CN217646446U - Test tube placing rack for test tube identification device and test tube identification device - Google Patents

Abstract

The application relates to the technical field of biological medicines and discloses a test tube placing frame for a test tube identification device, which comprises a base, wherein one end of the base is provided with a guide slide way, the other end of the base is provided with a stopping part, and a placing groove with two ends respectively connected with the guide slide way and the stopping part is constructed; the test tube rack is uniformly provided with a plurality of test tube placing hole sites along the length direction, each test tube placing hole site corresponds to one test tube placing hole site number, one side of each test tube placing hole site is open, the other side of each test tube placing hole site is provided with a hollow structure, and the tops of the plurality of test tube placing hole sites are open and used for placing test tubes; the identification plate is arranged in the placing groove, and a vacancy identification code is arranged on one side surface of the identification plate; wherein, push into along the direction slide with the test-tube rack and place behind the recess butt in backstop portion, the identification plate is provided with the side of vacancy identification code towards the test-tube rack to make a plurality of test tubes place the uncovered and hollow out construction of hole site through its side and expose the vacancy identification code. The application also discloses a test tube recognition device.

Description

Test tube placing rack for test tube identification device and test tube identification device

Technical Field

The application relates to the technical field of biological medicine, for example, relate to a test tube rack and test tube recognition device for test tube recognition device.

Background

With the increasing level of medical examination, various tests are becoming important indicators for diagnosing and treating diseases. The collection of samples (e.g., blood samples, urine samples, etc.) is also a routine care practice. Because of the large number of samples collected, automated pipeline identification analysis has also been used for analysis of sample tubes. Wherein, the structural arrangement of test-tube rack is one of the important factor that improves the discernment test tube.

The related art discloses a test tube batch identification device, wherein an identification code is pasted on a test tube, and the test tube batch identification device comprises a control terminal; the test tube rack is provided with a plurality of test tube placing hole sites for inserting test tubes, each test tube placing hole site corresponds to one test tube placing hole site number, and one side of each test tube placing hole site is provided with an opening; the code scanning table is used for placing the test tube rack; the code reader is arranged on the code scanning platform and used for reading the identification code on the test tube and acquiring the serial number of the test tube placing hole position where the test tube is located; test tube rotating assembly locates and sweeps a yard bench, and the rotatable test tube of placing in sweeping a yard bench test-tube rack makes the test tube rotate to the identification code from uncovered position that exposes, and uncovered orientation code reader when the test-tube rack is placed in sweeping a yard bench.

In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:

the test tube groove among the correlation technique appears changeing the condition of motionless test tube easily when rotating the test tube, and then needs the manual work to take out the test tube and put into again to cause and use inconveniently.

SUMMERY OF THE UTILITY MODEL

The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended to be a prelude to the more detailed description that is presented later.

The embodiment of the disclosure provides a test tube rack and a test tube identification device for a test tube identification device, which effectively improve the use convenience.

In some embodiments, the test tube rack for a test tube identification device comprises: the device comprises a base, a positioning device and a positioning device, wherein one end of the base is provided with a guide slide way, the other end of the base is provided with a stopping part, and a placing groove with two ends respectively connected with the guide slide way and the stopping part is formed; the test tube placing holes are uniformly formed in the test tube rack along the length direction, each test tube placing hole corresponds to one test tube placing hole number, one side of each test tube placing hole is open, the other side of each test tube placing hole is of a hollow structure, and the tops of the test tube placing holes are open and used for placing test tubes; the identification plate is arranged in the placing groove, and a vacancy identification code is arranged on one side surface of the identification plate; wherein, will the test-tube rack is followed the direction slide pushes place behind the recess butt in backstop portion, the identification plate is provided with the side orientation of vacancy identification code the test-tube rack, so that it is a plurality of the test tube is placed the hole site and is exposed through uncovered and the hollow out construction of its side vacancy identification code.

