CN206719707U - Test tube feeding chamber for heparin tube bar code information processor - Google Patents

Abstract

It the utility model is related to a kind of test tube feeding chamber for heparin tube bar code information processor, including door plate, bottom plate, two side plates, back plate, first downslide bottom plate and the second downslide bottom plate, door plate is located at front side and the rear side of bottom plate with back plate, side plate is between door plate and back plate, and connection difference door plate, back plate and bottom plate, first downslide bottom plate is located at the rear side of back plate, first downslide bottom plate extends to tilt, second downslide bottom plate is correspondingly arranged with the first downslide bottom plate, an orientation slideway is formed between first downslide bottom plate and the second downslide bottom plate, the width of orientation slideway is more than heparin tube pipe shaft diameter, less than heparin tube pipe cap diameter；The pipe shaft of heparin tube enters in orientation slideway, and the inclined plane of pipe cap from the first downslide bottom plate and the second downslide bottom plate is moved downward on next pipeline.Solve the convenience that heparin tube is placed, reduce the artificial labor intensity for putting pipe, and the limitation of the compatible all test tube producer difference loading board sizes of feeding chamber.

Description

Test tube feeding chamber for heparin tube bar code information processor

Technical field

Field of medical examination is the utility model is related to, in particular to a kind of heparin tube bar code information processor.

Background technology

Traditional heparin tube is placed in test tube disk, and the test tube disk piled will be by being manually transported to by the test tube disk piled Test tube disk places ground so that and artificial intensity is big, easily causes fatigue, and because heparin tube has different sizes, it is necessary to by difference Test tube disk loading board size luggage entered to heparin tube taken, artificial carry is inconvenient profit.

Utility model content

Task of the present utility model is to solve the problems, such as the convenience of heparin tube placement, there is provided a kind of to be used for heparin tube The hardware configuration of the test tube feeding chamber of bar code information processor.To achieve the above object, this patent adopts the following technical scheme that：

A kind of test tube feeding chamber for heparin tube bar code information processor, including door plate, bottom plate, two side plates, after Plate, the first downslide bottom plate and the second downslide bottom plate, the door plate are located at front side and the rear side of the bottom plate, institute with the back plate Side plate is stated between the door plate and the back plate, and connects door plate, the back plate and the bottom plate respectively, institute The rear side that the first downslide bottom plate is located at the back plate is stated, the first downslide bottom plate extends to tilt, the second downslide bottom plate It is correspondingly arranged with the first downslide bottom plate, an orientation is formed between the first downslide bottom plate and the second downslide bottom plate and is slided Road, the width of the orientation slideway is more than heparin tube pipe shaft diameter, less than heparin tube pipe cap diameter.

Preferably, in addition to installed part, the installed part is arranged in the back plate, and the two end portions of the installed part The side plate of both sides is not held in, and the first downslide bottom plate is located at the rear side of the installed part.

Preferably, the top of the installed part tilts towards rear side.

Preferably, in addition to a fixed plate, the fixed plate are located at the rear side of the back plate, and the second downslide bottom plate is consolidated It is scheduled in the fixed plate, the end of the fixed plate is provided with connecting portion, and the connecting portion extends and fixed towards the side plate In the outer wall of the side plate.

Preferably, the baffle plate for buffering test tube downslide is installed, the baffle plate extends into described the in the fixed plate The lower half of one downslide bottom plate and the second downslide bottom plate, the baffle plate are connected with baffle plate motor.

Preferably, in addition to it is used for the rejecting pressing plate for rejecting heparin tube, the rejecting pressing plate is located at the upper of the fixed plate Side, the rejecting pressing plate include main part, and the both ends of the rear side of the main part are hinged with the connecting portion respectively, the master It is overlapped on front side of body portion on the side plate.

Preferably, the main part forward and has upwardly extended extension, the extending part in two side plates it Between.

Preferably, the side plate is provided with latch part, and the door plate is provided with holding part, the holding part and the lock Buckle is correspondingly arranged.

Preferably, the bottom plate is set into a ladder.

