CN112110002B - Bar code pasting device - Google Patents

Abstract

The invention discloses a bar code pasting device which comprises a rack, a supporting plate, a driving disc, a driving assembly, a glue dripping mechanism, a printing mechanism, a pressing mechanism and a conveying belt. The driving disc is rotatably arranged on the supporting plate, a plurality of pin columns are arranged on the driving disc at intervals along the edge of the driving disc, and a gap for communicating the driving disc up and down is formed between every two adjacent pin columns; the driving assembly is arranged on the frame; the glue dripping mechanism is arranged on the frame, and the glue dripping mechanism is started and drips glue on the top of the blood collection tube; the printing mechanism is fixed on the frame; the compressing mechanism is arranged right above one of the gaps and can compress the bar code at the top of the blood collection tube on the bar code; the conveyer belt is arranged below the supporting plate; the discharge port, the driving assembly, the glue dripping mechanism, the printing mechanism and the pressing mechanism are sequentially arranged along the rotating direction of the driving disc. This bar code pastes device can be convenient, accurate, quick will have the top that the bar code of patient's information pasted the heparin tube.

Description

Bar code pasting device

Technical Field

The invention relates to the field of bar-shaped pasting, in particular to a bar-code pasting device.

Background

In disease treatment, most diseases need to take blood from patients, and test the blood to obtain a test result, so as to achieve symptomatic treatment. After the blood extraction is accomplished, need paste the bar code that has patient's information on corresponding patient's heparin tube with printing, because there is the gum at the back of bar code, when pasting, need medical staff to tear the gum on the bar code off by hand, then paste it into the heparin tube. The procedure of tearing the gum inevitably increases the working procedures of medical workers, and in addition, some gums are difficult to tear off, and thus, the workload of the medical workers is increased virtually, the time of the medical workers is wasted, and the queuing time of patients is further increased.

Disclosure of Invention

Aiming at the defects in the prior art, the technical problem to be solved by the invention is to provide a bar code pasting device which can conveniently, accurately and quickly paste a bar code with patient information on the top of a blood collection tube.

In order to achieve the purpose, the invention is realized by the following technical scheme: a bar code pasting device comprising:

a machine frame, a plurality of guide rails and a plurality of guide rails,

the supporting plate is arranged in the middle of the rack and extends outwards horizontally, and a vertically through discharge hole is formed in one side of the supporting plate;

the driving disc is rotatably arranged on the supporting plate, a plurality of pin columns are arranged on the driving disc at intervals along the edge of the driving disc, a gap for communicating the driving disc up and down is formed between every two adjacent pin columns, and one gap is positioned right above the discharge hole;

the driving assembly is arranged on the rack and can sequentially and intermittently shift the pin so as to drive the driving disc to rotate in a clearance manner;

the glue dripping mechanism is arranged on the rack, glue is arranged in the glue dripping mechanism, a glue outlet of the glue dripping mechanism is positioned right above one of the notches, and when the blood sampling tube is positioned right below the glue dripping mechanism, the glue dripping mechanism is started and drips the glue on the top of the blood sampling tube;

the printing mechanism is fixed on the rack, a printing outlet on the printing mechanism is arranged adjacent to one of the notches, when the blood collection tube is positioned under the glue dripping mechanism, the glue dripping mechanism starts to print a bar code, and the bar code printed by the printing mechanism can fall on the top end of the blood collection tube;

the pressing mechanism is arranged right above one of the notches and can press the bar code on the top of the blood collection tube on the blood collection tube; and

a conveyor belt; the conveying belt is arranged below the supporting plate and horizontally extends outwards from the position right below the discharge port;

the discharge port, drive assembly, glue dripping mechanism, printing mechanism and hold-down mechanism arrange in proper order along the direction of rotation of driving-disc.

Further, the driving assembly comprises a first rotary power source, a rotary shaft and a toggle plate; the vertical ascending setting of first rotary power source is in the frame, the rotation axis sets up the power take off end of first rotary power source, dial the dish setting and be in on the rotation axis, dial the dish and include annular dial ring and poker rod, dial the ring and pass through the link setting on the rotation axis, just the head end and the tail end interval of dial ring set up and form the gap, the poker rod sets up on the rotation axis, and along the radial extension of rotation axis extremely gap department, work as when first rotary power source rotates, one of them the round pin post can be followed the gap gets into in the dial ring, just the poker rod can stir this the round pin post, thereby the drive the driving-disc rotates.