In some embodiments, the identification plate is provided with a plurality of flange structures along the width direction, the plurality of flange structures jointly form the vacancy identification code, and both ends extend to both ends of the identification plate respectively along the length direction of the identification plate, so that the vacancy identification code can be exposed through the openings and the hollow structures on the side surfaces of the plurality of test tube placing hole positions.

In some embodiments, the surface of the identification plate is provided in white and the surface of the flange structure is provided in black.

In some embodiments, the number of the empty-position identification codes is multiple, and the empty-position identification codes correspond to the test tube placing holes one by one.

In some embodiments, the base comprises: the top surface of the base body is provided with the placing groove; the first mounting strip is arranged on the top surface of the base body, and the first end and the second end of the first mounting strip are respectively flush with the end surfaces of the two ends of the base body; the second mounting strip is arranged on the top surface of the base body, a first end of the second mounting strip extends to the placing groove, and a second end of the second mounting strip is flush with a second end of the first mounting strip; the first mounting bar and the second mounting bar are respectively located on two sides of the placement groove, and the first mounting bar and the second mounting bar jointly form the guide slide way.

In some embodiments, the second end of the first mounting bar is provided with a first guide slope towards the guide slide, and the second end of the second mounting bar is provided with a second guide slope towards the guide slide; the width distance between the first guide inclined plane and the second guide inclined plane is greater than the width distance of the guide slideway.

In some embodiments, the base further comprises: the third mounting bar corresponds first end of first mounting bar set up in the base member, the third mounting bar is followed the width direction of base member extends, forms backstop portion.

In some embodiments, the height of the third mounting bar is greater than the height of the first mounting bar.

In some embodiments, the third mounting bar is configured with a limiting groove towards a side of the placing groove; when the test tube rack is pushed into the placing groove and abuts against the third mounting strip, one end of the test tube rack is clamped into the limiting groove.

In some embodiments, the test tube identification device comprises the test tube rack for the test tube identification device.

The test tube placing rack and the test tube identification device for the test tube identification device provided by the embodiment of the disclosure can realize the following technical effects:

the test tube placing rack for test tube recognition device that the embodiment of this disclosure provides places the test tube the hole site and sets up to one side uncovered, and the opposite side is hollow out construction, when needs rotate the test tube that is provided with the identification code, the identification code can all be exposed to the both sides that the hole site was placed to the test tube, and then can reduce the resistance when rotatory effectively, makes the rotation process more smooth and easy, avoids the condition because of rotatory difficult needs artifical assistance effectively to can improve the convenience of use effectively.

The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the application.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the accompanying drawings and not in limitation thereof, in which elements having the same reference numeral designations are shown as like elements and not in limitation thereof, and wherein:

fig. 1 is a schematic structural diagram of a test tube rack for a test tube identification device according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a test tube rack for a test tube identification device provided in an embodiment of the present disclosure when test tubes are placed in the test tube rack;

FIG. 3 is a schematic cross-sectional view of a test tube holder for a test tube identification device according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a test tube rack for a test tube identification device provided in an embodiment of the present disclosure when the test tube rack is not placed;

FIG. 5 is a schematic structural diagram of a base provided in the embodiments of the present disclosure;

fig. 6 is a schematic structural diagram of a test tube rack provided in the embodiment of the present disclosure;

fig. 7 is a schematic structural view of another test tube rack provided in the embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of an identification plate according to an embodiment of the present disclosure.

Reference numerals:

100: a base; 110: a substrate; 111: placing a groove; 120: a first mounting bar; 121: a first guide slope; 130: a second mounting bar; 131: a second guide slope; 140: a third mounting bar; 141: a limiting groove; 150: a guide slide way;

200: a test tube rack; 210: placing a hole site on the test tube; 211: a hollow structure; 212: opening a hole; 220: the test tube placing hole positions are numbered;

300: a recognition board; 310: a flange structure; 311: a vacancy identification code;

400: test tubes.

