CN105373763A - Identity information reading device - Google Patents

Abstract

The invention relates to an identity information reading device. The identity information reading device comprises containers with identity information, an information reading device, a conveying rack for conveying the multiple containers, container bases connected to the conveying rack, and a drive assembly for driving rotations of the container bases; each container base comprises a container clamping end and a drive end; the drive assembly comprises a motor and a clamping member driven by the motor, the clamping member is provided with a groove channel matching the drive ends, and, when each drive end moves into the groove channel and stays, the clamping member drives the corresponding drive end to rotate; and the identity information reading device further comprises a guide member for adjusting a direction of each drive end and prompting each drive end to entering the groove channel. Through utilization of mutual cooperation between the clamping member, the drive ends and the guide member, rotations of rotation devices of the container are completed, and reading of the identity information on each container is achieved; and the identity information reading device has the advantages of simple structure, low cost and the low fault rate.

Description

Identity information reading device

Technical field

The present invention relates to device for analyzing samples technical field, particularly relate to a kind of identity information reading device.

Background technology

Full-automatic sample this analysis application of installation is in biochemical analysis, immunoassay, fluoroimmunoassay equal samples analysis technical field, when detecting the content of material in whole blood, blood plasma, serum or urine equal samples, need the bar code on scanned samples container, so that the information of typing patient.Chinese patent CN201520158588.3 discloses a kind of automatic rotation bar code scan structure, comprises the driving mechanism rotating plate rail, multiple test tube clamp, the scanner head scanned the bar code on test tube and drive test tube clamp to rotate; Test tube clamp is movably arranged on and rotates on plate rail, and driving mechanism drives test tube clamp rotation, and the outside of rotating plate rail is located at by scanner head.The drive end of test tube clamp has engaged wheel, and driving mechanism comprises drive motor and driving wheel, and driving wheel is connected to the rotating shaft of drive motor, and driving wheel engages with engaged wheel.Along with rotation plate rail rotates, driving wheel needs to switch engagement between different engaged wheels, and driving wheel can only engage with the engaged wheel of single test tube clamp sometime, and therefore, drive motor is set to floating type, switches with the engagement realizing driving wheel.

Above-mentioned automatic rotation bar code scan structure does not need to adjust test tube position manually, improves the automaticity of sample tube scanning, but complex structure, cost is higher, and the many and multiple component of parts coordinates, and corresponding, failure rate also easily improves.As: rotate on the test tube clamp on plate rail and all need installation engaged wheel, to realize and the engaging of driving wheel; Further, driving wheel needs constantly to switch each engaged wheel of engagement, and in handoff procedure, the gear of driving wheel is very easily stuck with the gear of engaged wheel, and the Long-Time Service degree of wear is high, and this is high to the hardness requirement of control accuracy and gear.

Summary of the invention

Technical matters to be solved by this invention is for the above-mentioned problems in the prior art, provides that a kind of structure is simple, cost is low, stability is high, the identity information reading device of failure rate is low.

For solving the problem, a kind of technical scheme of the present invention is:

A kind of identity information reading device, comprise the information reader for reading vessel identity information, for transmit the conveyer frames of several containers, the container base be connected on conveyer frames, for driving the driven unit of container base rotation, described container base comprises container bare terminal end and drive end, described driven unit comprises motor and by motor-driven holder, holder is provided with the conduit coordinated with drive end, when drive end to move in conduit and stops, this holder drives described drive end to rotate; Described identity information reading device also comprises and impels drive end to enter the guide of conduit for adjusting drive end direction.

Preferably, described holder is arranged on the transfer path of drive end.

Preferably, the full-size of described drive end is greater than the width of conduit, and the minimum dimension of drive end is less than the width of conduit.

Preferably, described guide is arranged on the side of drive end transfer path, is provided with gap between guide and drive end.

Preferably, described guide comprises the first guide plate, and the first guide plate is arranged on the inboard limit of drive end transfer path.

Preferably, described first guide plate is arranged on the porch of conduit.

