CN207718498U - A kind of outpatient service biological fluid extracting self-service machine - Google Patents

Abstract

The utility model provides a kind of outpatient service biological fluid extracting self-service machine, including：Rack, thereon at least provided with a transmission mechanism, and discharging mechanism and a laser printing mechanism there are one being respectively provided at least at the both ends of transmission mechanism, wherein, with at least provided with a rotating mechanism, and rotating mechanism is located at the both sides up and down of transmission mechanism with laser printing mechanism on the position of laser printing mechanism the same end.A kind of outpatient service biological fluid extracting self-service machine provided by the utility model, pass through the cooperation between discharging mechanism, transmission mechanism, rotating mechanism and laser printing mechanism, degree of transitivity of the body fluid test tube between reviewer and patient is reduced with this, it avoids occurring wrong by phenomenon, and body fluid test tube is regular is positioned in discharging mechanism, it avoids contact and polluting with the external world, the safety and reliability that raising body fluid test tube is stored；In addition, the utility model self-service machine automates, intelligence degree is higher, convenient for its popularization.

Description

A kind of outpatient service biological fluid extracting self-service machine

Technical field

The utility model belongs to field of mechanical technique, is related to a kind of self-service machine, and especially a kind of outpatient service biological fluid extracting is self-service Machine.

Background technology

Hospitals at Present outpatient service body fluid check process is as follows：Patient is with checklist to window is examined, and staff is according to doctor's advice It chooses container and hands over and leave and take requirement, come window after patient's sampling again, staff receives sample and prints bar code patch On container, while receipt is printed to patient, inform and take single time and location.It has the following problems：1. peak period stands in a long queue, Waiting time is long；2. many reasons lead to the various mistakes such as collection of specimens amount is insufficient, container is taken by mistake；3. heavy workload is easy hair The raw mistake fastened one person's story upon another person；4. receive sample, the medical card printing bar code of patient need to be taken and be attached on container, and beaten simultaneously Print receipt has the sense of generation institute possible, and have patient's complaint often to patient because there may be biohazard for sample；5. by hand The bar code of patch causes detection speed to reduce because height is inconsistent, can not play maximal efficiency.

In conclusion needing design one kind that can reinforce Pre-analysis quality control, working efficiency is improved, reduces mistake, Du Exhausted institute feels possible, shortens the review time, optimizes consultation process, promotes the self-service machine that patient's medical treatment is experienced.

Utility model content

The purpose of this utility model is the presence of the above problem in view of the prior art, it is proposed that before one kind can reinforce analysis Quality control improves working efficiency, reduces mistake, prevents institute and feels possible, shortens the review time, optimize consultation process, promote trouble The self-service machine of person's medical treatment experience.

The purpose of this utility model can be realized by following technical proposal：A kind of outpatient service biological fluid extracting self-service machine, including： Rack thereon at least provided with a transmission mechanism, and is respectively provided at least at the both ends of transmission mechanism there are one discharging mechanism With a laser printing mechanism, wherein at least provided with a rotating mechanism, and revolved on the position of laser printing mechanism the same end Rotation mechanism is located at the both sides up and down of transmission mechanism with laser printing mechanism.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, the quantity of transmission mechanism is several, and is in array distribution, And a discharging mechanism and a laser printing mechanism is respectively set at the both ends of each transmission mechanism, or in each biography A discharging mechanism is arranged in one end of transfer mechanism, and the other end of each transmission mechanism shares a laser printing mechanism, wherein The quantity of rotating mechanism is equal with the quantity of transmission mechanism, and corresponds, wherein several rotating mechanisms can be seperated corresponding Setting, can also be integrally disposed.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, discharging mechanism, laser printing mechanism and rotating mechanism point Not Wei Yu transmission mechanism both sides up and down, wherein the discharge port of discharging mechanism is corresponding with the input end position of transmission mechanism, swash The position at the Laser emission end of optical printer structure is corresponding with the position of rotating mechanism round end.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, transmission mechanism includes several transmissions being arranged in array Axis, and the gap between the position of the discharge port of discharging mechanism and any adjacent two transmission shaft is opposite.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, laser printing mechanism includes a sensor, with whirler Structure is used cooperatively, by sensor judge be pasted with blank paster side body fluid test tube whether towards laser printing mechanism swash Light emitting end.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, there are one universal for setting on each position of bottom of the frame It takes turns, and the elevating lever being used cooperatively with universal wheel.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, discharging mechanism includes：Substrate, there are one side flexible connections To store the storage bin of body fluid test tube, the other side of substrate is removably connected with a sub-material component, wherein storage bin with point The blanking channel of a body fluid test tube is provided between material component, and one end of blanking channel is feed inlet, discharge port is set to On sub-material component.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, transmission mechanism further includes two pieces of support plates being oppositely arranged, And there are one driving sections, and the power part of driving driving section operation for setting between two pieces of support plates, wherein passes through power part Drive driving section circumferentially cycle running.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, rotating mechanism includes holder, and is distinguished in the both sides of holder There are one lifting unit and at least one rotary components for setting, and the rise and fall of rotary components are realized by lifting unit.

In a kind of above-mentioned outpatient service biological fluid extracting self-service machine, laser printing mechanism further includes：Pedestal is provided with shifting Dynamic component；Laser module is movably connected on moving assembly, wherein the movement of laser module is realized by moving assembly.