Further, the glue dripping mechanism comprises a glue bottle, a plug, a first elastic piece, a guide assembly, a U-shaped connecting rod, a supporting plate and a traction rope; the glue bottle is arranged on the rack through a bracket, and a glue outlet of the glue bottle is positioned at the bottom of the glue bottle and is positioned right above the notch; the plug and the first elastic element are both positioned in the glue bottle, one end of the first elastic element is connected to the inner top wall of the glue bottle, the other end of the first elastic element is connected to the plug, the plug is pressed and blocked on the glue outlet, and the elastic force of the first elastic element is smaller than the gravity of the blood collection tube; the guide assembly is arranged at the top of the glue bottle; a first mounting hole which is communicated up and down is formed in the supporting plate and is positioned right below one of the notches, the supporting plate is arranged in the notch, and the edge of the supporting plate, which is close to the feeding direction of the blood sampling tube, is lower than the edge of the supporting plate, which is close to the discharging direction of the blood sampling tube; one end of the U-shaped connecting rod penetrates into the first mounting hole from the bottom of the supporting plate and then is connected with the bottom surface of the supporting plate; the pulling rope is arranged at the top of the plug, penetrates out of the top of the glue bottle, bypasses the guide assembly and can be connected with the other end of the U-shaped connecting rod.

Further, the guide assembly comprises a first pulley and a second pulley, the first pulley is arranged at the top of the glue bottle and close to the position where the traction rope penetrates out of the glue bottle, and the second pulley is arranged at the top of the glue bottle and located close to the edge of the glue bottle.

Further, the printing mechanism comprises a printer main body and a printer quick-closing component, the printer main body is arranged on the rack, the printer quick-closing component is in communication connection with the printer and comprises a positive electrode, a negative electrode, a second elastic piece and a conducting strip, a second mounting hole which is communicated with the upper portion and the lower portion is formed under a notch corresponding to the printer main body on the supporting plate, the positive electrode and the negative electrode are arranged in the second mounting hole, one end of the positive electrode and one end of the negative electrode are in communication connection with the printer main body, one end of the second elastic piece is arranged in the mounting hole, the conducting strip is obliquely arranged at the other end of the second elastic piece, and when the second elastic piece is in a natural state, the shorter end of the conducting strip is positioned in the second mounting hole, the higher end of the conducting strip is positioned in the notch, and when the blood collection tube is positioned on the conducting strip, the conducting strip can be simultaneously contacted with the positive electrode and the negative electrode.

Further, hold-down mechanism includes flexible power supply and pressure head, flexible power supply passes through the support setting and is in the frame, the pressure head sets up on the telescopic shaft of flexible power supply, the flexible power supply of pressure head can drive the pressure head compresses tightly the top of heparin tube.

Further, a cushion pad is arranged on the pressure head.

The invention has the beneficial effects that:

the bar code sticking device comprises a rack, a supporting plate, a driving disc, a driving assembly, a glue dripping mechanism, a printing mechanism, a pressing mechanism and a conveying belt. The supporting plate is arranged in the middle of the rack and extends outwards horizontally, and one side of the supporting plate is provided with a vertically through discharge hole. On the driving-disc can the pivoted layer board that sets up, be provided with a plurality of round pins along its marginal interval on the driving-disc, seted up one between every two adjacent round pins with the driving-disc intercommunication breach from top to bottom, and one of them breach is located the discharge gate directly over. The driving assembly can drive the driving disc to rotate along the gap, so that subsequent glue dripping, printing and pressing operations are facilitated. The glue dripping mechanism is used for smearing glue to the bottom of the blood collection tube below the glue dripping mechanism, and when the blood collection tube is located under the glue dripping mechanism, the glue dripping mechanism is started and drips the glue to the top of the blood collection tube. In the mode, after the blood collection tube moves to the designated position, the glue smearing is started, so that the glue can be accurately smeared on the top end of the blood collection tube, and the phenomenon of adding less or more glue is avoided. On printing mechanism was fixed in the frame, printing outlet and one of them breach adjacent setting in the printing mechanism, when the heparin tube was located under the mechanism of glue dripping, glue dripping mechanism started to print the bar code, and the bar code that printing mechanism printed out can drop at the heparin tube. This kind of mode, just print after the heparin tube is made the location to the end, then can accurately carry out print job to the unmatched phenomenon appears in the information of pasting on the heparin tube after avoiding patient's actual information and printing. Hold-down mechanism can compress tightly the bar code at heparin tube top on the heparin tube. The bar code is further firmly compressed by the pressure head of the compressing mechanism, so that the phenomenon of infirm bonding is avoided.