Using the test tube feeding chamber provided by the utility model for heparin tube bar code information processor, heparin tube is placed on On bottom plate, and test tube is promoted at the top of feeding chamber by a hoisting mechanism, heparin tube, which enters, the first downslide bottom plate and second In the orientation slideway of downslide bottom plate composition, because of the difference in size and deadweight of tube wall and pipe cap, all pipes all can be by vertical mode Arrange and slide on next pipeline, the pipe shaft of heparin tube enters in orientation slideway, and pipe cap is from the first downslide bottom plate and second The inclined plane of downslide bottom plate is moved downward on next pipeline.Solves the convenience that heparin tube is placed, reduction manually puts pipe Labor intensity, and the limitation of the compatible all test tube producer difference loading board sizes of feeding chamber.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model heparin tube bar code information processor；

Fig. 2 is the structural representation of the test tube feeding chamber of the utility model heparin tube bar code information processor；

Fig. 3 is the structural representation of the extraction mechanism of the utility model heparin tube bar code information processor；

Fig. 4 is the structural representation of the caching pipeline of the utility model heparin tube bar code information processor；

Fig. 5 is the structural representation of the main transmission pipeline of the utility model heparin tube bar code information processor；

Fig. 6 is the structural representation of the bar code printing volume attaching mechanism of the utility model heparin tube bar code information processor；

Fig. 7 is the structure at another visual angle of the bar code printing volume attaching mechanism of the utility model heparin tube bar code information processor Schematic diagram；

Fig. 8 is the structural representation in the utility model Fig. 6 bar code volume patch portion；

Fig. 9 is the structural representation of the output mechanism of the utility model heparin tube bar code information processor；

Wherein, test tube feeding chamber -100, door plate -101, bottom plate -102, side plate -103, back plate -104, installed part -105, First downslide bottom plate -1050, fixed plate -106, the second downslide bottom plate -1060, connecting portion -1061, baffle plate motor -1062, orientation Slideway -107, rejecting pressing plate -108, extraction mechanism -200, elevating screw -201, lifting motor -202, heparin tube riser - 203, base -2040, top plate -2041, vertical plate -2042, lifting fixed block -205, the first connecting plate -206, the second connecting plate - 207, position plate -208, positioning pillars -209, cache pipeline -300, adapter guide groove -301, adapter conveyer belt -302, tube pulling Motor -303, test tube shifting block -304, guide pad -305, adapter pedestal -306, groove -307, main transmission pipeline -400, installation Substrate -401, conveyer belt -402 in the same direction, main driving motor -403, bar code printing volume attaching mechanism -500, bar code printing portion -501, beat Print head -5010, first volume post -5011, volume Two post -5012, bar code volume patch portion -502, active rubber roll -5020, auxiliary rubber roll - 5021, rubber roll -5022 are clamped, rubber roll motor -5023, clamping motor -5024, screw mechanism -5025, output mechanism -600, are put down Pipeline -601 are moved, conveyer belt -6010 is translated, translation motor -6011, translating rails -6012, rotates pipeline -602, rotation Motor -6020, swivel plate -6021, first sensor-X1, second sensor-X2,3rd sensor-X3, the 4th sensor - X4, the 5th sensor-X5, the 6th sensor-X6, the 7th sensor-X7, the 8th sensor-X8, the 9th sensor-X9, the tenth Sensor-X10, the 11st sensor-X11.

Embodiment

The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings, but protection model of the present utility model Enclose the scope for being not limited to embodiment statement.

With reference to figure 1, a kind of heparin tube bar code information processor, including test tube feeding chamber 100, extraction mechanism 200, caching are defeated Line sending 300, main transmission pipeline 400, bar code printing volume attaching mechanism 500 and output mechanism 600, the extraction mechanism 200 are located at In the test tube feeding chamber 100, the caching pipeline 300 is located at the side of the test tube feeding chamber 100, the caching conveying Line 300, main transmission pipeline 400, bar code printing volume attaching mechanism 500 and output mechanism 600 are set from top to bottom, the main transmission Pipeline 400 corresponds to the caching pipeline perpendicular to the caching pipeline 300, the entrance of the main transmission pipeline 400 300 outlet is set, and the entrance of the corresponding bar code printing volume attaching mechanism 500 in outlet of the main transmission pipeline 400 is set, The output mechanism 600 is arranged on the heparin tube exit of the bar code printing volume attaching mechanism 500.

