阅读说明：本技术 一种低损耗型医用试管干燥装置 (Low-loss medical test tube drying device ) 是由 奚岩 陈东梅 于 2021-09-08 设计创作，主要内容包括：本发明公开了一种低损耗型医用试管干燥装置,属于试管干燥装置领域,一种低损耗型医用试管干燥装置,利用网状的环形电热网对试管主体进行加热干燥,利用弹性纤维组成的保温簇减小试管主体产生热量的流动,可以使试管主体整体受热相对均匀,使得试管主体内不易产生热应力积累,不易产生隐形裂纹,而在取出试管主体时,可以利用电动伸缩杆将放置台抬起,同时启动X光发生装置,X光盒对试管主体进行X射线扫描,并获得对应的X射线图,可以实现在试管进行干燥过程中,加热更加均匀,不易出现热应力的疲劳累积或隐形裂缝,不易在使用过程中,造成试管破裂,不易划伤医护人员,不易造成病菌泄漏,不易造成安全事故。(The invention discloses a low-loss medical test tube drying device, belonging to the field of test tube drying devices, which utilizes a netted annular electric heating net to heat and dry a test tube main body, utilizes a heat preservation cluster consisting of elastic fibers to reduce the flow of heat generated by the test tube main body, can ensure that the whole test tube main body is heated relatively uniformly, so that the heat stress accumulation and invisible cracks are not easy to generate in the test tube main body, when the test tube main body is taken out, an electric telescopic rod can be utilized to lift a placing table, an X-ray generating device is started simultaneously, an X-ray box carries out X-ray scanning on the test tube main body, and obtains a corresponding X-ray diagram, thereby realizing that the heating is more uniform, the fatigue accumulation or invisible cracks of the heat stress are not easy to generate, and the test tube is not easy to crack in the use process, medical personnel are not easy to scratch, germs are not easy to leak, and safety accidents are not easy to cause.)

1. The utility model provides a medical test tube drying device of low-loss type, includes test tube drying device main part (1) and sealed lid (2) that match each other, its characterized in that: the test tube drying device is characterized in that the test tube drying device main body (1) is connected with the sealing cover (2) through a hinge, the sealing cover (2) is provided with a plurality of air holes (3), the air holes (3) all penetrate through the sealing cover (2) to communicate the interior of the test tube drying device main body (1) with the outside, a placing table (4) is placed in the test tube drying device main body (1), an electric telescopic rod (5) is fixedly connected between the placing table (4) and a bottom plate of the test tube drying device main body (1), a placing plate (7) is arranged on the upper side of the placing table (4), a plurality of pairs of mutually matched telescopic rods (8) and compression springs (9) are fixedly connected between the placing plate (7) and the placing table (4), the compression springs (9) are all sleeved on the outer sides of the telescopic rods (8), and an annular electric heating net (10) is fixedly connected on the bottom plate of the test tube drying device main body (1), the annular electric heating net (10) is sleeved on the outer side of the electric telescopic rod (5) and coaxial with the electric telescopic rod (5), a heat-insulating cluster (11) is fixedly connected to the inner wall of the test tube drying device main body (1), the heat-insulating cluster (11) is located on the upper side of the annular electric heating net (10), the heat-insulating cluster (11) comprises a plurality of elastic fibers (1101) in a three-dimensional spiral shape, the elastic fibers (1101) are mutually overlapped to form a three-dimensional space structure, the elastic fibers (1101) are made of heat-insulating materials, an X-ray box (12) and an absorption plate (13) which are mutually matched in position are fixedly connected to the inner wall of the test tube drying device main body (1), the X-ray box (12) and the absorption plate (13) are both located on the upper side of the heat-insulating cluster (11), the X-ray box (12) comprises a box body (1201), and a connecting plate (1202) is fixedly connected between the box body (1201) and the inner wall of the test tube drying device main body (1), the X-ray generator is characterized in that an inner cavity (1203) is formed in the box body (1201), the inner cavity (1203) is close to the inner wall of one side of the connecting plate (1202) and is fixedly connected with the X-ray generator (1204), an emitting opening (1206) matched with the X-ray generator (1204) is formed in the side wall, far away from one side of the connecting plate (1202), of the inner cavity (1203), and the emitting opening (1206) penetrates through the box body (1201) and is communicated with the connecting plate (1202) and the outside.