Through the intermittent driving mode, the bar code with the patient information can be conveniently, accurately and quickly pasted on the top of the blood collection tube, so that the operation of medical workers is reduced, and the queuing time of the patients is shortened.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings, which are required to be used in the embodiments, will be briefly described below. In all the drawings, the elements or parts are not necessarily drawn to actual scale.

Fig. 1 is a schematic view of a barcode pasting apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of the engagement of the drive disk and the toggle ring of the bar code pasting device of FIG. 1;

FIG. 3 is a schematic view of the dispensing mechanism of the bar code applicator of FIG. 1 in a blocked state;

FIG. 4 is a schematic diagram of a dispensing mechanism of the bar code dispenser of FIG. 1 in a dispensing state;

FIG. 5 is a schematic view of a printer shutter assembly in the bar code mounting apparatus shown in FIG. 1;

FIG. 6 is a schematic view of a printer shutter assembly of the bar code applicator of FIG. 1 with conductive strips removed;

reference numerals:

100-frame, 200-supporting plate, 210-discharge hole, 220-first mounting hole, 230-second mounting hole, 300-driving disc, 310-pin, 320-notch, 400-driving component, 410-first rotary power source, 420-rotary shaft, 430-dial plate, 431-dial ring, 432-dial rod, 433-gap, 500-glue dropping mechanism, 510-glue bottle, 520-plug, 530-first elastic component, 540-guide component, 541-first pulley, 542-second pulley, 550-U-shaped connecting rod, 560-supporting plate, 570-traction rope, 600-printing mechanism, 610-printer body, 620-printer quick-closing component, 621-positive electrode, 622-negative electrode, 623-a second elastic piece, 624-a conducting strip, 700-a pressing mechanism, 710-a telescopic power source, 720-a pressure head, 730-a buffer pad and 800-a conveying belt.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

Referring to fig. 1 and 6, the present invention provides a bar code pasting device, which includes a frame 100, a pallet 200, a driving disc 300, a driving assembly 400, a glue dripping mechanism 500, a printing mechanism 600, a pressing mechanism 700, and a conveyer belt 800. For automatic and rapid printing and pasting of bar codes with patient information.

Specifically, the frame 100 may be fixed to the ground or a work table. The support plate 200 is disposed in the middle of the frame 100 and extends horizontally outward, and a discharge hole 210 penetrating up and down is formed at one side of the support plate 200. The driving disc 300 is rotatably disposed on the supporting plate 200, a plurality of pins 310 are disposed on the driving disc 300 at intervals along the edge of the driving disc, a gap 320 for communicating the driving disc 300 up and down is disposed between every two adjacent pins 310, and one of the gaps 320 is located right above the discharge hole 210. In the present embodiment, the discharge port 210, the driving assembly 400, the glue dripping mechanism 500, the printing mechanism 600, and the pressing mechanism 700 are arranged in this order along the rotation direction of the driving disk 300.

The driving assembly 400 is disposed on the frame 100 and connected to the driving disc 300, and can sequentially and intermittently move the toggle pins 310, thereby driving the driving disc 300 to rotate. Specifically, the driving assembly 400 includes a first rotary power source 410, a rotary shaft 420, and a dial 430. The first rotary power source 410 is vertically upwardly provided at the housing 100, and the rotary shaft 420 is provided at a power output end of the first rotary power source 410. The dial plate 430 is provided on the rotating shaft 420. The dial plate 430 includes an annular dial ring 431 and a dial rod 432. The toggle ring 431 is disposed on the rotating shaft 420 through a connecting frame, and a gap 433 is formed at intervals between the head end and the tail end of the toggle ring 431. The poke rod 432 is disposed on the rotating shaft 420 and extends to the gap 433 along the radial direction of the rotating shaft 420, when the first rotating power source 410 rotates, one of the pins 310 can enter the poke ring 431 from the gap 433, and the poke rod 432 can poke the pin 310, thereby driving the driving disk 300 to rotate. The first rotary power source 410 can drive the dial ring 431 and the dial rod 432 to rotate once per rotation. When gap 433 of dial ring 431 rotates to the top of driving-disc 300, pin 310 is dialed in ring 431 from gap 433, and at this moment, poker rod 432 is located pin 310 one side, continues to rotate along with first rotary power source 410, poker rod 432 dials pin 310 to drive driving-disc 300 to advance one check, and driving-disc 300 stops afterwards, and poker ring 431 and poker rod 432 continue to rotate, then can dial next pin 310, and then drive driving-disc 300 advances one check once more. During the use, medical personnel's blood sampling is accomplished the back, places the heparin tube in one of them breach 320, and the heparin tube then can be followed driving-disc 300 and advance one by one, carries out other relevant operations at the advancing in-process.