Compared with prior art, a kind of outpatient service biological fluid extracting self-service machine provided by the utility model by discharging mechanism, passes Cooperation between transfer mechanism, rotating mechanism and laser printing mechanism, with this reduce body fluid test tube reviewer and patient it Between degree of transitivity, avoid occurring it is wrong take phenomenon, and body fluid test tube is regular is positioned in discharging mechanism, avoids connecing with the external world It touches and pollutes, improve the safety and reliability of body fluid test tube storage；In addition, the automation of the utility model self-service machine, Intelligence degree is higher, and the time exported from discharging mechanism to self-service machine is short, work efficiency is high, convenient for its popularization.

Description of the drawings

Fig. 1 is a kind of structural schematic diagram of outpatient service biological fluid extracting self-service machine of the utility model.

Fig. 2 is the structural schematic diagram of discharging mechanism and transmission mechanism in one preferred embodiment of the utility model.

Fig. 3 is the enlarged structure schematic diagram at A in Fig. 2.

Fig. 4 is the structure of transmission mechanism, rotating mechanism and laser printing mechanism in one preferred embodiment of the utility model Schematic diagram.

Fig. 5 is the structural schematic diagram of discharging mechanism in one preferred embodiment of the utility model.

Fig. 6 is the structural schematic diagram at another visual angle of discharging mechanism in one preferred embodiment of the utility model.

Fig. 7 is the partial schematic diagram of discharging mechanism in one preferred embodiment of the utility model.

Fig. 8 is the structural schematic diagram of transmission mechanism in one preferred embodiment of the utility model.

Fig. 9 is the structural schematic diagram of rotating mechanism in one preferred embodiment of the utility model.

Figure 10 is the structural schematic diagram of laser printing mechanism in one preferred embodiment of the utility model.

Figure 11 is the structural schematic diagram at another visual angle of laser printing mechanism in one preferred embodiment of the utility model.

In figure, 100, rack；110, universal wheel；120, elevating lever；200, transmission mechanism；210, support plate；211, it adjusts Hole；220, driving section；221, driving shaft；222, driven shaft；223, sprocket wheel；224, chain；225, transmission shaft；230, power part； 231, transmission electrical machine；232, the first transmission belt wheel；233, the second transmission belt wheel；300, discharging mechanism；310, substrate；311, it rolls Wheel；320, storage bin；321, handle；330, sub-material component；331, bottom plate；332, material separating disc；332a, groove；333, discharging electricity Machine；334, the first discharging belt wheel；335, discharge shaft；336, the second discharging belt wheel；340, blanking channel；341, feed inlet； 342, discharge port；350, limit assembly；351, the first limited block；352, the second limited block；360, guide pad；370, baffle； 400, laser printing mechanism；410, pedestal；420, moving assembly；421, mobile motor；422, driving wheel；423, driven wheel； 424, driving belt；425, sliding rail；426, sliding block；430, laser module；431, Laser emission end；432, laser marker； 433, light channel structure；440, connecting plate；500, rotating mechanism；510, holder；520, lifting unit；530, rotary components；531, it props up Seat；532, electric rotating machine；533, the first rotation belt wheel；534, the second rotation belt wheel；535, rotating wheel；540, guide post.

Specific implementation mode

It is specific embodiment of the utility model and in conjunction with attached drawing below, the technical solution of the utility model is made further Description, but the utility model is not limited to these examples.

As shown in Figures 1 to 4, a kind of outpatient service biological fluid extracting self-service machine provided by the utility model, including：Rack 100, On be respectively provided at least there are one discharging mechanism at least provided with a transmission mechanism 200, and at the both ends of transmission mechanism 200 300 and a laser printing mechanism 400, wherein up to few setting, there are one rotations with 400 same end position of laser printing mechanism Mechanism 500, and rotating mechanism 500 is located at the both sides up and down of transmission mechanism 200, body fluid test tube with laser printing mechanism 400 Enter transmission mechanism 200 by discharging mechanism 300, and rotating mechanism 500 is transported under the action of transmission mechanism 200 Top prints patient information, then again by conveyer by laser printing mechanism 400 on the blank paster of body fluid test tube Structure 200 is transported to the outlet of self-service machine.

A kind of outpatient service biological fluid extracting self-service machine provided by the utility model passes through discharging mechanism 300, transmission mechanism 200, rotation Cooperation between rotation mechanism 500 and laser printing mechanism 400 reduces body fluid test tube between reviewer and patient with this Degree of transitivity, avoid occurring it is wrong take phenomenon, and body fluid test tube is regular is positioned in discharging mechanism 300, avoids connecing with the external world It touches and pollutes, improve the safety and reliability of body fluid test tube storage；In addition, the automation of the utility model self-service machine, Intelligence degree is higher, and the time exported from discharging mechanism 300 to self-service machine is short, work efficiency is high, convenient for its popularization.

Preferably, as shown in Figures 1 to 4, the quantity of transmission mechanism 200 is several, and is in array distribution, and each A discharging mechanism 300 and a laser printing mechanism 400 is respectively set in the both ends of a transmission mechanism 200, or at each A discharging mechanism 300 is arranged in one end of transmission mechanism 200, and the other end of each transmission mechanism 200 shares a laser and beats Printing mechanism 400, wherein the quantity of rotating mechanism 500 is equal with the quantity of transmission mechanism 200, and corresponds, wherein several A rotating mechanism 500 can fission be correspondingly arranged, can also be integrally disposed, to meet the synchronism output of different body fluid test tubes, It realizes the acquisition of patient's difference body fluid, improves working efficiency.