Detailed Description

So that the manner in which the features and elements of the disclosed embodiments can be understood in detail, a more particular description of the disclosed embodiments, briefly summarized above, may be had by reference to the embodiments, some of which are illustrated in the appended drawings. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may be practiced without these details. In other instances, well-known structures and devices may be shown in simplified form in order to simplify the drawing.

The terms "first," "second," and the like in the description and in the claims, and the above-described drawings of embodiments of the present disclosure, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the present disclosure described herein may be made. Furthermore, the terms "comprising" and "having," as well as any variations thereof, are intended to cover non-exclusive inclusions.

In the embodiments of the present disclosure, terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings. These terms are used primarily to better describe the disclosed embodiments and their embodiments, and are not used to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation. Moreover, some of the above terms may be used in other meanings besides orientation or positional relationship, for example, the term "upper" may also be used in some cases to indicate a certain attaching or connecting relationship. The specific meanings of these terms in the embodiments of the present disclosure may be understood as specific cases by those of ordinary skill in the art.

In addition, the terms "disposed," "connected," and "secured" are to be construed broadly. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. Specific meanings of the above terms in the embodiments of the present disclosure can be understood by those of ordinary skill in the art according to specific situations.

The term "plurality" means two or more unless otherwise specified.

In the embodiment of the present disclosure, the character "/" indicates that the preceding and following objects are in an or relationship. For example, A/B represents: a or B.

The term "and/or" is an associative relationship that describes objects, meaning that three relationships may exist. For example, a and/or B, represents: a or B, or A and B.

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments of the present disclosure may be combined with each other.

Referring to fig. 1 to 8, the present disclosure provides a test tube rack for a test tube identification device, including a base 100, a test tube rack 200, and an identification plate 300, where one end of the base 100 is provided with a guide slide 150, the other end is provided with a stopper, and a placement groove 111 is configured with two ends respectively connected to the guide slide 150 and the stopper; the test tube rack 200 is uniformly provided with a plurality of test tube placing hole sites 210 along the length direction, each test tube placing hole site 210 corresponds to one test tube placing hole site number 220, one side of each test tube placing hole site 210 is open, the other side of each test tube placing hole site is provided with a hollow structure 211, and the tops of the test tube placing hole sites 210 are open and used for placing test tubes 400; the identification plate 300 is arranged in the placing groove 111, and a vacancy identification code 311 is arranged on one side surface of the identification plate 300; wherein, push into test-tube rack 200 along direction slide 150 and place recess 111 back butt in backstop portion, the side that identification panel 300 was provided with vacancy identification code 311 is towards test-tube rack 200 to make a plurality of test tubes place hole site 210 expose vacancy identification code 311 through the uncovered and hollow out construction 211 of its side.

The embodiment of the utility model provides a test tube placement rack for test tube recognition device, it is uncovered to set up one side with test tube placement hole site 210, the opposite side is hollow out construction 211, when needs rotate the test tube 400 that is provided with the identification code, the identification code can all be exposed to the both sides that the hole site 210 was placed to the test tube, and then can reduce the rotation resistance when rotatory effectively, make rotatory process more smooth and easy, avoid effectively because of the condition that rotatory difficulty needs artifical assistance, thereby can improve the convenience of use effectively.

One end of the base 100 is provided with a guide rail 150 and the other end is provided with a stopper, and a placing groove 111 having both ends respectively connected to the guide rail 150 and the stopper is constructed. Thus, when the test tube rack 200 is placed, the test tube rack 200 is pushed into the placement recess 111 along the guide rail 150 and then abuts against the stopper. The guide chute 150 may be provided to facilitate pushing of the test tube rack 200. The setting of backstop portion can carry out backstop effectively to test-tube rack 200, prevents that test-tube rack 200 from because of the condition that drops appears in not having the backstop, and then causes the loss of different degrees. Placing the setting of recess 111 can be spacing effectively to test-tube rack 200, has improved the steadiness that test-tube rack 200 placed, and then can avoid appearing rocking when removing test tube rack effectively and lead to dropping of test-tube rack 200.

