CN104865375B - The method and device of position is measured in the debugging of reaction cup - Google Patents

Abstract

The method and device of position is measured in the debugging that the invention discloses a kind of reaction cup, the debugging of described reaction cup is measured the method for position and is comprised the following steps: when reaction cup moves to region to be measured, signal receiving device receives the optical signal launched from sender unit, and by described optical signal transmission to processor；Described processor determines the sidewall locations of described reaction cup according to described optical signal；Described processor determines the data collection zone of described reaction cup according to the sidewall locations of described reaction cup.The present invention determines the sidewall locations of described reaction cup by described optical signal, the data collection zone of described reaction cup is determined further according to described sidewall locations, so, the position of the described data collection zone determined according to described sidewall locations is more accurate, the selection of data collection zone will not be affected because each reaction cup there is geometric error, and then cumulative error will not be produced, measurement result is more accurate.

Description

The method and device of position is measured in the debugging of reaction cup

Technical field

The present invention relates to biochemical analysis technical field, the method and device of position is measured in the debugging particularly relating to reaction cup.

Background technology

nullAt present，Domestic biochemistry analyzer uses coding disk to synchronize to identify that reaction cup is tested，Namely determined starting point by primary response cup，The position of test is offside precisely the closer to the middle part of reaction cup，Distance between each two reaction cup is certain，Thus after determining starting point，Stroke is constant，But，Owing to reaction cup is difficult to the geometric error avoided，And current biochemistry analyzer does bigger and bigger reaction cup quantity and gets more and more，When reaching some of reaction cup，Can there is problems in that multiple reaction cup is placed on the fixing seat of coding disk，Fixing seat by coding disk identifies that primary response cup is to determine starting point，Next reaction cup is identified further according to the distance between each two reaction cup，Because each reaction cup exists geometric error，Thus the error of accumulation can be increasing，Measurement point is even made to fall the edge of reaction cup，Measurement result produces big fluctuation，Badly influence the accuracy of measured value.

Summary of the invention

The reaction cup that present invention is primarily targeted at solution biochemical reaction instrument measures the selected of position, improves the stability of measured value.

For achieving the above object, the method that position is measured in the debugging of a kind of reaction cup that the present invention provides, the method for the debugging measurement position of described reaction cup comprises the following steps:

When reaction cup moves to region to be measured, signal receiving device receives the optical signal launched from sender unit, and by described optical signal transmission to processor；

Described processor determines the sidewall locations of described reaction cup according to described optical signal；

Described processor determines the data collection zone of described reaction cup according to the sidewall locations of described reaction cup.

Preferably, described processor determines that according to described optical signal the step of sidewall locations of described reaction cup includes:

Calculate the intensity level of the described optical signal changing value in setting cycle；

Described changing value is compared with setting value；

When described changing value is more than described setting value, it is determined that described optical signal is through the sidewall locations that position is described reaction cup of described reaction cup.

Preferably, when reaction cup moves to region to be measured, signal receiving device receives the optical signal launched from sender unit, and also includes before the step of described optical signal transmission to processor:

Obtain the distance between the data collection zone of described reaction cup and the sidewall of described reaction cup, and by described Distance Transmission to described processor；

Sidewall locations according to described reaction cup determines that the step of the data collection zone of described reaction cup includes:

Described processor determines the data collection zone of described reaction cup according to the sidewall locations of described distance and corresponding reaction cup.

Preferably, described data collection zone is the central area of described reaction cup.

Preferably, when reaction cup moves to region to be measured, signal receiving device receives the optical signal launched from sender unit, and by while the step of described optical signal transmission to processor, also includes:

When reaction cup moves to region to be measured, signal receiving device receives the pulse signal launched from sender unit, and by described pulse signal transmission to described processor；

Include after the step that sidewall locations according to described reaction cup determines the data collection zone of described reaction cup:

Described processor according to described data collection zone and described pulse signal, obtains the compositional data of determinand in described reaction cup.