Preferably, as shown in Figures 1 to 4, discharging mechanism 300, laser printing mechanism 400 and rotating mechanism 500 are distinguished Positioned at the both sides up and down of transmission mechanism 200, wherein the discharge port 342 of discharging mechanism 300 and the input terminal position of transmission mechanism 200 Set corresponding, the position at the Laser emission end 431 of laser printing mechanism 400 is corresponding with the position of 500 round end of rotating mechanism； When body fluid test tube enters the input terminal of transmission mechanism 200 from the discharge port 342 of discharging mechanism 300, in the work of transmission mechanism 200 Under, body fluid test tube is delivered to the top of rotating mechanism 500, is made on body fluid test tube by the round end of rotating mechanism 500 The position of blank paster is corresponding with the position at Laser emission end 431 in laser printing mechanism 400, to realize in blank paster Upper progress laser printing patient information.

It is further preferred that as shown in Figures 1 to 4, transmission mechanism 200 includes several transmission shafts being arranged in array 225, when body fluid test tube is fallen from the discharge port 342 of discharging mechanism 300, fallen into just positioned at adjacent two transmission shafts 225 Between gap in, i.e., triangle disposition is formed between adjacent two transmission shafts 225 and body fluid test tube into structure distribution, i.e., body fluid tries Pipe lifts body fluid test tube by two transmission shafts 225 of its both sides, body fluid test tube is delivered to rotating mechanism in conveying 500 top (transmission shaft 225 and body fluid test tube are in relative static conditions in transmission process), then passes through rotating mechanism 500 round end drives transmission shaft 225 to rotate, and then realizes the rotation of body fluid test tube so that is pasted on blank on body fluid test tube The position of paster is corresponding with the position at Laser emission end 431 in laser printing mechanism 400, and then completes the laser of patient information Printing, finally prints the body fluid test tube of completion under the action of transmission mechanism 200, is delivered to the outlet of self-service machine.

It is further preferred that as shown in Figures 1 to 4, laser printing mechanism 400 includes a sensor, with rotating mechanism Whether 500 are used cooperatively, judge the body fluid test tube for being pasted with blank paster side towards laser printing mechanism 400 by sensor Laser emission end 431, avoid laser printing mechanism 400 from occurring to print deviation (training off) when printing patient information, due to viscous The blank paster being affixed on body fluid test tube, length (i.e. annular perimeter) is less than the annular perimeter of body fluid test tube tube wall, so working as When blank paster is pasted on body fluid test tube tube wall, must there are a part of transparent area (region for being not covered with blank paster), Therefore, the Laser emission end 431 in laser printing mechanism 400 is enabled to be directed at blank on body fluid test tube always by sensor The reliability that laser printing mechanism 400 uses is improved in the position of paster.

Preferably, as shown in Figures 1 to 4, universal wheel 110 there are one being arranged on each position of 100 bottom of rack, when After self-service machine is moved to destination, the elevating lever 120 carried by universal wheel jacks up self-service machine, completes the locking of self-service machine (being still on ground).

Preferably, as shown in Fig. 1 to 7, discharging mechanism 300 includes：Substrate 310, there are one side flexible connections to deposit The storage bin 320 of body fluid test tube is put, the other side of substrate 310 is removably connected with a sub-material component 330, wherein storage bin The blanking channel 340 of a body fluid test tube is provided between 320 and sub-material component 330, and one end of blanking channel 340 is charging Mouth 341, discharge port 342 is set on sub-material component 330.

Discharging mechanism 300 in through this embodiment reduces body fluid test tube to the riding position of regular body fluid test tube Degree of transitivity avoids body fluid test tube from contacting and pollute with the external world, can be reliable to improve safety that body fluid test tube uses Property.

Preferably, as shown in Figures 1 to 7,320 slide fit of storage bin is connected on substrate 310, it is further preferred that storage To roll slide fit connection between 310 surface of 320 bottom of case and substrate, friction of the storage bin 320 when being moved on substrate 310 is reduced Power facilitates storage bin 320 to be moved on substrate 310, and then is convenient for 320 built-in carrier fluid test tube of storage bin.It is further preferred that Several idler wheels 311 are embedded with along the surface of substrate 310, is divided into two groups, is symmetrically disposed on substrate 310, wherein two groups of idler wheels Adjacent spacing between 311 is less than the thickness of storage bin 320, improves reliability of the storage bin 320 when being slid on idler wheel 311.

It is further preferred that as shown in Figures 1 to 7, at the top of storage bin 320, there are one handles 321 for setting, convenient for storage The extraction of case 320 is deposited, and then facilitates the loading of body fluid test tube.

It is further preferred that as shown in Figures 1 to 7, there are one limits with setting on the substrate 310 of 320 the same side of storage bin Hyte part 350, guide and limit when on the one hand being moved as storage bin 320 so that storage bin 320 can only be along the length of substrate 310 Spend direction movement, on the other hand be used as the installation of storage bin 320 limit so that after storage bin 320 is installed in place, always with divide Material component 330 is connected, and improves reliability when body fluid test tube discharging.

