CN204269662U - Automatic Blood Cell Analyzer - Google Patents

Abstract

The utility model discloses a kind of Automatic Blood Cell Analyzer, comprise frame, horizontal motion system, movement in vertical direction system, sampling component and power transmission guide rail.Horizontal motion system comprises the first stepper motor, and movement in vertical direction system comprises the second stepper motor.First stepper motor and the second stepper motor are fixedly mounted in frame respectively.Sampling component comprises sampling needle briquetting and sampling needle.Power transmission guide rail horizontal positioned and being rigidly connected soon with the guide rail pressure of movement in vertical direction system.Sampling component is connected with power transmission slide, and movement in vertical direction system comprises first axis of guide, and sampling component comprises second axis of guide, and first axis of guide and guide rail briquetting are slidably connected, and second axis of guide and sampling needle briquetting are slidably connected.The stepper motor of this mechanism is all fixed in instrument frame, and motion is light and handy, and cost is lower, compact conformation, have open sampling simultaneously and close puncture sampling, and conveying sample is to the function of assigned address.

Description

Automatic Blood Cell Analyzer

Technical field

The utility model relates to a kind of Automatic Blood Cell Analyzer, particularly relate to the Automatic Blood Cell Analyzer with two-dimensional freedom motion, the haemocyte that may be used for medical device industry detects automatically, has open sampling, closes the functions such as sampling and sample delivery.

Background technology

Automatic clinical chemistry analyzer is the wider a kind of instrument applied in the detection of the physiochemistry measuring human body fluid, physical property.In automatic clinical chemistry analyzer, sampler is unusual part and parcel.Sampler needs liquid sample to transfer to reagent bottle in specimen bottle, after fully reacting, then mixed liquor is transferred in counter detects.Chinese utility model patent the 200520094284.1st discloses a kind of sampling and stirring apparatus of automatic clinical chemistry analyzer.This device comprises suspended wall mechanism and driving mechanism, and suspended wall mechanism is connected on driving mechanism.Wherein, suspended wall mechanism comprises sampling mixing arm, paddle and sampling probe, and one end of sampling mixing arm is connected with driving mechanism, and the other end is free end.Motor is fixed on sampling mixing arm by electric machine support.Below the free end of sampling mixing arm, be connected with clutch shaft bearing seat, be provided with the first rolling bearing in it, the first rolling bearing is provided with transmission shaft.On motor and one end of transmission shaft be equipped with belt wheel, be connected by driving-belt between two belt wheels.The other end and the paddle of transmission shaft are affixed.One end of sampling probe is fixed in the top of the free end of sampling mixing arm by sampling probe support, the other end is inserted in transmission shaft and paddle.

Above-mentioned automatic clinical chemistry analyzer comprises a suspended wall rotated, and therefore only can rotate in the angle limited around its column, its scope of activities is restricted, and is not suitable for the occasion that some needs to do two-dimensional freedom motion in certain plane.

Utility model content

In order to overcome above-mentioned shortcoming of the prior art, one of the purpose of this utility model is: provide a kind of sampling apparatus with two-dimensional freedom motor function.Described sampling apparatus comprises: frame, horizontal motion system, movement in vertical direction system, sampling component and power transmission guide rail, horizontal motion system comprises the first stepper motor, movement in vertical direction system comprises the second stepper motor, first stepper motor and the second stepper motor are fixedly mounted in frame respectively, sampling component comprises sampling needle briquetting and sampling needle, power transmission guide rail horizontal positioned and being fixedly connected with sampling needle briquetting with movement in vertical direction system respectively, horizontal motion system drive sampling needle moves in the horizontal direction, movement in vertical direction system drive sampling needle moves in the vertical direction.

To the further improvement of technique scheme be: described horizontal motion system also comprises the first Timing Belt and horizontal guide rail; Described movement in vertical direction system also comprises the second Timing Belt, first axis of guide and guide rail briquetting, and guide rail briquetting is fixedly connected with the second Timing Belt; Described sampling component also comprises sampling component support and second axis of guide.

