CN217796255U - Matrix type light indication positioning detection test tube rack - Google Patents

Abstract

The utility model discloses a matrix light indicating, positioning and detecting test-tube rack, which comprises a main body and an alarm, wherein the main body is provided with a plurality of test-tube accommodating cavities for storing test tubes; the test tube rack main body is provided with an indicating lamp and a detection sensor at the position of each test tube containing cavity respectively, and the indicating lamp can emit light to operate so as to indicate the corresponding test tube containing cavity; the detection sensor can detect whether a test tube is stored in the corresponding test tube accommodating cavity or not; the alarm is in signal connection with the detection sensor and can send out an alarm signal according to the detection result of the detection sensor. The utility model discloses not only be convenient for the test tube and correspond getting of test tube appearance chamber in this test-tube rack main part and put, but also can indicate whether the test tube accomplishes getting on the test tube appearance chamber that corresponds and puts to make experimenter can be fast, accurately get the test tube from getting on the test-tube rack and put, also to the effect that takes place the mistake and play the warning when getting simultaneously, can standardize experimenter's action like this, ensure the safety that the test tube used.

Description

Matrix type light indication positioning detection test tube rack

Technical Field

The utility model belongs to the technical field of experimental apparatus gets relevant, especially relate to a matrix light is instructed location and is detected test-tube rack.

Background

At present, most of the existing laboratory standards or reagents are stored without fixed positions, and test tubes containing the standards or reagents are usually directly placed in a cabinet, a drawer or a refrigerator. Therefore, experimenters generally need to search when receiving articles, so that the time of the experimenters is wasted, and the experimenters cannot find the articles once the articles are taken by mistake, thereby influencing the experimental progress of the experimenters; in addition, the return is easy to be misplaced, which also influences the difficulty of the next search.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a matrix type light indication positioning detection test tube rack for solving the above technical problems.

A matrix type test tube rack with light indication positioning detection comprises a test tube rack main body and an alarm, wherein a plurality of test tube containing cavities are formed in the test tube rack main body, and test tubes can be stored in the test tube containing cavities by the test tube rack main body; the test tube rack main body is provided with an indicator lamp and a detection sensor at the position of each test tube cavity, and the indicator lamps can emit light to indicate the corresponding test tube cavities; the detection sensor can detect whether a test tube is stored in the corresponding test tube containing cavity or not;

the alarm is in signal connection with the detection sensor and can send out an alarm signal according to the detection result of the detection sensor.

In the application, through the reasonable structural arrangement, when an experimenter uses the test tube rack, the experimenter can use the indicating lamp to emit light during working to indicate the corresponding test tube containing cavity on the main body of the test tube rack, so that a test tube can be conveniently taken and placed on the main body of the test tube rack corresponding to the test tube containing cavity; and, the alarm can be according to whether test tube detection result has been deposited to test tube holding intracavity to detection sensor and send alarm signal to whether the suggestion test tube is accomplished on the corresponding test tube holding chamber and is got and put, so that the experimenter can be fast, accurately get the test tube from getting on the test-tube rack and put, also play the effect of reporting to the police to the mistake that takes place when getting the test tube simultaneously, can standardize the action of experimenter like this, ensure the safety that the test tube used.

In one embodiment, the detection sensor is capable of detecting that no test tube is stored in the test tube cavity and generating a first feedback signal, and capable of detecting that a test tube is stored in the test tube cavity and generating a second feedback signal;

the alarm can work and send out an alarm signal by taking the first feedback signal and the second feedback signal as starting signals.

It can be understood that, through the reasonable cooperation of the above-mentioned detection sensor and alarm for when the experimenter used this test-tube rack, failed to leave the test tube that corresponds in the test-tube rack main part in the test tube and hold the chamber, and the test tube that corresponds in the test tube does not holding the intracavity and take away and take place alarm signal from the test tube in the test tube main part, reach suggestion experimenter's effect with this.

In one embodiment, a plurality of position marks are arranged on the test tube rack main body, and the plurality of position marks and the plurality of test tube cavities are arranged in a one-to-one correspondence manner.

