CN205379506U - Autoblood recovery machine - Google Patents

Abstract

The utility model provides an autoblood recovery machine, including quick -witted case, set up at the storage blood ware part of quick -witted case upside, set up pipeline on quick -witted case upper portion and press from both sides the part, set up on quick -witted case upper portion and be close to the pipeline and press from both sides the roll extrusion pump component of part and set up the centrifugal well part at quick -witted case middle part, above -mentioned each part passes through the pipeline consumptive material at the during operation and connects. The utility model discloses a two -way snib structure of single back arm rotating shaft replaces current both arms gear linkage structure, adopts centrifugal pressure piece and pivot combination as blood recovering tank's dress card part, the centrifugal force effect chucking blood recovering tank when utilizing centrifugal tray rotatory, simple structure, convenient operation, reliable operation, install magnet on the pipeline splint and realize whether the automatic identification consumptive material is installed and target in place and the model of centrifugal cup consumptive material through set up hall sensor and cooperation on autoblood recovery machine's quick -witted case, store up blood ware liquid level and through the sensing unit automatic identification that weighs, easily realize the automation mechanized operation.

Description

A kind of blood recovery system

Technical field

This utility model belongs to technical field of medical instruments, is specifically related to a kind of intelligentized blood recycling machine being capable of and automatically controlling.

Background technology

Constantly carrying out along with operating, blood used in clinic amount and day increase severely, and cause blood source nervous, and in operation process, massive blood loss but must not obtain recycling simultaneously, causes great blood source to waste；Additionally, the allogeneic transfusion complication such as the propagation of the blood born diseases such as acquired immune deficiency syndrome (AIDS), viral hepatitis, immunosuppressant, anaphylaxis has also become serious medical social problem after allogeneic transfusion.The utilization of Autologous transfusion system, not only it is effectively reduced the waste of valuable blood resource, alleviate the contradiction that blood source is nervous, turn avoid the untoward reaction of allogeneic transfusion and the generation through blood born diseases simultaneously, therefore blood recovery system be contemplated to solve blood source is nervous and the problem such as blood cross-infection and what specialized designs manufactured, be the equipment carrying out blood treatment for hospital operating room.

Blood recovery system is to utilize modernization medical outcome and high-tech means, will from patient's art collected blood, be filtered, separate, clean, purify after feed back again to patient.It is anticipated that purposes, recycling that blood recovery system can carry out in basic art or wound is lost blood, simultaneously can also carry out blood constituent separation, not only avoid blood loss but also improve curative effect.

Although currently used blood recovery system disclosure satisfy that instructions for use in basic function, but existing product many employings manual operation and control, the experience depending on people is operated, it is easy to maloperation occur, and control accuracy is inadequate, and intelligence degree is not enough.

Authorization Notice No. is the open a kind of blood recovery system of utility model patent of CN2933427Y, this blood recovery system includes support, be arranged on support casing and the occlusion pump being arranged in casing, piping clip, centrifuge, cutout probe and be arranged on the control panel of tank surface, wherein, being provided with cutout probe in the middle part of casing, being used for detecting in pipeline has no liquid to exist；Position in the centrifugal well body of centrifuge, below clamp arm is provided with a blood layer probe, is used for detecting whether erythrocyte is isolated.This utility model compact conformation, saving space, convenient use, but there is also following deficiency: the mechanism structure such as (1) the centrifugal clamping device of well, chucking device are complicated, operate inconvenience；(2) whether the liquid level of blood reservior, consumptive material are installed and are put in place and the identification etc. of consumptive material model is mainly by artificial judgment and identification, and automaticity is low, it is easy to maloperation occur；(3) once each component failure of blood recovery system or generation are likely to unexpected, for instance output channel, it may happen that explosion, Centrifuge Cup leakage etc., is not provided with alarm mechanism, it is impossible to identify in time and remove a hidden danger.

Utility model content

In order to solve the problems referred to above, the purpose of this utility model is to provide the New Blood recycling machine that a kind of automaticity is high, esy to use, safe and reliable.