The present invention also provides for the debugging of a kind of reaction cup and measures location means, and the debugging of described reaction cup is measured location means and included reaction cup, coding disk, rotating disk, sender unit, signal receiving device, processor:

Described reaction cup is placed on described coding disk, and described coding disk is fixed on described rotating disk；

Described discharger and described reception device split and the both sides in described region to be measured, described sender unit is used for launching optical signal, described signal receiving device receives the optical signal launched from sender unit, and by described optical signal transmission to described processor；

Described processor for determining the sidewall locations of described reaction cup according to described optical signal, and the sidewall locations of described reaction cup determines the data collection zone of described reaction cup.

Preferably, described processor includes computing module and judge module:

Described computing module, is used for the intensity level calculating described optical signal changing value in setting cycle；

Described judge module, for comparing described changing value with setting value, when described changing value is more than described setting value, it is determined that described optical signal is through the sidewall locations that position is described reaction cup of described reaction cup.

Preferably, described processor also includes acquisition module and metering module:

Described acquisition module, for obtaining the distance between the data collection zone of described reaction cup and the sidewall of described reaction cup；

Described metering module, for determining the data collection zone of described reaction cup according to the sidewall locations of described distance and corresponding reaction cup.

Preferably, described data collection zone is the central area of described reaction cup.

Preferably, described sender unit is additionally operable to launch described pulse signal；

Described signal receiving device is additionally operable to receive described pulse signal, and by described pulse signal transmission to described processor；

Described processor also includes data processing module；

Described data processing module, for according to described data collection zone and described pulse signal, obtains the compositional data of determinand in described reaction cup.

The method and device of position is measured in the debugging of a kind of reaction cup that the present invention provides, and the debugging of described reaction cup is measured the method for position and comprised the following steps:

When reaction cup moves to region to be measured, signal receiving device receives the optical signal launched from sender unit, and by described optical signal transmission to processor；

Described processor determines the sidewall locations of described reaction cup according to described optical signal；

Described processor determines the data collection zone of described reaction cup according to the sidewall locations of described reaction cup.

The present invention determines the sidewall locations of described reaction cup by described optical signal, the data collection zone of described reaction cup is determined further according to described sidewall locations, so, the position of the described data collection zone determined according to described sidewall locations is more accurate, the selection of data collection zone will not be affected because each reaction cup there is geometric error, and then cumulative error will not be produced, measurement result is more accurate.

Accompanying drawing explanation

Fig. 1 is the structure chart of an embodiment of the device of the debugging measurement position of a kind of reaction cup of the present invention；

Fig. 2 is sender unit and the signal receiving device schematic diagram of the device of the debugging measurement position of the reaction cup shown in Fig. 1；

Fig. 3 is sender unit and the schematic diagram of signal receiving device in Fig. 2；

Fig. 4 is the part-structure schematic diagram of the device of the debugging measurement position of the reaction cup in Fig. 1；

Fig. 5 is the high-level schematic functional block diagram of the processor of the device of the debugging measurement position of a kind of reaction cup of the present invention.

Fig. 6 is the schematic flow sheet of an embodiment of the debugging measurement position of a kind of reaction cup of the present invention；

Fig. 7 is the refinement schematic flow sheet of an embodiment of step S20 in Fig. 6；

Fig. 8 is the schematic flow sheet obtaining data collection zone in Fig. 6；

Fig. 9 is the schematic flow sheet obtaining determinand composition.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further referring to the drawings.

Detailed description of the invention

The device 100 of position is measured in the debugging of a kind of reaction cup that the present invention provides.

The structure chart of an embodiment of the device of position is measured referring to figs. 1 through the debugging that Fig. 5, Fig. 1 are a kind of reaction cup of the present invention；Fig. 2 is sender unit and the signal receiving device schematic diagram of the device of the debugging measurement position of the reaction cup shown in Fig. 1；Fig. 3 is sender unit and the schematic diagram of signal receiving device in Fig. 2；Fig. 4 is the part-structure schematic diagram of the device of the debugging measurement position of the reaction cup in Fig. 1, and Fig. 5 is the high-level schematic functional block diagram of the processor of the device of the debugging measurement position of a kind of reaction cup of the present invention.

The debugging of described reaction cup is measured location means 100 and is included reaction cup 1, coding disk 2, rotating disk 3, sender unit 4, signal receiving device 5, processor 6.Described reaction cup 1 is placed on described coding disk 2, described coding disk 2 is fixed on described rotating disk 3, described sender unit 4 splits and the both sides of region to be measured (sign) with described signal receiving device 5, described sender unit 4 is used for launching optical signal, described signal receiving device 5 receives the optical signal launched from sender unit 4, and by described optical signal transmission to described processor 6.