It can be understood that, through the structure setting of above-mentioned position sign to the position that holds the chamber to every test tube in this test-tube rack main part carries out the sign respectively, makes the experimenter can judge directly perceivedly the position that every test tube held the chamber in this test-tube rack main part, and the use of the experimenter to this test-tube rack of further being convenient for.

In one embodiment, the detection sensor is configured as any one of an optical coupling sensor, a micro switch and a proximity switch.

It is understood that embodiments of the detection sensor are embodied by being configured as an opto-coupler sensor, a micro-switch and/or a proximity switch.

In one embodiment, the detection sensor is configured as a radio frequency identification sensor capable of identifying the electronic tag on the cuvette and generating a feedback signal.

It can be understood that the detection sensor is set as a radio frequency identification sensor, so that the purpose of detecting whether the test tube is stored in the test tube accommodating cavity or not is achieved by matching the radio frequency identification sensor with the electronic tag on the test tube, and the use requirement of the test tube for detection when an experimenter uses the test tube rack is met.

In one embodiment, the test tube rack main body comprises a test tube carrier and a support bottom plate, the test tube cavity is arranged on the test tube carrier oppositely, and the support bottom plate is arranged below the test tube carrier and used for carrying the detection sensor;

the test tube detection device comprises a test tube accommodating cavity, wherein each test tube accommodating cavity is provided with a detection hole at the bottom, and the detection sensor can detect whether a test tube is stored in the test tube accommodating cavity through the detection holes.

It can be understood that the structural arrangement of the test tube rack main body is realized through the structural arrangement of the test tube carrier and the support bottom plate; and satisfy the user demand that detects the sensor installation and detect the test tube in the test-tube rack main part.

In one of them embodiment, the test tube carrier includes test tube storage plate and test tube supporting plate, the test tube storage plate is used for depositing the test tube, the test tube supporting plate set up relatively in the below of test tube storage plate for support place in the test tube on the test tube storage plate.

It can be understood that, through the structure setting of above-mentioned test tube storage plate and test tube backup pad to this concrete structure setting that this test tube held the carrier is realized to the satisfying and holds the user demand that the carrier bore the test tube to this test tube.

In one embodiment, the test tube storage plate comprises a first layer plate and a second layer plate, and the first layer plate and the second layer plate are arranged at intervals;

wherein, first test tube slot has been seted up on the first plywood, second test tube slot has been seted up on the second plywood, first test tube slot with second test tube slot cooperation forms into the test tube holds the chamber.

It can be understood that, through the structural arrangement of the first layer plate and the second layer plate, the structural arrangement of the test tube storage plate is realized.

In one embodiment, the second test tube slot is disposed directly below the first test tube slot.

It can be understood that set up second test tube slot under first test tube slot for test tube chamber can vertically deposit the test tube in this test-tube rack main part, so that the experimenter gets on this test-tube rack to put to the test tube.

In one embodiment, the test tube cavities are sequentially arranged at intervals along the length direction and/or the width direction of the test tube rack main body.

It will be appreciated that the arrangement of the cuvette cavity in the main body of the rack is particularly achieved by the above-described structural arrangement.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments or the conventional technologies of the present application, the drawings used in the description of the embodiments or the conventional technologies will be briefly introduced below, it is obvious that the drawings in the description below are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural view of a matrix type light indication positioning detection test tube rack provided in an embodiment of the present application;

fig. 2 is a top view of a matrix type light indication positioning test tube rack according to an embodiment of the present disclosure;

fig. 3 is a front view of a matrix type light indication positioning test tube rack provided in an embodiment of the present application.

Reference numeral, 10, a test tube carrier; 11. a test tube storage plate; 111. a first laminate; 1111. a first cuvette slot; 112. a second laminate; 1121. a second test tube slot; 12. a test tube support plate; 20. a support base plate; 100. a test tube rack main body; 101. a test tube cavity; 1011. a detection hole; 102. a location identification; 200. an indicator light; 300. and detecting the sensor.

