CN205003155U - Gene detection device - Google Patents

Abstract

The utility model discloses a gene detection device, wherein, it is including loading the objective table that has a plurality of biochip, and the symmetry sets up the supporting shoe of objective table both sides, it sets up two to slide respectively first crossbeam on the supporting shoe, second crossbeam set up respectively biochip detection module was equipped with to on first crossbeam, the second crossbeam and bottom first detection platform, second detect the platform, and are used for the drive first crossbeam, second crossbeam are in a gliding actuating mechanism on the supporting shoe. Being provided with two crossbeams on the supporting shoe, setting up the detection platform that is equipped with biochip detection module on two crossbeams, the crossbeam can remove on the supporting shoe simultaneously, and its detection efficiency improves widely, adopt its functioning speed of linear guide of magnetcisuspension floating fast, response speed is fast, the precision is high, during the use not with the supporting shoe friction, the long -term use can not produce the accumulated error yet to noiselessness, loss are little, have reduced maintenance work volume and running cost.

Description

Gene assaying device

Technical field

The utility model relates to field of medical device, particularly relates to a kind of gene assaying device.

Background technology

Theca cell or other histocytes, after its gene information that increases, by particular device, the DNA molecular information in detected person's cell is detected, the risk that precognition health suffers from the disease, analyze the various genetic profile contained by it, thus make people can understand the gene information of oneself, thus by improving oneself living environment and habits and customs, avoid or delay the generation of disease.The gene assaying device of existing robotization the drive system in control X, Y, Z tri-directions can control moving freely of all directions by a set of, its by being equipped with the objective table of biochip, guide rail, driving mechanism three parts form, respective driven by motor screw mandrel drives along all directions, the carrying out of this structure is used to detect the demand that can't meet and detect fast now, have again, after long-time use, its cumulative errors can be come greatly, not easily to adjust.

Therefore, prior art awaits development and improvement.

Utility model content

The purpose of this utility model is to overcome the deficiency in above-mentioned prior art, provides a kind of gene assaying device.

The technical scheme that the utility model solution prior art problem adopts is: a kind of gene assaying device, wherein, it comprises the objective table being mounted with multiple biochip, be symmetricly set on the back-up block of described objective table both sides, be slidably arranged in the first crossbeam on two described back-up blocks, second cross beam respectively, be separately positioned on the first monitor station, the second monitor station that biochip test module is equipped with on described first crossbeam, second cross beam and bottom, and the first driving mechanism for driving described first crossbeam, second cross beam to slide on described back-up block.

Below, above technical scheme is further elaborated:

Further, the two ends of described back-up block are provided with one for limiting the limited block of described first crossbeam, second cross beam.

Further, it also comprises the second driving mechanism for driving described first monitor station, the freely up and down movement of the second monitor station.

Further, described first crossbeam, second cross beam are movable to the centre position of described brace table farthest.

Further, described first driving mechanism is linear electric motors, it comprises the stator be separately positioned on two described back-up blocks, is fixedly installed on the mover bottom described first crossbeam, second cross beam two ends respectively, and for controlling the control system that described mover runs.

Further, described stator comprises the coil module of several linear array on described back-up block, and several described coil module forms one in single track; Described mover comprises one on the track nested and along the U-shaped slide block of described rail moving.

Further, described U-shaped slide block comprises the biside plate be fixedly installed bottom described first crossbeam, second cross beam, is symmetricly set on the N pole on described biside plate, magnetic dry plate that S extremely interlocks, and described magnetic dry plate is arranged on the inner side of described biside plate.

Further, described U-shaped slide block is provided with the position transducer for detecting described mover shift position.

The beneficial effects of the utility model are: on back-up block, be provided with two crossbeams, and two crossbeams are arranged the monitor station that biochip test module is housed, crossbeam can move on back-up block simultaneously, and its detection efficiency improves widely; Adopt that its travelling speed of line slideway of electromagnetic levitation type is fast, fast response time, precision are high, during use not with back-up block friction, Long-Time Service also can not produce cumulative errors, and noiselessness, loss are little, decrease maintenance workload and operating cost.

Accompanying drawing explanation

Fig. 1 is the perspective view of the utility model gene assaying device embodiment.

Reference numeral:

Objective table 10;

Biochip 11;

Back-up block 20;

First crossbeam 21; Second cross beam 22;

First monitor station 210; Second monitor station 220;

Biochip test module 30;

U-shaped slide block 40;

Stator 410; Mover 420; Side plate 411; Magnetic dry plate 412; Position transducer 413.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Below with reference to drawings and the specific embodiments describe in detail the technical solution of the utility model so as clearer, understand invention essence of the present utility model intuitively.

As shown in Figure 1, the gene assaying device that the utility model provides, it comprises the objective table 10 being mounted with multiple biochip 11, be symmetricly set on the back-up block 20 of described objective table 10 both sides, be slidably arranged in the first crossbeam 21 on two described back-up blocks 20, second cross beam 22 respectively, be separately positioned on the first monitor station 210, second monitor station 220 that biochip test module 30 is equipped with on described first crossbeam 21, second cross beam 22 and bottom, and the first driving mechanism for driving described first crossbeam 21, second cross beam 22 to slide on described back-up block 20.First driving mechanism drives first crossbeam 21 simultaneously, second cross beam 22 moves on back-up block 20, and than the structure of existing single crossbeam, its detection efficiency is doubled.

