CN112520162A - Test tube preparation equipment and preparation method thereof - Google Patents

Abstract

The invention provides a test tube preparation device and a preparation method thereof, wherein the preparation device utilizes a labeling device to comprise a linkage module which can be linked with a positioning unit, a tube body can be placed through the positioning unit, the structure design and the configuration relation of the tube body which is close to or far away from a label generation module of a surface processing device are finely adjusted, so that label generation, label transmission and tube body labeling and sending are completed, the preparation device is provided, before and after tube body labeling, the label is effectively integrated and rapidly generated and is pasted on the tube body, the high-quality generation and rapid labeling effects of the tube body and the label are improved, and the practical efficiency is improved.

Description

Test tube preparation equipment and preparation method thereof

Technical Field

The invention relates to a preparation device and a preparation method thereof, in particular to a test tube preparation device and a preparation method thereof, which can quickly generate an integrated label and paste the integrated label on a test tube.

Background

The application of the existing bar code labeling machine or the so-called bar code printer and the label printer is quite popular, and the application of the existing bar code labeling machine or the so-called bar code printer and the label printer comprises the application in a plurality of industries such as medical industry, transportation industry, retail industry, logistics storage industry, manufacturing industry, entertainment industry, service industry, government offices, post office or express delivery industry and the like.

In hospitals, clinics and some medical related institutions, the test tube is used for sampling blood for patients, and then the test tube filled with blood is sent to a blood test place.

Generally, a plurality of or different kinds of test tubes are prepared for different patients or different detection requirements of the same patient, and for further distinction and identification, labels/barcodes printed with patient information, examination items, and the like are generally required to be pasted on the test tubes. These labels can be produced by marking (printing) on a label paper with characters and/or bar codes, and pasting the label paper on the test tube (or tube body). However, the existing machine equipment is still operated by medical staff in a sectional manner for the above processes, but under the condition that the test tubes need to be taken and placed frequently in the peak of medical care, the working efficiency is low, and errors such as label misapplication and misplacement easily occur, and even the errors finally result in detection errors.

The present inventors have considered that the above-mentioned drawbacks can be improved, and have conducted intensive studies in cooperation with the application of scientific principles, and finally have proposed an invention which is designed reasonably and effectively to improve the above-mentioned drawbacks.

Disclosure of Invention

The embodiment of the invention aims to provide test tube preparation equipment and a test tube preparation method, which can effectively overcome the defects possibly generated in the prior art.

In order to achieve the purpose, the invention adopts the technical scheme that:

a test tube preparation apparatus, comprising:

a housing, which comprises a main housing and a side housing wall movably connected with the main housing;

a subsides mark device sets up in this main shell, and this pastes the mark device contains:

the linkage module comprises a main frame body and a linkage unit arranged on the main frame body, wherein the linkage unit comprises a driven frame which can move relative to the main frame body; and

a positioning unit arranged on the driven frame for placing a tube and providing fine adjustment alignment relative to the surface treatment device;

the surface treatment device comprises a label generation module and a paper supply module for providing paper to the label generation module, wherein the label generation module sends the generated paper to the labeling device; and

and the control device is used for synchronously controlling the labeling device and the surface treatment device, wherein the positioning unit finely adjusts the pipe body to be close to or far away from the label generation module so as to finish labeling and sending out the pipe body.

Test tube preparation equipment, wherein, this body one side of body frame sets up an auxiliary unit, and this interlock unit is located this body frame inside, and it includes a action wheel unit and a follow driving wheel unit, should include this driven frame from the driving wheel unit, and can receive this action wheel unit interlock from the driving wheel unit through this, make this driven frame can be relative this body frame body and the rotation, and then make this positioning unit keep away from or be close to for this auxiliary unit.

The test tube preparation equipment, wherein, this auxiliary unit of this interlock module contains a rotation wheel, and forms an opening on this rotation wheel, this action wheel unit contains a action wheel, and can a power part of this action wheel of interlock, should include from the driving wheel unit and be located a first follow driving wheel and a second follow driving wheel on this driven frame, this first follow driving wheel can receive this action wheel linkage and drive this driven frame activity.

The test tube preparation equipment, wherein, this body frame body of this interlock module includes a first side frame wall, a second side frame wall, and connects a rear side frame wall of this first side frame wall, second side frame wall, and this auxiliary unit sets up in this first side frame wall, makes the relative both sides of this auxiliary unit correspond to this positioning unit and this label respectively and generates the module, and should form a holding between the driven frame and this auxiliary unit apart from, this positioning unit is located this accommodation space.

Test tube preparation equipment, wherein, this positioning unit includes a test-tube rack and connects a counterweight of this test-tube rack, this driven frame is located to this counterweight pivot, makes this driven frame can reset through this counterweight.

The test tube preparation equipment, wherein, this body frame body of this interlock module contains a front side wall, and this front side wall inner face sets up one and leads the pressure unit, should lead and press the unit to be located this auxiliary unit top.

The test tube preparation device, wherein the labeling device comprises a correction unit, the correction unit is arranged on the second side frame wall of the main frame body, and a pushing piece of the correction unit is positioned above the positioning unit and used for adjusting the position of the tube body on the positioning unit.

The test tube preparation equipment, wherein, should paste the mark device and contain a spacing module, this spacing module sets up on this first side frame wall of this body frame body and for this positioning unit, this spacing module contains and seeks an limit unit that the limit was counterpointed for the pasting edge of this body, does benefit to the mark action that the effective limit of seeking of this body was counterpointed.

The test tube preparation equipment comprises a shell, wherein the shell comprises an upper cover movably connected with the upper part of the main shell, a containing unit which can slide relative to the side shell wall is convexly arranged on the inner surface of the side shell wall, and the containing unit is positioned below the labeling device and corresponds to the positioning unit so as to bear the tube body which falls down from the positioning unit.

Test tube preparation equipment, wherein, this first side frame wall below of this body frame body is equipped with a pin joint portion for locate this body frame body pivot in this casing, make this body frame body can carry out the pivot relatively this casing, do benefit to this body frame body and keep away from or be close to relatively this surface treatment device.

Test tube preparation equipment, wherein, should paste the mark device and contain an identification module who sets up on this first side frame wall, this identification module connects in this controlling means, it is used for discerning whether this body is normally pasted the mark.

The test tube preparation equipment comprises a surface treatment device, a label generation module and a paper feeding module, wherein the label generation module of the surface treatment device comprises a base unit and a printing head unit arranged on the base unit, the base unit comprises a paper feeding roller and a peeling unit, the paper feeding module comprises a paper roll support and a recovery unit, the paper roll support is used for arranging the paper so as to provide the paper for the printing head unit to be printed and generated, the paper is peeled by the peeling unit to form a piece of bottom paper of the paper, the paper feeding roller conveys the generated sticky paper of the paper, and the recovery unit is used for recovering the bottom paper.

