are provided to illustrate specific embodiments of the present invention in further detail to help those skilled in the art to understand the inventive concepts and technical solutions of the present invention more completely, accurately and deeply.

The utility model shown in figure 1 is an assembly structure of a full-automatic high-flux biochip detection platform. The detection instrument and the device 5 in the biochip detection platform comprise a biochip reaction reader, a chip hybridization instrument, a bar code reader, an incubator and a computer detection analysis unit; the biochip reaction reader, the chip hybridization instrument, the bar code reader and the incubator are all connected with the computer detection and analysis unit 1 through signal lines; the computer detection and analysis unit 1 processes and analyzes data.

In order to solve the problems existing in the prior art and overcome the defects thereof and realize the invention purpose of the general assembly structure of the biochip detection platform, the utility model adopts the technical scheme that:

the utility model discloses a general assembly structure of a full-automatic high-flux biochip detection platform, which comprises a computer detection and analysis unit 1, a plurality of detection instruments and devices 5, wherein the general assembly structure is distributed according to an arc shape; the computer detection and analysis unit 1 is arranged in the middle of the arc; on both sides of the computer detection and analysis unit 1, the detection instrument and the device 5 are respectively arranged on the arc positions according to the sequence of detection operation.

By adopting the technical scheme, through the design of the mounting structure of the detection instrument and the device, the detection operation is convenient, the observation is clear, the detection efficiency is improved, the normal operation of the detection is ensured, the detection efficiency and the automation degree of the biochip are improved, and the detection accuracy is improved.

The general assembly structure is the installation base 2 according to the arc shape, and the detection instrument and the device 5 are connected with the installation base 2 through the slot 3.

The plurality of slots 3 for mounting the inspection instruments and the devices 5 are all identical in structure. The assembly, disassembly and interchange of all the instrument devices are facilitated. The plurality of inspection instruments and apparatus 5 may be slightly different in human form but the mounting configuration should be uniform.

And an operator seat 4 is arranged at the position of the center of the arc. The seat 4 is a rotatable seat. The operator sits on the seat and has the same distance with each instrument device, so that the operation is very convenient.

The front surfaces of the detection instrument and the device 5, namely the surfaces where the display and the chip socket are located, face the direction of the circle center of the arc.

The sequence of the detection operation of the detection instrument and the device 5 is clockwise. This is the same habit as the average operator.

The installation base 2 is uniformly provided with a plurality of power sockets and signal wire connecting terminals.

The bar code reader identifies bar code information on the biological chip and the sample tube, and inputs the patient information and the biological chip information into the computer detection and analysis unit.

The chip hybridization instrument automatically finishes the processes of sample adding and hybridization, and every 4 chips are loaded on one chip strip; the chip hybridization instrument is provided with 4 chip grooves for adding different chip strips.

The incubator comprises a plate moving mechanical arm, a chip strip hybridization disc, a washing dyeing disc, a washing disc and an imaging disc.

The incubator finishes washing and dyeing work; the biochip is placed on a chip strip hybridization tray, and is transferred to a washing and dyeing tray and the washing and dyeing tray in sequence by a plate transfer mechanical arm according to a set program, and the reaction temperature and time are controlled by a computer detection and analysis unit 1.

The biochip reaction reader collects the fluorescence signals of the biochip, and the fluorescence signals collected by the biochip reaction reader are analyzed by software of the computer detection and analysis unit 1 to form a map and a detection report.

The above is an exemplary description of the present invention, and it is obvious that the present invention is not limited by the above-mentioned manner, as long as the present invention adopts various insubstantial improvements of the method concept and technical solution, or the present invention is directly applied to other occasions without improvement, all within the protection scope of the present invention.

Claims (7)

1. The utility model provides a full-automatic high flux biochip testing platform's final assembly structure, testing platform include computer detection and analysis unit (1) and a plurality of detecting instrument and device (5), its characterized in that: the assembly structures are distributed according to an arc shape; the computer detection and analysis unit (1) is arranged in the middle of the arc; on both sides of the computer detection and analysis unit (1), the detection instrument and the device (5) are respectively arranged on the arc positions according to the sequence of detection operation.

2. The assembly structure of the full-automatic high-throughput biochip assay platform according to claim 1, wherein: the general assembly structure is an installation base (2) according to the arc shape, and the detection instrument and the device (5) are connected with the installation base (2) through the slot (3).

3. The assembly structure of the full-automatic high-throughput biochip assay platform according to claim 2, wherein: the plurality of slots (3) for mounting the inspection instruments and the devices (5) are all identical in structure.

4. The assembly structure of the fully automatic high-throughput biochip assay platform according to claim 1 or 2 or 3, wherein: an operator seat (4) is arranged at the position of the center of the arc; the seat (4) is a rotatable seat.

5. The assembly structure of the full-automatic high-throughput biochip detection platform according to claim 4, wherein: the front surfaces of the detection instrument and the detection device (5), namely the surfaces where the display and the chip socket are located, face the direction of the circle center of the arc.

6. The assembly structure of the full-automatic high-throughput biochip detection platform according to claim 4, wherein: the detection instrument and the device (5) have the detection operation sequence in the clockwise direction.

7. The assembly structure of the full-automatic high-throughput biochip assay platform according to claim 2, wherein: the mounting base (2) is uniformly provided with a plurality of power sockets and signal wire connecting terminals.

Images