Above-mentioned purpose of the present utility model is realized by techniques below scheme:

nullA kind of blood recovery system，Including cabinet、It is arranged on the blood reservior parts on the upside of cabinet、It is arranged on the piping clip parts on cabinet top、It is arranged on the occlusion pump parts on cabinet top close piping clip parts and is arranged on the centrifugal well parts in the middle part of cabinet，Above-mentioned each parts are operationally connected by pipeline consumptive material，Described centrifugal well parts include centrifugal well body and Blood calldack tank automatic card mount device，Described Blood calldack tank automatic card mount device includes the centrifugal pallet for placing Blood calldack tank and the mechanism that is installed for the Blood calldack tank that is installed，The mechanism that is installed includes at least three pairs of separations and is arranged on the centrifugal pressure block of centrifugal pallet surrounding and rotating shaft combination，Rotating shaft is fixed on the sidewall of centrifugal pallet，Centrifugal pressure block is rotatable to be set in rotating shaft，The effect of centrifugal force when centrifugal pressure block is rotated by centrifugal pallet is installed Blood calldack tank.

In above-mentioned blood recovery system, described centrifugal pallet includes the tray body being positioned at downside, the cylindrical groove for holding centrifugal pressure block it is provided with between inwall and the outer wall of tray body, and the upper inside wall of this cylindrical groove is provided with through hole, the upper end of centrifugal pressure block can be passed through hole and lean out to the inner side of centrifugal pallet；The strip groove for placing rotating shaft it is provided with near the position of through hole at the cylindrical groove of tray body, the length of described strip groove is more than the width of through hole, and it is vertical with the radial direction of centrifugal pallet, described rotating shaft is positioned in the strip groove of tray body, and the width of the diameter of rotating shaft and described strip groove matches.

In above-mentioned blood recovery system, described centrifugal well parts also include clamping device, described clamping device includes for the bindiny mechanism fixing with the centrifugal well body in blood receipts machine, for clamping the clamping device of recycling can and for handling the Knob mechanisms of clamping device, and for fixing the single armed body of said mechanism, wherein:

Bindiny mechanism is located at the downside of single armed body one end；The downside of the single armed body other end offers the rectangular recess for assembling clamping device, and this end of single armed body is integrally extended with the clamping part of clamping device, and clamping part forms grasping part with the locking snib set by the clamping device being placed in this rectangular recess；Single armed body upper surface offers upper groove, and Knob mechanisms is installed in this upper groove and locking clamp set by its underpart and clamping device ties dynamic.

In above-mentioned blood recovery system, described clamping device also includes in a rectangular recess being flush-mounted in single armed body for supporting the clamping plate of described locking snib, locking snib is arranged in the cavity that the rectangular recess of single armed body is formed with clamping plate, it is bare terminal end near one end of the clamping part of clamping device, and the other end is placed with locking spring.

In above-mentioned blood recovery system, described clamping device also includes auxiliary snib, this auxiliary snib is arranged in the cavity that single armed body rectangular recess is formed with clamping plate, abut against in same level with described locking snib, being placed with secondary spring near one end of the clamping part of clamping device, the other end is the thin bar that can stretch into bindiny mechanism for positioning；Described locking snib and auxiliary the adjacent side of snib middle part formed hold chamber, two knob baffle plates of the rotation axis bottom being located at Knob mechanisms are placed in described accommodation chamber, and with described locking snib and assist snib clamping.

In above-mentioned blood recovery system, described pipeline consumptive material includes for the input channel of the Blood calldack tank pending blood of input, for inputting the normal saline pipeline of normal saline to Blood calldack tank and for the output channel from the blood after the process of Blood calldack tank feedback, each pipeline is installed on piping clip parts on three draw-in grooves of setting respectively, the port of export at piping clip parts accumulates a main pipeline, is connected to the inlet of Blood calldack tank through occlusion pump parts.