Preferably, described first guide plate is distributed on the whole transfer path of drive end, and the first guide plate is provided with the first breach towards drive end side, and described clamp parts is contained in the first breach, and holder and drive end rotate in the first breach.

Preferably, described guide also comprises the second guide plate distributed side by side with the first guide plate, second guide plate is arranged on another side of drive end transfer path, second guide plate is provided with the second breach towards the side of the first breach, described holder is contained in the port of two breach formation, and holder and drive end rotate in port.

Preferably, described identity information is embodied by bar code, radio-frequency (RF) tag, graphics carrier or colour carrier.

Preferably, curved, the annular of described conveyer frames or linear.

Be compared to prior art, conduit on holder is arranged to the part on drive end transfer path by the present invention, guide is utilized to guide drive end to enter accurately in conduit, and make holder and drive end offset when rotated, utilize holder, cooperatively interacting between drive end and guide, complete the spinning of container rotating device, realize the reading of identity information on each container, have structure simple, cost is low, the advantage of failure rate is low.

Accompanying drawing explanation

Fig. 1 is axle geodesic structure schematic diagram of the present invention.

Fig. 1-1 is the structure for amplifying schematic diagram at A place in Fig. 1.

Fig. 2 is the main TV structure schematic diagram of Fig. 1.

Fig. 3 is the axle geodesic structure schematic diagram of the another kind of state of the present invention.

Fig. 3-1 is the structure for amplifying schematic diagram at B place in Fig. 3.

Fig. 4 is the main TV structure schematic diagram of Fig. 3.

Fig. 5 is the axle geodesic structure schematic diagram of driven unit in the present invention.

Fig. 5-1 is the main TV structure schematic diagram of Fig. 5.

Fig. 5-2 is plan structure schematic diagram of Fig. 5.

Fig. 6 is the axle geodesic structure schematic diagram of container base in the present invention.

Fig. 6-1 is the left TV structure schematic diagram of Fig. 6.

Fig. 6-2 is main TV structure schematic diagram of Fig. 6.

Fig. 6-3 is structural representations of the another kind of embodiment of container base in the present invention.

Fig. 6-4 is main TV structure schematic diagram of the another kind of embodiment of container base in the present invention.

Fig. 7 is the axle geodesic structure schematic diagram that in the present invention, driven unit coordinates with guide.

Fig. 8 is the structural representation that driven unit in the present invention, guide and drive end coordinate.

Fig. 9 is the another kind of structural representation that driven unit in the present invention, guide and drive end coordinate.

Figure 10 is another structural representation that driven unit in the present invention, guide and drive end coordinate.

Figure 10-1 is a kind of mated condition schematic diagram of guide and drive end in the present invention.

Figure 10-2 is another kind of mated condition schematic diagram of guide and drive end in the present invention.

Figure 10-3 is another mated condition schematic diagram of guide and drive end in the present invention.

Figure 11 is the inner structure schematic diagram of Full-automatic chemiluminescence immunoassay analysis meter.

Figure 12 is Full-automatic chemiluminescence immunoassay analysis meter schematic diagram.

Figure 13 is the Full-automatic chemiluminescence immunoassay analysis meter removing sample storehouse side shield.

Embodiment

Further illustrate the present invention below in conjunction with drawings and Examples, but protection scope of the present invention is not limited to this.

A kind of Full-automatic chemiluminescence immunoassay analysis meter 9000, comprises sample storehouse 9300, agent bin 9400, reaction cup storage warehouse 9500 as figs 11-13, hatches storehouse 9600, clean storehouse 9700 and detect storehouse 9800.When sample to be tested carries out constituent analysis, first sample and reagent are put into sample storehouse and agent bin respectively, Full-automatic chemiluminescence immunoassay analysis meter takes out reaction cup from reaction cup storage warehouse 9500, and puts it into and hatch in storehouse.Then by preset program, sample and reagent are joined in reaction cup, start and hatch program, cleaning procedure, finally make reaction cup enter detection storehouse and complete sample component analysis.Wherein said sample storehouse comprises identity information reading device, and described agent bin comprises reagent mixing conveyer.