With reference to figure 2, the test tube feeding chamber 100 includes door plate 101,102, two side plates 103 of bottom plate, back plate 104, the One downslide bottom plate 1050 and the second downslide bottom plate 1060, the door plate 101 are located at the bottom plate 102 with the back plate 104 Front side and rear side, the side plate 103 connect the door plate respectively between the door plate 101 and the back plate 104 101st, the back plate 104 and the bottom plate 102, side plate 103, bottom plate 102, back plate 104 and door plate 101 surround a placement and adopted The blowing space of blood vessel, the first downslide bottom plate 1050 are located at the rear side of the back plate 104, the first downslide bottom plate 1050 Extend to tilt, the second downslide bottom plate 1060 is correspondingly arranged with the first downslide bottom plate 1050, the first downslide bottom plate An orientation slideway 107 is formed between 1050 and the second downslide bottom plate 1060, the width of the orientation slideway 107 is more than blood sampling Pipe pipe shaft diameter, less than heparin tube pipe cap diameter, when heparin tube is extracted the lifting of mechanism 200 to the top of test tube feeding chamber 100 When, when heparin tube enters to orient slideway 107, due to difference and deadweight under pipe shaft and pipe cap band so that all heparin tubes all can Arranged by vertical mode and slide into caching pipeline 200, the pipe shaft of heparin tube enters figure to orienting in slideway 107, and pipe cap is from the The inclined plane of one downslide bottom plate 1050 and the second downslide bottom plate 1060 is moved downward on next caching pipeline 300.Solution is adopted The convenience that blood vessel is placed, reduce the artificial labor intensity for putting pipe, and the compatible all test tube producer difference loading board sizes of feeding chamber Limitation.

The side plate 103 is provided with latch part, and the door plate 101 is provided with holding part, and latch part and holding part are corresponding Setting latches door plate 101, only need to press door plate 101 forward, after the automatic spring of door plate 101, it would be desirable to addition Heparin tube is directly poured into inside feed bin, and door can be closed by pressing door-plate again, it is not necessary to is artificially put by direction, is improved plus manage Efficiency, reduce artificial intensity.

The bottom plate 102 is set into a ladder, and after heparin tube is poured into test tube feeding chamber 100, heparin tube is towards back plate 104 direction is slipped into, and it is elevated to be advantageous to heparin tube, and through there is multiple open-works on the bottom plate 102, extraction mechanism 200 passes through The open-work lifts heparin tube.

The test tube feeding chamber 100 also includes installed part 105, fixed plate 106 and rejects pressing plate 108, the installed part 105 In the back plate 104, and the both ends of the installed part 105 are held in the side plate 103 of both sides respectively, and described One downslide bottom plate 1050 is located at the rear side of the installed part 105, and the installed part 105 is fixed on the side plate 103 so that institute The plane for stating the structure setting of the first downslide bottom plate 1050 is stable, on front side of the installed part 105 plane and the back plate 104 exists On same plane, the top of the installed part 105 tilts towards rear side, when extraction mechanism 200 is lifted up heparin tube to installation During 105 top of part, under heparin tube is more prone to along the inclined top of installed part 105 towards the first downslide bottom plate 1050 and second Sliding bottom plate 1060 drops, and prevents heparin tube from falling to again in test tube feeding chamber 100, plays guiding function.

The fixed plate 106 is located at the rear side of back plate 104, and the second downslide bottom plate 1060 is fixed on the fixed plate On 106, the end of the fixed plate 106 is provided with connecting portion 1061, and the connecting portion 1061 extends and consolidated towards the side plate 103 The outer wall of the side plate 103 is scheduled on, such structure setting causes the second downslide bottom plate 1060 to be similarly fixed on side plate 103 On, then the first downslide bottom plate 1050 and the second downslide bottom plate 1060 are each attached on the side plate 103, work as heparin tube When being moved from the first downslide bottom plate 1050 and the second downslide bottom plate 1060, it is less prone to and rocks so that structure is more stable, institute State fixed plate 106 and the installed part 105 plays the fixed first downslide bottom plate 1050 and the second downslide bottom plate 1060 effect.

Baffle plate for buffering test tube downslide is installed, the baffle plate is extended under described first in the fixed plate 106 The lower half of sliding bottom plate 1050 and the second downslide bottom plate 1060, the baffle plate are connected with baffle plate motor 1062, the baffle plate Motor 1062 is fixed in the fixed plate 106, when heparin tube is from the first downslide bottom plate 1050 and the second downslide bottom When orientation slideway 107 between plate 1060 slides, due to conducting oneself with dignity and orienting the angle of inclination of slideway 107, the lower slip velocity of heparin tube Degree is fast, and when heparin tube is reached at baffle plate, baffle plate lives the heparin tube block quickly moved, and now, baffle plate motor 1062 inverts, will Baffle plate lifts, and heparin tube continues to be snapped down on caching pipeline 300, and the baffle plate is used for the too fast downslide of block heparin tube, prevents Only heparin tube quickly glide shock caching pipeline 300 cause to rupture, play a part of buffer and protect heparin tube.