It is further preferred that as shown in Figures 1 to 7, limit assembly 350 is located at 320 both sides of storage bin including two pieces The first limited block 351, and the first limited block 351 is removably connected on substrate 310, is further ensured that storage bin 320 moves When linearity；At least one piece of second limited block 352, is removably connected on substrate 310, is installed in place as storage bin 320 When positioning region, it is further preferred that after storage bin 320 is installed in place, the second limited block 352 and 320 bottom of storage bin Edge is mutually clamped, and avoids storage bin 320 that single sided taper phenomenon occurs, and improves reliability when body fluid test tube discharging.

It is further preferred that as shown in Figures 1 to 7, also set up that there are one detecting storage bin 320 on substrate 310 The sensor of interior body fluid test tube quantity can understand the quantity of body fluid test tube in storage bin 320 in time convenient for user, and add in time Add.

Preferably, as shown in Figures 1 to 7, sub-material component 330 includes the bottom plate 331 being removably connected on substrate 310, With the material separating disc 332 being movably connected on bottom plate 331, and the driving portion to drive material separating disc 332 to rotate, wherein discharging Mouth 342 is located on bottom plate 331, when the body fluid test tube in storage bin 320 is entered by blanking channel 340 in material separating disc 332, leads to Portion's driving material separating disc 332 of overdriving rotates so that body fluid test tube is with 332 synchronous rotary of material separating disc, finally from bottom plate 331 It is flowed out in discharge port 342, into transmission mechanism 200, the discharging for completing body fluid test tube acts, the automation of realization body fluid test tube, Free of contamination discharge method improves working efficiency and reduces error probability.

It is further preferred that as shown in Figures 1 to 7, several grooves are provided with along the axis direction of material separating disc 332 332a enters embedded position when material separating disc 332 as body fluid test tube, and body fluid test tube is avoided to follow 332 synchronous rotary of material separating disc When shake, to improve body fluid test tube discharging when reliability.

It is further preferred that as shown in Figures 1 to 7, blanking channel 340 feed inlet 341 (i.e. from storage bin 320 into Enter one end of material separating disc 332) both sides be each provided with a guide pad 360 so that the body fluid test tube in storage bin 320 being capable of edge It guide pad 360 to enter in material separating disc 332, the body fluid test tube in storage bin 320 is avoided directly to enter in a manner of vertical drop In material separating disc 332, reliability when body fluid test tube is shifted from storage bin 320 to material separating disc 332 and safety are improved, body fluid is avoided The breakage of test tube.It is further preferred that the opposite side of two guide pads 360 is inclined-plane so that body fluid test tube can be quick Enter material separating disc 332 in, improve body fluid test tube discharging when working efficiency.

Preferably, as shown in Figures 1 to 7, the side of bottom plate 331 is provided with a block baffle 370, and baffle 370 with point There is gap between charging tray 332, as body fluid test tube with resisting portion when 332 synchronous rotary of material separating disc, body fluid test tube avoided to revolve During turning, it be not separated to before discharge port 342 with material separating disc 332, to improve the reliability of body fluid test tube discharging.Into one Preferably, baffle 370 is spliced by two plates step respectively, wherein the tablet that one block of plank is installed as guide pad 360, Bent plate of another block of plank as body fluid test tube resisting portion, wherein bent plate is arranged concentrically with material separating disc 332, i.e. bent plate and sub-material Gap equal thickness between disk 332 in each section so that body fluid test tube can smoothly go to discharge port with material separating disc 332 342。

It is further preferred that as shown in Figures 1 to 7, driving portion includes the discharging machine for being installed on 331 other side of bottom plate 333, and one first discharging belt wheel 334 is connected on the output end of discharging machine 333；It is connected with by the shaft 335 that discharges The second discharging belt wheel 336 in 332 side of material separating disc, wherein lead between the first discharging discharging belt wheel 336 of belt wheel 334 and second Crossing belt, either crawler belt or chain are connected, and realize the synchronous rotary of the first discharging discharging belt wheel 336 of belt wheel 334 and second, when When discharging machine 333 drives the first discharging belt wheel 334 to rotate, by belt either crawler belt or chain, the second discharging band is realized The rotation of wheel 336, it is then (i.e. coaxial due to being connected by the shaft 335 that discharges between the second discharging belt wheel 336 and material separating disc 332 Setting), it realizes the rotation of material separating disc 332, to which the body fluid test tube on material separating disc 332 is gone to discharge port 342, completes body fluid examination The discharging of pipe.It is further preferred that when the first discharging discharging belt wheel 336 of belt wheel 334 and second is smooth wheel, first goes out Driving medium is used as by belt or crawler belt between the discharging belt wheel 336 of material strip wheel 334 and second；When the first discharging belt wheel 334 When being gear with the second discharging belt wheel 336, it is used as by chain between the first discharging discharging belt wheel 336 of belt wheel 334 and second Driving medium；When the first discharging belt wheel 334 and second discharge belt wheel 336 be synchronous pulley when, first discharges belt wheel 334 and the Two discharging belt wheels 336 between by synchronous belt be connected, wherein synchronous pulley and be respectively provided on synchronous belt it is with teeth, raising synchronous belt The reliability being driven between wheel and synchronous belt and anti-skidding, anti-loosening property.

In the present embodiment, why driving portion is selected as motor and driven, be because can be by the positive and negative of discharging machine 333 The positive and negative rotation for turning realization material separating disc 332, due to the particularity of body fluid test tube (generally in rotational-like structure setting) self structure And directionality of body fluid test tube when being slid into groove 332a from storage bin 320 is uncertain, and body fluid is just realized it is difficult to settle at one go The axis direction of test tube and the axis direction flush of groove 332a.