Wherein, identity information reading device, as Figure 1-4, comprises the information reader 4 for reading container 2 identity information and container rotating device.When container rotating device drives container spinning, in container rotation process, read identity information on container 2 to identify this container by information reader 4.Information reader 4 and container rotating device control by controller, and controller controls container rotating device and transmits container 2, and completes the rotation of container 2 at ad-hoc location, and the reader of control information simultaneously 4 reads the identity information on container 2 and stores.The container 2 that information reader 4 is provided with identity information for reading several.Preferably, described identity information is embodied by bar code, radio-frequency (RF) tag, graphics carrier or colour carrier.Wherein, bar code can be the information identifier such as one-dimensional bar code, Quick Response Code.Preferably, described container 2 is test tube, reagent bottle or beverage bottle.

A kind of container rotating device, as Fig. 1,1-1,2,3, shown in 3-1 and 4, comprising the conveyer frames 6 for transmitting several containers 2, being connected to container base 8 on conveyer frames 6 and for driving the driven unit 10 of container base 8 rotation, container base 8 comprises container bare terminal end 802 and drive end 804, driven unit 10 comprises motor 102 and by motor-driven holder 104, holder 104 is provided with the conduit 106 coordinated with drive end 804, when drive end 804 to move in conduit 106 and stops, this holder 104 drives described drive end 804 to rotate; Described rotating device also comprises and impels drive end 806 to enter the guide of conduit 106 for adjusting drive end 804 direction.Bare terminal end 802 is for holding vessels, and keep container 2 to be firmly connected in container base 8, drive end 804 rotates for driving bare terminal end 802 under the cooperation of driven unit 10.Holder 104 is by motor 102 Direct driver, and as holder 104 is connected directly between on the output shaft of 102 of motor, or holder 104 is driven indirectly by motor 102, as holder 104 is connected with motor by rotating shaft or bearing.Preferably, curved, the annular of conveyer frames 6 or linear.Be described in detail for annular for conveyer frames 6 in Fig. 1-4.

Wherein, the motion of conveyer frames 6 and driven unit 10 is controlled by controller, under the control of the controller, transmit container base 8 one by one by conveyer frames 6, when container base 8 moves to the position of holder 104, namely drive end 804 moves in conduit 106, controller controls conveyer frames 6 to be stopped, drive end 804 is rested in conduit 106, and controls motor 102 and drive holder 104 to rotate, drive container bottom 8 rotation by holder 104.With reference to Fig. 3,3-1 and 4, drive end 804 moves on transfer path, conduit 106 is not entered near the porch of conduit 106, now, conveyer frames 6 continues motion, when drive end 804 enters into conduit 106, conveyer frames 6 stop motion, drive end 804 rests in conduit 106, with reference to Fig. 1,1-1 and 2, now controls motor 102 and drives holder 104 to rotate.Conduit 106 on holder 104 when rotated, is arranged to the part on drive end 804 transfer path by container rotating device, namely conduit 106 at drive end 804 must on path, structure is simple, and cost is low.The structure of holder 104 and drive end 804 is without the need to meticulous especially, but need the interworking between holder 104 and drive end 804 to close, holder 104 forms conduit 106 and can offset with drive end 804 when rotated, just can complete the function of rotation, trickle wearing and tearing etc. all can not impact the stability of rotating device and effect.

One as container rotating device is preferred, and with reference to Fig. 1-4, described holder 104 is arranged on the transfer path of drive end 804.The transfer path of drive end 804 is determined by the shape of conveyer frames 6, if conveyer frames is annular, then the transfer path of drive end is also annular, by that analogy.Holder 104 is directly installed on the transfer path of drive end 804, namely the position of conduit 106 is arranged on the transfer path of drive end 804, being convenient to drive end 804 moves in holder 104, structure is simple, certainly, holder 104 also can, by other Component driver, make holder 104 move on the transfer path of drive end, as rising or translation etc., be also to realize object of the present invention.