The rejecting pressing plate 108 is used to reject the undesirable heparin tube in direction, and heparin tube is removed pressing plate 108 and reversed Orientation extraction next time, the top rejected pressing plate 108 and be located at the fixed plate 106, the rejecting pressing plate 108 are waited in feed bin Including main part, the both ends of the rear side of the main part are be hinged with the connecting portion 1061 respectively, the front side of the main part It is overlapped on the side plate 103, the main part forward and has upwardly extended extension, and the extending part is in two sides Between plate 103, when heparin tube is promoted to test tube 100 top of feeding chamber by extraction mechanism 200, because the direction of heparin tube is not inconsistent Close and require, now, the undesirable heparin tube in direction is reversed feed bin by own wt and waits carry by rejecting pressing plate 108 next time Take.

With reference to figure 3, the extraction mechanism 200 includes elevating screw 201, lifting motor 202, the and of heparin tube riser 203 Fixed support is lifted, the lifting fixed support includes base 2040, vertical plate 2042 and top plate 2041, the vertical plate 2042 It is fixed on the base 2040, the vertical plate 2042 connects the top plate 2041 and the base 2040, the lifting silk The one end of bar 201 connects the top plate 2041, and the other end connects the base 2040, and the lifting motor 202 is described for driving Elevating screw 201 is lifted, and the heparin tube riser 203 is used to lift heparin tube, and the heparin tube riser 203 is fixed On the elevating screw 201, elevating screw 201 is driven to be lifted using lifting motor 202, heparin tube riser 203 On upper end lifting heparin tube to next pipeline, automation is realized, efficiency high, conveying are convenient and not error-prone.

The extraction mechanism 200 also includes first sensor X1 and second sensor X2, and the first sensor X1 is located at The bottom of the elevating screw 201, the second sensor X2 are located at the top of the elevating screw 201, first sensing The device X1 and second sensor X2 is used for the spacing detection of carry out up and down to the elevating screw 201.

The width of the heparin tube riser 203 is more than the diameter of a heparin tube and is less than the diameter of two heparin tubes, Such structure design causes heparin tube riser 203 to be only capable of lifting a heparin tube in lifting, will not once be lifted excessive Heparin tube cause cache pipeline 300 on load it is excessive so that extraction element in order and efficiency high.

The top droop of the heparin tube riser 203 is set, and is prevented in the uphill process of heparin tube riser 203, is adopted Blood vessel is fallen in feed bin.

The level that the extraction mechanism 200 also includes lifting fixed block 205 and is fixed on the lifting fixed block 205 is set The first connecting plate 206 put, the lifting fixed block 205 are arranged on the elevating screw 201, the heparin tube riser 203 are fixed on first connecting plate 206 vertically, and heparin tube riser 203 lifts fixed block 205 by being fixed on, with Elevating screw 201 is lifted.

The extraction mechanism 200 also includes the second connecting plate 207 and position plate 208, second connecting plate 207 with it is described The phase of first connecting plate 206 is fixed, and second connecting plate 207 is obliquely installed towards the direction of heparin tube riser 203, described The parallel heparin tube riser 203 of position plate 208 and it is fixed on second connecting plate 207.The position plate 208 is used for Parallel heparin tube direction.

Inclined-plane is in the upper surface of the position plate 208, when the heparin tube riser 203 is from the bottom of test tube feeding chamber 100 When portion is raised above, heparin tube is now set if not the parallel heparin tube riser 203, and heparin tube is directed plate 208 Jack up, due to having shape and weight differential between heparin tube pipe shaft and pipe cap, heparin tube one end extends the oblique of position plate 208 Towards downslide so that heparin tube is set with the keeping parallelism of heparin tube riser 203.

The position plate 208 is arranged at least two, and the position plate 208 of front and rear setting causes close to heparin tube riser 203 be heparin tube be directed the travel direction of plate 208 setting, facilitate the 203 conscientious lifting of heparin tube riser.

The interval setting of two position plates 208, and the spacing between two position plates 208 is more than a blood sampling The diameter of pipe and less than the diameter of two heparin tubes, then the width of a heparin tube can only be accommodated between two orientations so that adopt Blood vessel riser 203, which once rises, can only lift a heparin tube, prevent that multiple heparin tubes from being lifted simultaneously.