To the further improvement of technique scheme be: sampling component support is fixedly connected with the first Timing Belt, the slide block of sampling component support and horizontal guide rail is fixed; Under the driving of the first stepper motor, sampling component carries out horizontal motion under the guide effect of horizontal guide rail; The slide block of power transmission guide rail is fixedly connected with sampling needle briquetting, and under the driving of the second stepper motor, sampling needle briquetting makes movement in vertical direction along with power transmission guide rail.

To the further improvement of technique scheme be: guide rail briquetting is fixedly connected with power transmission guide rail.

To the further improvement of technique scheme be: sampling needle briquetting comprises guidepost, guide rail briquetting is provided with the hole of matching with guidepost.

To the further improvement of technique scheme be: guidepost is partial cone.

To the further improvement of technique scheme be: also comprise optical coupled switch, described optocoupler opens the light and is arranged in frame.

To the further improvement of technique scheme be: sampling component support and guide rail briquetting are separately installed with optical coupled switch sensing chip.

To the further improvement of technique scheme be: described power transmission guide rail and horizontal guide rail are parallel to each other.

To the further improvement of technique scheme be: sampling component moves to sample bits, reaction tank position and counting chamber position in the horizontal direction successively.

Two of the purpose of this utility model is: provide a kind of Automatic Blood Cell Analyzer, comprises frame, horizontal motion system, movement in vertical direction system, sampling component and power transmission guide rail.Horizontal motion system comprises the first stepper motor, and movement in vertical direction system comprises the second stepper motor.First stepper motor and the second stepper motor are fixedly mounted in frame respectively.Sampling component comprises sampling needle briquetting and sampling needle.Power transmission guide rail horizontal positioned and being rigidly connected soon with the guide rail pressure of movement in vertical direction system, sampling component is connected with power transmission slide.Movement in vertical direction system comprises first axis of guide, and sampling component comprises second axis of guide, and first axis of guide and guide rail briquetting are slidably connected, and second axis of guide and sampling needle briquetting are slidably connected.

To the further improvement of technique scheme be: described movement in vertical direction system also comprises the second Timing Belt, be parallel to first axis of guide of the second Timing Belt and can at the guide rail briquetting of the first axis of guide slippage, and guide rail briquetting is fixedly connected with the second Timing Belt.

To the further improvement of technique scheme be: when sampling component contacts with guide rail briquetting, sampling needle briquetting is combined by the bellmouth guiding of guidepost and guide rail briquetting, jointly under the second Timing Belt drives, sampling needle is driven to perform puncture of test tube and draw sample action, after suction sample completes, guide rail briquetting thrown off by sampling needle briquetting, then drives sampling needle to carry sample to horizontal direction.

: also comprise power transmission guide rail that one end and the guide rail briquetting of described power transmission guide rail are rigidly connected, and the other end of power transmission guide rail is fixedly connected with sampling needle briquetting to the further improvement of technique scheme.

To the further improvement of technique scheme be: sampling needle stops in sample bits, reaction tank position and counting chamber position respectively, and wherein, sample bits will more near the second stepper motor than reaction tank position and counting chamber position.

Three of the purpose of this utility model is: provide a kind of automatic clinical chemistry analyzer.Described automatic clinical chemistry analyzer comprises the sampling apparatus with two-dimensional freedom motor function.This sampling apparatus comprises: frame, horizontal motion system, movement in vertical direction system, sampling component and power transmission guide rail, horizontal motion system comprises the first stepper motor, movement in vertical direction system comprises the second stepper motor, first stepper motor and the second stepper motor are fixedly mounted in frame respectively, sampling component comprises sampling needle briquetting and sampling needle, power transmission guide rail horizontal positioned and being fixedly connected with sampling needle briquetting with movement in vertical direction system respectively, horizontal motion system drive sampling needle moves in the horizontal direction, movement in vertical direction system drive sampling needle moves in the vertical direction.

To the further improvement of technique scheme be: described horizontal motion system also comprises the first Timing Belt and horizontal guide rail; Described movement in vertical direction system also comprises the second Timing Belt, first axis of guide and guide rail briquetting, and guide rail briquetting is fixedly connected with the second Timing Belt; Described sampling component also comprises sampling component support and second axis of guide.

To the further improvement of technique scheme be: sampling component support is fixedly connected with the first Timing Belt, the slide block of sampling component support and horizontal guide rail is fixed; Under the driving of the first stepper motor, sampling component carries out horizontal motion under the guide effect of horizontal guide rail; The slide block of power transmission guide rail is fixedly connected with sampling needle briquetting, and under the driving of the second stepper motor, sampling needle briquetting makes movement in vertical direction along with power transmission guide rail.