Concrete, it can be to rotate that described reaction cup 1 moves to the mode in described region to be measured, i.e. reaction cup 1 is arranged on described coding disk 2 (described coding disk 2 is mainly used in distinguishing the kind of the internal solution of described reaction cup 1, the described reaction cup 1 of multiple built-in same solution is had on one described coding disk 2, each described coding disk 2 is provided with on the fixing seat 2a of accommodating described reaction cup 1) on, described region to be measured is turned to by described rotating disk 3, this advantage adds survey for circulating, one crawler belt can certainly be set, reaction Cup 1, via crawler-tread to region to be measured, is only two kinds of embodiments of the present invention both this, other the mode that described reaction cup 1 is sent to region to be measured is the most within the scope of the present invention.nullDescribed sender unit 4 can be optical signal detector，It can also be other emitter，The corresponding described sender unit 4 of described signal receiving device 5 is located at the both sides in described region to be measured，Referring in particular to Fig. 3，The light that described sender unit 4 sends is through lens 7a，Through described reaction cup 1，It is then passed through lens 7b，Received by described signal receiving device 5，Namely described reaction cup 1 is region to be measured through the zone line of described sender unit 4 with described signal receiving device 5，Described signal receiving device 5 receives transmission extremely described processor 6 after the optical signal that described signal generation apparatus is launched，Described processor 6 is the central controller of the device 100 of the debugging measurement position of described reaction cup，Control the operating of the device 100 of the debugging measurement position of described reaction cup，The speed of operating is adjustable.

Described processor 6, for determining the sidewall locations of described reaction cup 1 according to described optical signal, determines the data collection zone of described reaction cup 1 according to the sidewall locations of described reaction cup 1.

Concrete, after described processor 6 receives described optical signal, determine the position of the sidewall of described reaction cup 1, the data collection zone of described reaction cup 1 can be determined according to the sidewall locations of the described reaction cup 1 determined.So, the position of the described data collection zone determined according to described sidewall locations according to described processor 6 can be more accurate, will not affect the selection of data collection zone because each reaction cup 1 there is geometric error, and then will not produce cumulative error, measurement result is more accurate.

In the present embodiment, described processor 6 includes computing module 61 and judge module 62.

Described computing module 61, is used for the intensity level calculating described optical signal changing value in setting cycle.

Concrete, after described optical signal launch, signal intensity before contrasting without reaction cup 1 wall of cup after the wall of cup of described reaction cup 1 has a changing value, it is specially a pad value, described setting cycle specially signal is transmitted into signal and receives and arrive signal again and launch the interval value (certainly accurately can also be for multiple interval values for measuring and calculating) received with signal, the changing value of calculating signal strength values in setting cycle.

Described judge module 62, for comparing described changing value with setting value, when described changing value is more than described setting value, it is determined that described optical signal is through the sidewall locations that position is described reaction cup 1 of described reaction cup 1.

Concrete, described optical signal is not in contact with during to the wall of cup of described reaction cup 1, a setting value is had in setting cycle, described setting value is the normal fluctuation value of described optical signal, the value of the two is compared, when described changing value is more than described setting value, i.e. judges the described optical signal wall of cup through described reaction cup 1, and position herein is the position of described reaction cup 1 wall of cup.

In the present embodiment, described processor 6 also includes acquisition module 63 and metering module 64.

Described acquisition module 63, the distance between data collection zone and the sidewall of described reaction cup 1 obtaining described reaction cup 1.The most described data collection zone is the region gathering data, it is noted that the described distance between sidewall and the described data collection zone of described reaction cup 1 is definite value, and this definite value is given value.

Described metering module 64, for determining the data collection zone of described reaction cup 1 according to the sidewall locations of described distance and corresponding reaction cup 1.The wall of cup of the most described reaction cup 1 moves the length of described definite value again, is described data collection zone, it should be appreciated that the movement velocity of described reaction cup 1 is adjustable.

In the present embodiment, described data collection zone is the central area of described reaction cup 1.