The incline direction of the upper surface of spaced two position plates 208 is on the contrary, this structure setting to adopt Blood vessel is more prone to be directed the definition of plate 208 direction, simple in construction and easy to operate.

The side of elevating screw 201 is provided with positioning pillars 209, and described one end of positioning pillars 209 is fixed on the top plate On 2041, the other end is fixed on the base 2040, the parallel elevating screw 201 of the positioning pillars 209, positioning pillars 209 can play guiding function with the position of positioned-lifting screw mandrel 201.

The positioning pillars 209 are provided with two, are distributed in the both sides of the elevating screw 201, and both sides set positioning pillars 209 cause the left-right balance during lifting of elevating screw 201, are less prone to and rock.

With reference to figure 4, it is described caching pipeline 300 include adapter guide groove 301, adapter conveyer belt 302, tube pulling motor 303, Test tube shifting block 304, guide pad 305 and adapter pedestal 306, the adapter guide groove 301, adapter conveyer belt 302, tube pulling motor 303rd, test tube shifting block 304, guide pad 305 are installed on the adapter pedestal 306, and the adapter guide groove 301 is vertically arranged In the top of the adapter conveyer belt 302, the adapter guide groove 301 is used for what is fallen into received from the test tube feeding chamber 100 Heparin tube, the direction that the top of adapter guide groove 301 corresponds to the orientation slideway 107 open up fluted 307, the groove 307 connect with the adapter guide groove 301, and heparin tube enters in the adapter guide groove 301 from the groove 307.

The adapter guide groove 301 is located at one end of the adapter conveyer belt 302, and the guide pad 305 connects positioned at described The other end of pipe conveyer belt 302, and the adapter guide groove 301 is located at the adapter conveyer belt 302 with the guide pad 305 Upper and lower sides, the adapter conveyer belt 302 are connected by the guide pad 305 with the main transmission pipeline 400, the guide pad The groove for being used for receiving heparin tube is provided with 305, heparin tube enters the main transmission pipeline 400 by groove.

The top of guide pad 305 is provided with the test tube shifting block 304, and the tube pulling motor 303 drives the test tube to dial The rotation of block 304 drives heparin tube to enter the guide pad 305, when the tube pulling motor 303 inverts, test tube shifting block shown in drive 304 stop that heparin tube enters in the guide pad 305.

Single branch heparin tube of the heparin tube out of orientation slideway 107 is transplanted on horizontal positioned by the caching pipeline 300 Adapter conveyer belt 302, transported on heparin tube to guide pad 305 using adapter conveyer belt 302, preserved using adapter conveyer belt 302 A number of heparin tube is taken for bar code printing volume attaching mechanism 500, when equipment, which is sent, to be needed, what tube pulling motor 303 rotated A heparin tube is driven to enter guide pad 305 simultaneously, when storing the lazy weight of heparin tube, the automatic running of extraction mechanism 200 Supplying needs standby heparin tube quantity.

The caching pipeline 300 also includes being used for the 3rd sensor X3, the 3rd sensor X3 for detecting heparin tube On the adapter guide groove 301, when 3rd sensor X3 does not sense signal, lifting motor 202 drives heparin tube Riser 203 rises, and when second sensor X2 senses signal, represents that extraction mechanism 200 rises to limit position, lifting motor 202 driving heparin tube risers 203, which decline, to be resetted, and when first sensor X1 senses signal, has represented extraction mechanism 200 Reset.

With reference to figure 5, the main transmission pipeline 400 includes the conveyer belt 402 in the same direction of installation base plate 401, two, main transmission electricity Machine 403, limiting mechanism, limiting motor and the 4th sensors X 4, the 4th sensors X 4 are used to detect heparin tube, and the described 4th Sensors X 4 is both sides that are multiple and being evenly distributed on the installation pedestal, is provided among the installation base plate 401 and is used to take a blood sample The through hole for the strip that pipe passes through, the width of the end of the through hole are more than or equal to the width of heparin tube, and two described in the same direction Conveyer belt 402 is located at the both sides of the through hole, and heparin tube is vertically arranged between two conveyer belts 402 in the same direction, the master Driving motor 403 drives the conveyer belt 402 in the same direction to drive heparin tube to advance, and the pipe cap of heparin tube is arranged on two transmission in the same direction On band 402, heparin tube is vertically arranged, and reduces the accumulation of heparin tube.