Detailed Description

The technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

It will be understood that when an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "secured to" another element, it can be directly secured to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model discloses matrix light indication location test tube rack for bear the test tube (not shown), make the experimenter can get from this test tube rack and put the test tube according to the demand that uses.

As shown in fig. 1 to 3, a test tube rack provided in an embodiment of the present application includes a main body 100 and an alarm (not shown).

The application has seted up a plurality of test tubes on test-tube rack main part 100 and has held chamber 101, and test-tube rack main part 100 can hold chamber 101 with the test tube and deposit the test tube.

In the present application, the test tube rack main body 100 of the present application is provided with an indicator lamp 200 and a detection sensor 300 at a position where each test tube accommodating cavity 101 is located, and the indicator lamp 200 can emit light to indicate the corresponding test tube accommodating cavity 101; the detection sensor 300 can detect whether a test tube is stored in the corresponding test tube accommodating cavity 101; and the alarm is in signal connection with the detection sensor 300 and can send out an alarm signal according to the detection result of the detection sensor 300.

It can be understood that, by the structural arrangement of the indicator lamp 200, when the test tube rack is used, the indicator lamp 200 can emit light when working to correspondingly indicate the position of the test tube accommodating cavity 101 on the test tube rack main body 100, so that the test tube can be conveniently taken and placed on the test tube rack main body 100 corresponding to the test tube accommodating cavity 101; and, the alarm sends alarm signal according to whether detection sensor 300 deposits the test tube testing result in holding the chamber 101 to the test tube to whether the suggestion test tube is accomplished on the test tube that corresponds holds chamber 101 and is got and put, so that the experimenter can be fast, accurately get the test tube from getting on the test-tube rack and put, also play the effect of reporting to the police to taking the mistake of taking to take place simultaneously, can standardize experimenter's action like this, ensure the safety that the test tube used.

Specifically, the detection sensor 300 can detect that no test tube is stored in the test tube containing cavity 101 and generate a first feedback signal, and can detect that a test tube is stored in the test tube containing cavity 101 and generate a second feedback signal; the alarm can work and send out an alarm signal by taking the first feedback signal and the second feedback signal as starting signals. When making the experimenter use this test-tube rack, fail to leave the test tube in the test tube chamber 101 that corresponds on the test-tube rack main part 100 to and the test tube takes away and takes place alarm signal in the test tube chamber 101 that corresponds on the test-tube rack main part 100, with this effect that reaches suggestion experimenter.

It should be noted that, when an experimenter uses the test tube rack, when a test tube needs to be placed in the corresponding test tube accommodating cavity 101 on the test tube rack main body 100, whether the test tube is in the corresponding test tube accommodating cavity 101 can be judged through the detection sensor 300, if the detection sensor 300 detects the test tube, the alarm does not work, otherwise, the alarm works and sends an alarm signal; and, when the test tube holds chamber 101 that corresponds from test-tube rack main part 100 with the test tube when needs, accessible detection sensor 300 judges whether there is the test tube in the corresponding test tube holds chamber 101, when detection sensor 300 detected the test tube, this alarm work and send alarm signal, otherwise then the alarm is out of work.

The test tube rack main body 100 is provided with a plurality of position marks 102, and the position marks 102 and the test tube cavities 101 are arranged in a one-to-one correspondence mode. That is to say, every test tube chamber 101 all has corresponding position sign 102 on this test-tube rack main part 100 for the experimenter can judge directly perceivedly every test tube chamber 101 position on this test-tube rack main part 100, the use of the experimenter to this test-tube rack of further being convenient for.

Along the length direction and/or the width direction of test-tube rack main part 100, a plurality of test tube appearance chamber 101 set up at interval in proper order to this realizes specifically that this test tube appearance chamber 101 arranges on this test-tube rack main part 100, makes a plurality of test tube appearance chambers 101 arrange on test-tube rack main part 100 just, can make position sign 102 sign with multirow multiseriate mode like this, so that the mark of position sign 102 on this test-tube rack main part 100. It should be noted that the arrangement of the plurality of test tube cavities 101 on the rack main body 100 is not limited to that shown in the drawings, and it will be obvious to those skilled in the art that the plurality of test tube cavities 101 may be arranged in any other manner, and will not be described herein.