The rotation mode of general discharging machine 333 is related to the complex degree of structure of body fluid test tube, when the knot of body fluid test tube When configuration state is relatively easy, the normality of discharging machine 333 is in single direction rotation (rotating forward) state, when on material separating disc 332 Body fluid test tube get stuck phenomenon when, driving discharging machine 333 invert, to adjust position of the body fluid test tube on material separating disc, In, the signal that discharging machine 333 inverts derives from material separating disc 332 when rotated, between the side wall and guide pad 360 of body fluid test tube Continuous collision (but this collision time is shorter, and dynamics is lighter, is hardly damaged the surface of body fluid test tube), until realizing body fluid examination The axis direction of pipe and the axis direction flush of groove 332a, smoothly complete the discharging of body fluid test tube, discharging machine 333 is again It is returned to normality (rotating forward)；When the structural form of body fluid test tube is relative complex, the normality of discharging machine 333 is in back and forth just Reversion, and the arc length of positive and negative rotation is generally quarter circular arc, when the body fluid test tube on material separating disc 332 gets stuck phenomenon When, driving discharging machine 333 inverts, to adjust position of the body fluid test tube on material separating disc 332, until realizing the axis of body fluid test tube The axis direction flush in line direction and groove 332a, smoothly completes the discharging of body fluid test tube, and discharging machine 333 is returned to again Normality (positive and negative rotation repeatedly).

Preferably, as shown in Figures 1 to 8, transmission mechanism 200 further includes two pieces of support plates being oppositely arranged 210, and two There are one driving sections 220 for setting between block support plate 210, and the power part 230 that driving driving section 220 is run, wherein pass through Power part 230 drives the circumferential cycle running in driving section 220, i.e., rotating circulating in cycles.

It is further preferred that as shown in Figures 1 to 8, driving section 220 is located at 210 both ends of support plate including two Driving shaft 221 and driven shaft 222, and driving shaft 221 is connected with power part 230, wherein the both ends of driving shaft 221 and driven shaft 222 both ends are respectively set there are one sprocket wheel 223, and the sprocket wheel 223 on driving shaft 221 and the sprocket wheel 223 on driven shaft 222 are logical It crosses chain 224 to be connected, forms two groups of drive mechanisms, wherein the both ends of several transmission shafts 225 are removably connected to two groups respectively On drive mechanism.It drives driving shaft 221 to rotate by power part 230, is located at two sprocket wheels 223 at 221 both ends of driving shaft in master It under 221 turning effort of moving axis, rotates synchronously, then by the engagement between sprocket wheel 223 and chain 224, drives driven shaft 222 and the sprocket wheel 223 at 222 both ends of driven shaft rotate, and then the rotation in cycles of transmission shaft 225 is realized, finally by adjacent two Body fluid test tube between a transmission shaft 225 is sent to the top of rotating mechanism 500.

Using the engaged transmission between sprocket wheel chain in the present embodiment, ensure stationarity when conveying body fluids test tube, and In transmission process opposite rotation does not occur for transmission shaft 225, i.e. transmission shaft 225 follows chain syn-chro-step to rotate, further increases body The stationarity of liquid test tube transport, and brought convenience for the rotation of follow-up body fluid test tube operation.

It is further preferred that as shown in Figures 1 to 8, being respectively arranged in two pieces of support plates 210 at 222 both ends of driven shaft There are one adjustment hole 211, be shaped like in slotted hole, to adjust between driving shaft 221 and driven shaft 222 it is opposite away from From so that two chains are in exceptionally straight state always, improve the reliability of body fluid test tube conveying.

It is further preferred that as shown in Figures 1 to 8, power part 230 includes the transmission being installed in a side support plate 210 Motor 231, and the output end of transmission electrical machine 231 be provided with one first transmission belt wheel 232, and with 221 nested encryptions of driving shaft Second transmission belt wheel 233, wherein first transmission belt wheel 232 and second transmission belt wheel 233 between pass through belt or crawler belt phase Even, if transmission electrical machine 231 directly drives the rotation of driving shaft 221, since transmission electrical machine 231 is exported by its rated power so that main The rotating speed of moving axis 221 is larger, is unfavorable for the conveying of body fluid test tube, therefore, is arranged between transmission electrical machine 231 and driving shaft 221 One drive mechanism being made of the first transmission belt wheel 232, belt and the second transmission belt wheel 233, according to the first transmission belt Transmission ratio between wheel 232 and the second transmission belt wheel 233, reduces the rotating speed of driving shaft 221 so that be located on transmission shaft 225 Body fluid test tube can be delivered to outlet with a kind of relatively stable rate, improve the safety and reliability of body fluid test tube conveying.

It is further preferred that as shown in Figures 1 to 8, transmission shaft 225 is generally in fusiformis structure setting, i.e. transmission shaft 225 The diameter of both ends annular size be less than 225 middle part annular size of transmission shaft diameter, to reduce body fluid test tube tube wall and its Contact area between both sides transmission shaft 225 reduces the frictional force between body fluid test tube tube wall and transmission shaft 225, is convenient for body Rotation operation of the liquid test tube subsequently between adjacent two transmission shafts 225.