Above-mentioned blood recovery system also includes an intelligent terminal, described intelligent terminal is electrically connected with any cell in weighing and sensing unit, consumptive material identification sensing unit, leakage sensing unit and pressure sensitive unit or multiple unit, and intelligent terminal is able to receive that and processes the signal from each sensing unit.

In above-mentioned blood recovery system, weighing and sensing unit includes an elastomer and is installed in the senser element that elastomer deformation can be converted in elastomer the signal of telecommunication, it is fixedly mounted on the cabinet of blood recovery system, and blood reservior parts are fixed on the elastomer of weighing and sensing unit.

In above-mentioned blood recovery system, described consumptive material identification sensing unit includes Magnet and Hall element, Hall element embeds in the upside casing of cabinet, its top is stretched out, the bottom of pipeline consumptive material is individually fixed on the fixing plate of the first pipeline or the fixing plate of the second pipeline, and when pipeline consumptive material is installed and put in place, the first Magnet is fixed in the bottom surface of the fixing plate of the first pipeline and the corresponding position of the first Hall element, or second the fixing plate of pipeline bottom surface and the corresponding position of the second Hall element fix the second Magnet, Hall element is connected to intelligent terminal respectively through cable.

In above-mentioned blood recovery system, described leakage sensing unit is comb electrode sensor, is longitudinally mounted in the form of sheets on the inwall of centrifugal well body.

In above-mentioned blood recovery system, described pressure sensitive unit is installed in the card groove bottom at the output channel place of piping clip parts.

Above-mentioned blood recovery system also includes buzzer and/or dual-colored LED display lamp, and buzzer is installed on box house, and dual-colored LED display lamp is installed on the side at the rack top being fixed on casing, and buzzer and dual-colored LED display lamp are electrically connected respectively to intelligent terminal.

In the above blood recovery system, the front side of the end face of described cabinet is provided with the first in command, and the rear side of cabinet end face is provided with the second in command.

Adopt technique scheme, this utility model has following technical effect that centrifugal action clamping Blood calldack tank when (1) this utility model adopts the two-way snib structure of single-arm rotating axle to substitute existing both arms gear-linked structure and employing centrifugal pressure block and the parts that are installed as Blood calldack tank are combined in rotating shaft, the centrifugal pallet of utilization rotates, simple in construction, easy to operate, reliable operation；(2) Magnet by arranging Hall element on the cabinet of blood recovery system and cooperation is arranged on pipeline clamping plate realizes automatically identifying whether consumptive material is installed and puts in place and the model of Centrifuge Cup consumptive material, blood reservior liquid level is identified automatically by weighing and sensing unit, it is easy to accomplish automation mechanized operation；(3) by arranging pressure sensitive unit in the card groove location at the output channel place of piping clip parts, the inwall of centrifugal well body arranging leakage sensing unit and arranges buzzer, dual-colored LED display lamp etc., once output channel has possibility or the Centrifuge Cup leakage of explosion, send sound and light alarm in time, to reduce potential safety hazard.

Accompanying drawing explanation

Fig. 1 is the axonometric chart of blood recovery system of the present utility model；

Fig. 2 is the top view after blood recovery system of the present utility model removes upper cover；

Fig. 3 is the structural representation of blood reservior parts；

Fig. 4 is the structural representation of piping clip parts；

Fig. 5 is the structural representation of occlusion pump parts；

Fig. 6 is the schematic layout pattern of an embodiment of consumptive material identification sensing unit；

Fig. 7 is the structural representation of centrifugal well parts；

Fig. 8 is the structural representation of chucking device and the assembling of centrifugal pallet；

Fig. 9 is the top view of centrifugal well body；

Figure 10 is the structural representation that chucking device coordinates with Blood calldack tank；

Figure 11 is the structural representation of clamping device；

Figure 12 is the sectional view intercepted along line A-A in Figure 11；

Figure 13 is the upward view after clamping device removes clamping plate and securing member；

Figure 14 is the structured flowchart of intelligent terminal；

Figure 15 is the electrical connection graph of intelligent terminal and miscellaneous part.