The test tube preparation device is characterized in that the pressure guide unit, the opening of the auxiliary unit and the paper feed roller of the base unit form a paper feed path for guiding the generated adhesive paper to be conveniently adhered to the tube body.

The test tube preparation equipment, wherein, this correction unit includes a guide piece that sets up at this second side frame wall and connects a top of this guide piece and pushes away the piece, through finely tuning this guide piece relative this second side frame wall displacement, can drive this top and push away the piece and remove in order to finely tune the correct position of this body on this positioning unit.

A preparation method using the test tube preparation device, wherein the method comprises the following steps:

a generation step: receiving an instruction and a data through the label generating module of the surface processing device, and receiving the paper provided by the paper supply module so as to mark and generate the data on the paper;

a transmission step: the label generating module is used for transmitting the generated paper to the labeling device;

and

a labeling step: the tube body enters the labeling device and is fed to the positioning unit, the control device controls the linkage relation of the linkage unit of the linkage module, the driven frame finely adjusts the displacement of the positioning unit, the tube body is further finely adjusted to be close to the label generating module, and the paper is adhered to the tube body after being generated.

In the preparation method, in the generating step, the label generating module of the surface processing device receives the instruction from a data device and the data to be generated related to the patient, receives the paper provided by the paper supply module, and provides the paper to the printing head unit of the label generating module for marking generation so as to mark and generate the data on the sticky paper of the paper.

In the preparation method, in the generating step, the label generating module and the paper feeding module of the surface treatment device can be disposed in the housing, and the label generating module is opposite to the labeling device.

In the preparation method, in the generating step, the label generating module of the surface treatment device can be disposed outside the housing, and the label generating module can utilize an existing printer to firstly associate the data to be generated with a plurality of patients one by one, and mark each sticky paper on the paper of a paper roll in advance, and then dispose the paper roll on a paper roll support of the paper supply module, in the transmitting step: the paper is received and transmitted by the paper feeding roller of the base unit of the label generation module, the base paper of the paper is peeled by the peeling unit, the generated sticky paper is transmitted to the labeling device by the paper feeding roller, and the base paper is recovered by the recovery unit of the paper supply module.

The preparation method, wherein the generating step of the preparation method further comprises a correlation step before: before the device is used for preparing the tube label and collecting the biological product to be analyzed, the device is connected with a data device, and the identity of the patient and related personal data and biometric data of the patient are identified in advance through the data device.

The production method described above, wherein, in the conveying step: the paper feeding roller of the base unit of the label generation module is used for receiving the paper, the peeling unit is used for peeling the base paper of the paper, and the paper feeding roller of the base unit of the label generation module is used for conveying the generated sticky paper to the labeling device; the labeling step comprises: the positioning unit is finely adjusted to drive the tube body to rotate under the driving of the rotating wheel of the linkage unit, so that the adhesive paper can be adhered to the tube body after being generated.

The preparation method, wherein the labeling step of the preparation method further comprises a detection step: the edge searching unit of the limiting module of the labeling device is used for edge searching and alignment of the tube body, so that the tube body alignment labeling action is facilitated; and a finishing step: after labeling, the tube body controls the linkage unit of the labeling device to pause linkage relationship through the control device, so that the positioning unit on the driven frame enables the test tube rack to move and return through the counterweight, and after labeling, the tube body falls on the containing unit on the inner surface of the side shell wall from the test tube rack.

In summary, the test tube preparation apparatus disclosed in the embodiments of the present invention utilizes the labeling device including the linkage module capable of linking the positioning unit, and the positioning unit can place a tube and finely adjust the structural design and configuration relationship of the tube approaching or departing from the label generation module of the surface treatment device, so as to complete label generation, label transmission, tube labeling and sending out.

For a better understanding of the nature and technical content of the present invention, reference should be made to the following detailed description of the invention, taken in conjunction with the accompanying drawings, which are provided for purposes of illustration and description and are not intended to limit the scope of the invention in any way.

Drawings

FIG. 1 is a perspective view of a test tube preparing apparatus according to an embodiment of the present invention.

FIG. 2 is an exploded view of a test tube preparation apparatus according to an embodiment of the present invention.

Fig. 3 is an exploded view of the side casing wall and the receiving unit of the housing of fig. 2.

Fig. 4 is an exploded view of the labeling device of fig. 2.

Fig. 4A is a perspective view of the correction unit of fig. 4.

Fig. 5 is a schematic view of the first side frame wall of fig. 4 from another perspective.

Fig. 6 is a perspective view of the linkage unit and the positioning unit in fig. 4 from another view angle.

Fig. 7 is a partially exploded perspective view of the linking module and the positioning unit in fig. 4.

Fig. 7A is a schematic view of another view angle of the position limiting module in fig. 7.

Fig. 8 is an exploded view of the spacing module of fig. 4.

Fig. 9 is a schematic view of the labeling device of fig. 2 pivoted to the left relative to the housing.

FIG. 10 is a sectional view showing the combination of the test tube preparing apparatus according to the embodiment of the present invention.

Fig. 11 is a partially assembled cross-sectional view of the labeling device and label producing module of fig. 10.

FIG. 12 is an operation view of FIG. 11.

Fig. 13 is a perspective view of the tube (the relative positions of the driven frame, the test tube holder, the tube, and the pressure guide unit) disposed in the labeling device of fig. 11.

Fig. 14 is a partially sectioned view (the relationship between the tube and the auxiliary unit) of fig. 13.

Fig. 15 is a schematic view of the tube body being labeled and dropped in the receiving unit in fig. 2.

FIG. 16 is a flow chart of steps of a method of making an embodiment of the present invention.

Description of reference numerals: 100-test tube preparation equipment; 1-a shell; 11-a main shell; 111-a mounting wall; 12-upper cover; 13-side shell wall; 131-a storage unit; 1311-sliding plate; 1312-a receiving substrate; 1313-elongated grooves; 2-labeling device; 21; a linkage module; 211-main frame body; 2111-first side frame wall; 2112-second side frame wall; 2113-rear side frame wall; 2114-roof side shelf walls; 2115-front side frame wall; 2116-pressure guide unit; 21161-elastic member; 21162-biasing member; 2117-auxiliary unit; 21171-running wheel; 21172-opening; 2118-pivot joint; 212-a capstan unit; 2121-driving wheel; 2122-a power section; 213-driven wheel unit; 2131-a driven frame; 2132-a first driven wheel; 2133-a second driven wheel; 22-a positioning unit; 221-test tube rack; 222-a weight; 23-a correction unit; 231-a guide; 232-a pushing piece; 24-a limit module; 241-an induction receiver; 242-edge finding unit; 3-a surface treatment device; 31-a tag generation module; 311-a base unit; 3111-a base; 3112-feed rollers; 312-a printhead unit; 3121-carbon tape holder; 3122-a print head; 32-a sheet feeding module; 321-a paper roll bracket; 322-a recovery unit; 3221-a recovery shaft; 3222-antislip piece; 4-a control device; 41-circuit unit; 42-a display unit; 70. 70' -tube body and labeled tube body; 80-paper roll; 81. 81' -sheet, post-production sheet; 811. 811' -sticky paper, post-production sticky paper (i.e., label paper); 812-base paper; a-an accommodation space; p1-first position (in situ); p2-second position.