The limiting mechanism is arranged on the lower section of the installation base plate 401, and the limiting mechanism is located at the through hole End, the limiting motor are used to drive the limiting mechanism to rotate, the limiting mechanism be provided with the hole size and The consistent breach of width, the limiting mechanism are a plate face, and the plate face middle is provided with the breach, and the breach is used for Heparin tube is accommodated, when limiting motor rotates forward, drives limiting mechanism to rotate so that the breach of limiting mechanism is towards in installation pedestal Mobile, now, block lives heparin tube, and when limiting motor inverts, breach overlaps with the end of through hole, and now heparin tube is from through hole Place falls at bar code printing volume volume attaching mechanism and carries out patch code.

Also include the 5th sensors X 5 on the limiting mechanism, the 5th sensors X 5 is connected with the limiting motor. 5th sensors X 5 is used to detect the end whether heparin tube reaches pipeline.

Using the above-mentioned structure of main transmission pipeline 400, mainly solve the quick movement of level of the vertical form of heparin tube, by Two main driving motors 403 drive two belts to do motion in the same direction, using contact of the heparin tube with belt quickly to the side of needs To movement, after limiting mechanism stops, it is necessary to a heparin tube fallen into from through hole inside bar code printing volume attaching mechanism 500, its Its unnecessary pipe is blocked in outside the mouth of pipe.

With reference to figure 6, Fig. 7 and Fig. 8, the bar code printing volume attaching mechanism 500 includes bar code printing portion 501 and bar code volume patch portion 502, printhead 5010 that the bar code printing portion 501 includes being used to print bar code, for the equipped with unused bar code paster A roll of post 5011, for equipped with using the volume Two post 5012 of bar code paster and the locating dowel for fixing bar code paster, bar Code paster from the first volume post 5011 lead to the locating dowel after by the printhead 5010 to bar code paster carry out bar code Printing, is finally rolled to the volume Two post 5012；The bar code volume patch portion 502 includes active rubber roll 5020, auxiliary rubber roll 5021st, rubber roll 5022 and rubber roll motor 5023, the active rubber roll 5020, the auxiliary rubber roll 5021 and the clamping glue are clamped A cavity is formed between roller 5022, heparin tube is located in cavity, is clamped by forming triangle polyester fibre between three rubber rolls Heparin tube, reduce the resistance of heparin tube rotation and the abrasion to bar code paper surface.

The cavity on the direction of the printhead 5010 be provided with one be used for make bar code paster by and be pasted onto Slit on test tube wall, the rubber roll motor 5023 connect the active rubber roll 5020 and cause the rotation of active rubber roll 5020 so as to band Move clamped heparin tube rotation.Carry out pasting bar code paster using printing volume attaching mechanism, it is simple, quick and easy, simplify right The complex steps that heparin tube is pre-processed, operate and avoided due to human error caused by human hand operation instead of human hand.

The locating dowel is provided with least two, is provided with the top of the locating dowel and is used for what block bar code paster moved up and down Bar code baffle plate.Bar code baffle plate protrudes out from the top of the locating dowel, when in the locating dowel of bar code paster volume patch, bar code paster Upper and lower ends prevent it is moved up and down from running out of locating dowel by bar code baffle plate block.

The bar code volume patch portion 502 includes clamping motor 5024, the sensors X 6 of screw mechanism 5025 and the 6th, the clamping Motor 5024 drives the clamping rubber roll 5022 to extrude the heparin tube in the cavity, prevents heparin tube from being shaken in cavity Dynamic, the screw mechanism 5025 is connected with the clamping rubber roll 5022, and positioned at the clamping rubber roll 5022 and the clamping electricity Between machine 5024, the clamping motor 5024 drives the screw mechanism 5025 to push and clamps the clamping rubber roll 5022, institute The 6th sensors X 6 is stated to be fixed on the screw mechanism 5025, and for detecting the position for clamping rubber roll 5022 and reaching.

The bar code printing portion 501 includes color mark sensor, paper detecting sensor and the 7th sensors X 7, the paper Detect the printing bar code paster for detecting the printhead 5010 and be arranged on the printhead 5010, the colour code sensing Device is used for the label position for detecting heparin tube, and the 7th sensors X 7 is located at below the cavity, the 7th sensors X 7 For detecting the heparin tube, whether position is fallen out in cavity.