One as container rotating device is preferred, with reference to Fig. 5,5-1 and 5-2, described holder 104 comprises base plate 112 and is distributed in the first double wall 108 of base plate 112 both ends of the surface and the passage between the second double wall 110, first double wall 108 and the second double wall 110 is conduit 106.The structure of conduit 106 can be arranged as required, and conduit 106 needs to coordinate with drive end, drive end can be moved in conduit along transfer path, and drive end can be driven to rotate by holder.As further preferred, holder 104 is in cylindrical shape, and conduit 106 is arranged on cylindrical top.As further preferred, the porch of conduit 106 and exit opposite intermediate portions open wide.Facilitate drive end to enter, the effect of guiding can be played.

One as container rotating device is preferred, and the full-size of described drive end 804 is greater than the width of conduit 106, and the minimum dimension of drive end 804 is less than the width of conduit 106.The full-size of drive end 804 is the full-size of drive end xsect, minimum dimension refers to the minimum dimension of drive end xsect, take drive end as rectangular parallelepiped be example, the diagonal line of rectangular parallelepiped xsect is full-size, the wide of xsect is minimum dimension, if drive end is irregularly shaped, then get full-size and the minimum dimension of drive end 804 maximum cross section.The minimum dimension of drive end 804 is less than the width of conduit 106, make drive end 804 can move in conduit 106 along transfer path, otherwise, drive end 804 can be stopped by holder and not enter in conduit 106, and the full-size of drive end 804 is greater than the width of conduit 106, when holder rotates, drive end and holder are offseted, drive end can be driven to rotate, avoid holder sky and rotate, and can not offset with drive end.

One as container rotating device is preferred, and with reference to Fig. 6,6-1 and 6-2, described drive end 804 is a block, and block is rectangular-shaped.The shape of drive end 804 can be arranged as required, can coordinate with the conduit 106 of holder 104, and drive end 804 can be moved in conduit 106 along transfer path, and drive end 804 can be driven to rotate by holder 104.With reference to Fig. 6-3 and 6-4, as a kind of embodiment, drive end 804 is a block, and block is rectangular-shaped, is provided with two rectangular parallelepiped projections 814, realizes container time rotational in the bottom of block, needs the conduit on holder to match with this drive end.Preferably, two of described drive end 804 relative sides are smooth curved surface.Two opposite flanks refer to that drive end enters the entering surface of conduit 106 and the another side in this face relatively, and smooth curved surface makes drive end 804 more easily enter in conduit 106, can also play guide effect when entering.The one side that drive end 804 is connected with container base 8 is end face, and drive end 804 is provided with a spigot surface, and spigot surface is used for coordinating with guide, makes the direction that drive end keeps certain.Preferably, described bare terminal end 802 is the hollow o cylindrical body of one end open.Preferably, the inside surface of described body bottom portion is hemispherical curved surface.Preferably, described body bottom portion is provided with through hole.

One as container rotating device is preferred, with reference to Fig. 6,6-1 and 6-2, is provided with the guide rail 806 for being arranged on by container base 8 on conveyer frames between bare terminal end 802 and drive end 804.Preferably, described guide rail 806 comprises the first annular flange flange 808 and the second annular flange flange 810, first annular flange flange 808 and the second annular flange flange 810 axially spaced-apart and distributes, the annular groove 812 that the first annular flange flange 808 and the second annular flange flange 810 are formed.With reference to Fig. 6-4, during installation, conveyer frames 6 part extends in annular groove 812, and the first annular flange flange 808 and the second annular flange flange 810 are separately positioned on the both sides up and down of conveyer frames 6, and offset with conveyer frames 6, avoid container base 8 to be separated from conveyer frames 6.Guide rail 806 and conveyer frames 6 leave gap between installing, this gap for realizing the rotation of the relative conveyer frames of container base, to reduce resistance between the two.Preferably, the upper end face of described drive end 804 be fixedly connected with guide rail 806 or drive end 804 one-body molded with guide rail 806.