The glue dripping mechanism 500 is used for smearing glue on the top of the conveyed blood collection tube. The glue dripping mechanism 500 is arranged on the rack 100, glue is arranged in the glue dripping mechanism 500, a glue outlet of the glue dripping mechanism 500 is positioned right above one of the notches 320, and when the blood collection tube is positioned right below the glue dripping mechanism 500, the glue dripping mechanism 500 is started and drips glue on the top of the blood collection tube.

Specifically, the glue dripping mechanism 500 includes a glue bottle 510, a plug 520, a first elastic member 530, a guide assembly 540, a U-shaped connecting rod 550, a supporting plate 560 and a pulling rope 570. The glue bottle 510 is disposed on the housing 100 through the housing 100. The glue outlet of the glue bottle 510 is located at the bottom of the glue bottle 510 and is located right above the notch 320. The plug 520 and the first elastic member 530 are both located in the glue bottle 510, and one end of the first elastic member 530 is connected to the inner top wall of the glue bottle 510, and the other end is connected to the plug 520, so as to press and block the plug 520 on the glue outlet. The elastic force of the first elastic member 530 is smaller than the gravity of the blood collection tube. The guide assembly 540 is disposed on top of the glue bottle 510. A first mounting hole 220 is formed in the supporting plate 200 and is vertically communicated with the first mounting hole under one of the notches 320. The supporting plate 560 is disposed in the inclined notch 320, and the edge of the supporting plate 560 close to the feeding direction of the blood collection tube is lower than the edge of the supporting plate 560 close to the discharging direction of the blood collection tube. One end of the U-shaped coupling rod 550 is inserted into the first mounting hole 220 from the bottom of the supporting plate 200, and then coupled to the bottom surface of the supporting plate 560. The pulling rope 570 is disposed on the top of the stopper 520, and after passing through the top of the glue bottle 510 and bypassing the guide assembly 540, it can be connected to the other end of the U-shaped connecting rod 550.

When the blood sampling tube advances along with driving-disc 300, pause after advancing directly over first mounting hole 220, the blood sampling tube was driven backup pad 560 this moment, and the blood sampling tube pushes down backup pad 560 under self gravity, and then drives U nature connecting rod 550 and move down, and U nature connecting rod 550 moves down and draws pulling rope 570, and pulling rope 570 draws end cap 520, makes end cap 520 break away from out the jiao kou, and glue then flows out and drops on the top of blood sampling tube from going out jiao kou. Subsequently, the driving disk 300 is pushed forward, the blood collection tube is separated from the supporting plate 560, the supporting plate 560 moves upward and recovers, the pulling rope 570 is in a loose state, and the plug 520 is plugged on the glue outlet again under the action of the first elastic member 530.

In this embodiment, the guide assembly 540 includes a first pulley 541 and a second pulley 542. The first pulley 541 is disposed at the top of the glue bottle 510 and is positioned adjacent to where the pull cord 570 exits the glue bottle 510. The second pulley 542 is disposed on the top of the glue bottle 510 and is located near the edge of the glue bottle 510. Through the first pulley 541 and the second pulley 542, the direction of the pulling rope can be changed, so that the plug 520 can be pulled conveniently.