Detailed Description

Fig. 1 to 16 are schematic views of embodiments of the present invention, and it should be noted that the relevant numbers and shapes of the embodiments mentioned in the drawings are only for describing the embodiments of the present invention in detail, so as to facilitate the understanding of the contents of the present invention, and not for limiting the scope of the present invention.

[ test tube preparation apparatus ]

Referring to fig. 1 to 15, which are illustrations of embodiments of the present invention, the present embodiment discloses a test tube preparing apparatus 100, which includes a housing 1, a labeling device 2 pivotally disposed in the housing 1, a surface treatment device 3 disposed near the labeling device 2, and a control device 4 disposed in the housing 1, for synchronously controlling the labeling device 2 and the surface treatment device 3.

It should be noted that the test tube preparing apparatus 100 of the present embodiment is described with a labeling device 2 and a surface treatment device 3, and the corresponding elements are used for illustration, but the invention is not limited to the structure of the surface treatment device 3 and the connection relationship between the surface treatment device and the corresponding elements. That is, in other embodiments not shown in the present invention, a label generating module 31 of the surface processing apparatus 3 may be applied with the related structure disclosed in the following detailed description, or may be directly applied with an existing printer to generate a label paper (i.e. the adhesive paper 811 'marked in the following) by printing according to the present invention, and then the generated adhesive paper 811' is transmitted to the labeling apparatus 2 for labeling. The housing 1, the labeling device 2, and the control device 4 may be configured differently from the surface treatment device 3 of the present embodiment.

Referring to fig. 1, 2 and 3, the housing 1 includes a main housing 11, an upper cover 12 movably connected to the main housing 11, and a side housing wall 13 movably connected to a side of the main housing 11, so as to facilitate the side housing wall 13 to open or close with respect to the main housing 11. Furthermore, a mounting wall 111 is protruded from the interior of the main housing 11.

Referring to fig. 2 and 3, in the present embodiment, the side wall 13 is substantially L-shaped, and a receiving unit 131 is disposed on the lateral surface, and includes a sliding plate 1311 disposed on the lateral surface and a receiving substrate 1312 stacked and fixed on the sliding plate 1311, wherein the sliding plate 1311 is provided with a long groove 1313, and a screw can pass through the long groove 1313 to position the sliding plate 1311 on the lateral surface and can slide back and forth.

Referring to fig. 4, 5, 6, 7, 8 and 9 and fig. 10 to 14, the labeling device 2 is movably disposed in the housing 1, and the labeling device 2 includes a linkage module 21 and a positioning unit 22. The linkage module 21 includes a main frame 211 and a linkage unit disposed in the main frame 211, and the linkage unit includes a driving wheel unit 212 and a driven wheel unit 213. The following describes the elements of the labeling device 2 and their positional relationship with each other.

Referring to fig. 4 and 9, in the present embodiment, the main frame 211 includes a first side frame wall 2111, a second side frame wall 2112, a rear side frame wall 2113 connecting the first and second side frame walls 2111 and 2112, a top side frame wall 2114 located above and a front side frame wall 2115 located in front. As shown in fig. 2 and 5, a pivot portion 2118 is disposed below the first side wall 2111 of the main frame 211 for pivoting on the mounting wall 111 in the main housing 11 of the housing 1, so that the main frame 211 can pivot outward relative to the mounting wall 111 of the main housing 11 when the side housing wall 13 is opened (see fig. 9).

Further, as shown in fig. 4, 7 and 7A, a pressure guide unit 2116 is disposed on an inner surface of the front side frame 2115 of the main frame 211, and in the present embodiment, the pressure guide unit 2116 includes an elastic member 21161 and a biasing member 21162 having one end connected to the elastic member 21161, such that the free arm of the biasing member 21162 is inclined downward toward the right side (as shown in fig. 7 and 7A). As shown in fig. 5, an auxiliary unit 2117 is disposed on the first side wall 2111 of the main frame 211, in this embodiment, the auxiliary unit 2117 includes a rotating wheel 21171 controlled by the control device 4 to rotate clockwise, and an opening 21172 having a guide plate is formed on the rotating wheel 21171, and the position of the auxiliary unit 2117 is slightly lower than the position of the pressure guide unit 2116, so that the free arm of the biasing member 21162 of the pressure guide unit 2116 exactly corresponds to the auxiliary unit 2117 and the positioning unit 22, and the end edge of the free arm of the biasing member 21162 is slightly higher than the opening 21172 of the auxiliary unit 2117.

Based on the structural and positional relationship between the pressure guide unit 2116 and the auxiliary unit 2117, the opening 21172 is suitable for the post-production adhesive paper 811 'of the paper 81 conveyed by the surface processing apparatus 3 to pass through to enter the main frame 211, and the front edge of the post-production adhesive paper 811' in the process of advancing can be guided by the free arm of the biasing member 21162 of the pressure guide unit 2116 and pressed down to be close to above the positioning unit 22 (see fig. 12).

As shown in fig. 4, in the present embodiment, the driving wheel unit 212 includes a driving wheel 2121 and a power portion 2122 capable of driving the driving wheel 2121, wherein two sides of the driving wheel 2121 are respectively pivoted to the rear side frame wall 2113 and the front side frame wall 2115, and the power portion 2122 is disposed on the rear side frame wall 2113. As shown in fig. 4, 6 and 7, the driven wheel unit 213 includes a driven frame 2131, a first driven wheel 2132 and a second driven wheel 2133 mounted on the driven frame 2131, and the first driven wheel 2132 is axially disposed at an upper end edge of the driven frame 2131 and above the second driven wheel 2133; the first driven wheel 2132 is driven by the driving wheel 2121 to drive the lower end edge of the driven frame 2131 to rotate laterally, so that the lower end edge of the driven frame 2131 can move toward or away from the first side frame wall 2111 of the main frame 211 (see fig. 4 and 7).