Preferably, as shown in Figures 1 to 9, rotating mechanism 500 includes holder 510, and is set respectively in the both sides of holder 510 It sets there are one lifting unit 520 and at least one rotary components 530, realizes the rising of rotary components 530 under by lifting unit 520 Drop, it is preferable that lifting unit 520 can be the more stable lifting devices of transmissions such as lifting motor or lifting cylinder.Work as stickup When thering is the body fluid test tube of blank paster to be sent to the surface of rotating mechanism 500 from the input terminal of transmission mechanism 200, rotary components 530 move up under the action of lifting unit 520, are resisted against on transmission shaft 225, are then driven and are passed by the rotation of rotary components 530 The rotation of moving axis 225, and then realize the rotation of the body fluid test tube between adjacent two transmission shafts 225, and synchronize and pass through sensor Whether the position at the Laser emission end 431 in detection laser printing mechanism 400 is directed at the position of the blank paster on body fluid test tube, If testing result is "Yes", the rotation for the component 530 that stops rotating, and is directly pasted in blank by laser printing mechanism 400 The printing of patient information is carried out on paper；If testing result is "No", continue to rotate, until in laser printing mechanism 400 The position of blank paster on the position alignment body fluid test tube at Laser emission end 431；The present embodiment can also be in the sky of body fluid test tube It is realized two layers on white paster or multilayer prints, after completing one layer of printing on blank paster, rotary components 530, which continue to drive, to be passed Moving axis 225 rotates, and then realizes the rotation of body fluid test tube, then completes the second layer or multilayer printing.

In the present embodiment, no matter the body fluid test tube to come from the conveying of the input terminal of transmission mechanism 200 is that state be in, Generally two states, first, the position of blank paster and Laser emission end 431 in laser printing mechanism 400 on body fluid test tube Position it is corresponding；Second, the position of the transparent area and the Laser emission end 431 in laser printing mechanism 400 on body fluid test tube It is corresponding, can by the cooperation between rotary components 530 and sensor, realize patient information it is comprehensive, accurately print, And the printing of patient information and the output of body fluid test tube settle at one go, and operator is convenient, reliable, in addition, passing through rotation group The rotation of part 530, can realize two layers on blank paster or the information of multilayer prints, and further realize patient information printing It is comprehensive, be more conducive to acquisition of the subsequent survey personnel for information.

It is further preferred that as shown in Figures 1 to 9, the quantity of rotary components 530 is multiple, and inline setting, Wherein, each rotary components 530 is corresponding with the position of each transmission mechanism 200, realizes that a patient is different types of Either the information printing of the same type of body fluid test tube of multiple patients or multiple patients are different for the information printing of body fluid test tube The information of the body fluid test tube of type prints, and then improves the working efficiency of laser printing mechanism 400.

Preferably, as shown in Figures 1 to 9, rotary components 530 include a bearing being removably connected on holder 510 531, and a rotating part is removably connected on bearing 531, entire rotary components 530 are lifted by lifting unit 520, are passed through Rotating part realizes rotation of the body fluid test tube on transmission mechanism 200, and then realizes that the blank paster on body fluid test tube is beaten with laser The position at the Laser emission end 431 of printing mechanism 400 is corresponding.It is further preferred that the round end of rotating part drives transmission shaft 225 It is between the two tangent cooperation when rotation, the engaged transmission being similar between two outer gear cutting machines, by rotating part and transmission shaft 225 Between frictional force, as the dynamic medium of rotating part and 225 synchronous rotary of transmission shaft, and then realize the rotation of body fluid test tube. It is further preferred that the setting of the compactness or fit clearance due to mechanical mechanism processing, leads to rotating part and transmission shaft 225 Between against fitting defective tightness, and be possible to occur unilateral side against fitting, only depend merely on frictional force cannot achieve body fluid examination The rotation of pipe or the speed of rotation of body fluid test tube are slower, influence working efficiency, and therefore, embedded on rotating part there are one magnetic Property structure, such as annular magnet so that the round end of rotating part can be adjacent with two under the magnetic force effect of magnetic texure Completely against fitting, the rotary motion of rotating part is transferred on two adjacent transmission shafts 225 by guarantee on transmission shaft 225 surface, Rotating part and two 225 synchronous rotaries of transmission shaft are realized, to improve the reliability of body fluid test tube transmission.

It is further preferred that as shown in Figures 1 to 9, rotating part includes the electric rotating machine being removably connected on bearing 531 532, it is embedded in there are one the first rotation belt wheel 533 in the output end of electric rotating machine 532, and passes through belt or crawler belt and first The second rotation belt wheel 534 that belt wheel 533 is connected, and the rotating wheel 535 coaxially connected with the second rotation belt wheel 534 are rotated, In, the tube wall of rotating wheel 535 and body fluid test tube is tangent to be used cooperatively, and is passed through electric rotating machine 532 and is driven the first 533 turns of belt wheel of rotation Dynamic, the second rotation belt wheel 534 rotates 533 synchronous rotary of belt wheel under the action of belt or crawler belt with first, due to the second rotation Turn belt wheel 534 to be coaxially disposed with rotating wheel 535, to realize the synchronous rotary of the second rotation belt wheel 534 and rotating wheel 535, by In the tangent cooperation of tube wall of rotating wheel 535 and body fluid test tube, and then realize rotation of the body fluid test tube on transmission mechanism 200.Into Preferably, the position of rotating wheel 535 is corresponding with the position in the middle part of body fluid test tube on transmission mechanism 200, passes through rotation for one step When runner 535 drives body fluid test tube rotation, the synchronous rotary at body fluid test tube both ends is realized, improve the reliable of body fluid test tube rotation Property.