Concrete, described reaction cup 1 is generally pylindrical, the most also includes other shapes.The concentration of the reactant at the middle part of described reaction cup 1 is the optimum measuring point of described reaction cup 1, thus the central area that described data collection zone is described reaction cup 1.Described distance between sidewall and the middle part of the most described reaction cup 1 is definite value, and the wall of cup being described reaction cup 1 moves the length of described definite value again, and the central area i.e. moving to described reaction cup 1 is described data collection zone.

In the present embodiment, described sender unit 44 is additionally operable to launch described pulse signal；

Concrete, when reaction cup 1 moves to region to be measured, described signal receiving device 5 receives the optical signal launched from sender unit 4, and by while described optical signal transmission to processor 6, described sender unit 4 also launches pulse signal, described pulse signal is mainly used in gathering the response data in reaction cup 1, and described pulse signal is continuous signal.

Described signal receiving device 5 is additionally operable to receive described pulse signal, and by described pulse signal transmission to described processor 6.

Concrete, when reaction cup 1 moves to region to be measured, signal receiving device 5 receives the pulse signal launched from sender unit 4, and by described pulse signal transmission to described processor 6, described signal pulse can be stored by described processor 6.

Described processor 6 also includes data processing module 65, and described processor 6 according to described data collection zone and described pulse signal, obtains the compositional data of determinand in described reaction cup 1.

Concrete, determine the data collection zone of described reaction cup 1 according to the sidewall locations of described reaction cup 1 after, described processor 6 according to described data collection zone and described pulse signal, obtains the compositional data of determinand in described reaction cup 1.Namely according to the pulse signal in described data collection zone, carry out the compositional data of determinand in analytical reactions cup 1.

The present invention also provides for the method that position is measured in the debugging of a kind of reaction cup, measures the schematic flow sheet of an embodiment of position referring in particular to the debugging that Fig. 6 to Fig. 9, Fig. 6 are a kind of reaction cup of the present invention；Fig. 7 is the refinement schematic flow sheet of an embodiment of step S20 in Fig. 6；Fig. 8 is the schematic flow sheet obtaining data collection zone in Fig. 6；Fig. 9 is the schematic flow sheet obtaining determinand composition.

The debugging of described reaction cup is measured the method for position and is included:

Step S10, when reaction cup 1 moves to region to be measured, described signal receiving device 5 receives the optical signal launched from sender unit 4, and by described optical signal transmission to processor 6；

Concrete, it can be to rotate that described reaction cup 1 moves to the mode in described region to be measured, i.e. reaction cup 1 is arranged on described coding disk 2 (described coding disk 2 is mainly used in distinguishing the kind of the internal solution of described reaction cup 1, the described reaction cup 1 of multiple built-in same solution is had on one described coding disk 2, , each described coding disk 2 be provided with accommodating described reaction cup 1 fixing seat 2a on) on, described region to be measured is turned to by described rotating disk 3, this advantage adds survey for circulating, one crawler belt can certainly be set, reaction cup 1 is via crawler-tread to region to be measured, two kinds of embodiments of the present invention it are only both this, other the mode that described reaction cup 1 is sent to region to be measured is the most within the scope of the present invention.nullDescribed sender unit 4 can be optical signal detector，It can also be other emitter，The corresponding described sender unit 4 of described signal receiving device 5 is located at the both sides in described region to be measured，Referring in particular to Fig. 3，The light that described sender unit 4 sends is through lens 7a，Through described reaction cup 1，It is then passed through lens 7b，Received by described signal receiving device 5，Namely described reaction cup 1 is region to be measured through the zone line of described sender unit 4 with described signal receiving device 5，Described signal receiving device 5 receives transmission extremely described processor 6 after the optical signal that described signal generation apparatus is launched，Described processor 6 is the central controller of the device 100 of the debugging measurement position of described reaction cup，Control the operating of the device 100 of the debugging measurement position of described reaction cup，The speed of operating is adjustable.

Step S20, described processor 6 determines the sidewall locations of described reaction cup 1 according to described optical signal；

Concrete, after described processor 6 receives described optical signal, determine the position of the sidewall of described reaction cup 1.