As shown in fig. 4, 6 and 7, the positioning unit 22 of the labeling device 2 is disposed at the lower end edge of the driven frame 2131 and is away from the first driven wheel 2132. The positioning unit 22 includes a test tube rack 221 capable of carrying a tube 70, and a weight 222 connected to the test tube rack 221; the two ends of the weight member 222 are pivotally disposed at the lower end edge of the driven frame 2131 and far away from the first driven wheel 2132, and when the first driven wheel 2132 is released from the linked relationship, the driven frame 2131 can be reset by the weight member 222 (in this embodiment, the reset is indicated to a first position P1 originally far away from the first side frame wall 2111, as shown in fig. 11). That is, when the first driven wheel 2132 is driven by the driving wheel 2121 to rotate the lower end edge of the driven frame 2131 laterally, the positioning unit 22 on the lower end edge of the driven frame 2131 moves laterally, and the distance between the positioning unit 22 and the auxiliary unit 2117 is fine-adjusted (in this embodiment, the fine-adjustment distance includes a shortened distance and an original distance returning to the original position, as shown in fig. 12).

2, 4, 10 and 11, based on the above elements, structures and mutual position relation, their combination forms; the labeling device 2 is pivotally mounted on the mounting wall 111 in the main housing 11 of the housing 1 through a pivot portion 2118 below the first side frame wall 2111 of the main frame 211, such that the first side frame wall 2111 abuts against one side of the mounting wall 111, and the auxiliary unit 2117 is mounted on the first side frame wall 2111, such that two opposite sides of the position of the auxiliary unit 2117 respectively correspond to the positioning unit 22 and the surface treatment device 3, a receiving space a is formed between the driven frame 2131 and the auxiliary unit 2117, the positioning unit 22 is located in the receiving space a and located at a first position P1 (in the present embodiment, the first position P1 is the home position, as shown in fig. 11), and accordingly, the positioning unit 22 is away from the auxiliary unit 2117, i.e. the test tube frame 221 and the rotating wheel 21171 are away from each other. As shown in fig. 10, when the side casing wall 13 of the housing 1 is covered on the side of the main casing 11, the housing unit 131 provided on the side casing wall 13 is positioned below the labeling device 2 and below the positioning unit 22.

Thus, in the usage form, as shown in fig. 11, 12 and 13, the driving wheel 2121 of the linking module 21 can link the first driven wheel 2132 to drive the driven frame 2131 to axially rotate, and the driven frame 2131 can link the positioning unit 22 to displace, so as to further finely adjust the distance between the positioning unit 22 on the driven frame 2131 and the auxiliary unit 2117. That is, as shown in fig. 12 and 13, when the driving wheel 2121 is driven by the power portion 2122 to rotate clockwise, and simultaneously, the first driven wheel 2132 is driven to rotate counterclockwise, because the first driven wheel 2132 is located at the upper end of the driven frame 2131, the free end edge below the driven frame 2131 is driven to rotate counterclockwise, so that the positioning unit 22 is shifted from the first position P1 to the second position P2 "upward and rightward", and the positioning unit 22 is further finely adjusted to be close to the auxiliary unit 2117, that is, the test tube rack 221 is finely adjusted to be close to the rotating wheel 21171. At this time, the free arm of the biasing member 21162 of the pressure guide unit 2116 is pressed downward laterally, thereby approaching above the positioning unit 22 (see fig. 12).

More specifically, as shown in fig. 12 and 13, when the tube body 70 is disposed on the tube rack 221 of the positioning unit 22 and the left side of the tube body 70 abuts against the second driven wheel 2133, the fine adjustment operation is performed to make the tube rack 221 approach to the rotating wheel 21171 and to make the right side of the tube body 70 abut against the rotating wheel 21171 rotating clockwise (in this case, even if the left and right sides of the tube body 70 abut against the second driven wheel 2133 and the rotating wheel 21171 respectively, the tube body is disposed on the tube rack 221 and closer to the surface treatment device 3).

Based on this, the right side of the tube body 70 is attached to the rotating wheel 21171 which rotates clockwise, so that the tube body 70 rotates counterclockwise, and rotating the middle tube body drives the second driven wheel 2133 to rotate clockwise; furthermore, based on the position relationship between the pressure guide unit 2116 and the auxiliary unit 2117, when the produced adhesive paper 811 'of the paper 81 is conveyed by the surface treatment device 3 and passes through the opening 21172 to enter the main frame 211, the front end edge of the advanced produced adhesive paper 811' can be guided by the free arm of the biasing member 21162 of the pressure guide unit 2116 and pressed downward, so as to be smoothly adhered to the tube body of the middle tube body 70 which is positioned on the test tube rack 221 of the positioning unit 22 and rotates counterclockwise, thereby achieving the purpose of tube body labeling and the labeling step.

On the contrary, as shown in fig. 11 and 12, when the tube body of the tube body 70' is labeled, the driving wheel 2121 releases the interlocking relationship with the first driven wheel 2132, and the driven wheel 2131 can be rapidly reset by the weight 222 of the positioning unit 22 (in this embodiment, the reset means to rapidly move back to the left from the second position P2 to the first position P1). Furthermore, when the side wall 13 of the housing 1 is covered on the side of the main housing 11, the positioning unit 22 is located below the receiving unit 131 disposed on the side wall 13, and then the positioning unit 22 on the driven rack 2131 is rapidly moved from the second position P2 to the left to the first position P1 after the reset, so that the tube 70 ' can be received by the receiving unit 131 even if the tube 70 ' falls down after the labeling on the test tube rack 221, thereby achieving the purpose of automatically receiving and completing the steps of the tube 70 ' after the labeling.

Further, the top frame wall 2114 of the main frame body 211 may be designed to have a separate structure. That is, in a normal state, the top sidewall 2114 directly covers the top of the main frame 211 surrounded by the first and second sidewalls 2111 and 2112, the rear sidewall 2113 and the front sidewall 2115, so as to protect the modules and components in the main frame 211; conversely, when the top frame walls 2114 are opened as desired, inspection or maintenance of the modules and components within the main frame 211 may be facilitated.

Furthermore, as shown in fig. 4, 4A and 5, the labeling device 2 further includes a calibration unit 23, and the calibration unit 23 is disposed on the second sidewall 2112 of the main frame 211. The calibration unit 23 includes a guiding member 231 disposed on the second side frame wall 2112, and a pushing member 232 connected to the guiding member 231, wherein the guiding member 231 is provided with a sliding slot, and a locking member passes through the sliding slot to make the guiding member 231 located on the second side frame wall 2112, and can horizontally move relative to the second side frame wall 2112, and make the pushing member 232 just above the test tube rack 221 of the positioning unit 22. Accordingly, when the guiding member 231 is finely adjusted to be horizontally displaced relative to the second side frame wall 2112, the pushing member 232 can be driven to move, and the pushing member 232 can finely adjust the front and rear positions of the tube body 70 on the test tube rack 221, so as to achieve the purpose of effectively correcting the correct position of the tube body 70 on the test tube rack 221. Furthermore, as shown in fig. 2, 4, 5 and 13, the pushing member 232 can be adjusted finely to make the tube body of the tube body 70 located on the test tube rack 221 and the cap head mostly protruded out of the main frame 211, so that the operator can see the primary confirmation of the tube body 70.

