CN215029166U - Nucleic acid sampling pipe carrier - Google Patents

Abstract

The utility model relates to a test-tube rack technical field discloses a nucleic acid sampling tube carrier frame, including the bottom plate, drive module, top are installed in the bottom plate left side and a plurality of rubber posts are installed, and the tray module is installed to the top of rubber post, installs drive mechanism between drive module and the bottom plate, drive mechanism includes the action wheel, from driving wheel and hold-in range, installs the pivot from the driving wheel, and the position of the skew axis in upper end of pivot is equipped with the eccentric shaft, installs the connecting seat on the eccentric shaft, and the connecting seat is fixed in tray module below, the test tube layer board is installed to tray module top, installs a plurality of test tube seats on the test tube layer board, the test tube seat includes the base, has seted up the test tube on the base and has placed the hole, and the downthehole shell fragment that is equipped with is placed to the test tube. The utility model provides a nucleic acid sampling pipe carrier for the self-adaptation when realizing that nucleic acid sampling pipe places guarantees to place stably, can oscillate nucleic acid sampling pipe before nucleic acid sample handles simultaneously.

Description

Nucleic acid sampling pipe carrier

Technical Field

The utility model relates to a test-tube rack technical field especially relates to a nucleic acid sampling pipe carrier.

Background

The test-tube rack is the device that is used for placing the sampling pipe commonly used on clinical test equipment, and ordinary test-tube rack only is used for placing the sampling pipe, does not have the self-adaptation function, is difficult to guarantee the stability that the sampling pipe was placed. In addition, the nucleic acid sample needs to be oscillated before the nucleic acid sample is tested, and a common test tube rack does not have an oscillating function, and the nucleic acid sampling tube needs to be transferred to an oscillating device for oscillation, which undoubtedly increases the time and cost for sample processing.

Therefore, there is a need to develop a nucleic acid sampling tube carrier with oscillation and adaptive functions.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a nucleic acid sampling pipe carrier with oscillation and self-adaptation function for satisfy the oscillation demand of nucleic acid sample, guarantee the stability of nucleic acid sampling pipe in the oscillation process simultaneously, avoid damaging the sampling pipe because of the impact that the oscillation produced.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides a nucleic acid sampling tube carrier, includes the bottom plate, and drive module is installed in the left side of bottom plate, and a plurality of rubber columns are installed to the bottom plate top, and tray module is installed to the top of rubber column, installs drive mechanism between drive module and the bottom plate, drive mechanism is including installing the action wheel on drive module and installing the follow driving wheel on the bottom plate, and the action wheel is with install the hold-in range from the driving wheel, installs the pivot from the driving wheel on, and the position of the skew axis in upper end of pivot is equipped with the eccentric shaft, installs the connecting seat on the eccentric shaft, and the connecting seat is fixed in tray module below, the test tube layer board is installed to tray module top, installs a plurality of test tube seats on the test tube layer board, the test tube seat includes the base, has seted up the test tube on the base and has placed the hole, and the test tube is placed the downthehole and is equipped with the shell fragment.

Foretell nucleic acid sampling pipe carrier presss from both sides tight spacing to the nucleic acid sampling pipe on the test tube seat through the shell fragment, realized placing the self-adaptation of process to nucleic acid sampling pipe, drive mechanism's work through drive module, make and install the pivot rotation in following the driving wheel, the eccentric shaft of pivot upper end revolves the axis of rotation and is circular motion to thereby make the tray module be continuous circular motion on the horizontal plane and realize satisfying the oscillation demand to the sample before the nucleic acid test to the oscillation of nucleic acid sampling pipe.

Further, drive module includes the motor cabinet, installs the motor on the motor cabinet, and motor output shaft stretches out the motor cabinet below, the action wheel is installed on motor output shaft, and the control panel is installed at the rear of motor cabinet, and the dustcoat is installed to motor and control panel top, and its effect lies in: and the motor and the control panel are isolated and protected.

Further, install the driven wheel seat on the bottom plate, the one end of pivot is installed on the driven wheel seat, all install the bearing between pivot and the driven wheel seat and between eccentric shaft and the connecting seat, its effect lies in: the installation of the rotating shaft is convenient, and meanwhile, the rotating shaft is ensured to rotate smoothly in the oscillation process, and the abrasion and the sprain are reduced.