Evenly set up a plurality of test tubes along length direction on the test-tube rack 200 and place hole site 210, and every test tube places hole site 210 and places hole site number 220 corresponding to a test tube. Thus, the test tube 400 placed in the test tube placing hole 210 can be positioned. Corresponding every test tube among the correlation technique and placing hole site 210 and setting up a vacancy identification code 311, vacancy identification code 311's the open mouth department of side that the hole site 210 was placed to the corresponding test tube in the position that sets up, when the test tube was placed the hole site 210 and is not placed test tube 400, the scanner for scanning the identification code can be through the open mouth department of side that the hole site 210 was placed to the test tube and scan vacancy identification code 311, and then can carry out location and management better to test tube 400. The test tube placing rack for test tube recognition device that this disclosed embodiment provided places hole site 210 to the test tube and has improved, and the side that corresponds the open mouth department of side that the hole site 210 was placed to the test tube sets up to hollow out construction 211, and then can not directly place hole site 210 department at the test tube and set up vacancy identification code 311. Based on this, the test tube placing rack for test tube recognition device that this disclosed embodiment provided still is provided with identification plate 300, and identification plate 300 also sets up in placing recess 111 to the side towards test-tube rack 200 is provided with vacancy identification code 311, can supply all test tubes to place hole site 210 and expose vacancy identification code 311 through the uncovered and hollow out construction 211 of its side. With this arrangement, the scanner for scanning the identification code scans the empty identification code 311 set on the identification plate 300, thereby positioning and managing the cuvette 400.

In the embodiment of the present disclosure, the identification code on the test tube 400 and the empty identification code 311 on the identification plate 300 may be two-dimensional codes or bar codes, which is not limited in particular.

Optionally, the recognition board 300 is fixed in the placing groove 111 by gluing or by screws, so as to effectively improve the stability of the recognition board 300, and avoid the positioning accuracy from being affected by inclination or toppling.

Optionally, the bottom end of the tube placing hole 210 is opened with an opening 212.

Like this, when test tube 400 placed in the test tube and placed hole site 210, the bottom of test tube 400 exposes through trompil 212, and trompil 212 plays certain positioning action to placing of test tube 400, makes test tube 400 more firm in the test tube places hole site 210.

Optionally, the recognition board 300 is provided with a plurality of flange structures 310 along the width direction, the plurality of flange structures 310 form the vacancy recognition code 311 together, and both ends extend to both ends of the recognition board 300 along the length direction of the recognition board 300 respectively, so that the vacancy recognition code 311 can be exposed through the openings on the side surfaces and the hollow-out structures 211 of the plurality of test tube placing hole sites 210.

A plurality of flange structures 310 are directly formed on the identification plate 300, and the plurality of flange structures 310 together form a blank identification code 311, i.e., a three-dimensional bar code is formed by simulating a bar code. The setting mode of the identification code can effectively avoid the falling off of the identification code caused by the factors of moist environment or long service time and the like, and further causes the influence on the normal identification and positioning of the test tube 400.

When no test tube 400 is placed in the test tube placement hole 210, the scanner scans the empty identification code 311 to indicate that the empty identification code is empty, and the current hole does not need to be analyzed for more information. Therefore, the null recognition code 311 can be shared. The three-dimensional bar code formed on the identification plate 300 extends to both ends of the identification plate 300, i.e., a vacant position identification code 311 for identification is formed, and then extends to both ends of the identification plate 300, so that all the test tube placement holes 210 on the test tube rack 200 corresponding to one identification plate 300 share one vacant position identification code 311. The arrangement mode is convenient to process, and the processing cost can be saved.

Alternatively, the flange structure 310 may also be provided as a groove.

Alternatively, both ends of the recognition plate 300 are flush with the test tube seating holes 210 at both ends of the test tube rack 200, respectively.