Rotating mechanism 500 in the present embodiment is realized that the synchronous of multiple rotary components 530 rises by lifting unit 520, is led to The rotating part in each rotary components 530 is crossed, realizes each spinning of body fluid test tube on corresponding transmission mechanism 200, And then realize position phase of the blank paster with Laser emission end 431 in laser printing mechanism 400 on each body fluid test tube It is corresponding, it follows that not only being connected each other between multiple rotary components 530, but also work independently from each other, in addition, can by rotating part The printing for realizing two layers or multilayer on blank paster further realizes the comprehensive of patient information printing, is more conducive to Acquisition of the subsequent survey personnel for information.

It is further preferred that as shown in Figures 1 to 9, the guide post 540 there are one settings on each position of holder 510, It realizes that multiple rotary components 530 synchronize under the action of lifting unit 520 to move up and down, and not run-off the straight, improves rotary components The reliability of 530 liftings.

Preferably, as shown in Figure 1 to 11, laser printing mechanism 400 further includes：Pedestal 410 is provided with mobile group Part 420；Laser module 430 is movably connected on moving assembly 420, wherein realizes laser module 430 by moving assembly 420 Movement.

Laser printing mechanism 400 in the present embodiment is made by the cooperation between transmission mechanism 200 and rotating mechanism 500 The blank paster obtained on body fluid test tube is rotated to suitable position, then passes through the laser that moving assembly 420 realizes laser module 430 Transmitting terminal 431 is corresponding with the position of blank paster on body fluid test tube, you can realize the printing of patient information, it is convenient, reliable, And be not easy to be wiped using the information of laser printing, and then improve the accuracy of reviewer's subsequent survey.

Preferably, as shown in Figure 1 to 11,430 slide fit of laser module is connected on pedestal 410, wherein moving assembly 420 include mobile motor 421, and the driving wheel 422 with 421 output end nested encryptions of mobile motor, and passes through driving belt 424 driven wheels 423 being connected with driving wheel 422 drive driving wheel 422 to rotate by mobile motor 421, and driven wheel 423 is passing It under the action of dynamic belt 424, realizes and is rotated synchronously with driving wheel 422, and then realize length of the laser module 430 along pedestal 410 Direction moves back and forth, and is matched by moving back and forth for laser module 430, and with multiple rotary components 530, on the one hand can be achieved The information printing of one different types of body fluid test tube of patient or the information of the same type of body fluid test tube of multiple patients are beaten Print or the printing of the information of the different types of body fluid test tube of multiple patients；On the other hand, convenient for the body fluid after laser printing of taking Test tube avoids colliding with laser module 430 when taking body fluid test tube, improves the safety that uses of laser module 430 and can By property.

It is further preferred that as shown in Figure 1 to 11, it is each provided with a sliding rail 425 in the both sides of driving belt 424, And the sliding block 426 being respectively nested with sliding rail 425 at least provided with one at the both ends of laser module 430, it on the one hand realizes and swashs On the other hand stationarity of the optical assembly 430 in moving process ensures the both ends synchronizing moving of laser module 430, avoids laser Deviation occurs for the laser optical path in component 430, causes the information being printed upon on blank paster incomplete, to improve laser module 430 reliabilities of operation.It is further preferred that since the volume of laser module 430 is larger (horizontal span is larger), so swashing Every one end of optical assembly 430 is provided with two sliding blocks 426, i.e. every one end of laser module 430 passes through double-slider 426 and single sliding rail 425 are used cooperatively, to improve bearing capacity of the moving assembly 420 for laser module 430.

It is further preferred that as shown in Figure 1 to 11, one piece of connecting plate is provided between laser module 430 and sliding block 426 440, wherein sliding block 426 is installed on the side of connecting plate 440, and laser module 430 is installed on the other side of connecting plate 440, is convenient for The fixation of laser module 430.It is further preferred that laser module 430 can be in the short transverse (vertical direction) of connecting plate 440 Lower movement adjusts the vertical range on Laser emission end 431 and body fluid test tube between blank paster on laser module 430 so that The information printed on blank paster is more clean, clear, its information can be accurately learned convenient for subsequent survey personnel.

It is further preferred that as shown in Figure 1 to 11, laser module 430 is beaten including being provided at both ends with the laser of sliding block 426 Ink recorder 432, and the light channel structure 433 that is detachably connected with laser marker 432, wherein Laser emission end 431 and sensor are equal Positioned at the output end of light channel structure 433.By light channel structure 433 correcting the laser angular projected from Laser emission end 431 Degree, it is generally perpendicular from blank paster position on the laser and body fluid test tube that Laser emission end 431 is projected so as to print on The coloration of information word or bar code on blank paster is consistent, avoids the occurrence of aberration, can be comprehensive convenient for subsequent survey personnel Learn patient information.

It is further preferred that as shown in Figure 1 to 11, the laser needs generally projected from laser marker 432 pass through Multiple tracks catoptric arrangement (catoptric arrangement is installed in light channel structure 433), could project from Laser emission end 431, on the one hand, So that the position on body fluid test tube where blank paster is mutually parallel with the position where laser marker 432 in perpendicular And it is not conllinear, facilitate adjustment laser link to be projected on the blank paster of body fluid test tube；On the other hand, if directly beaten laser , can be excessively high due to the temperature of laser on blank paster in ink recorder 432 on laser projection to body fluid test tube, and make blank paster Surface has coking phenomenon, is unfavorable for the subsequent information collection of reviewer.