Print mechanism 600 is fixed in on the frame 100, and the export of printing on the print mechanism 600 sets up with one of them breach 320 is adjacent, and when the heparin tube was located under the gluey mechanism 500 of dripping, the gluey mechanism 500 of dripping starts the printing bar code, and the bar code that print mechanism 600 printed can drop at the heparin tube. Specifically, the printing mechanism 600 includes a printer body 610 and a printer shutter assembly 620. The printer body 610 is disposed on the frame 100, and the printer shutter assembly 620 is communicatively coupled to the printer. The printer shutter assembly 620 includes a positive electrode 621, a negative electrode 622, a second elastic member 623, and a conductive sheet 624. A second mounting hole 230 communicating vertically is formed right below the notch 320 of the tray 200 corresponding to the printer main body 610. The positive electrode 621 and the negative electrode 622 are disposed in the second mounting hole 230, and one end of each of the positive electrode 621 and the negative electrode 622 is communicatively connected to the printer main body 610, and one end of the second elastic member 623 is disposed in the mounting hole. The conducting strip 624 is obliquely arranged at the other end of the second elastic element 623, when the second elastic element 623 is in a natural state, the shorter end of the conducting strip 624 is positioned in the second mounting hole 230, the higher end of the conducting strip 624 is positioned in the notch 320, and when the blood collection tube is positioned on the conducting strip 624, the conducting strip 624 is pressed downwards, so that the conducting strip 624 can be simultaneously contacted with the positive electrode 621 and the negative electrode 622.

After the medical staff finishes drawing blood, through the scanning system on the printer main body 610, read patient information into in the printer main body 610, subsequently, when the heparin tube advances along with driving disc 300, pause after advancing directly over second mounting hole 230, the heparin tube is driven to backup pad 560 this moment, and pushes down conducting strip 624 through self gravity, until conducting strip 624 contacts with positive electrode 621 and negative electrode 622 simultaneously, thereby the circuit with printer printing function is linked up, and the printing function of printer main body 610 starts, begins to print patient information. The barcode printed with the patient is sent out from the printing outlet of the printer body 610 and advances along the top surface of the blood collection tube until finally dropping on the glue on the top surface of the blood collection tube.

The hold-down mechanism 700 is positioned directly above one of the indentations 320. Hold-down mechanism 700 can compress tightly the bar code at the top of the blood collection tube on the blood collection tube. Specifically, the clamping mechanism 700 includes a telescoping power source 710 and ram 720. The telescopic power source 710 is disposed on the frame 100, and the telescopic power source 710 may be a telescopic motor. The pressure head 720 is arranged on the telescopic shaft of the telescopic power source 710, and the telescopic power source 710 can drive the pressure head 720 to be pressed on the top of the blood sampling tube. In specific implementation, the stroke and pressure of the pressing head 720 should be just enough to hold the bar code, and the blood collection tube should not be crushed. During the use, when the heparin tube advanced along with driving-disc 300, when advancing to pressure head 720 under, pause, flexible power supply 710 starts to push down, then can compress tightly the top at the heparin tube with the bar code, further pastes firmly the bar code.

In a preferred embodiment, a cushion 730 is provided on the ram 720. The cushion 730 further prevents the ram 720 from crushing the blood collection tube.

The working principle and the using mode of the bar code pasting device are as follows:

when the printer is used, the first rotary power source 410 is started, and the information of the patient is scanned and temporarily stored in the printer main body 610 through the scanning system on the printer main body 610. Subsequently, medical personnel take a blood sample, after the blood sampling is accomplished, place the heparin tube in that breach 320 in discharge gate 210 the place ahead wherein, the heparin tube advances along with driving-disc 300, pause after advancing directly over first mounting hole 220, the heparin tube is driven backup pad 560 this moment, the heparin tube is under self gravity, push down backup pad 560, and then drive U-shaped connecting rod 550 and move down, U-shaped connecting rod 550 moves down and draws pulling rope 570, pulling rope 570 is at pulling end cap 520, make end cap 520 break away from out the jiao kou, glue then flows out and falls in the top of heparin tube from going out the jiao kou, accomplish glue and scribble.

Subsequently, the driving plate 300 is pushed to move forward, and stops after moving right above the second mounting hole 230, at this time, the blood collection tube is driven onto the supporting plate 560, and the conductive sheet 624 is pressed down by its own weight until the conductive sheet 624 is simultaneously contacted with the positive electrode 621 and the negative electrode 622, so that the circuit of the printing function of the printer main body 610 is connected, and the printing function of the printer main body 610 is started to start printing the patient information. The barcode printed with the patient information is sent out from the printing outlet of the printer main body 610 and advances along the top surface of the blood collection tube until finally dropping on the glue on the top surface of the blood collection tube, thereby completing the barcode printing work.