Due to the arrangement mode, the situation that the length of the identification plate 300 is larger than that of the test tube rack 200, the identification plate 300 is exposed out of the empty position identification code 311 beyond the test tube rack 200, and therefore the positioning result of the test tube 400 is influenced is avoided.

Optionally, the color of the identification panel 300 is different from the color of the flange structure 310.

Thus, the blank identification code 311 is projected on the identification board 300, which facilitates the identification of the blank identification code 311 by the scanner.

Alternatively, the surface of the recognition plate 300 is set to white and the surface of the flange structure 310 is set to black.

By adopting the arrangement mode, the formed vacant position identification code 311 is attached to the arrangement mode of the existing bar code as much as possible, namely, the bottom color is white, and the lines are black, so that the identification of the scanner is facilitated, and the identification accuracy can be improved.

In the embodiment of the present disclosure, the setting of the colors of the identification plate 300 and the flange structure 310 may be realized by painting, or a black flange may be disposed on a white plate, for example, by adhering, clamping, and the like, and the setting of the colors of the identification plate 300 and the flange structure 310 is not specifically limited.

Alternatively, the number of the empty identification codes 311 is plural, and the plural empty identification codes 311 correspond to the plural test tube placing holes 210 one to one.

Thus, the empty position identification codes 311 can be ensured to be in one-to-one correspondence with the test tube placing hole sites 210, and the accuracy of the positioning result can be improved.

In the embodiment of the present disclosure, the setting manner of setting the plurality of empty position identification codes 311 on the identification plate 300 corresponding to the plurality of test tube placing hole sites 210 is not particularly limited, for example, one empty position identification code 311 is pasted on the identification plate 300 corresponding to each test tube placing hole site 210, and this setting manner is simple, fast and convenient to operate; or, corresponding to each test tube placing hole site 210, a vacant identification code 311 is formed on the identification plate 300 by constructing a groove or a flange structure 310, and the arrangement mode can effectively avoid the falling off of the identification code caused by the factors of moist environment or long service time and the like, so that the influence on the normal identification and positioning of the test tube 400 is further caused.

Optionally, the base 100 includes a base 110, a first mounting bar 120 and a second mounting bar 130, a top surface of the base 110 is configured with a placement groove 111; the first mounting bar 120 is disposed on the top surface of the base 110, and a first end and a second end of the first mounting bar 120 are flush with end surfaces of two ends of the base 110, respectively; the second mounting bar 130 is disposed on the top surface of the substrate 110, and a first end of the second mounting bar 130 extends to the placing groove 111, and a second end of the second mounting bar 130 is flush with a second end of the first mounting bar 120; the first mounting bar 120 and the second mounting bar 130 are respectively located at two sides of the placing groove 111, and the first mounting bar 120 and the second mounting bar 130 jointly form a guiding slideway 150.

A placement groove 111 is formed on the top surface of the base 110, and a first mounting bar 120 and a second mounting bar 130 are disposed on the top surface of the base 110 and located at both sides of the placement groove 111, respectively. In such a configuration, on one hand, when the placing groove 111 limits the test tube rack 200 and the identification plate 300, the first mounting strip 120 and the second mounting strip 130 on both sides of the placing groove 111 can further improve the effect of limiting the test tube rack 200 and the identification plate 300. On the other hand, the first mounting bar 120 and the second mounting bar 130 arranged on the top surface of the base 110 together form a guide slideway 150, and the test tube rack 200 is conveniently pushed into the placing groove 111 through the limiting and guiding of the guide slideway 150.

The length of first mounting bar 120 is greater than the length of second mounting bar 130, is about to first end and the second end of first mounting bar 120 respectively with the terminal surface parallel and level at base member 110 both ends, and second mounting bar 130 one end extends to placing recess 111 with first end, second end and the second end parallel and level of first mounting bar 120. Optionally, the first mounting bar 120 is disposed on one side of the base 110 close to the recognition plate 300, and the second mounting bar 130 is disposed on one side of the side close to the test tube placing hole 210. Such form that sets up, when can guaranteeing spacing effect, second mounting bar 130 can not shelter from the test tube and place the side of hole site 210 uncovered, and then can not influence the scanner and pass through uncovered discernment to the identification code.