With reference to Fig. 7-8, described guide, for adjusting the direction of drive end, makes the longitudinal profile of drive end and guide be in predetermined angle.Drive end 804 is spigot surface towards the one side of guide, the longitudinal profile of drive end is parallel with spigot surface, if guide is the shape of rule, then with the face at guide sidewall place tolerance predetermined angle, if guide is irregularly shaped, then measure predetermined angle to guide sidewall apart from the tangent line of the shortest point with drive end longitudinal profile.Predetermined angle is for ensureing that drive end 804 can enter conduit 106 smoothly, and can not be stopped by holder 104, also allow drive end 804 under the guiding of guide, can rotation by a small margin in this angle, the rotation exceeding this predetermined angle can be stoped by guide.

One as guide is preferred, and described guide is arranged on the side of drive end 804 transfer path, is provided with gap between guide and drive end.When drive end 804 moves along transfer path and guide clearance fit, the gap between guide and drive end makes drive end can counter-guide motion, reduces frictional resistance between the two.

One as guide is preferred, and with reference to Fig. 7-8, described guide comprises the inboard limit that the first guide plate 12, first guide plate 12 is arranged on drive end 804 transfer path.The inboard limit of transfer path is generally the position at approaching device center, and the outer side edges of transfer path is generally the position away from device center, if conveyer frames 6 is annular, then annular is inboard limit near circle centre position.First guide plate 12 has a sidewall 1202, and this sidewall 1202 is relative with the spigot surface of drive end 804, clearance fit between the two.

One as the first guide plate is preferred, with reference to Fig. 8, described first guide plate 12 is distributed on the whole transfer path of drive end, first guide plate is provided with the first breach 1204 towards drive end side, described holder 104 is partially received in the first breach 1204, and holder 104 and drive end 804 rotate in the first breach 1204.The shape of the first guide plate 12 follows the shape of drive end transfer path, be annular is here example with conveyer frames, and the first breach 1204 is the depressed part on the first guide plate 12, and drive end 804 can rotate in the first breach 1204.Preferably, curved, the annular of described first guide plate 12 or linear.

Preferably, with reference to Fig. 9, described guide also comprises the second guide plate 14 distributed side by side with the first guide plate 12, second guide plate 14 is arranged on another side of drive end 804 transfer path, second guide plate 14 is provided with the second breach 1402 towards the side of the first breach 1204, described holder 104 is contained in the port of two breach formation, and holder 104 and drive end 804 rotate in port.The i.e. transfer path being spaced apart drive end 804 that formed of the first guide plate 12 and the second guide plate 14, drive end 804 transmits in the interval of the first guide plate 12 and the second guide plate 14.First breach 1204 and the second breach 1402 also can not be established, and the guide plate at the first breach 1204 and the second breach 1402 place directly disconnects also can.Preferably, described first breach 1204 is in arc-shaped.Second breach 1402 also in arc-shaped, facilitates entering of drive end 804.Preferably, described first guide plate 12 is provided with several mounting holes, mounting hole is connected with some support columns 1206.

One as the first guide plate is preferred, and with reference to Figure 10, described first guide plate 12 is arranged on the porch of conduit 106.First guide plate 12 is a bit of on transfer path, and the first guide plate 12 entirety can be arcuation or strip.When drive end 804 moves near the first guide plate 12, due to the stop of the first guide plate 12, position adjustment is carried out to drive end 804, make the longitudinal profile of drive end and guide be in predetermined angle.When drive end 804 moves near the first guide plate 12, the direction in drive end 804 longitudinal profile and the angle of the first guide plate 12 may be 0 degree, acute angle, right angle or obtuse angle, and various angle is all adjusted to predetermined angle by the first guide plate 12.As shown in Figure 10-1,10-2 and 10-3, when angle is acute angle, right angle or obtuse angle, the first guide plate 12 offsets with the upper end of drive end 804, and the upper end of drive end 804 is stressed, rotates between drive end up time, and drive end enters the first guide plate 12 region; When angle is 0 degree, drive end 804 directly enters the first guide plate 12 region.Preferably, the first guide plate 12 is provided with one domatic away from conduit 106 one end.Domaticly provide guiding for entering the first guide plate 12 region to drive end.Preferably, described first guide plate 12 extends to the exit of conduit 106 by the porch of conduit 106.Namely do not establish the first guide plate 12 at holder 104 place, be convenient to the rotation of drive end 804 at clip position.