Next, when the heparin tube advanced along with driving-disc 300, it was suspended when advancing to pressure head 720 under again, and flexible power supply 710 starts to push down this moment, then can compress tightly the bar code at the top of heparin tube, and further it is firm to paste the bar code, accomplishes the bar code and pastes the work.

Finally, the stuck blood collection tube is driven by the driving disc 300 to a position right above the discharge port 210, and falls onto the conveying belt 800 below the discharge port 210, and is carried away along with the conveying belt 800. And transporting to a unified place for storage.

The bar code pasting device comprises a rack 100, a supporting plate 200, a driving disc 300, a driving assembly 400, a glue dripping mechanism 500, a printing mechanism 600, a pressing mechanism 700 and a conveying belt 800, wherein the supporting plate 200 is arranged in the middle of the rack 100 and extends outwards horizontally, and one side of the supporting plate 200 is provided with a discharge hole 210 which is through up and down. The driving disc 300 is rotatably disposed on the supporting plate 200, a plurality of pins 310 are disposed on the driving disc 300 at intervals along the edge of the driving disc, a gap 320 for communicating the driving disc 300 up and down is disposed between every two adjacent pins 310, and one of the gaps 320 is located right above the discharge hole 210. The driving assembly 400 can drive the driving disk 300 to rotate in a clearance way. The glue dripping mechanism 500 is used for smearing glue to the bottom of the blood collection tube below the glue dripping mechanism. When the blood collection tube advances along with driving disc 300, it is stopped after advancing directly over first mounting hole 220 again, and the blood collection tube is driven to backup pad 560 this moment, and the blood collection tube pushes down backup pad 560 under self gravity, and then drives U-shaped connecting rod 550 and move down, and U-shaped connecting rod 550 moves down and draws rope 570, and draw rope 570 draws end cap 520, makes end cap 520 break away from out gluey mouth, and glue then flows out and drops on the top of blood collection tube from going out gluey mouth, accomplishes glue and paints. In the mode, after the blood collection tube moves to the designated position, the glue smearing is started, so that the glue can be accurately smeared on the top end of the blood collection tube, and the phenomenon of adding less or more glue is avoided.

The printing mechanism 600 is used for printing a bar code, and is temporarily stopped after being advanced right above the second mounting hole 230, at the moment, the blood collection tube is driven to the supporting plate 560, and the conducting strip 624 is pressed down by the gravity of the blood collection tube until the conducting strip 624 is simultaneously contacted with the positive electrode 621 and the negative electrode 622, so that a circuit for printing the printer main body 610 is communicated, and the printer is started to print patient information. The bar code printed with the patient information is sent out from a printing outlet of the printer and advances along the top surface of the blood collection tube until finally dropping on the glue on the top surface of the blood collection tube, so that the bar code printing work is completed. This kind of mode, just print when the heparin tube to the position of formulating after, then can accurately print work to the unmatched phenomenon appears in the information of pasting on the heparin tube after avoiding patient's actual information and printing.

The pressing mechanism 700 is arranged right above one of the gaps 320, and the pressing mechanism 700 can press the bar code on the top of the blood collection tube on the bar code. The bar code is further firmly pressed by the pressing head 720 of the pressing mechanism 700, so that the phenomenon of weak bonding is avoided.

The driving disc 300, the driving assembly 400, the glue dripping mechanism 500, the printing mechanism 600, the pressing mechanism 700 and the conveying belt 800 of the device are mutually matched, so that the bar code with the patient information can be quickly and accurately pasted on the blood sampling tube, and the workload of medical workers is further reduced.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.

Claims (5)

1. A bar code attaching apparatus, comprising:

a machine frame, a plurality of guide rails and a plurality of guide rails,

the supporting plate is arranged in the middle of the rack and extends outwards horizontally, and a vertically through discharge hole is formed in one side of the supporting plate;

the driving disc is rotatably arranged on the supporting plate, a plurality of pin columns are arranged on the driving disc at intervals along the edge of the driving disc, a gap for communicating the driving disc up and down is formed between every two adjacent pin columns, and one gap is positioned right above the discharge hole;

the driving assembly is arranged on the rack and can sequentially and intermittently shift the pin so as to drive the driving disc to rotate in a clearance manner;

the glue dripping mechanism is arranged on the rack, glue is arranged in the glue dripping mechanism, a glue outlet of the glue dripping mechanism is positioned right above one of the notches, and when the blood sampling tube is positioned right below the glue dripping mechanism, the glue dripping mechanism is started and drips the glue on the top of the blood sampling tube;