Optionally, the second end of the first mounting bar 120 is provided with a first guiding inclined surface 121 towards the guiding slideway 150, and the second end of the second mounting bar 130 is provided with a second guiding inclined surface 131 towards the guiding slideway 150; wherein, the width distance between the first guide slope 121 and the second guide slope 131 is greater than the width distance of the guide chute 150.

The width distance between the first guide inclined surface 121 and the second guide inclined surface 131 is greater than the width distance of the guide slide 150, that is, the first guide inclined surface 121 and the second guide inclined surface 131 form a flaring structure, and such an arrangement is convenient for pushing the test tube rack 200 into the guide slide 150.

Optionally, the base 100 further includes a third mounting strip 140, the third mounting strip 140 is disposed on the base 110 corresponding to the first end of the first mounting strip 120, and the third mounting strip 140 extends along the width direction of the base 110 to form a stopper.

The third mounting bar 140 is disposed on the base 110 corresponding to the first end of the first mounting bar 120, and extends along the width direction of the base 110 to form a stop portion. Like this, first mounting bar 120 and second mounting bar 130 carry on spacingly to the both sides of test-tube rack 200, and third mounting bar 140 carries on spacingly to the tip of test-tube rack 200 to play the backstop effect, through such form of setting, can improve the steadiness that test-tube rack 200 placed effectively.

Optionally, the height of the third mounting bar 140 is greater than the height of the first mounting bar 120.

The height of the third mounting bar 140 is set to be greater than that of the first mounting bar 120, so that the stopper effect on the test tube rack 200 can be further improved.

Optionally, the third mounting bar 140 is configured with a limiting groove 141 towards the side of the placing groove 111; when the test tube rack 200 is pushed into the placing groove 111 and abuts against the third mounting bar 140, one end of the test tube rack 200 is clamped into the limiting groove 141.

The side surface of the third mounting bar 140 facing the placing groove 111 is configured with a limiting groove 141, and when the test tube rack 200 is pushed into the placing groove 111 and abuts against the third mounting bar 140, one end of the test tube rack 200 abutting against the third mounting bar 140 can be clamped into the limiting groove 141. Like this, further limiting action through limiting groove 141 makes spacing to test-tube rack 200 more firm. And then when the steadiness that improves test-tube rack 200 and place, also improved the steadiness of placing in the test tube 400 that the hole site 210 was placed to the test tube, avoid dropping of test tube 400 when removing test tube rack.

The embodiment of the disclosure provides a test tube identification device, which comprises the test tube placing rack for the test tube identification device.

The test tube rack for the test tube recognition device comprises a base 100, a test tube rack 200 and a recognition plate 300, wherein one end of the base 100 is provided with a guide slide way 150, the other end of the base 100 is provided with a stopping part, and a placing groove 111 with two ends respectively connected with the guide slide way 150 and the stopping part is constructed; the test tube rack 200 is uniformly provided with a plurality of test tube placing hole sites 210 along the length direction, each test tube placing hole site 210 corresponds to one test tube placing hole site number 220, one side of each test tube placing hole site 210 is open, the other side of each test tube placing hole site 210 is provided with a hollow structure 211, and the tops of the test tube placing hole sites 210 are open and used for placing test tubes 400; the identification plate 300 is arranged in the placing groove 111, and a vacancy identification code 311 is arranged on one side surface of the identification plate 300; wherein, push into along direction slide 150 with test-tube rack 200 and place behind recess 111 butt in backstop portion, the side that identification plate 300 was provided with vacancy identification code 311 is towards test-tube rack 200 to make a plurality of test tubes place that hole site 210 exposes vacancy identification code 311 through the uncovered and hollow out construction 211 of its side.