After main drive belt pipeline falls into bar code printing volume attaching mechanism 500 inside, clamping motor 5024 drives heparin tube The dynamic screw mechanism 5025 being secured to together is advanced and is clamped test tube using three rubber rolls, and rubber roll motor 5023 passes through Active rubber roll 5020 drives heparin tube to rotate in certain direction, after color mark sensor test tubes label position, Equipment sends print command control bar code printer and sends out bar code, after paper detecting sensor detects paper after the completion of printing, Bar code volume patch portion 502 is run, bar code volume patch portion 502 drive heparin tube to continue rotation now bar code is rolled up and is attached to test tube outer wall.

With reference to figure 9, the output mechanism 600 includes translation pipeline 601 and rotation pipeline 602, the translation conveying Line 601 includes translation conveyer belt 6010, translation motor 6011, translating rails 6012, the 8th sensors X 8 and the 9th sensors X 9, The rotation pipeline 602 is arranged on the sliding block of the translating rails 6012, and the translation motor 6011 drives the translation The movement of conveyer belt 6010 drives the rotation pipeline 602 to advance, the 8th sensors X 8 and the 9th sensors X 9 In it is described translation conveyer belt 6010 both ends, for spacing detection, it is described rotation pipeline 602 include electric rotating machine 6020, Translation fixed plate 106 on the fixed translation conveyer belt 6010 and the swivel plate in the translation fixed plate 106 6021, the swivel plate 6021 is rotated relative to the translation plates, and heparin tube is placed on the swivel plate 6021, the electric rotating Machine 6020 is used to drive the swivel plate 6021 to rotate, and the rotation pipeline 602 also includes the tenth sensors X 10 and the 11st Sensors X 11, the tenth sensors X 10 and the 11st sensors X 11 are each attached on swivel plate 6021, and the described tenth Sensors X 10 is used to detect whether heparin tube is spilled over swivel plate 6021, and the 11st sensors X 11 is used to detect rotation version Whether reset.

The test tube feeding chamber 100 is provided with 6, and each described side of test tube feeding chamber 100 is installed with one The caching pipeline 300, the test tube feeding chamber 100 are arranged in rows in the top of the main transmission pipeline 400.

The operation principle of heparin tube bar code information processor is as follows：

When 3rd sensor X3 does not sense signal, lifting motor 202 drives heparin tube riser 203 to rise, this When heparin tube fall to orientation slideway 107 in, and slide into caching pipeline 300 on, the tube pulling motor 303 drives the test tube The rotation of shifting block 304 drives heparin tube to enter the guide pad 305, and when the tube pulling motor 303 inverts, test tube shown in drive is dialled Block 304 stops that heparin tube enters in the guide pad 305；When the caching pipeline 300, which receives, selects pipe to instruct, and the 4th Signal is not sensed, until tube pulling motor 303 drives test tube shifting block 304 is right to dial so that heparin tube falls into main transmission pipeline 400, now if when the 4th sensors X 4 senses signal, tube pulling motor 303 will drive left dial of test tube shifting block 304 to reset；When When main transmission pipeline 400 receives selection heparin tube instruction, two main driving motors 403 will drive two transmission in the same direction simultaneously Band 402 conveys forward, until completing all selection heparin tube tasks, when heparin tube, which is transported to pipeline, falls the mouth of pipe, the 5th passes Sensor X5 will detect signal, and limiting motor opens control valve, allow heparin tube to fall down and drop into bar code printing volume attaching mechanism In 500；After heparin tube enters bar code printing volume attaching mechanism 500, and when the 5th sensors X 5 does not detect signal, clamping motor 5024, which will drive clamping rubber roll 5022 to move forward to after the 6th sensors X 6 senses signal, stops, and now heparin tube is pressed from both sides Tightly, then rubber roll motor 5023 drives active rubber roll 5020 to rotate and drive heparin tube to rotate, and letter is detected when there is colour sensor Number when indicate the border of the original label for detecting heparin tube, rubber roll motor 5023 controls active rubber roll 5020 to turn to certain angle Stop after degree, after waiting bar code printing portion 501 to print outgoing label, after paper detecting sensor detects bar code paper, rubber roll electricity Machine 5023 drives active rubber roll 5020 to rotate, and bar code is pasted on the outer wall of heparin tube, then the driving of rubber roll motor 5023 master Dynamic rubber roll 5020 resets, and now heparin tube will down fall to output mechanism 600, when the 7th sensors X 7 senses band signal, folder The tight driving of motor 5024 clamps rubber roll 5022 and moves to interposition, and rubber roll motor 5023 also stops the rotation simultaneously, so far adopts for one The bar code volume patch task of blood vessel is completed；When the 7th sensors X 7 detects signal, the driving translation conveyer belt of translation motor 6011 6010 rotations, rotation pipeline 602 is driven to move forward, until the 9th sensors X 9 stops after sensing limit signal, now Electric rotating machine 6020 is driven rotation version upset, until the tenth sensors X 10 stops after sensing signal, heparin tube is thrown Go out outside this equipment machine, electric rotating machine 6020 drives the spinning reduction of swivel plate 6021, until the detection band of the 11st sensors X 11 Stop after signal, then translation motor 6011 drives translation conveyer belt 6010 to rotate again, drives rotation pipeline 602 until the 8th Sensors X 8 stops after detecting signal.