the printing mechanism is fixed on the rack, a printing outlet on the printing mechanism is arranged adjacent to one of the notches, when the blood collection tube is positioned under the glue dripping mechanism, the glue dripping mechanism starts to print a bar code, and the bar code printed by the printing mechanism can fall on the top end of the blood collection tube;

the pressing mechanism is arranged right above one of the notches and can press the bar code on the top of the blood collection tube on the blood collection tube; and

a conveyor belt; the conveying belt is arranged below the supporting plate and horizontally extends outwards from the position right below the discharge port;

the discharge port, the driving assembly, the glue dripping mechanism, the printing mechanism and the pressing mechanism are sequentially arranged along the rotation direction of the driving disc;

the glue dripping mechanism comprises a glue bottle, a plug, a first elastic piece, a guide assembly, a U-shaped connecting rod, a supporting plate and a traction rope; the glue bottle is arranged on the rack through a bracket, and a glue outlet of the glue bottle is positioned at the bottom of the glue bottle and is positioned right above the notch; the plug and the first elastic element are both positioned in the glue bottle, one end of the first elastic element is connected to the inner top wall of the glue bottle, the other end of the first elastic element is connected to the plug, the plug is pressed and blocked on the glue outlet, and the elastic force of the first elastic element is smaller than the gravity of the blood collection tube; the guide assembly is arranged at the top of the glue bottle; a first mounting hole which is communicated up and down is formed in the supporting plate and is positioned right below one of the notches, the supporting plate is arranged in the notch, and the edge of the supporting plate, which is close to the feeding direction of the blood sampling tube, is lower than the edge of the supporting plate, which is close to the discharging direction of the blood sampling tube; one end of the U-shaped connecting rod penetrates into the first mounting hole from the bottom of the supporting plate and then is connected with the bottom surface of the supporting plate; the pulling rope is arranged at the top of the plug, penetrates out of the top of the glue bottle, bypasses the guide assembly and can be connected with the other end of the U-shaped connecting rod;

hold-down mechanism is including flexible power supply and pressure head, flexible power supply passes through the support setting and is in the frame, the pressure head sets up on the telescopic shaft of flexible power supply, flexible power supply can drive the pressure head compresses tightly the top of heparin tube.

2. The bar code pasting device according to claim 1, wherein said driving assembly comprises a first rotary power source, a rotary shaft and a dial; the vertical ascending setting of first rotary power source is in the frame, the rotation axis sets up the power take off end of first rotary power source, dial the dish setting and be in on the rotation axis, dial the dish and include annular dial ring and poker rod, dial the ring and pass through the link setting on the rotation axis, just the head end and the tail end interval of dial ring set up and form the gap, the poker rod sets up on the rotation axis, and along the radial extension of rotation axis extremely gap department, work as when first rotary power source rotates, one of them the round pin post can be followed the gap gets into in the dial ring, just the poker rod can stir this the round pin post, thereby the drive the driving-disc rotates.

3. The bar code applicator of claim 1 wherein said guide assembly comprises a first pulley disposed at the top of said glue bottle adjacent the location where said pull cord extends from said glue bottle and a second pulley disposed at the top of said glue bottle adjacent the edge of said glue bottle.

4. The bar code sticking device according to claim 1, wherein the printing mechanism comprises a printer body and a printer shutter assembly, the printer body is disposed on the frame, the printer shutter assembly is in communication connection with the printer, the printer shutter assembly comprises a positive electrode, a negative electrode, a second elastic member and a conductive sheet, a second mounting hole which is communicated with the printer body is formed right below a gap corresponding to the printer body on the supporting plate, the positive electrode and the negative electrode are both disposed in the second mounting hole, one end of the positive electrode and one end of the negative electrode are both in communication connection with the printer body, one end of the second elastic member is disposed in the second mounting hole, the conductive sheet is obliquely disposed at the other end of the second elastic member, and when the second elastic member is in a natural state, the shorter end of the conducting strip is located in the second mounting hole, the higher end of the conducting strip is located in the notch, and when the blood collection tube is located on the conducting strip, the conducting strip moves downwards and can be simultaneously contacted with the positive electrode and the negative electrode.

5. The bar code applicator of claim 1 wherein said pressure head is provided with a cushion.

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