2. The medical cuvette drying device of claim 1, wherein the medical cuvette drying device comprises: a plurality of notches (1102) are cut in the side wall of the elastic fiber (1101), and the notches (1102) are distributed at one end, far away from the inner wall of the test tube drying device main body (1), of the elastic fiber (1101).

3. The medical cuvette drying device of claim 2, wherein the medical cuvette drying device comprises: the depth of the notch (1102) is less than one fourth of the cross-sectional diameter of the elastic fiber (1101).

4. The medical cuvette drying device of claim 2, wherein the medical cuvette drying device comprises: the depth of the notch (1102) is different, and the depth of the notch (1102) is deeper as the distance from the elastic fiber (1101) to the connection point of the inner wall of the test tube drying device main body (1) is larger.

5. The medical cuvette drying device of claim 1, wherein the medical cuvette drying device comprises: the bottom plate of box body (1201) is last to cut socket (1205), socket (1205) are located the one side of being close to emission mouth (1206), place on the lateral wall of platform (4) fixedly connected with and socket (1205) assorted isolated grid tray (14), isolated grid tray (14) select for use the lead plate to make.

6. The medical cuvette drying device of claim 5, wherein: the outer wall of the isolation grid plate (14) is coated with a wear-resistant coating, so that the wear resistance of the isolation grid plate (14) is improved.

7. The medical cuvette drying device of claim 1, wherein the medical cuvette drying device comprises: the placing table (4) is made of a material with high X-ray transmittance.

8. The medical cuvette drying device of claim 1, wherein the medical cuvette drying device comprises: the X-ray box (12) is in signal connection with a control terminal (15), and the control terminal (15) is in signal connection with a processing terminal (16).

9. The medical cuvette drying device of claim 8, wherein the medical cuvette drying device comprises: the processing terminal (16) is connected with a storage cloud end (17) through signals, the processing terminal (16) can upload information stored by the processing terminal to the storage cloud end (17), and can also upload and download information from the storage cloud end (17).

10. The medical cuvette drying device of claim 9, wherein the medical cuvette drying device comprises: the storage cloud end (17) is in signal connection with the Internet of things module (18), and the storage cloud end (17) can be in information intercommunication with the Internet of things module (18).

Technical Field

The invention relates to the field of test tube drying devices, in particular to a low-loss medical test tube drying device.

Background

Medical test tube is the test tube of medical usage, it is common in the focus extract with focus inspection etc. in-process, common medical test tube is mostly glass or plastics material, and generally mostly be disposable goods, need unify to retrieve and carry out nuisanceless processing after the use, but the comparatively expensive test tube of partial material or because self shape is opposite sex and cause the expensive test tube of cost then can select to carry out repetitious usage, wash after the use, disinfection and stoving back alright carry out the secondary usage, consequently the drying machine of a large amount of test tubes has appeared now is used for the stoving work of test tube.

The X-ray is actually an electromagnetic wave with extremely high frequency, extremely short wavelength and very large energy, and has penetrability, the internal structure of an object usually has density and thickness difference, when the X-ray penetrates through the object, the X-ray is absorbed to different degrees, and different images can be obtained after the X-ray is subjected to imaging treatment, which is the principle of X-ray flaw detection.

Because the material of test tube is mostly amorphous material, at the in-process of carrying out the heat drying, very easily cause the inside uneven that is heated of test tube, under the effect of thermal stress to produce fatigue accumulation, or directly produce stealthy crackle, above-mentioned defect is not big to the outward appearance influence of test tube, but in the use of test tube, easily cause the test tube to break under the circumstances such as the test tube takes place to strike, then fish tail medical personnel, then probably cause the germ to leak, induce medical safety accident.