Furthermore, as shown in fig. 4, 7, 8, 13 and 14, the labeling device 2 further includes a position limiting module 24, and the position limiting module 24 is disposed on the first sidewall 2111 of the main frame 211 and is opposite to the positioning unit 22. The position limiting module 24 includes an induction receiver 241 for inducing and confirming the tube 70 on the positioning unit 22, and an edge searching unit 242 for edge searching and aligning the tube 70, in this embodiment, the edge searching unit 242 includes a plurality of telescopic contact bumps arranged in a row, and the induction receiver 241 and the edge searching unit 242 are connected to each other and are controlled by the control device 4. Accordingly, the sensing receiver 241 is used for sensing the tube 70 and receiving a mutual alignment message from the edge searching unit 242 and a predetermined bonding edge point (not shown) on the tube 70, and transmitting the mutual alignment message to the control device 4, so as to achieve the purpose of effectively searching the edge and aligning the label and the detection step, thereby improving the quality of the label.

In the embodiment, the labeling device 2 further includes an identification module (not shown) disposed on the first sidewall 2111, and the identification module can be connected to the control device 4. The identification module generally comprises a scanning unit and a confirmation unit for scanning and identifying, confirming whether the tube 70 is labeled normally, and transferring the labeled information to the control device 4 to more effectively control the quality of the labeled tube and the detection steps. However, it should be understood by those skilled in the art that the foregoing embodiments are merely illustrative of the spirit and scope of the present invention, and not limiting thereof.

Referring to fig. 2, 4, 10 and 11, the surface treatment device 3 is located near the labeling device 2. It includes a label generation module 31 and a paper supply module 32 for supplying a paper 81 to the label generation module 31. The label producing module 31 and the paper feeding module 32 may be disposed in the main housing 11 of the housing 1, and the label producing module 31 is relatively close to the labeling device 2, so that the label producing module 31 sends out the label produced paper to the labeling device 2, thereby achieving the producing step and the transferring step. The invention is not so limited.

It should be noted that, in the embodiment, a label generating module 31 of the surface processing apparatus 3 may be applied to the related structure specifically disclosed below, or may be directly applied to the existing printer, and is used to describe the specific implementation manner and the achievable effect of the present invention in combination with the other apparatuses and modules, so as to better understand the content of the present invention, but not to limit the protection scope of the present invention.

That is, the label printing method is used to achieve the present invention, the label generating module 31 of the surface processing device 3 can receive the instruction from a data device (not shown) and the data to be generated for patient/personal association (the data device generally includes the identification of the patient and the associated personal data and biometric data of the patient, etc.), achieve the association procedure, and receive the paper 81 provided by the paper supply module 32, the paper 81 includes a plurality of sticky papers 811 and a base paper 812 on which the sticky papers are disposed; accordingly, the label generating module 31 marks the data on the sticky paper 811 of the paper 81 to achieve the purpose of marking and generating labels, and then transmits the sticky paper 811' (i.e. label paper) after marking generation to the labeling device 2 to achieve the transmission step, so as to facilitate the labeling operation of the labeling device 2. The following is a description of the specific structure of the surface treatment apparatus 3 and the positional relationship between the respective elements.

As shown in fig. 2, 10 and 11, in the present embodiment, the label producing module 31 of the surface treatment device 3 is disposed in the main housing 11 of the housing 1, and one side thereof is close to the other side surface of the mounting wall 111. The label generating module 31 comprises a base unit 311, a print head unit 312 movably disposed above the base unit 311, and a receiving and transmitting unit (not shown) connected to the print head unit 312, and the receiving and transmitting unit is used for receiving the related data/message from the data device and transmitting the related data/message to the print head unit 312 for data label printing.

The base unit 311 includes a base 3111, a paper feeding roller 3112 disposed on the base 3111, and a peeling unit (not shown); the print head unit 312 includes a thermal tape holder 3121, and a print head 3122 disposed at the front end of the thermal tape holder 3121, such that the print head 3122 corresponds to the paper feeding roller 3112 below, and the rear side of the thermal tape holder 3121 is pivoted on the base 3111 of the base unit 311, so as to facilitate the thermal tape holder 3121 to be able to open and cover above the base 3111. Accordingly, when the carbon tape holder 3121 is lifted, the inspection of the base unit 311 and the printing head 3122 can be facilitated, and the purpose of troubleshooting and maintenance can be achieved.

As shown in fig. 2, 10 to 13, the paper feeding module 32 of the surface treatment apparatus 3 is provided on the inner vertical surface of the main casing 11 of the housing 1 and on the other side of the label producing module 31. The paper supply module 32 includes a paper roll support 321 and a recycling unit 322, wherein the paper roll support 321 is used to mount a paper roll 80 having the paper 81, and is favorable for providing the paper 81 to the print head unit 312 of the label generating module 31 for data generation (i.e. label printing) to achieve the generation purpose and steps, the generated paper 81 ' can be peeled off the base paper 812 by the peeling unit, and the paper feed roller 3112 can transmit the generated adhesive paper 811 ' (which is label paper with label printing) to the auxiliary unit 2117 of the labeling device 2, and the generated adhesive paper 811 ' passes through the opening 21172 of the auxiliary unit 2117 and is continuously transmitted to the positioning unit 22 to achieve the transmission purpose and steps, which is favorable for the subsequent labeling device 2 to perform the above actions and steps on the tube 70. In addition, the recycling unit 322 (including a recycling shaft 3221 capable of clamping the backing paper 812 and a slip-preventing member 3222 capable of positioning the recycling shaft 3221) of the paper feeding module 32 is used for recycling the backing paper 812 left by the paper 81.

Thus, according to the structural relationship between the surface treatment device 3 and the labeling device 2, as shown in fig. 10, 11, 12 and 13, the biasing member 21162 of the pressure guide unit 2116 of the labeling device 2 is constructed as a paper feeding path from the arm, the opening 21172 of the auxiliary unit 2117 and the paper feed roller 3112 of the base unit 311 of the label producing module 31, so that the produced adhesive paper 811 'conveyed by the paper feed roller 3112 can be smoothly conveyed and passed through the opening 21172 of the auxiliary unit 2117, and then is guided by the free arm of the biasing member 21162 of the pressure guide unit 2116 and pressed down to abut against the tube 70, and at this time, the tube 70 rotating counterclockwise on the positioning unit 22 is passed through, so that the produced adhesive paper 811' can be smoothly adhered to the tube surface of the rotating tube 70, thereby achieving the purpose of tube labeling and the step.