Step S30, described processor 6 determines the data collection zone of described reaction cup 1 according to the sidewall locations of described reaction cup 1；

Concrete, the data collection zone of described reaction cup 1 is determined according to the sidewall locations of the described reaction cup 1 determined.So, the position of the described data collection zone determined according to described sidewall locations according to described processor 6 can be more accurate, will not affect the selection of data collection zone because each reaction cup 1 there is geometric error, and then will not produce cumulative error, measurement result is more accurate.

In the present embodiment, referring in particular to Fig. 6, described processor 6 determines that according to described optical signal step S20 of the sidewall locations of described reaction cup 1 includes:

Step S21, calculates the intensity level of the described optical signal changing value in setting cycle.

Concrete, after described optical signal launch, signal intensity before contrasting without reaction cup 1 wall of cup after the wall of cup of described reaction cup 1 has a changing value, it is specially a pad value, described setting cycle specially signal is transmitted into signal and receives and arrive signal again and launch the interval value (certainly accurately can also be for multiple interval values for measuring and calculating) received with signal, the changing value of calculating signal strength values in setting cycle.

Step S22, compares described changing value with setting value；

Described optical signal, not in contact with during to the wall of cup of described reaction cup 1, has a setting value in setting cycle, and described setting value is the normal fluctuation value of described optical signal, the value of the two is compared.

Step S23, when described changing value is more than described setting value, it is determined that described optical signal is through the sidewall locations that position is described reaction cup 1 of described reaction cup 1.

Concrete, when described changing value is more than described setting value, i.e. judges the described optical signal wall of cup through described reaction cup 1, and position herein is the position of described reaction cup 1 wall of cup.

In the present embodiment, when reaction cup 1 moves to region to be measured, signal receiving device 5 receives the optical signal launched from sender unit 4, and also includes before step S10 of described optical signal transmission to processor 6:

Step S01, obtains the distance between data collection zone and the sidewall of described reaction cup 1 of described reaction cup 1, and by described Distance Transmission to described processor 6；

Concrete, described data collection zone is the region gathering data, it is noted that the described distance between sidewall and the described data collection zone of described reaction cup 1 is definite value, and this definite value is given value.

Sidewall locations according to described reaction cup 1 determines that step S30 of the data collection zone of described reaction cup 1 includes:

Step S31, described processor 6 determines the data collection zone of described reaction cup 1 according to the sidewall locations of described distance and corresponding reaction cup 1.

Concrete, the wall of cup of described reaction cup 1 moves the length of described definite value again, is described data collection zone, it should be appreciated that the movement velocity of described reaction cup 1 is adjustable.

In the present embodiment, described data collection zone is the central area of described reaction cup 1.

Concrete, described reaction cup 1 is generally pylindrical, the most also includes other shapes.The concentration of the reactant at the middle part of described reaction cup 1 is the optimum measuring point of described reaction cup 1, thus the central area that described data collection zone is described reaction cup 1.Described distance between sidewall and the middle part of the most described reaction cup 1 is definite value, and the wall of cup being described reaction cup 1 moves the length of described definite value again, and the central area i.e. moving to described reaction cup 1 is described data collection zone.

In the present embodiment, when reaction cup 1 moves to region to be measured, signal receiving device 5 receives the optical signal launched from sender unit 4, and by while step S10 of described optical signal transmission to processor 6, also includes:

Step S11, when reaction cup 1 moves to region to be measured, signal receiving device 5 receives the pulse signal launched from sender unit 4, and by described pulse signal transmission to described processor 6；

Concrete, when reaction cup 1 moves to region to be measured, described signal receiving device 5 receives the optical signal launched from sender unit 4, and by while described optical signal transmission to processor 6, described sender unit 4 also launches pulse signal, described pulse signal is mainly used in gathering the response data in reaction cup 1, and described pulse signal is continuous signal.When reaction cup 1 moves to region to be measured, signal receiving device 5 receives the pulse signal launched from sender unit 4, and by described pulse signal transmission to described processor 6, all of described signal pulse can be stored by described processor 6.

Sidewall locations according to described reaction cup 1 determines step S31 of the data collection zone of described reaction cup 1, includes afterwards:

Step S32, described processor 6 according to described data collection zone and described pulse signal, obtains the compositional data of determinand in described reaction cup 1.