A kind of container, from shifting method, comprises the steps:

A) a kind of container spinning device is provided, described container spinning device comprises conveyer frames 6 for transmitting several containers 2, be connected to container base 8 on conveyer frames 6 and for driving the driven unit 10 of container base 8 rotation, container base 8 comprises container bare terminal end 802 and drive end 804, driven unit 10 comprises motor 102 and by motor-driven holder 104, holder 104 is provided with the conduit 106 coordinated with drive end 804, when drive end 804 to move in conduit 106 and stops, this holder 104 drives described drive end 804 to rotate;

B) rested on by holder 104 on the transfer path of drive end 804, the position of retaining clip gripping member 104 makes drive end 804 can enter conduit 106;

C) control conveyer frames 6 to start to transmit container 2, when drive end 804 moves in the conduit 106 of holder 104, control conveyer frames 6 and stop transmitting, make drive end 804 stop in the channel; As shown in Figure 1-2;

D) motor 102 drives holder 104 to rotate, and holder 104 offsets with drive end 804 and coordinates, and holder 104 drives drive end 804 rotation, thus drives container base 8 rotation;

E) motor 102 controls holder 104 and stops the rotation, and during stopping, the position of retaining clip gripping member 104 makes drive end 804 can leave conduit 106 along transfer path;

F) step c-e is repeated.

By said vesse from shifting method, container can be realized and transmit one by one, rotation one by one.Wherein, step a) in container spinning device comprise the combination being mentioned to various technical scheme above.The present invention utilizes container rotating device to realize the rotation of container and the reading of identity information and identification.

Claims (10)

1. an identity information reading device, comprise the information reader for reading vessel identity information, for transmit the conveyer frames of several containers, the container base be connected on conveyer frames, for driving the driven unit of container base rotation, described container base comprises container bare terminal end and drive end, it is characterized in that

Described driven unit comprises motor and by motor-driven holder, holder is provided with the conduit coordinated with drive end, and when drive end to move in conduit and stops, this holder drives described drive end to rotate;

Described identity information reading device also comprises and impels drive end to enter the guide of conduit for adjusting drive end direction.

2. identity information reading device according to claim 1, is characterized in that, described holder is arranged on the transfer path of drive end.

3. identity information reading device according to claim 1, is characterized in that, the full-size of described drive end is greater than the width of conduit, and the minimum dimension of drive end is less than the width of conduit.

4. identity information reading device according to claim 1, is characterized in that, described guide is arranged on the side of drive end transfer path, is provided with gap between guide and drive end.

5. identity information reading device according to claim 4, is characterized in that, described guide comprises the first guide plate, and the first guide plate is arranged on the inboard limit of drive end transfer path.

6. identity information reading device according to claim 5, is characterized in that, described first guide plate is arranged on the porch of conduit.

7. identity information reading device according to claim 5, it is characterized in that, described first guide plate is distributed on the whole transfer path of drive end, first guide plate is provided with the first breach towards drive end side, described clamp parts is contained in the first breach, and holder and drive end rotate in the first breach.

8. identity information reading device according to claim 7, it is characterized in that, described guide also comprises the second guide plate distributed side by side with the first guide plate, second guide plate is arranged on another side of drive end transfer path, second guide plate is provided with the second breach towards the side of the first breach, described holder is contained in the port of two breach formation, and holder and drive end rotate in port.

9. identity information reading device according to claim 1, is characterized in that, described identity information is embodied by bar code, radio-frequency (RF) tag, graphics carrier or colour carrier.

10. identity information reading device according to claim 1, is characterized in that, described conveyer frames is curved, annular or linear.