Disclosure of Invention

1. Technical problem to be solved

Aiming at the problems in the prior art, the invention aims to provide a low-loss medical test tube drying device, which can realize that the test tube is heated more uniformly in the drying process, the fatigue accumulation or invisible cracks of thermal stress are not easy to occur, the test tube is not easy to break in the using process, medical staff are not easy to scratch, germ leakage is not easy to cause, and safety accidents are not easy to cause.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A low-loss medical test tube drying device comprises a test tube drying device main body and a sealing cover which are matched with each other, wherein the test tube drying device main body is connected with the sealing cover through a hinge, a plurality of air holes are drilled in the sealing cover and all penetrate through the sealing cover to be communicated with the inside and the outside of the test tube drying device main body, a placing table is placed in the test tube drying device main body, an electric telescopic rod is fixedly connected between the placing table and a bottom plate of the test tube drying device main body, a placing plate is arranged on the upper side of the placing table, a plurality of pairs of telescopic rods and compression springs which are matched with each other are fixedly connected between the placing plate and the placing table, the compression springs are all sleeved on the outer sides of the telescopic rods, an annular electric heating net is fixedly connected on the bottom plate of the test tube drying device main body, the annular heating net is sleeved on the outer side of the electric telescopic rod and coaxial with the electric telescopic rod, and a heat preservation cluster is fixedly connected on the inner wall of the test tube drying device main body, the heat preservation cluster is positioned on the upper side of the annular electric heating net and comprises a plurality of elastic fibers in a three-dimensional spiral shape, the elastic fibers are mutually overlapped to form a three-dimensional space structure, the elastic fibers are made of heat insulating materials, an X-ray box and an absorption plate which are matched in position are fixedly connected to the inner wall of the test tube drying device main body, the X-ray box and the absorption plate are both positioned on the upper side of the heat preservation cluster, the X-ray box comprises a box body, a connecting plate is fixedly connected between the box body and the inner wall of the test tube drying device main body, an inner cavity is formed in the box body, an X-ray generating device is fixedly connected to the inner wall of one side, close to the connecting plate, of the inner cavity, an emitting opening matched with the X-ray generating device is formed in the side wall, far away from the connecting plate, of the inner cavity, the emitting opening penetrates through the box body and is communicated with the connecting plate and the outside, the drying process of a test tube can be realized, the heating is more uniform, and fatigue accumulation or invisible cracks of thermal stress are not easy to appear, the test tube is not easy to break in the using process, medical personnel are not easy to scratch, germ leakage is not easy to cause, and safety accidents are not easy to cause.

Further, a plurality of grooves are cut on the side wall of the elastic fiber, the grooves are uniformly distributed at one end of the elastic fiber far away from the inner wall of the main body of the test tube drying device, when the placing table is lifted under the action of the electric telescopic rod, when the elastic fiber is entangled with the placing table, the placing plate and the telescopic rod, the heat preservation cluster is easily broken at the positions of the grooves, and the lifting of the placing table is not easily influenced.

Furthermore, the depth of the notch is smaller than one fourth of the diameter of the section of the elastic fiber, so that the influence of the cutting of the notch on the strength of the elastic fiber is reduced, the elastic fiber is not easy to tear under the action of external force, and the heat insulation effect of the heat insulation cluster is not easy to influence.

Further, the degree of depth diverse that lacks the groove, it is deepened that the groove is far away more apart from elastic fiber and test tube drying device main part inner wall tie point, when lacking the groove and receiving external force and dragging, easily at the groove department fracture of lacking of keeping away from elastic fiber and test tube drying device main part tie point for elastic fiber easily keeps relatively longer state, easily keeps the heat preservation effect that keeps warm and crowd.

Further, the socket is dug on the bottom plate of box body, and the socket is located the one side that is close to the transmission mouth, places on the lateral wall of platform fixedly connected with and the isolated grid tray of socket assorted, and isolated grid tray chooses for use the lead plate to make, is being placed the platform and is being raised by electric telescopic handle, and when the staff took test tube main part, isolated grid tray was sheltered from the transmission mouth, forms the enclosure space in the connecting plate, effectively avoids the escape of X ray, reduces radiation injury.

Furthermore, the outer wall of the isolation grid plate is coated with the wear-resistant coating, so that the wear resistance of the isolation grid plate is improved, the isolation grid plate is not prone to excessive wear deformation in the using process, and the isolation effect of the isolation grid plate is not prone to being influenced

Furthermore, the placing table is made of a material with high X-ray transmittance, so that the influence on the detection of the bottom of the test tube main body is reduced.

Furthermore, X-ray box signal connection has control terminal, and control terminal signal connection has processing terminal, and the picture data that the X-ray box was gathered can be uploaded to processing terminal through control terminal, and the staff can observe test tube main body's stealthy crackle through processing terminal, in time carries out abandonment processing and change operation to the test tube main body that has stealthy crackle.