To the further improvement of technique scheme be: guide rail briquetting is fixedly connected with power transmission guide rail.

To the further improvement of technique scheme be: sampling needle briquetting comprises guidepost, guide rail briquetting is provided with the hole of matching with guidepost.

To the further improvement of technique scheme be: guidepost is partial cone.

To the further improvement of technique scheme be: also comprise optical coupled switch, described optocoupler opens the light and is arranged in frame.

To the further improvement of technique scheme be: sampling component support and guide rail briquetting are separately installed with optical coupled switch sensing chip.

To the further improvement of technique scheme be: described power transmission guide rail and horizontal guide rail are parallel to each other.

To the further improvement of technique scheme be: sampling component moves to sample bits, reaction tank position and counting chamber position in the horizontal direction successively.

The beneficial effects of the utility model are: power transmission guide rail one end is fixed on guide rail briquetting, and guide rail briquetting has the Baltimore groove matched with power transmission guide rail, and back and top have screw to ensure to be rigidly connected simultaneously.Second slide block of power transmission guide rail is fixed by screws in sampling needle briquetting, and when Timing Belt drives guide rail briquetting and power transmission guide rail movement in vertical direction, sampling needle also moves up and down thereupon.Horizontal direction and vertical direction can arrange optocoupler and position, thus carry out sampling and transmitting sample in specific position.Sampling needle briquetting is threaded connection guidepost, guide rail briquetting is also equipped with the bellmouth coordinated with guidepost in corresponding positions, moment required during in order to reduce puncture of test tube, sampling component horizontal motion contacts to guide rail briquetting, and sampling needle is followed power transmission guide rail and jointly completed puncture action.This motion stepper motor is all fixed in instrument frame, and motion is light and handy, spaces compact, and conveying sample is to ad-hoc location function, and require low to the loading moment of motor, mechanicalness noise is little.Compatible open sampling and puncture sampling, be suitable for the medical apparatus and instruments such as blood analyser and Urine Analyzer simultaneously.

Accompanying drawing explanation

Fig. 1 is the planimetric map of a kind of two-dimensional freedom motion of the present utility model.

Fig. 2 is the stereographic map of a kind of two-dimensional freedom motion of the present utility model.

Fig. 3 is the open sampling location of another kind of two-dimensional freedom motion of the present utility model planimetric map.

Fig. 4 is the open sampling location of another kind of two-dimensional freedom motion of the present utility model stereographic map.

Fig. 5 is the planimetric map that another kind of two-dimensional freedom motion horizontal motion of the present utility model arrives certain ad-hoc location.

Fig. 6 is the planimetric map that another kind of two-dimensional freedom motion movement in vertical direction of the present utility model arrives another certain ad-hoc location.

Fig. 7 is the planimetric map that another kind of two-dimensional freedom motion horizontal motion of the present utility model arrives puncture position.

Fig. 8 is another kind of two-dimensional freedom motion guide piece diagrammatic cross-section of the present utility model.

Fig. 9 is the planimetric map that another kind of two-dimensional freedom motion of the present utility model carries out puncture of test tube.

Figure 10 is the structural perspective of another kind of two-dimensional freedom motion guide rail briquetting 104 of the present utility model.

Embodiment

Embodiment one

Refer to Fig. 1 and Fig. 2, this is a kind of specific embodiment of the utility model sampling apparatus.This sampling apparatus completes guiding by two horizontally-guided axles 2 and 5.First stepper motor 4 drives Timing Belt 3 to drive sampling component to complete horizontal motion (sampling component is fixedly connected with Timing Belt 3 by sampling component support 10).The second stepper motor 1 be arranged on sampling component support 10 drives Timing Belt 6 to drive sampling needle 7 to complete movement in vertical direction under the guide effect of two vertically-guided axles 8 and 9.The two-dimensional freedom motion of sampling needle 7 in horizontal and vertical direction contributes in blood cell analysis device, realize the functions such as puncture of test tube, sample absorption and sample transport.