Furthermore, after the labeling of the tube body 70 'on the test tube rack 221 is completed, the driving wheel 2121 releases the linkage relationship with the first driven wheel 2132, and the weight 222 of the positioning unit 22 can rapidly move the driven rack 2131 from the second position P2 to the left to the first position P1, so that the tube body 70' can be stored in the storage unit 131 even if the tube body 70 'falls off from the test tube rack 221, thereby achieving the purpose of automatically storing the tube body 70' after labeling and completing the steps. In this way, the label producing and conveying device of the label producing module 31 and the labeling and delivering device 2 for the tube body 70 are integrated.

It should be noted that the label generating module 31 of the surface processing apparatus 3 may also use a conventional printer, and as will be understood by those skilled in the art, the applicant of the present invention only provides the following description for understanding the spirit of the present invention, and will not be repeated. That is, the label generation module 31 utilizes the conventional general printer to firstly generate a printing label on each adhesive paper 811 of the paper 81 of a paper roll 80 in advance for a plurality of patients in a one-to-one relationship with the data to be generated, and then to arrange the paper roll 80 after generation on the paper roll support 321 of the paper supply module 32, accordingly, the paper roll 80 is received by the paper feed roller 3112 of the base unit 311, the base paper 812 is peeled by the peeling unit, and the adhesive paper 811' is transferred to the labeling device 2 by the paper feed roller 3112, thereby performing the association step, the generation step and the transfer step, the labeling operation and steps and the labeling completion and sending out step of the labeling device 2 are facilitated, so that the purposes of label generation, label transmission, tube labeling and sending out can be achieved, and the recycling unit 322 can be used for recycling the base paper 812 of the paper 81.

Referring to fig. 1 and 2, the control device 4 is used for synchronously controlling the labeling device 2 and the surface treatment device 3, and the positioning unit 22 finely adjusts the movement of the tube 70 relative to the label generating module 31 to move closer or farther, so as to achieve the purposes of label generation, label transmission, and labeling and delivering of the tube 70.

That is, the control device 4 is electrically connected to a power source (not shown), and includes a software unit (not shown), a circuit unit 41 connected to the software unit, and a display unit 42 disposed on the housing 1, and the display unit 42 is used to display whether the states of the corresponding components of the labeling device 2 and the surface treatment device 3 are normal or not.

[ production method ]

Referring to fig. 16, this embodiment further discloses a preparation method, which is implemented by using the above test tube preparation apparatus 100, but the present invention is not limited thereto.

The preparation method of the embodiment comprises the following steps: a correlation step, a generation step, a transmission step, a labeling step, a detection step and a completion step.

The association step: the test tube preparation apparatus 100 as described above is provided, a power source is turned on, and before the test tube preparation apparatus 100 is used to prepare the tube label and the tube is used to collect the biological product (such as blood) to be analyzed, the test tube preparation apparatus is connected to the data device, and the data device is used to identify the patient identity and associate the related personal data and the biometric data of the patient, so as to achieve the purpose of correctly associating the patient data. The specific structure of the test tube preparation apparatus 100 is disclosed and described above, and will not be described herein. In other embodiments not shown in the present disclosure, the label generating module 31 may be replaced by other components and modules in the test tube preparing apparatus 100 used in the preparing method.

The generation step comprises: as shown in fig. 10 and 11, the label generation module 31 of the surface processing apparatus 3 receives the instruction from the data device and the data to be generated by the patient, receives the paper 81 provided by the paper supply module 32, and provides the paper 81 to the print head unit 312 of the label generation module 31 for printing so as to mark the data on the adhesive paper 811 of the paper 81 (as shown in fig. 11). Accordingly, can receive and convey the produced paper 81' by the paper feed roller 3112 of the base unit 311 for the purpose of marking.

According to the embodiment of the above-mentioned generation procedure, as shown in fig. 1, 2 and 10, the label generation module 31 and the paper supply module 32 of the surface treatment device 3 may be disposed in the housing 1, and the label generation module 31 is close to the other side surface of the mounting wall 111 and is opposite to the labeling device 2. So that the paper supply module 32 can supply the paper 81 to the print head unit 312 of the label producing module 31 for printing to produce the label on the adhesive paper 811 of the paper 81.

According to the embodiment of the above-mentioned generation step, the print head unit 312 of the label generation module 31 of the surface treatment device 3 can be located outside the housing 1. That is, the paper supply module 32 is opposite to the base unit 311, and the print head unit 312 of the label generation module 31 can utilize the conventional printer, and only needs to associate a plurality of patients with the data to be generated one by one, and mark each adhesive paper 811 ' of the paper 81 ' of a paper roll 80 in advance one by one, and then set the paper roll 80 on the paper roll support 321 of the paper supply module 32, thereby also achieving the purpose of receiving the generated paper 81 ' through the paper feed roller 3112 of the base unit 311.

The transmission step: as shown in fig. 10, 11 and 12, the paper 81 ' is received and continuously transported by the paper feed roller 3112 of the base unit 311 of the label producing module 31, the base paper 812 is peeled off by the peeling unit and the produced adhesive paper 811 ' (i.e., label paper) is transported to the labeling device 2 by the paper feed roller 3112 during the transportation, and the base paper 812 of the produced paper 81 ' of the paper roll 80 is recovered by the recovery unit 322.

According to the embodiment of the above conveying step, as shown in fig. 12, the produced adhesive paper 811 'continuously conveyed toward the labeling device 2 can pass through the opening 21172 of the auxiliary unit 2117 and enter the main frame body 211, and is guided and pressed downward by the free arm of the biasing member 21162 of the pressure guide unit 2116 inclined to the right, so that one end (e.g., the front end in fig. 10 and 12) of the produced adhesive paper 811' continuously advances toward the tube body 70 on the positioning unit 22 (e.g., in fig. 12, at this time, the positioning unit 22 is located at the second position P2), and the correct conveying is achieved.

The labeling step comprises: as shown in fig. 2, 12 and 13, the tube 70 is inserted into the receiving space a of the label sticking device 2, and fed to the positioning unit 22 and positioned on the test tube rack 221, the control device 4 controls the power part 2122 of the interlocking module 21 to interlock with the driving wheel 2121, so as to interlock with the first driven wheel 2132 and drive the driven frame 2131 to axially rotate, the driven frame 2131 can interlock with the positioning unit 22 to displace from the first position P1 to the second position P2 (as shown in fig. 11 and 12), and the distance between the positioning unit 22 on the driven frame 2131 and the auxiliary unit 2117 can be finely adjusted to shorten.