Furthermore, processing terminal signal connection has the storage high in the clouds, and processing terminal can upload the storage high in the clouds with the information of self storage, also can follow the information of downloading on the storage high in the clouds, and the X-ray picture that the normal work of X-ray box accumulated can be stored in processing terminal to upload in the storage high in the clouds, can assist the differentiation of carrying out the stealthy crackle of test tube main part through above-mentioned storage picture.

Furthermore, the signal connection of the storage cloud end is provided with the internet of things module, the storage cloud end can be in information intercommunication with the internet of things module, the sample capacity in the storage cloud end is increased, and the auxiliary identification capability of the invisible cracks is increased.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

in the scheme, the test tube main body is heated and dried by utilizing the reticular annular electric heating net, the heat preservation cluster formed by the elastic fiber is utilized to reduce the flow of heat generated by the test tube main body, can ensure that the whole test tube main body is heated relatively uniformly, so that the heat stress accumulation and the invisible cracks are not easy to generate in the test tube main body, when the test tube main body is taken out, the placing table can be lifted by utilizing the electric telescopic rod, and the X-ray generating device is started at the same time, in the process of ascending the test tube main body, the X-ray box carries out X-ray scanning on the test tube main body and obtains a corresponding X-ray diagram, a worker can detect the test tube main body according to the corresponding X-ray diagram to find recessive cracks in time, and after the test tube main body is completely lifted, the isolation grid plate can block the X-ray of the X-ray box, and the X-ray box is not easy to be subjected to excessive X-ray radiation when a worker takes out the placing plate.

Meanwhile, picture data collected by the X-ray box can be uploaded to the processing terminal through the control terminal, workers can observe invisible cracks of the test tube main body through the processing terminal, abandonment processing and replacement operation are timely carried out on the test tube main body with the invisible cracks, X-ray pictures accumulated during normal work of the X-ray box can be stored in the processing terminal and uploaded to the storage cloud end, identification of the invisible cracks of the test tube main body can be assisted through the storage pictures, and the sample capacity in the storage cloud end can be increased through the Internet of things module, and the auxiliary identification capacity of the invisible cracks is increased.

Can realize carrying out the drying process at the test tube, the heating is more even, and the tired accumulation or the stealthy crack of thermal stress are difficult for appearing, are difficult for causing the test tube to break in the use, and difficult fish tail medical personnel are difficult for causing the germ to leak, are difficult for causing the incident.

Drawings

FIG. 1 is a schematic diagram of the use of the test tube drying apparatus of the present invention;

FIG. 2 is a front sectional view of the test tube drying device of the present invention when dried;

FIG. 3 is a front sectional view of the test tube drying device of the present invention with the test tube removed;

FIG. 4 is a schematic view of the structure at A in FIG. 3;

FIG. 5 is a schematic structural diagram of a test tube drying device according to the present invention;

FIG. 6 is a schematic structural view of the test tube placement table of the present invention;

FIG. 7 is a schematic diagram of the construction of the X-ray cassette of the present invention;

FIG. 8 is a side cross-sectional view of an X-ray cassette of the present invention;

FIG. 9 is a schematic view of a thermal insulating fiber structure of the present invention;

fig. 10 is a schematic view of the main structure of the X-ray cassette working system of the present invention.

The reference numbers in the figures illustrate:

1 test tube drying device main part, 2 sealed lid, 3 bleeder vents, 4 place the platform, 5 electric telescopic handle, 6 test tube main parts, 7 place the board, 8 telescopic links, 9 compression spring, 10 annular electric heat net, 11 keep warm and crowd, 1101 elastic fiber, 1102 scarce groove, 12X light box, 1201 box body, 1202 connecting plate, 1203 inner chamber, 1204X light generating device, 1205 socket, 1206 transmission mouth, 13 absorption board, 14 isolated grid tray, 15 control terminal, 16 processing terminal, 17 storage cloud, 18 thing networking module.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; the connection can be direct connection or indirect connection through an intermediate medium, and can be communication inside the model adapting element. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1:

referring to fig. 1-9, a low-loss medical test tube drying device comprises a test tube drying device main body 1 and a sealing cover 2 which are matched with each other, the test tube drying device main body 1 and the sealing cover 2 are connected with each other through a hinge, the sealing cover 2 is provided with a plurality of air holes 3, the plurality of air holes 3 all penetrate through the sealing cover 2 to be communicated with the inside and the outside of the test tube drying device main body 1, a placing table 4 is placed in the test tube drying device main body 1, an electric telescopic rod 5 is fixedly connected between the placing table 4 and a bottom plate of the test tube drying device main body 1, a placing plate 7 is arranged on the upper side of the placing table 4, a plurality of pairs of telescopic rods 8 and compression springs 9 which are matched with each other are fixedly connected between the placing plate 7 and the placing table 4, the plurality of compression springs 9 are all sleeved on the outer side of the telescopic rods 8, an annular electric heating net 10 is fixedly connected on the bottom plate of the test tube drying device main body 1, and the annular electric heating net 10 is sleeved on the outer side of the electric telescopic rods 5, and is coaxial with the electric telescopic rod 5, the inner wall of the test tube drying device main body 1 is fixedly connected with a heat preservation cluster 11, the heat preservation cluster 11 is positioned at the upper side of the annular electric heating net 10, the heat preservation cluster 11 comprises a plurality of elastic fibers 1101 in a three-dimensional spiral shape, the plurality of elastic fibers 1101 are mutually overlapped to form a three-dimensional space structure, the elastic fibers 1101 are made of heat insulating materials, the inner wall of the test tube drying device main body 1 is fixedly connected with an X-ray box 12 and an absorption plate 13 which are mutually matched in position, the X-ray box 12 and the absorption plate 13 are both positioned at the upper side of the heat preservation cluster 11, the X-ray box 12 comprises a box body 1201, a connecting plate 1202 is fixedly connected between the box body 1201 and the inner wall of the test tube drying device main body 1, an inner cavity 1203 is drilled in the box body 1201, the inner wall of the inner cavity 1203 close to one side of the connecting plate 1202 is fixedly connected with an X-ray generating device 1204, an emitting opening 1206 matched with the X-ray generating device 1204 is drilled in the side of the inner cavity 1203 far away from the connecting plate 1202, the emission port 1206 penetrates the case 1201 and communicates the connection plate 1202 with the outside.

It should be noted that in the present embodiment, the main body 1 and the sealing cover 2 are made of high thermal insulation material, and the X-ray box 12 can emit X-rays and obtain an X-ray image, which is well known in the art and therefore not disclosed in detail in the present application.

Can realize carrying out the drying process at the test tube, the heating is more even, and the tired accumulation or the stealthy crack of thermal stress are difficult for appearing, are difficult for causing the test tube to break in the use, and difficult fish tail medical personnel are difficult for causing the germ to leak, are difficult for causing the incident.

The side wall of the elastic fiber 1101 is provided with a plurality of notches 1102, the plurality of notches 1102 are distributed at one end of the elastic fiber 1101 far away from the inner wall of the test tube drying device main body 1, when the placing table 4 is lifted under the action of the electric telescopic rod 5, when the elastic fiber 1101 is entangled with the placing table 4, the placing plate 7 and the telescopic rod 8, the heat-insulating cluster 11 is easy to break at the notches 1102 and not easy to influence the lifting of the placing table 4, the depth of the notches 1102 is less than one fourth of the section diameter of the elastic fiber 1101, the influence of the cutting of the notches 1102 on the strength of the elastic fiber 1101 is reduced, so that the elastic fiber 1101 is not easy to tear under the action of external force, the heat-insulating effect of the heat-insulating cluster 11 is not easy to influence, the depth of the notches 1102 is deeper, the farther the notch 1102 is away from the connecting point of the elastic fiber 1101 and the inner wall of the test tube drying device main body 1, and when the notches 1102 are pulled by external force, the notches 1101 are easy to break at the notches 1101 far away from the connecting point of the elastic fiber and the test tube drying device main body 1, so that the elastic fiber 1101 is easily maintained in a relatively long state and the insulation effect of the insulation pack 11 is easily maintained.