Above description is only the preferred embodiment of the application and the explanation to institute's application technology principle.People in the art Member should be appreciated that utility model scope involved in the application, however it is not limited to what the particular combination of above-mentioned technical characteristic formed Technical scheme, while should also cover in the case where not departing from utility model design, by above-mentioned technical characteristic or its be equal Other technical schemes that feature is combined and formed.Such as features described above has with (but not limited to) disclosed herein The technical scheme that the technical characteristic for having similar functions is replaced mutually and formed.

Claims (9)

1. A kind of 1. test tube feeding chamber for heparin tube bar code information processor, it is characterised in that：Including door plate, bottom plate, two Individual side plate, back plate, the first downslide bottom plate and the second downslide bottom plate, the door plate are located at the front side of the bottom plate with the back plate And rear side, the side plate connect door plate, the back plate and the institute respectively between the door plate and the back plate Bottom plate is stated, the first downslide bottom plate is located at the rear side of the back plate, and the first downslide bottom plate extends to tilt, and described second Downslide bottom plate is correspondingly arranged with the first downslide bottom plate, and one is formed between the first downslide bottom plate and the second downslide bottom plate Slideway is oriented, the width of the orientation slideway is more than heparin tube pipe shaft diameter, less than heparin tube pipe cap diameter.
2. 2. the test tube feeding chamber according to claim 1 for heparin tube bar code information processor, it is characterised in that：Also wrap Installed part is included, the installed part is arranged in the back plate, and the both ends of the installed part are held in the described of both sides respectively Side plate, the first downslide bottom plate are located at the rear side of the installed part.
3. 3. the test tube feeding chamber according to claim 2 for heparin tube bar code information processor, it is characterised in that：It is described The top of installed part tilts towards rear side.
4. 4. the test tube feeding chamber according to claim 1 for heparin tube bar code information processor, it is characterised in that：Also wrap A fixed plate is included, the fixed plate is located at the rear side of the back plate, and the second downslide bottom plate is fixed in the fixed plate, institute The end for stating fixed plate is provided with connecting portion, and the connecting portion extends towards the side plate and is fixed on the outer wall of the side plate.
5. 5. the test tube feeding chamber according to claim 4 for heparin tube bar code information processor, it is characterised in that：It is described Baffle plate for buffering test tube downslide is installed, the baffle plate extends into the first downslide bottom plate and described second in fixed plate The lower half of downslide bottom plate, the baffle plate are connected with baffle plate motor.
6. 6. the test tube feeding chamber according to claim 4 for heparin tube bar code information processor, it is characterised in that：Also wrap The rejecting pressing plate for rejecting heparin tube, the top rejected pressing plate and be located at the fixed plate are included, the rejecting pressing plate includes Main part, the both ends of the rear side of the main part are hinged with the connecting portion respectively, and institute is overlapped on front side of the main part State on side plate.
7. 7. the test tube feeding chamber according to claim 6 for heparin tube bar code information processor, it is characterised in that：It is described Main part forward and has upwardly extended extension, and the extending part is between two side plates.
8. 8. the test tube feeding chamber according to claim 1 for heparin tube bar code information processor, it is characterised in that：It is described Side plate is provided with latch part, and the door plate is provided with holding part, and the holding part is correspondingly arranged with the latch part.
9. 9. the test tube feeding chamber according to claim 1 for heparin tube bar code information processor, it is characterised in that：It is described Bottom plate is set into a ladder.