Further, the tray module includes the tray, and the both sides symmetry of tray is installed the side shield, the backplate is installed at the rear, a plurality of spacing axles are installed to the inboard of side shield, the guide way has been seted up with the corresponding position of spacing axle in the both sides of test tube layer board, and its effect lies in: make test tube layer board can be on tray module smooth sliding around.

Further, the ripples pearl fixed plate is installed to the inboard below of tray, is equipped with a plurality of bosss of wearing the tray upper surface on the ripples pearl fixed plate, installs the ripples pearl screw on the boss, the locating hole has been seted up with the corresponding position of ripples pearl screw in test tube layer board bottom, and its effect lies in: the test tube supporting plate placed in place is positioned and limited, and the test tube supporting plate is prevented from sliding in the oscillation process.

Further, install the shell fragment on the adjacent both sides face of base, the shell fragment includes installation department and shell fragment portion, and the installation department is fixed at the base lateral wall, and shell fragment portion passes the base lateral wall and gets into the test tube and place downthehole, and its effect lies in: carry on spacingly from the adjacent both sides of base to nucleic acid sampling pipe, make nucleic acid sampling pipe more stable after placing, reduce the impact of oscillation in-process to nucleic acid sampling pipe.

Further, waist type hole has been seted up to the front end of test tube layer board, and the handle is installed to left and right sides both ends symmetry, and its effect lies in: the test tube supporting plate is convenient to push and pull and transfer, so that the whole plate transfer of the nucleic acid sampling tube is completed.

Further, a plurality of through-holes have evenly been seted up on the test tube layer board, and its effect lies in: subtract heavy to the test tube layer board, reduce the load of vibration in-process motor.

Technical scheme more than combining, compare with prior art, the utility model provides a nucleic acid sampling pipe carrier, its beneficial effect is:

the utility model provides a placing of nucleic acid sampling pipe of different pipe diameters can be adapted to nucleic acid sampling pipe carrier to carry on spacingly to it through the shell fragment, guarantee the stability of placing, avoid damaging the sampling pipe because of the impact that the oscillation produced.

The utility model provides a nucleic acid sampling pipe carrier can oscillate the nucleic acid sampling pipe of placing on the test tube seat, makes it satisfy subsequent nucleic acid and draws and detect the demand.

The utility model provides a nucleic acid sampling pipe carrier, test tube layer board are detachable construction, make things convenient for the use in the sample collection process, make things convenient for the test in-process to carry out the whole board to the nucleic acid sampling pipe and shift simultaneously.

Drawings

FIG. 1 is a schematic structural diagram of a nucleic acid sampling tube carrier according to the present invention.

Fig. 2 is an exploded view of a nucleic acid sampling tube carrier according to the present invention.

Fig. 3 is a schematic view of the installation positions of the rotating shaft and the connecting seat of the present invention.

Fig. 4 is a schematic structural view of the test tube seat of the present invention.

Fig. 5 is the internal structure schematic diagram of the test tube placing hole of the present invention.

Fig. 6 is a schematic structural view of the test tube supporting plate of the present invention.

Fig. 7 is a schematic view of the installation positions of the limiting shaft and the guide groove of the present invention.

Fig. 8 is a schematic view of the installation position of the wave ball screw according to the present invention.

Wherein, 1-a bottom plate, 11-a driven wheel seat, 21-a motor seat, 22-a motor, 23-a control panel, 24-an outer cover, 3-a transmission mechanism, 31-a driving wheel, 32-a driven wheel, 33-a synchronous belt, 34-a rotating shaft, 341-an eccentric shaft, 35-a bearing, 36-a connecting seat, 4-a tray module, 41-a tray, 42-a side baffle, 421-a limiting shaft, 43-a glass bead fixing plate, 44-a glass bead screw, 45-a rear baffle, 5-a test tube rack base, 51-a guide groove, 52-a kidney-shaped hole, 53-a through hole, 54-a positioning hole, 6-a test tube seat, 61-a base, 611-a test tube placing hole, 62-an elastic sheet, 621-a mounting part and 622-an elastic sheet part, 7-nucleic acid sampling tube, 8-handle, 9-rubber column.