Embodiment two

Shown in Fig. 3 to Figure 10 is the sampling apparatus that the another kind of the utility model has two-dimensional freedom motion.Described two-dimensional freedom refers to that this motion or parts wherein can be fixed along certain or move respectively in the direction at place, two limits of on-fixed angle.Described fixed angle can be 150 degree, 120 degree, 90 degree, 60 degree, 30 degree or other any suitable angles.The movement locus of two-dimensional freedom can be straight line, smooth curve, smooth para-curve, take out stitches or its combination.In preferred version of the present utility model, described two-dimensional freedom refers to orthogonal two rectilinear directions.The scheme be more preferably is: described two-dimensional freedom motion comprises the motion parts of horizontal direction and the motion parts of vertical direction.The specific embodiments of the utility model is set forth in the two-dimensional freedom motion producing horizontal direction and vertical direction using the utility model below as one of specific embodiment of the utility model.Realize the two-dimensional freedom motion of other angle and directions specific embodiments can by parity of reasoning obtains.

Refer to Fig. 3, Fig. 4 and Fig. 5, horizontal motion device comprises the first stepper motor 116(main frame and is blocked and only exposes rotating shaft), the first Timing Belt 109, first synchronous pulley 113, horizontal guide rail 108 and sampling component 99.Described sampling component 99 comprises sampling component support 112, be fixed to second axis of guide 115 of support 112, be enclosed within second axis of guide 115 and can along the sampling needle briquetting 114 of the second axis of guide 115 parallel sliding and the sampling needle 111 etc. being fixed to sampling needle briquetting 114.First stepper motor 116 is fixed in sampling apparatus frame 100 by screw, bolt or rivet etc.Rotating shaft and first synchronous pulley 113 of the first stepper motor 116 make synchronous axial system.First synchronous pulley 113 is provided with the first Timing Belt 109.Preferably, the outline of the first synchronous pulley 113 is gear, and the first Timing Belt 109 is the gear band matched with this gear.First Timing Belt 109 is driven the motion making horizontal direction by the first synchronous pulley 113.Sampling component support 112 is fixed to the first Timing Belt 109 by screw and clamping plate (not shown), and keeps being synchronized with the movement with the first Timing Belt 109.Sampling component support 112 is fixed with at least one first slide block 118.Sampling apparatus frame 100 is fixed with at least one horizontal guide rail 108.Described first slide block 118 is slidably matched with described horizontal guide rail 108.In the process that the first stepper motor 116 drives the first Timing Belt 109 to move, first Timing Belt 109 drives sampling component support 112(together with whole sampling component 99) do moving of horizontal direction along horizontal guide rail 108, thus achieve the motion in the horizontal direction of this device.

As shown in Figure 4, the second slide block 119 be slidably connected with power transmission guide rail 101 is fixedly connected with sampling needle briquetting 114 by screw.Power transmission guide rail 101 should be parallel to each other with horizontal guide rail 108, therefore, when the first Timing Belt 109 drives sampling component support 112(together with whole sampling component 99) when doing moving of horizontal direction along horizontal guide rail 108, sampling needle briquetting 114 keeps not being subjected to displacement in the vertical direction.

As shown in Figures 3 and 4, movement in vertical direction device comprises the second stepper motor 103, second Timing Belt 105, second synchronous pulley 106, guide rail briquetting 104 and power transmission guide rail 101.Second Timing Belt 105 is tightened by the power output shaft of the second stepper motor 103 and the second synchronous pulley 106, and follows the second stepper motor and be synchronized with the movement.Preferably, the second synchronous pulley 106 is gears, and the second Timing Belt 105 is the gear band matched with synchronous pulley.Power transmission guide rail 101 is fixed to the second Timing Belt 105 by guide rail briquetting 104, and is synchronized with the movement together with the second Timing Belt 105.Sampling needle briquetting 114 is slidably matched with power transmission guide rail 101 by the second slide block 119 on it, thus can horizontal slip on power transmission guide rail 101.Power transmission guide rail 101 and horizontal guide rail 108 and the first Timing Belt 109 horizontal parallel mutually.Frame 100 is fixed with first axis of guide 107, and guide rail briquetting 104 is mounted to described first axis of guide 107, and can on first axis of guide 107 vertical sliding motion.Sampling component support 112 is fixed with second axis of guide 115, and sampling needle briquetting 114 is mounted to described second axis of guide 115, and can on second axis of guide 115 vertical sliding motion.Described first axis of guide 107, second axis of guide 115 and the second Timing Belt 105 mutually vertical parallel.When the second stepper motor 103 starts, the second Timing Belt 105 is followed the second stepper motor 103 and is synchronized with the movement.Because the second Timing Belt 105 is fixedly connected with power transmission guide rail 101 with guide rail briquetting 104, therefore, power transmission guide rail 101 is driven by the second stepper motor 103 and moves up and down in the vertical direction.