Adopt above-mentioned test tube placement rack's test tube recognition device, it is uncovered to set up to one side through placing the test tube hole site 210, the opposite side is hollow out construction 211, when needs are rotatory to the test tube 400 that is provided with the identification code, the identification code can all be exposed to the both sides that the hole site 210 was placed to the test tube, and then can reduce the rotation resistance when rotatory effectively, make rotatory process more smooth and easy, avoid effectively because of the condition that rotatory difficulty needs artifical assistance to can improve the convenience of use effectively.

The above description and the drawings sufficiently illustrate embodiments of the disclosure to enable those skilled in the art to practice them. Other embodiments may include structural and other changes. The examples merely typify possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in or substituted for those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. The utility model provides a test tube rack for test tube recognition device which characterized in that includes:

the device comprises a base, a positioning device and a positioning device, wherein one end of the base is provided with a guide slide way, the other end of the base is provided with a stopping part, and a placing groove with two ends respectively connected with the guide slide way and the stopping part is formed;

the test tube placing holes are uniformly formed in the test tube rack along the length direction, each test tube placing hole corresponds to one test tube placing hole number, one side of each test tube placing hole is open, the other side of each test tube placing hole is of a hollow structure, and the tops of the test tube placing holes are open and used for placing test tubes;

the identification plate is arranged in the placing groove, and a vacancy identification code is arranged on one side surface of the identification plate;

wherein, will the test-tube rack is followed the direction slide pushes place behind the recess butt in backstop portion, the identification plate is provided with the side orientation of vacancy identification code the test-tube rack, so that it is a plurality of the test tube is placed the uncovered and hollow out construction of hole site through its side and is exposed the vacancy identification code.

2. Test tube rack according to claim 1,

the identification plate is provided with a plurality of flange structures along width direction, and is a plurality of the flange structure forms jointly the vacancy identification code, and both ends are followed the length direction of identification plate extends to respectively the both ends of identification plate, so that it is a plurality of the test tube is placed the uncovered and hollow out construction that the hole site all can pass through its side and is exposed the vacancy identification code.

3. Test tube rack according to claim 2,

the surface of the identification plate is set to be white, and the surface of the flange structure is set to be black.

4. Test tube rack according to claim 1,

the number of the vacancy identification codes is multiple, and the vacancy identification codes correspond to the test tube placing hole positions one by one.

5. The test tube rack of claim 1, wherein the base comprises:

the top surface of the base body is provided with the placing groove;

the first mounting strip is arranged on the top surface of the base body, and the first end and the second end of the first mounting strip are respectively flush with the end surfaces of the two ends of the base body;

the second mounting strip is arranged on the top surface of the base body, a first end of the second mounting strip extends to the placing groove, and a second end of the second mounting strip is flush with a second end of the first mounting strip;

the first mounting bar and the second mounting bar are respectively located on two sides of the placement groove, and the first mounting bar and the second mounting bar jointly form the guide slide way.

6. The test tube holder according to claim 5,

the second end of the first mounting bar is provided with a first guide inclined surface facing the guide slideway, and the second end of the second mounting bar is provided with a second guide inclined surface facing the guide slideway;

the width distance between the first guide inclined plane and the second guide inclined plane is greater than the width distance of the guide slideway.

7. The test tube rack of claim 5, wherein the base further comprises:

the third mounting bar corresponds first end of first mounting bar set up in the base member, the third mounting bar is followed the width direction of base member extends, forms backstop portion.

8. Test tube rack according to claim 7,

the height of the third mounting bar is greater than that of the first mounting bar.

9. Test tube rack according to claim 7,

a limiting groove is formed in the third mounting strip towards the side face of the placing groove;

when the test tube rack is pushed into the placing groove and abuts against the third mounting strip, one end of the test tube rack is clamped into the limiting groove.

10. A test tube discriminating apparatus comprising the test tube rack for a test tube discriminating apparatus as defined in any one of claims 1 to 9.

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