In figure, accompanying drawing labelling is expressed as:

1: cabinet, 11: upper cover, 12 first in command, 13: the second in command, 14: roller, 15: rack, 16: well lid Hall element；

2: blood reservior parts, 21: blood reservior, 22: vertical rod, 23: steel ring, 24: weighing and sensing unit；

T1: input channel；T2: normal saline pipeline；T3: output channel；T4: main pipeline；

3: piping clip parts, 31: pipe clamp body, 32: pipe clamp head, 33: push rod, 34: the first motors, 35: pressure sensitive unit；

4: occlusion pump parts, 41: the pump housing, 42: pump head, 43: the second motors, 44: consumptive material identification sensing unit；45: cutout sensing unit；

S1: the first Hall element, the S2: the second Hall element；G1: the first Magnet, the G2: the second Magnet；D1: the first pipeline fixes plate, and the D2: the second pipeline fixes plate；, M: casing；

5: centrifugal well parts；51: centrifugal well body；52: centrifugal pallet, 521: tray body, 522: upper cover, 523: through hole, 524: cylindrical groove, 525: strip groove, 526: via；53: be installed mechanism, 531: centrifugal pressure block, 532: rotating shaft；54: blood layer sensing unit, 55: leakage sensing unit, 56: centrifugal motor；

100: Blood calldack tank, 101: shoulder structure；

6: clamping device；61: single armed body；62: bindiny mechanism, 621: single armed axle bed, 622: single armed axle, 623: wedge-shaped impression, 624: stopper slot, 625: limited post, 626: securing member；63: clamping device, 631: card bolt mechanism, 632: clamping part, 633: clamping plate；64: Knob mechanisms, 641: knob, 642: rotation axis；643: knob baffle plate；

7: buzzer；

8: dual-colored LED display lamp；

9: intelligent terminal, 91: touch screen, 92: microcontroller, 93: circuit board, 94: interface unit；

10: mini-printer.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, blood recovery system of the present utility model is described in detail.

Figures 1 and 2 show that overall structure of the present utility model.nullAs depicted in figs. 1 and 2，This utility model includes cabinet 1、It is fixed on the blood reservior parts 2 in cabinet 1 upper right corner、It is arranged on the piping clip parts 3 on cabinet 1 top、It is arranged on cabinet 1 top the occlusion pump parts 4 near piping clip parts 3、It is arranged on the centrifugal well parts 5 in the middle part of cabinet 1、It is fixed on the clamping device 6 on centrifugal well parts 5、Embed the intelligent terminal 9 at cabinet 1 top and be electrically connected to the buzzer 7 (referring to Figure 15) of intelligent terminal 9、LED light 8，Wherein，Blood reservior parts 2 are provided with a weighing and sensing unit 24 (referring to Fig. 3)，Piping clip parts 3 are provided with a pressure sensitive unit 35 (referring to Fig. 4)，Occlusion pump parts 4 are provided with consumptive material identification sensing unit 44 and cutout sensing unit 45 (referring to Fig. 5)，Centrifugal well parts 5 are provided with blood layer sensing unit 54 and a leakage sensing unit 55 (referring to Fig. 7)，The signal that the sensing unit of each parts detects above is sent to intelligent terminal 9 and processes，Control instruction is sent to each parts by intelligent terminal 9，Each parts are made to complete predetermined function according to setting order，And drive buzzer 7 in abnormal cases、LED light 8 sends sound and light alarm.