Refer to Fig. 3 and Fig. 4, due to the needs of guiding, first axis of guide 107 and second axis of guide 115 and the second Timing Belt 105 need vertical parallel placement.Linear bearing (not shown) is equipped with in sampling needle briquetting 114 and guide rail briquetting 104 inside can vertical sliding motion on second axis of guide 115 and first axis of guide 107 respectively.The relative position of guide rail briquetting 104 and the second Timing Belt 105 is fixed by screw and clamping plate (not shown) by guide rail briquetting 104.Guide rail briquetting 104 is provided with Baltimore groove 121(and sees Figure 10), described power transmission guide rail 101 is housed in this Baltimore groove 121, and by screw, guide rail briquetting 104 is fixedly connected with power transmission guide rail 101.As previously mentioned, the second slide block 119 be slidably connected to power transmission guide rail 101 is fixedly connected with sampling needle briquetting 114, so, and power transmission guide rail 101 just connection guide rail briquetting 104 and sampling needle briquetting 114 simultaneously.Sampling needle briquetting 114 and guide rail briquetting 104 have identical or similar structure.When the second Timing Belt 105 is fixedly mounted in frame at the second stepper motor 103() driving under when making movement in vertical direction, guide rail briquetting 104, under the guide effect of first axis of guide 107 and second axis of guide 115, drives sampling needle briquetting 114 to do the back and forth movement of vertical direction by power transmission guide rail 101 indirectly.Because sampling needle 111 is fixedly connected with sampling needle briquetting 114, so, sampling needle 111 just under the drive of the second Timing Belt 105, can follow power transmission guide rail 101, do the elevating movement of vertical direction, thus complete the operation of imbitition sample and transmission liquid sample.

In sum, when the second stepper motor 103 do not work, the first stepper motor 116 work time, sampling component 99 just can move to assigned address in the horizontal direction, as sample bits, reaction tank position, counting chamber position etc.When the first stepper motor 116 do not work, the second stepper motor 103 work time, sampling needle 111 just can follow the elevating movement that power transmission guide rail 101 does vertical direction under the drive of the second Timing Belt 105.The accurate location of horizontal motion and movement in vertical direction relies on the several induction optocouplers 102 be arranged in frame 100 to realize location.The principle of work of optocoupler is: will send switching signal to control system when sensing chip shelters from optocoupler.Therefore, sampling component support 112 and guide rail briquetting 104 are equipped with an induction steel disc (not shown) all respectively.Refer to Figure 10, guide rail briquetting 104 is provided with the groove 121 matched with power transmission guide rail 101, has screw 120 to hold out against guide rail above groove, and front has two screws and guide rail to ensure to be connected reliably.The surface of power transmission guide rail 101 and horizontal guide rail 108 keeping parallelism.Power transmission guide rail 101 has two effect: a, leads to sampling component carrying out horizontal; B, in vertical direction carry-over moment carry out puncture test tube to sampling component.