A kind of outpatient service biological fluid extracting self-service machine provided by the utility model, after medical card insertion is entered self-service machine by patient, from It helps machine to read doctor's advice information automatically, corresponding body fluid test tube is entered into material separating disc from storage bin 320 by blanking channel 340 In 332 groove 332a, and under the action of driving portion, body fluid test tube with 332 synchronous rotary of material separating disc to discharge port 342, After fall between adjacent two transmission shafts 225, under the cooperation of power part 230 and driving section 220, body fluid test tube is delivered to Then the top of rotating wheel 535 judges whether the blank paster on the body fluid test tube meets the position of laser printing by sensor It sets, if testing result is "Yes", laser marker 432 is under the action of moving assembly 420, by the position at Laser emission end 431 It sets corresponding with the position of blank paster on body fluid test tube, then prints patient information on blank paster；If detection structure For "No", rotating wheel 535 can be driven to rotate by electric rotating machine 532, the body fluid test tube is synchronous under the rotation of rotating wheel 535 Rotation, goes to suitable position, then effect of the laser marker 432 in moving assembly 420 by the blank paster on body fluid test tube Under, the position at Laser emission end 431 is corresponding with the position of blank paster on body fluid test tube, then printed on blank paster Patient information；If necessary to print multilayer patient information, then rotating wheel 535 is driven to rotate again by electric rotating machine 532, to It realizes the rotation again of the body fluid test tube, and then laser printing is completed again by patient information completion by laser marker 432 Operation, finally, again by transmission shaft 225 by the body fluid test tube printed be delivered to self-service machine outlet.

The specific embodiments described herein are merely examples of the spirit of the present invention.The utility model institute Belonging to those skilled in the art can make various modifications or additions to the described embodiments or using similar Mode substitute, but without departing from the spirit of the present application or beyond the scope of the appended claims.

Claims (10)

1. a kind of outpatient service biological fluid extracting self-service machine, which is characterized in that including：Rack, thereon at least provided with a transmission mechanism, And discharging mechanism and a laser printing mechanism there are one being respectively provided at least at the both ends of transmission mechanism, wherein beaten with laser There are one rotating mechanisms up to few setting for the same end position of printing mechanism, and rotating mechanism is located at transmission with laser printing mechanism The both sides up and down of mechanism.

2. a kind of outpatient service biological fluid extracting self-service machine according to claim 1, which is characterized in that if the quantity of transmission mechanism is Dry, and be in array distribution, and a discharging mechanism and a laser printing is respectively set at the both ends of each transmission mechanism Mechanism, or one discharging mechanism is set in one end of each transmission mechanism, the other end of each transmission mechanism shares one A laser printing mechanism, wherein the quantity of rotating mechanism is equal with the quantity of transmission mechanism, and corresponds, wherein several Rotating mechanism can fission be correspondingly arranged, can also be integrally disposed.

3. a kind of outpatient service biological fluid extracting self-service machine according to claim 1 or 2, which is characterized in that discharging mechanism, laser are beaten Printing mechanism and rotating mechanism are located at the both sides up and down of transmission mechanism, wherein the discharge port and transmission mechanism of discharging mechanism Input end position it is corresponding, the position at the Laser emission end of laser printing mechanism is opposite with the position of rotating mechanism round end It answers.

4. a kind of outpatient service biological fluid extracting self-service machine according to claim 3, which is characterized in that transmission mechanism includes several The transmission shaft being arranged in array, and the gap phase between the position of the discharge port of discharging mechanism and any adjacent two transmission shaft It is right.

5. a kind of outpatient service biological fluid extracting self-service machine according to claim 3, which is characterized in that laser printing mechanism includes one A sensor, is used cooperatively with rotating mechanism, by sensor judge be pasted with blank paster side body fluid test tube whether court To the Laser emission end of laser printing mechanism.

6. a kind of outpatient service biological fluid extracting self-service machine according to claim 1, which is characterized in that in each portion of bottom of the frame There are one universal wheels for setting on position, and the elevating lever being used cooperatively with universal wheel.

7. a kind of outpatient service biological fluid extracting self-service machine according to claim 1 or 2, which is characterized in that discharging mechanism includes：Base Plate, there are one to store the storage bin of body fluid test tube, the other side of substrate is removably connected with one point for side flexible connection Expect component, wherein the blanking channel of a body fluid test tube, and one end of blanking channel are provided between storage bin and sub-material component For feed inlet, discharge port is set on sub-material component.

8. a kind of outpatient service biological fluid extracting self-service machine according to claim 1 or 2, which is characterized in that transmission mechanism further includes Two pieces of support plates being oppositely arranged, and there are one driving sections for setting between two pieces of support plates, and drive driving section operation Power part, wherein driving section circumferentially cycle running is driven by power part.

9. a kind of outpatient service biological fluid extracting self-service machine according to claim 1 or 2, which is characterized in that rotating mechanism includes branch Frame, and be respectively set there are one lifting unit and at least one rotary components in the both sides of holder, rotation group is realized by lifting unit The rise and fall of part.

10. a kind of outpatient service biological fluid extracting self-service machine according to claim 1 or 2, which is characterized in that laser printing mechanism is also Including：Pedestal is provided with moving assembly；Laser module is movably connected on moving assembly, wherein passes through moving assembly Realize the movement of laser module.