Wherein, cabinet 1 is streamlined structure, being the main body of fixing each parts, including upper cover 11, the first in command 12, the second in command 13 and roller 14, the end face of cabinet 1 is the face being slightly tilted forward, is provided with for holding piping clip parts 3, occlusion pump parts 4, being centrifuged the first groove of well parts 5 and for being embedded in second groove of intelligent terminal 9, and the top edge of the first groove is fixed in one end of upper cover 11, the other end can be freely rotatable, can fasten and cover the first groove；The forward edge of cabinet 1 end face is provided with the first in command 12, it is simple to hold and promote this blood recovery system；The rear side of cabinet 1 end face is provided with the second in command 13, it is simple to holds and reversely promotes this blood recovery system；The bottom corner location of cabinet 1 is each provided with roller 14, to facilitate complete machine to move；A rack 15 is fixed and has been upwardly extended in the left side of cabinet 1, and rack 15 is telescopic inverted " L " rustless steel vertical rod, and the top of vertical rod is provided with hook, conveniently hangs the article such as various bags of blood, storage blood vial.The design of this utility model cabinet 1 so that blood recovery system of the present utility model is very easy to use.

In this utility model, the upper end of cabinet 1 is provided with well lid sensing unit, including the Magnet being positioned on the downside of the movable end of upper cover 11 and the well lid Hall element 16 being fixed on cabinet 1, this Hall element is arranged on upper cover 11 and is fastened on position corresponding with Magnet during the first groove, this Magnet and well lid Hall element 16 with the use of；After upper cover 11 fastens, Magnet and well lid Hall element 16 are close, Hall element senses the change of magnetic field intensity and output signal is sent to intelligent terminal 9, after starting blood recovery system play button, intelligent terminal 9 controls blood recovery system and starts working, otherwise, after opening upper cover 11, blood recovery system quits work.

As shown in Figure 3, blood reservior parts 2 include blood reservior 21, vertical rod 22, steel ring 23 and weighing and sensing unit 24, wherein, weighing and sensing unit 24 includes an elastomer and is installed in the senser element that elastomer deformation can be converted in elastomer the signal of telecommunication, it is fixedly mounted on the cabinet of Blood calldack tank 100 (referring to Figure 10), and the lower end of vertical rod 22 is perpendicularly fixed on the elastomer of weighing and sensing unit 24；The upper end of vertical rod 22 is horizontally fixed with steel ring 23, is used for being set with blood reservior 21, and the top surrounding of blood reservior 21 has projection, is placed in steel ring 23 by blood reservior 21, and the projection of blood reservior 21 is stuck in the edge of steel ring 23；Blood reservior 21 upper end is provided with inlet, and lower end is provided with liquid outlet, and this liquid outlet is connected to the Blood calldack tank 100 (referring to Figure 10) in centrifugal well parts 5 by input channel T1 (referring to Fig. 4 and Fig. 5).Thus, blood reservior 21 can reliably be installed in steel ring 23, in it, the weight of blood is delivered on weighing and sensing unit 24 by steel ring 23, vertical rod 22, the elastomer of weighing and sensing unit 24 constantly deforms after being subject to weight, and the pressure change produced due to deformation is changed into the signal of telecommunication by the senser element (foil gauge) in weighing and sensing unit 24 and is sent to intelligent terminal 9 to judge the liquid level of blood reservior.

Blood reservior parts 2, piping clip parts 3, occlusion pump parts 4 and Blood calldack tank 100 are connected by pipeline consumptive material when working.Pipeline consumptive material includes the input channel T1 for inputting blood to Blood calldack tank 100, for inputting the normal saline pipeline T2 of normal saline to Blood calldack tank and for the output channel T3 of blood after processing from Blood calldack tank 100 feedback, each pipeline is through piping clip parts 3 above, the port of export at piping clip parts 3 accumulates a main pipeline T4, is connected to the inlet of Blood calldack tank 100 through occlusion pump parts 4.