Cut on the bottom plate of box body 1201 has socket 1205, socket 1205 is located the one side that is close to transmission port 1206, fixedly connected with and socket 1205 assorted isolated grid tray 14 on the lateral wall of placing platform 4, isolated grid tray 14 chooses for use the lead plate to make, place platform 4 and rise by electric telescopic handle 5, when the staff takes test tube main part 6, isolated grid tray 14 hides transmission port 1206, form the enclosure space in connecting plate 1202, effectively avoid escaping of X ray, reduce the radiation injury, the coating has wear-resistant coating on isolated grid tray 14's the outer wall, increase isolated grid tray 14's wear resistance, make isolated grid tray 14 be difficult for taking place excessive wearing and tearing deformation in the use, be difficult for influencing isolated effect of isolated grid tray 14, place platform 4 and choose the material of the high rate of X ray for use to make, reduce the influence that detects bottom test tube main part 6.

The X-ray box 12 is connected with a control terminal 15 by signals, it is worth noting that the test tube drying device main body 1 comprises a plurality of electric appliances, including but not limited to the electric telescopic rod 5 and the X-ray generating device 1204, the control terminal 15 can monitor the electric appliances to complete the normal use of the test tube drying device, the control terminal 15 is connected with a processing terminal 16 by signals, the picture data collected by the X-ray box 12 can be uploaded to the processing terminal 16 by the control terminal 15, the worker can observe the invisible cracks of the test tube main body 6 by the processing terminal 16 to timely perform abandonment and replacement operations on the test tube main body 6 with the invisible cracks, the processing terminal 16 is connected with a storage cloud terminal 17 by signals, the processing terminal 16 can upload the information stored by itself to the storage cloud terminal 17 and also can download the information from the storage cloud terminal 17, the X-ray images accumulated during the normal work of the X-ray box 12 can be stored in the processing terminal 16, and upload to storage cloud 17 in, can assist the discernment of the stealthy crackle of test tube main part 6 through above-mentioned memory picture, storage cloud 17 signal connection has thing networking module 18, and storage cloud 17 can carry out information intercommunication with thing networking module 18, increases the sample capacity in the storage cloud 17, increases the supplementary discrimination ability to stealthy crackle.

In the scheme, a netted annular electric heating net 10 is used for heating and drying the test tube main body 6, a heat preservation cluster 11 formed by elastic fibers 1101 is used for reducing the flow of heat generated by the test tube main body 6, so that the whole test tube main body 6 is heated relatively uniformly, the heat stress accumulation and the hidden cracks are not easily generated in the test tube main body 6, when the test tube main body 6 is taken out, the placing table 4 can be lifted by using the electric telescopic rod 5, the X-ray generating device 1204 in the X-ray box 12 is started, in the process that the test tube main body 6 rises, the X-ray box 12 carries out X-ray scanning on the test tube main body 6 and obtains a corresponding X-ray image, a worker can detect the test tube main body 6 according to the corresponding X-ray image and find the hidden cracks in time, and after the test tube main body 6 is completely lifted, the X-ray of the X-ray box 12 can be blocked by the grid plate 14, is not susceptible to excessive X-ray radiation when the worker takes out the placing plate 7.

Meanwhile, picture data collected by the X-ray box 12 can be uploaded to the processing terminal 16 through the control terminal 15, workers can observe invisible cracks of the test tube main body 6 through the processing terminal 16, abandonment processing and replacement operation are timely carried out on the test tube main body 6 with the invisible cracks, X-ray pictures accumulated during normal work of the X-ray box 12 can be stored in the processing terminal 16 and uploaded to the storage cloud end 17, identification of the invisible cracks of the test tube main body 6 can be assisted through the stored pictures, and the sample capacity in the storage cloud end 17 can be increased through the Internet of things module 18, and the auxiliary identification capacity of the invisible cracks is increased.

Can realize carrying out the drying process at the test tube, the heating is more even, and the tired accumulation or the stealthy crack of thermal stress are difficult for appearing, are difficult for causing the test tube to break in the use, and difficult fish tail medical personnel are difficult for causing the germ to leak, are difficult for causing the incident.

It should be noted that, since there are few test tubes that can be recycled, the present solution is a drying device for a single test tube, and those skilled in the art can design an apparatus for drying a plurality of test tubes together according to actual needs, which is well known to those skilled in the art and therefore not disclosed in detail in the present application.

The foregoing is only a preferred embodiment of the present invention; the scope of the invention is not limited thereto. Any person skilled in the art should be able to cover the technical scope of the present invention by equivalent or modified solutions and modifications within the technical scope of the present invention.