According to the embodiment of the labeling step, as shown in fig. 11, 12 and 13, when the driving wheel 2121 is driven by the power part 2122 to rotate clockwise, the first driven wheel 2132 is driven to rotate counterclockwise, because the first driven wheel 2132 is located at the upper end of the driven frame 2131, the lower free end edge of the driven frame 2131 rotates counterclockwise, and the fine adjustment positioning unit 22 shifts from the first position P1 to the second position P2 "upward and rightward", so as to reach a distance that the fine adjustment positioning unit 22 is located closer to the auxiliary unit 2117, that is, the right side of the fine adjustment test tube rack 221 is closer to the rotating wheel 21171, and the upper side of the test tube rack 221 is closer to the free arm of the biasing member 21162 of the pressure guide unit 2116. By the fine adjustment, the left and right sides of the tube body 70 on the test tube rack 221 are respectively abutted against the second driven wheel 2133 and the rotating wheel 21171, and are closer to the surface treatment device 3 (see fig. 12).

According to the embodiment of the labeling step, as shown in fig. 12, the right side of the tube body 70 is abutted and linked by the rotating wheel 21171 (the rotating wheel train rotates clockwise) to rotate counterclockwise, and at this time, the rotating tube body drives the second driven wheel 2133 to rotate clockwise; according to the above embodiment of the conveying step, the produced adhesive paper 811' which enters the main frame 211 and continues to be conveyed forward is guided by the free arm of the biasing member 21162 of the pressure guiding unit 2116 and then pressed downward, so as to be smoothly adhered to the positioning unit 22, thereby smoothly and correctly labeling the surface of the tube body of the middle tube 70 rotating counterclockwise.

The detection step comprises: as shown in fig. 4, 7, 13 and 14, according to the embodiment of the labeling step, the sensing receiver 241 of the position limiting module 24 of the labeling device 2 can be used for sensing and confirming whether the tube body 70 is limited on the test tube rack 221 of the positioning unit 22, and the edge searching unit 242 is used for searching the position point of the pasting edge of the tube body 70 through the plurality of retractable contact bumps thereon, so as to achieve the purpose of accurate labeling by effective edge searching and alignment, thereby improving the labeling quality. Accordingly, the sensing receiver 241 is used for sensing the position of the tube 70, receiving the mutual alignment information from the edge searching unit 242 and a bonding edge point (not shown) on the tube 70, facilitating the alignment and labeling of the tube, and transmitting the information to the control device 4, and the display unit 42 is used for displaying whether the actuation states of the corresponding elements of the labeling device 2 and the surface treatment device 3 are normal, so as to achieve the purpose of effective control.

The completion step is as follows: according to the embodiment of the labeling step, when the linking unit of the labeling device 2 is controlled by the control device 4 to pause the linking relationship (i.e. the power unit 2122 controlling the linking unit controls the driving wheel 2121 to pause the linking relationship with the first driven wheel 2132) after the tube body of the tube body 70' is labeled, the positioning unit 22 on the driven frame 2131 rapidly moves and resets the driven frame 2131 and the test tube rack 221 through the counterweight 222, and rapidly moves from the second position P2 back to the first position P1. In this way, not only the positioning unit 22 is reset to the first position P1 but also the distance from the auxiliary unit 2117, at this time, the reset operation allows the labeled tube 70 'to drop downward from the test tube rack 221 onto the storage unit 131 on the inner surface of the side casing wall 13, thereby achieving the purpose of automatically storing the labeled tube 70'.

[ technical effects of the embodiments of the present invention ]

In summary, the test tube preparation apparatus 100 disclosed in the embodiment of the present invention can include the linking module 21 to link the positioning unit 22 through the labeling device 2, and can place a tube 70 through the positioning unit 22 and fine tune the structure design and configuration relationship of the tube 70 approaching or departing from the label generating module 31 of the surface processing device 3 to complete label generation, label transmission, and tube labeling and sending out, so as to provide an integrated preparation apparatus which can effectively integrate the rapid generation and labeling of labels onto tubes before and after the tube labeling, so as to improve the excellent generation and labeling effects of the tubes and the labels, thereby improving the practical efficiency.

The test tube preparation apparatus 100 disclosed in the embodiment of the present invention provides an integrated preparation apparatus, which is rapid and convenient in continuous operation and high in working efficiency, and the sensing receiver 241 of the limiting module 24 is used for sensing the tube body 70 and receiving a bonding edge point on the tube body 70 from the edge searching unit 242, so as to achieve the purpose of effectively searching for the edge, aligning and labeling, and improve the alignment and correctness of label bonding, and the accommodating unit 131 in the inner surface of the side housing wall 13 can accommodate the tube body 70' after labeling, thereby greatly improving the test tube preparation quality and achieving the effect of effectively and automatically accommodating the labeled tube body. The defects of low working efficiency, easy error labeling and misplacement of labels and the like caused by manual sectional operation can be overcome.

Furthermore, the test tube preparing apparatus 100 according to the embodiment of the present invention can pivot the main frame 211 outward relative to the mounting wall 111 of the main housing 11 by opening the side housing wall 13 and the upper cover 12, which is advantageous for the surface treatment device 3 to facilitate paper installation, maintenance, and other inspection operations. In addition, by providing the detachable top shelf 2114 of the main shelf 211, modules and components within the main shelf 211 can be inspected or repaired when the top shelf 2114 is opened as required. Therefore, the practical use effect of the invention is greatly improved.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (21)

1. A test tube preparation apparatus, comprising:

a housing, which comprises a main housing and a side housing wall movably connected with the main housing;

a subsides mark device sets up in this main shell, and this pastes the mark device contains:

the linkage module comprises a main frame body and a linkage unit arranged on the main frame body, wherein the linkage unit comprises a driven frame which can move relative to the main frame body; and

a positioning unit arranged on the driven frame and used for placing a pipe body and providing fine adjustment alignment relative to the surface treatment device;

the surface treatment device comprises a label generation module and a paper supply module for providing paper to the label generation module, wherein the label generation module sends the generated paper to the labeling device; and

and the control device is used for synchronously controlling the labeling device and the surface treatment device, wherein the positioning unit finely adjusts the pipe body to be close to or far away from the label generation module so as to finish labeling and sending out the pipe body.

2. The apparatus for preparing test tubes according to claim 1, wherein an auxiliary unit is disposed at one side of the main frame, the linkage unit is disposed inside the main frame and includes a driving wheel unit and a driven wheel unit, the driven wheel unit includes the driven frame, and the driven wheel unit can be linked by the driving wheel unit to rotate the driven frame relative to the main frame, so that the positioning unit is far away from or close to the auxiliary unit.