The detection sensor 300 of the application is set to any one of an optical coupler sensor, a micro switch and a proximity switch, so that the embodiment of the detection sensor 300 is specifically realized, local materials can be used for the detection sensor 300, and the effect of reducing the production cost is achieved. It should be noted that the detection sensor 300 is specifically configured as an optical coupler sensor, and of course, different detection sensors 300 may be different sensors according to the use requirement.

Or, the detection sensor 300 is set as a radio frequency identification sensor, and the radio frequency identification sensor can identify an electronic tag on the test tube and generate a feedback signal, so as to achieve the purpose of detecting whether the test tube is stored in the test tube accommodating cavity 101, and meet the use requirements of the experimenter on detecting the test tube when the test tube rack is used.

In addition, this application's test-tube rack main part 100 includes test tube carrier 10 and supporting baseplate 20, and test tube chamber 101 sets up on test tube carrier 10, and supporting baseplate 20 sets up in the below that test tube carrier 10 relatively for bear detection sensor 300, specifically realize this test-tube rack main part 100's structure setting with this.

Wherein, the test tube holds carrier 10 and has seted up inspection hole 1011 respectively at every test tube and hold chamber bottom position of 101, and whether detection sensor 300 can have deposited the test tube to test tube holding chamber 101 through inspection hole 1011 and detect to satisfy the user demand that detection sensor 300 installed and detected the test tube on test-tube rack main part 100.

Specifically, the test tube of this application holds carrier 10 includes that the test tube deposits board 11 and test tube backup pad 12, the test tube deposits board 11 and is used for depositing the test tube, and test tube backup pad 12 sets up the below that board 11 was deposited to the test tube relatively for support places the test tube on board 11 is deposited to the test tube, holds the structure setting of carrier 10 with this concrete realization test tube, in order to satisfy the user demand that carrier 10 carried to the test tube to this test tube. It should be noted that the test tube carrier 10 of the present application is not limited to the illustration, and it is obvious to those skilled in the art that the test tube carrier 10 may be configured as a drawer structure, which will not be described herein.

The application discloses board 11 is deposited to test tube includes first plywood 111 and second plywood 112, first plywood 111 sets up with second plywood 112 interval, wherein, first test tube slot 1111 has been seted up on first plywood 111, second test tube slot 1121 has been seted up on the second plywood 112, first test tube slot 1111 cooperates with second test tube slot 1121 and forms to test tube appearance chamber 101, with this structure setting that realizes this board 11 is deposited to the test tube specifically, when making the test tube put into to test tube appearance chamber 101, see and the test tube passes first test tube slot 1111 and second test tube slot 1121 and supports with test tube backup pad 12.

Wherein, second test tube slot 1121 sets up under first test tube slot 1111 for test tube chamber 101 can vertically deposit the test tube on this test-tube rack main part 100, so that the experimenter gets on this test-tube rack to put the test tube. It should be noted that, second tube slot 1121 and first tube slot 1111 are not limited to the above description, and for those skilled in the art, second tube slot 1121 and first tube slot 1111 may be disposed to be offset by a certain angle, so that the tube can be obliquely inserted into the tube cavity 101.

To sum up, the matrix light indicating and positioning test tube rack of the utility model has a reasonable structure, so that when using the test tube rack, the experimenter can indicate the position of the test tube containing cavity 101 on the main body 100 of the test tube rack by using the light emitting operation of the indicator lamp 200 during working, so that the test tube can be conveniently taken and placed on the main body 100 of the test tube rack corresponding to the test tube containing cavity 101; and, the alarm sends alarm signal according to whether detection sensor 300 deposits the test tube testing result in holding the chamber 101 to the test tube to whether the suggestion test tube is accomplished on the test tube that corresponds holds chamber 101 and is got and put, so that the experimenter can be fast, accurately get the test tube from getting on the test-tube rack and put, also play the effect of reporting to the police to taking the mistake of taking to take place simultaneously, can standardize experimenter's action like this, ensure the safety that the test tube used.