Detailed Description

For a detailed description of the technical features and the objects and effects achieved by the present invention, further description is made below with reference to the accompanying drawings:

as shown in fig. 1-8, a nucleic acid sampling tube carrier comprises a bottom plate 1, a driving module 2 is installed on the left side of the bottom plate 1, a plurality of rubber columns 9 are installed above the bottom plate 1, a tray module 4 is installed above the rubber columns 9, a transmission mechanism 3 is installed between the driving module 2 and the bottom plate 1, the transmission mechanism 3 comprises a driving wheel 31 installed on the driving module 2 and a driven wheel 32 installed on the bottom plate 1, a synchronous belt 33 is installed on the driving wheel 31 and the driven wheel 32, a rotating shaft 34 is installed on the driven wheel 32, an eccentric shaft 341 is arranged at the upper end of the rotating shaft 34 and deviates from the axis, a connecting seat 36 is installed on the eccentric shaft 341, the connecting seat 36 is fixed below the tray module 4, a test tube supporting plate 5 is installed above the tray module 4, a plurality of test tube seats 6 are installed on the test tube supporting plate 5, the test tube seats 6 comprise a base 61, a test tube placing hole 61 is opened on the base 61, the tube placing hole 61 is provided with a spring plate 62 therein.

Preferably, the driving module 2 includes a motor base 21, a motor 22 is installed on the motor base 21, an output shaft of the motor 22 extends to the lower side of the motor base 21, the driving wheel 31 is installed on the output shaft of the motor 22, a control panel 23 is installed behind the motor base 21, and an outer cover 24 is installed above the motor 22 and the control panel 23.

Preferably, the bottom plate 1 is provided with a driven wheel seat 11, one end of the rotating shaft 34 is arranged on the driven wheel seat 11, and bearings 35 are arranged between the rotating shaft 34 and the driven wheel seat 11 and between the eccentric shaft 341 and the connecting seat 36.

Preferably, the tray module 4 includes a tray 41, side baffles 42 are symmetrically installed on both sides of the tray 41, a rear baffle 45 is installed behind the side baffles 42, a plurality of limiting shafts 421 are installed on the inner side of the side baffles 42, and guide grooves 51 are formed in positions corresponding to the limiting shafts 421 on both sides of the test tube supporting plate 5.

Preferably, a wave bead fixing plate 43 is installed below the inner side of the tray 41, a plurality of bosses penetrating through the upper surface of the tray 41 are arranged on the wave bead fixing plate 43, wave bead screws 44 are installed on the bosses, and positioning holes 54 are formed in the bottom of the test tube supporting plate 5 corresponding to the wave bead screws 44.

Preferably, the elastic sheet 62 is installed on two adjacent side surfaces of the base 61, the elastic sheet 62 includes an installation portion 621 and an elastic sheet portion 622, the installation portion 621 is fixed on the side wall of the base 61, and the elastic sheet portion 622 penetrates through the side wall of the base 61 and enters the test tube placing hole 611.

Preferably, the front end of the test tube supporting plate 5 is provided with a waist-shaped hole 52, and the left end and the right end of the test tube supporting plate are symmetrically provided with handles 8.

Preferably, a plurality of through holes 53 are uniformly formed on the test tube supporting plate 5.

The carrier for the nucleic acid sampling tube provided by the above embodiment is implemented as follows:

in the nucleic acid sample collection process, can pull down test tube layer board 5 and use as the test-tube rack alone, accomplish the nucleic acid sampling pipe 7 of sample collection and put into the test tube and place hole 611 in, shell fragment 622 carries out corresponding shrink and produces the elasticity effect and presss from both sides tight spacing to nucleic acid sampling pipe 7 according to the diameter of nucleic acid sampling pipe 7.

Before a nucleic acid detection experiment needs to be performed, the test tube supporting plate 5 is loaded on the tray module 4, and in the loading process, the guide groove 51 slides inwards along the limiting shaft 421 until the beads on the bead screw 44 are clamped into the positioning hole 54.