When imbitition sample, sampling needle sometimes needs to pierce through the test tube cap that liquid sample is housed, and therefore, needs to apply certain thrust to sampling needle.Referring to shown in Fig. 7 to Figure 10, preferably piercing through effect to reach, sampling component should be made as much as possible close to guide rail briquetting 104, thus reduce the moment of power transmission guide rail 101 generation as far as possible.In order to reduce the pressure that power transmission guide rail 101 bears when piercing through test tube cap further, the utility model is an additional designs guidepost 110 also.Specifically, at the one side outstanding guidepost 110 of sampling needle briquetting 104 in the face of guide rail briquetting 104.So guidepost 110 can with sampling needle briquetting 104 Integral design, also can be fixedly connected with sampling needle briquetting 104 by threaded hole or other modes.This guidepost 110 can be designed to the cone of right cylinder or tip of pruning, and also can be xsect is trapezoidal any body.Guide rail briquetting 104 also has the hole 122 of bellmouth or other shapes matched with guidepost 110 profile in relevant position.When sampling component contacts with guide rail briquetting 104, guidepost 110 inserts the hole 122 on briquetting 104 and keeps certain closely cooperating.Moment required during in order to reduce puncture of test tube, sampling component horizontal motion is to when contacting with guide rail briquetting 104, sampling needle briquetting 114 leads mainly through guidepost 110 and guide rail briquetting 104 and combines, under the pulling of the second Timing Belt 105, guide rail briquetting 104 drives sampling needle briquetting 114 to move downward by guidepost 110.Sampling needle briquetting 114 drives sampling needle 111 to move down further, thus performs puncture test tube cap and the action of drawing sample.After suction sample completes, sampling needle briquetting 114 can throw off guide rail briquetting 104 smoothly, then drives sampling needle 111 to horizontal direction conveying sample to reaction tank position.

Sampling apparatus of the present utility model and the method for sampling are with a wide range of applications, such as, can be used for the fields such as blood cell analysis machine.

Above content is in conjunction with concrete embodiment further detailed description of the utility model, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field; without departing from the concept of the premise utility; (in such as this example, power transmission guide rail uses straight ball-guide can also to make some simple deduction or replace; can be changed into roller type linear slide rail etc.), all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. an Automatic Blood Cell Analyzer, comprise sampling apparatus, it is characterized in that: described sampling apparatus comprises frame, horizontal motion system, movement in vertical direction system, sampling component and power transmission guide rail, horizontal motion system comprises the first stepper motor, movement in vertical direction system comprises the second stepper motor, first stepper motor and the second stepper motor are fixedly mounted in frame respectively, sampling component comprises sampling needle briquetting and sampling needle, power transmission guide rail horizontal positioned and being rigidly connected soon with the guide rail pressure of movement in vertical direction system, sampling component is connected with power transmission slide, movement in vertical direction system comprises first axis of guide, sampling component comprises second axis of guide, first axis of guide and guide rail briquetting are slidably connected, second axis of guide and sampling needle briquetting are slidably connected.

2. Automatic Blood Cell Analyzer according to claim 1, is characterized in that, described horizontal motion system also comprises the first Timing Belt and horizontal guide rail; Described movement in vertical direction system also comprises the second Timing Belt, first axis of guide and guide rail briquetting, and guide rail briquetting is fixedly connected with the second Timing Belt; Described sampling component also comprises sampling component support and second axis of guide.

3. Automatic Blood Cell Analyzer according to claim 2, is characterized in that, sampling component support is fixedly connected with the first Timing Belt, and the slide block of sampling component support and horizontal guide rail is fixed; Under the driving of the first stepper motor, sampling component carries out horizontal motion under the guide effect of horizontal guide rail; The slide block of power transmission guide rail is fixedly connected with sampling needle briquetting, and under the driving of the second stepper motor, sampling needle briquetting makes movement in vertical direction along with power transmission guide rail.

4. Automatic Blood Cell Analyzer according to claim 2, is characterized in that, guide rail briquetting is fixedly connected with power transmission guide rail.

5. Automatic Blood Cell Analyzer according to claim 2, is characterized in that, sampling needle briquetting comprises guidepost, and guide rail briquetting is provided with the hole of matching with guidepost.

6. Automatic Blood Cell Analyzer according to claim 5, is characterized in that, guidepost is partial cone.

7. Automatic Blood Cell Analyzer according to claim 1, is characterized in that, also comprises optical coupled switch, and described optocoupler opens the light and is arranged in frame.

8. Automatic Blood Cell Analyzer according to claim 1, is characterized in that, sampling component support and guide rail briquetting are separately installed with optical coupled switch sensing chip.

9. Automatic Blood Cell Analyzer according to claim 1, is characterized in that, described power transmission guide rail and horizontal guide rail are parallel to each other.

10. Automatic Blood Cell Analyzer according to claim 1, is characterized in that, sampling component moves to sample bits, reaction tank position and counting chamber position in the horizontal direction successively.