Preferably, the two ends of described back-up block 20 are provided with one for limiting the limited block of described first crossbeam 21, second cross beam 22, prevent first crossbeam 21, second cross beam 22 touches.This limited block can be arranged on any one centre position in two back-up blocks 20.

In a preferred embodiment, described first monitor station 210, second monitor station 220 has been arranged side by side multiple biochip test module 30 respectively.Monitor station on two monitor stations can detect the biochip 11 on pedestal simultaneously, and than existing single detection module, it greatly increases detection efficiency.

Concrete, it also comprises the second driving mechanism for driving described first monitor station 210, second monitor station 220 freely up and down movement.Biochip test module 30 detects to the biochip 11 on described objective table 10 by this second driving mechanism.

More specifically, described first crossbeam 21, second cross beam 22 are movable to the centre position of described brace table farthest, it also can arrange a range sensor, when first crossbeam 21, second cross beam 22 move to the ultimate range of setting, it can quit work automatically, without the need to manually touching shutdown switch.

In another preferred embodiment, described first driving mechanism is linear electric motors, it comprises the stator 410 be separately positioned on two described back-up blocks 20, be fixedly installed on the mover 420 bottom described first crossbeam 21, second cross beam 22 two ends respectively, and for controlling the control system (not shown) that described mover 420 runs.It has higher degree of accuracy to adopt linear electric motors, and repeatedly its precision rear can not be influenced for Reusability, do not need usually to safeguard, calibrate, eliminate a large amount of labor capacity.

Concrete, described stator 410 comprises the coil module of several linear array on described back-up block 20, and several described coil module forms one in single track; Described mover 420 comprises one on the track nested and along the U-shaped slide block 40 of described rail moving, as indicated with 2, this U-shaped slide block 40 suspends in orbit and can move linearly along this track, the structure of the linear motion actuator of electromagnetic levitation type is adopted to drive the movement of crossbeam, it is except having high degree of accuracy, it is noiselessness operationally, and it also has the little advantage of fast response time, loss, Long-Time Service its can not produce cumulative errors.

More specifically, described U-shaped slide block 40 comprises the biside plate 411 be fixedly installed bottom described first crossbeam 21, second cross beam 22, be symmetricly set on the N pole on described biside plate 411, magnetic dry plate 412 that S extremely interlocks, described magnetic dry plate 412 is arranged on the inner side of described biside plate 411.U-shaped slide block 40 suspends respectively and can move freely along the length direction of back-up block 20 on these two back-up blocks 20.Certain, crossbeam can be fixed on U-shaped slide block 40, also two side plates 411 can be arranged on the bottom of crossbeam, and namely two side plates 411 form U-shaped slide block 40 jointly with crossbeam.

Preferably, described U-shaped slide block 40 is provided with the position transducer 413 for detecting described mover 420 displacement.So, effectively can ensure that two crossbeams can not be touched.This position transducer 413 can be arranged on the bottom of the arbitrary side plate 411 in two side plates 411.

In sum, the gene assaying device that the utility model provides, it is symmetrical arranged two crossbeams at back-up block, crossbeam is provided with the monitor station of biochip test module, crossbeam is driven by the linear electric motors of electromagnetic levitation type, the advantage such as it has that degree of accuracy is high, fast response time, loss are little, during operation, slide block and crossbeam are not touched with the back-up block of both sides, overall is without friction running, Long-Time Service also can not produce cumulative errors, without the need to its precision of manual calibration, decrease maintenance workload and operating cost.Its middle cross beam is provided with the monitor station of multiple biochip test module, and it can the multiple biochip of one-time detection, and its detection efficiency has raising clearly than existing pick-up unit.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (8)

1. a gene assaying device, it is characterized in that, it comprises the objective table being mounted with multiple biochip, be symmetricly set on the back-up block of described objective table both sides, be slidably arranged in the first crossbeam on two described back-up blocks, second cross beam respectively, be separately positioned on the first monitor station, the second monitor station that biochip test module is equipped with on described first crossbeam, second cross beam and bottom, and the first driving mechanism for driving described first crossbeam, second cross beam to slide on described back-up block.

2. gene assaying device according to claim 1, is characterized in that, the two ends of described back-up block are provided with one for limiting the limited block of described first crossbeam, second cross beam.

3. gene assaying device according to claim 1, is characterized in that, it also comprises the second driving mechanism for driving described first monitor station, the freely up and down movement of the second monitor station.

4. gene assaying device according to claim 1, is characterized in that, described first crossbeam, second cross beam are movable to the centre position of described brace table farthest.

5. gene assaying device according to claim 1, it is characterized in that, described first driving mechanism is linear electric motors, it comprises the stator be separately positioned on two described back-up blocks, be fixedly installed on the mover bottom described first crossbeam, second cross beam two ends respectively, and for controlling the control system that described mover runs.

6. gene assaying device according to claim 5, is characterized in that, described stator comprises the coil module of several linear array on described back-up block, and several described coil module forms one in single track; Described mover comprises one on the track nested and along the U-shaped slide block of described rail moving.

7. gene assaying device according to claim 6, it is characterized in that, described U-shaped slide block comprises the biside plate be fixedly installed bottom described first crossbeam, second cross beam, be symmetricly set on the N pole on described biside plate, magnetic dry plate that S extremely interlocks, described magnetic dry plate is arranged on the inner side of described biside plate.

8. gene assaying device according to claim 6, is characterized in that, described U-shaped slide block is provided with the position transducer for detecting described mover shift position.