The features of the above embodiments may be arbitrarily combined, and for the sake of brevity, all possible combinations of the features in the above embodiments are not described, but should be construed as being within the scope of the present specification as long as there is no contradiction between the combinations of the features.

It will be appreciated by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be taken as limiting the present invention, and that suitable modifications and variations of the above embodiments are within the scope of the invention as claimed.

Claims (10)

1. The matrix type light indication positioning detection test tube rack is characterized by comprising a test tube rack main body (100) and an alarm, wherein a plurality of test tube accommodating cavities (101) are formed in the test tube rack main body (100), and test tubes can be stored in the test tube accommodating cavities (101) in the test tube rack main body (100); the position of each test tube cavity (101) of the test tube rack main body (100) is respectively provided with an indicator lamp (200) and a detection sensor (300), and the indicator lamp (200) can emit light to indicate the corresponding test tube cavity (101); the detection sensor (300) can detect whether a test tube is stored in the corresponding test tube accommodating cavity (101);

the alarm is in signal connection with the detection sensor (300) and can send out an alarm signal according to the detection result of the detection sensor (300).

2. The matrix light indicating and positioning test tube rack according to claim 1, wherein the test sensor (300) is capable of detecting that no test tube is stored in the test tube housing chamber (101) and generating a first feedback signal, and capable of detecting that a test tube is stored in the test tube housing chamber (101) and generating a second feedback signal;

the alarm can work and send out an alarm signal by taking the first feedback signal and the second feedback signal as starting signals.

3. The matrix type light indication positioning test tube rack according to claim 1, wherein a plurality of position marks (102) are provided on the rack body (100), and a plurality of position marks (102) are provided in one-to-one correspondence with a plurality of test tube cavities (101).

4. The matrix light indicating and positioning test tube rack according to claim 1, wherein the detection sensor (300) is configured as any one of an optical coupling sensor, a micro switch and a proximity switch.

5. Matrix light indicating positioning test tube rack according to claim 1, characterized in that the test sensors (300) are arranged as radio frequency identification sensors, which are capable of identifying the electronic tags on the test tubes and generating feedback signals.

6. Matrix light indicating positioning test tube rack according to claim 1, wherein the test tube rack body (100) comprises a test tube carrier (10) and a support base (20), the test tube compartment (101) is arranged on the test tube carrier (10), and the support base (20) is arranged relatively below the test tube carrier (10) for carrying the test sensors (300);

the detection device comprises a detection sensor (300), wherein a detection hole (1011) is formed in the bottom of each test tube containing cavity (101), and the detection sensor can detect whether a test tube is stored in the test tube containing cavity (101) through the detection hole (1011).

7. The matrix light indicating and positioning test tube rack according to claim 6, wherein the test tube carrier (10) comprises a test tube storage plate (11) and a test tube support plate (12), the test tube storage plate (11) is used for storing test tubes, and the test tube support plate (12) is disposed relatively below the test tube storage plate (11) for supporting test tubes placed on the test tube storage plate (11).

8. The matrix light indicating positioning test tube rack according to claim 7, wherein the test tube storage plate (11) comprises a first layer plate (111) and a second layer plate (112), the first layer plate (111) and the second layer plate (112) are arranged at intervals;

wherein, first test tube slot (1111) has been seted up on first plywood (111), second test tube slot (1121) has been seted up on second plywood (112), first test tube slot (1111) with second test tube slot (1121) cooperation forms into test tube appearance chamber (101).

9. The matrix light indicating and positioning test tube rack according to claim 8, wherein the second test tube slot (1121) is disposed directly below the first test tube slot (1111).

10. The matrix type light indication positioning test tube rack according to claim 1, wherein a plurality of the test tube cavities (101) are sequentially arranged at intervals along a length direction and/or a width direction of the test tube rack main body (100).

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