Concrete, after sidewall locations according to described reaction cup 1 determines the data collection zone of described reaction cup 1, described processor 6 is according to described data collection zone and described pulse signal, obtain the compositional data of determinand in described reaction cup 1, namely according to the pulse signal in described data collection zone, carry out the compositional data of determinand in analytical reactions cup 1.

In sum, the present invention determines the sidewall locations of described reaction cup 1 by described optical signal, the data collection zone of described reaction cup 1 is determined further according to described sidewall locations, so, the position of the described data collection zone determined according to described sidewall locations is more accurate, will not affect the selection of data collection zone because each reaction cup 1 there is geometric error, and then will not produce cumulative error, measurement result is more accurate.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every equivalent structure utilizing description of the invention and accompanying drawing content to be made or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in the scope of patent protection of the present invention.

Claims (8)

1. the method that position is measured in the debugging of a reaction cup, it is characterised in that the debugging of described reaction cup The method measuring position comprises the following steps:

When reaction cup moves to region to be measured, signal receiving device receives to be launched from sender unit Optical signal, and by described optical signal transmission to processor；

Calculate the intensity level of the described optical signal changing value in setting cycle；

Described changing value is compared with setting value；

When described changing value is more than described setting value, it is determined that described optical signal is through the position of described reaction cup Sidewall locations for described reaction cup；

Described processor determines the data collection zone of described reaction cup according to the sidewall locations of described reaction cup.

2. the method that position is measured in the debugging of reaction cup as claimed in claim 1, it is characterised in that when When reaction cup moves to region to be measured, signal receiving device receives the light letter launched from sender unit Number, and also included before the step of described optical signal transmission to processor:

Obtain the distance between the data collection zone of described reaction cup and the sidewall of described reaction cup, and by institute State Distance Transmission to described processor；

Sidewall locations according to described reaction cup determines that the step of the data collection zone of described reaction cup includes:

Described processor determines described reaction cup according to the sidewall locations of described distance and corresponding reaction cup Data collection zone.

3. the method that position is measured in the debugging of reaction cup as claimed in claim 1, it is characterised in that institute State the central area that data collection zone is described reaction cup.

4. the method that position is measured in the debugging of reaction cup as claimed in claim 1, it is characterised in that when When reaction cup moves to region to be measured, signal receiving device receives the light letter launched from sender unit Number, and by while the step of described optical signal transmission to processor, also include:

When reaction cup moves to region to be measured, signal receiving device receives to be launched from sender unit Pulse signal, and by described pulse signal transmission to described processor；

Wrap after the step that sidewall locations according to described reaction cup determines the data collection zone of described reaction cup Include:

Described processor, according to described data collection zone and described pulse signal, obtains in described reaction cup The compositional data of determinand.

5. the device of position is measured in the debugging of a reaction cup, it is characterised in that the debugging of described reaction cup Measure location means and include reaction cup, coding disk, rotating disk, sender unit, signal receiving device, Processor:

Described reaction cup is placed on described coding disk, and described coding disk is fixed on described rotating disk；

Described discharger and described reception device split and the both sides in described region to be measured, and described signal is sent out Injection device is used for launching optical signal, and described signal receiving device receives the light launched from sender unit Signal, and by described optical signal transmission to described processor；

Calculate the intensity level of the described optical signal changing value in setting cycle, by described changing value and setting Value compares, when described changing value is more than described setting value, it is determined that described optical signal passes described reaction The sidewall locations that position is described reaction cup of cup, and determine described according to the sidewall locations of described reaction cup The data collection zone of reaction cup.

6. the device of position is measured in the debugging of reaction cup as claimed in claim 5, it is characterised in that obtain Take the distance between the data collection zone of described reaction cup and the sidewall of described reaction cup；And according to described away from From the data collection zone determining described reaction cup with the sidewall locations of corresponding reaction cup.

7. the device of position is measured in the debugging of reaction cup as claimed in claim 5, it is characterised in that institute State the central area that data collection zone is described reaction cup.

8. the device of position is measured in the debugging of reaction cup as claimed in claim 5, it is characterised in that institute State sender unit to be additionally operable to launch described pulse signal；

Described signal receiving device is additionally operable to receive described pulse signal, and by described pulse signal transmission extremely Described processor；

According to described data collection zone and described pulse signal, obtain the one-tenth of determinand in described reaction cup Divided data.