Accomplish the loading back of test tube layer board 5, motor 22 rotates, make and drive pivot 34 from driving wheel 32 and rotate, circular motion is made to the eccentric shaft 341 of pivot 34 upper end around the axis of pivot 34, and it is circular motion to drive tray module 4 through connecting seat 36 on the horizontal direction, the realization is to the oscillation of nucleic acid sampling pipe 7, at the in-process of tray module 4 motion, the ripples pearl screw carries on spacingly to test tube layer board 5, avoid test tube layer board 5 roll-off, rubber column 9 produces corresponding deformation along with tray module 4's motion and keeps support and connection to tray module 4.

According to the embodiment and implementation steps, the utility model provides a nucleic acid sampling pipe carrier can carry out the spacing fixed of self-adaptation to not unidimensional nucleic acid sampling pipe 7, can realize the oscillation function to nucleic acid sampling pipe 7 simultaneously, and it is spacing that shell fragment 62 can cushion nucleic acid sampling pipe 7 in the oscillation process, reduces to strike and avoids damaging, and test tube layer board 5 makes things convenient for the dismouting, can pull down and do the test-tube rack alone and use, conveniently shifts nucleic acid sampling pipe 7.

The applicant asserts that the above-described embodiments merely represent the basic principles, main features and advantages of the present invention. It should be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, but rather, the principles of the invention are described in the above-described embodiments and the description, and that various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed.

The utility model discloses not limited to above-mentioned embodiment, all adopt with the utility model discloses similar structure and method realize the utility model discloses the embodiment of purpose is all within the scope of protection of the utility model.

Claims (8)

1. A nucleic acid sampling tube carrier, characterized in that: including the bottom plate, drive module is installed in the left side of bottom plate, and a plurality of rubber posts are installed to the bottom plate top, and tray module is installed to the top of rubber post, installs drive mechanism between drive module and the bottom plate, drive mechanism is including installing the action wheel on drive module and installing the follow driving wheel on the bottom plate, and the action wheel is installed the hold-in range with from driving the driving wheel, installs the pivot from driving the driving wheel on, and the position of the skew axis in upper end of pivot is equipped with the eccentric shaft, installs the connecting seat on the eccentric shaft, and the connecting seat is fixed in tray module below, the test tube layer board is installed to tray module top, installs a plurality of test tube seats on the test tube layer board, the test tube seat includes the base, has seted up the test tube on the base and has placed the hole, and the downthehole shell fragment is placed to the test tube.

2. A nucleic acid sampling tube carrier as defined in claim 1 wherein: the driving module comprises a motor base, a motor is mounted on the motor base, a motor output shaft extends out of the lower portion of the motor base, the driving wheel is mounted on the motor output shaft, a control panel is mounted at the rear portion of the motor base, and an outer cover is mounted above the motor and the control panel.

3. A nucleic acid sampling tube carrier as defined in claim 1 wherein: the bottom plate is provided with a driven wheel seat, one end of the rotating shaft is arranged on the driven wheel seat, and bearings are arranged between the rotating shaft and the driven wheel seat and between the eccentric shaft and the connecting seat.

4. A nucleic acid sampling tube carrier as defined in claim 1 wherein: the tray module includes the tray, and the bilateral symmetry of tray is installed the side shield, and the backplate is installed at the rear, a plurality of spacing axles are installed to the inboard of side shield, the guide way has been seted up with spacing corresponding position in both sides of test tube layer board.

5. A nucleic acid sampling tube carrier according to claim 1 or 4, wherein: the test tube support plate is characterized in that a wave bead fixing plate is installed below the inner side of the tray, a plurality of bosses penetrating the upper surface of the tray are arranged on the wave bead fixing plate, wave bead screws are installed on the bosses, and positioning holes are formed in the bottom of the test tube support plate and correspond to the wave bead screws.

6. A nucleic acid sampling tube carrier as defined in claim 1 wherein: the test tube placing device comprises a base, and is characterized in that elastic pieces are arranged on two adjacent side faces of the base and comprise mounting portions and elastic piece portions, the mounting portions are fixed on the side wall of the base, and the elastic piece portions penetrate through the side wall of the base and enter the test tube placing holes.

7. A nucleic acid sampling tube carrier as defined in claim 1 wherein: waist type hole has been seted up to the front end of test tube layer board, and the handle is installed to both ends symmetry about.

8. A nucleic acid sampling tube carrier as defined in claim 1 wherein: a plurality of through holes are evenly arranged on the test tube supporting plate.

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