3. The apparatus for preparing test tubes according to claim 2, wherein the auxiliary unit of the linking module comprises a rotating wheel and an opening formed on the rotating wheel, the driving wheel unit comprises a driving wheel and a power portion capable of linking the driving wheel, the driven wheel unit comprises a first driven wheel and a second driven wheel which are disposed on the driven frame, and the first driven wheel can be linked by the driving wheel to drive the driven frame to move.

4. The apparatus of claim 3, wherein the main frame of the linking module includes a first side frame wall, a second side frame wall, and a rear side frame wall connecting the first side frame wall and the second side frame wall, the auxiliary unit is disposed on the first side frame wall, such that two opposite sides of the auxiliary unit respectively correspond to the positioning unit and the label generating module, and an accommodating space is formed between the driven frame and the auxiliary unit, and the positioning unit is located in the accommodating space.

5. The apparatus for preparing test tubes according to claim 4, wherein the positioning unit comprises a test tube rack and a weight member connected to the test tube rack, the weight member is pivotally mounted to the driven rack, and the driven rack is capable of being returned by the weight member.

6. The apparatus of claim 5, wherein the main frame of the linking module comprises a front wall, and a pressure guide unit is disposed on an inner surface of the front wall and above the auxiliary unit.

7. The apparatus according to claim 1, wherein the labeling device comprises a calibration unit disposed on the second sidewall of the main frame, and a pushing member of the calibration unit is disposed above the positioning unit for adjusting the position of the tube on the positioning unit.

8. The apparatus of claim 1, wherein the labeling device comprises a positioning module disposed on the first sidewall of the main frame and opposite to the positioning unit, the positioning module comprising an edge-searching unit for edge-searching and aligning the adhering edge of the tube, so as to facilitate effective edge-searching and aligning labeling of the tube.

9. The apparatus of claim 1, wherein the housing includes a top cover removably attached to the top of the main housing, a receiving unit slidably disposed on the side housing wall is protruded from the side housing wall, and the receiving unit is disposed under the labeling device and corresponding to the positioning unit for receiving the tube falling from the positioning unit.

10. The apparatus of claim 1, wherein a pivot portion is disposed below the first sidewall of the main frame for pivotally mounting the main frame in the housing, such that the main frame can pivot relative to the housing to facilitate moving the main frame away from or closer to the surface treatment device.

11. The apparatus for preparing test tubes according to claim 1, wherein the labeling device comprises an identification module disposed on the first sidewall, the identification module being connected to the control device for identifying whether the tube is normally labeled.

12. The apparatus of claim 1, wherein the label generating module of the surface treatment device comprises a base unit and a printing head unit disposed on the base unit, the base unit comprises a paper feeding roller and a peeling unit, the paper feeding module comprises a paper roll support and a recycling unit, the paper roll support is configured to set the paper to the printing head unit for printing, and the paper roll support is configured to peel off a base paper of the paper by the peeling unit and to transfer the generated adhesive paper of the paper by the paper feeding roller, and the recycling unit is configured to recycle the base paper.

13. The apparatus for preparing test tubes according to claim 12, wherein the pressure guide unit, the opening of the auxiliary unit and the paper feed roller of the base unit form a paper feed path for guiding the adhesive paper after the transfer to facilitate the adhesion to the tube body.

14. The apparatus according to claim 7, wherein the calibration unit comprises a guide member disposed on the second sidewall and a pushing member connected to the guide member, and the pushing member is driven to move by fine-tuning the displacement of the guide member relative to the second sidewall so as to fine-tune the correct position of the tube on the positioning unit.

15. A method for preparing a test tube preparation apparatus according to claim 1, comprising the steps of:

a generation step: receiving an instruction and a data through the label generating module of the surface processing device, and receiving the paper provided by the paper supply module so as to mark and generate the data on the paper;

a transmission step: the label generating module is used for transmitting the generated paper to the labeling device; and

a labeling step: the tube body enters the labeling device and is fed to the positioning unit, the control device controls the linkage relation of the linkage unit of the linkage module, the driven frame finely adjusts the displacement of the positioning unit, the tube body is further finely adjusted to be close to the label generating module, and the paper is adhered to the tube body after being generated.

16. The method according to claim 15, wherein in the generating step, the label generating module of the surface processing apparatus receives the instruction and the data to be generated by the patient, from a data device, and the paper is provided from the paper supplying module, and the paper is provided to the printing head unit of the label generating module for mark generation, so as to mark the data on the adhesive paper of the paper.

17. The method of claim 16, wherein in the generating step, the label generating module and the paper feeding module of the surface treatment device can be disposed in the housing, and the label generating module is opposite to the labeling device.

18. The method for preparing a facial mask according to claim 16, wherein the label producing module of the facial mask apparatus is disposed outside the housing, and the label producing module is capable of using an existing printer to mark each adhesive sheet on the sheet of a sheet roll in advance for each of the data to be produced in a one-to-one relationship among a plurality of patients, and then to dispose the sheet roll on the roll holder of the sheet supply module, and in the transporting step: the paper is received and transmitted by the paper feeding roller of the base unit of the label generation module, the base paper of the paper is peeled by the peeling unit, the generated sticky paper is transmitted to the labeling device by the paper feeding roller, and the base paper is recovered by the recovery unit of the paper supply module.

19. The method of claim 15, wherein the generating step of the method further comprises a correlating step of: before the device is used for preparing the tube label and collecting the biological product to be analyzed, the device is connected with a data device, and the identity of the patient and related personal data and biological statistical data of the patient are identified in advance through the data device.

20. The method of claim 17, wherein in the conveying step: the paper feeding roller of the base unit of the label generation module is used for receiving the paper, the peeling unit is used for peeling the base paper of the paper, and the paper feeding roller of the base unit of the label generation module is used for conveying the generated adhesive paper to the labeling device; the labeling step comprises: the positioning unit is finely adjusted to drive the tube body to rotate under the driving of the rotating wheel of the linkage unit, so that the adhesive paper can be adhered to the tube body after being generated.

21. The method of claim 20, wherein the labeling step of the method further comprises a detecting step: the edge searching unit of the limiting module of the labeling device is used for edge searching and alignment of the pipe body, so that alignment and labeling actions of the pipe body are facilitated; and a finishing step: after labeling, the tube body controls the linkage unit of the labeling device to pause linkage relationship through the control device, so that the positioning unit on the driven frame enables the test tube rack to move and return through the counterweight, and after labeling, the tube body falls on the containing unit on the inner surface of the side shell wall from the test tube rack.

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