In this utility model, as shown in Figure 4, piping clip parts 3 mainly include pipe clamp body 31, pipe clamp head 32, push rod the 33, first motor 34 and pressure sensitive unit 35, pipe clamp body 31 is for assembling other each parts of piping clip parts 3, its top is provided with three draw-in grooves side by side, it is respectively used to the fixing above three pipeline of card dress, each pipeline in this draw-in groove be respectively arranged below with three push rods 33 movable up and down, the side of pipe clamp body 31 is fixed with a rotating pipe clamp head 32, and this pipe clamp head 32 can rotate down and cover described three push rods 33；Three push rods 33 connect respectively through a cam and the first motor 34, and when the first motor 34 drives each cam to move respectively, each cam drives each push rod 33 to move up and down respectively；Intelligent terminal 9 controls the first motor 34 by the software that programs, move up and down according to three push rods 33 of control programme-control of intelligent terminal 9, when a push rod moves, gland and this push rod extrusion pipe so that the liquid in this road pipeline is truncated (closedown) and can not circulate；In like manner, when a push rod moves down, between gland and this push rod, space becomes big, no longer extrudes this road pipeline (opening), and the liquid in this road pipeline can circulate, and then controls the job order of three pipelines respectively.

Wherein, the card groove bottom at the output channel T3 place of pipe clamp body 31 is provided with pressure sensitive unit 35, described pressure sensitive unit 35 adopts the touch force sensor of FS series, in pipeline, the change of pressure is converted to the signal of telecommunication by touch force sensor and is sent to intelligent terminal 9, when in this pipeline amount of liquid increase and when exceeding the normal range of setting, intelligent terminal 9 receives the signal of telecommunication of pressure sensitive unit 35 transmission and exceedes corresponding threshold value, trigger buzzer 7 and/or dual-colored LED display lamp 8 sends warning, avoid because storage blood bag is full or the reason such as pipeline blockage causes pipeline burst.

The main pipeline T4 drawn from piping clip parts 3 is connected to occlusion pump parts 4.As shown in Figure 5, occlusion pump parts 4 include the pump housing 41, pump head 42, second motor 43, consumptive material identification sensing unit 44 and cutout sensing unit 45, wherein, the pump housing 41 is semicircular structure, a pump core storage tank it is provided with in the middle part of bottom surface, pump core is rotatably arranged at the central authorities of pump core storage tank, two pump heads 42 are separately positioned on the both sides of pump core, two clamp grooves it are symmetrically provided with inside the semi-circular open end two of the pump housing 41, and this clamp groove connects with pump core storage tank, main pipeline T4 is via side clamp groove and coils after storage tank, draw from opposite side clamp groove；The bottom of the pump housing 41 is provided with the second motor 43, and the outfan of this motor 43 extends upward the pump housing 41 and is connected with pump core.Pump core rotational power operationally is provided by the second motor 43, during the work of the pump heart, and pump head extruding main pipeline T4, thus driving liquid to flow in main pipeline T4, and then it is pumped into target location.

Pump core in this embodiment is additionally provided with a folding rocking handle.Specifically, being provided with a runner to the head rotation of rocking handle, the connection that the rear side of rocking handle rotates is arranged in pump core near the position of side, and in this pump core, then the size of corresponding rocking handle is provided with a rocking handle folded slot.Such setting so that pump core is when work, it is possible to folding fastener is located in rocking handle folded slot through afterbody rotation by rocking handle, and runner effect at this moment is the same with pump head 42, and equally possible carrying out extrudes pump line；Pump core is not when work, then can rotate out through afterbody by rocking handle; rocking handle is no longer arranged in rocking handle folded slot; at this moment by shaking the runner of rocking handle head; pump core can be driven to rotate; thus facilitating main pipeline T4 to put into or take out, simultaneously can also when there is power outage, user can utilize rocking handle to rotate the subsequent treatment that pump core is operated.

Centrifuge Cup conventional clinically mainly has two specifications, i.e. 250ml Centrifuge Cup and 125ml Centrifuge Cup, support the use with pipeline consumptive material, in use need to confirm whether the specification of the Centrifuge Cup being installed in blood recovery system and the pipeline consumptive material being connected with Centrifuge Cup are installed and put in place, thus, occlusion pump parts 4 are additionally provided with consumptive material identification sensing unit 44.Consumptive material identification sensing unit 44 include with the use of Hall element and Magnet, Hall element directly detects the magnetic field intensity of the Magnet being fixed on pipeline consumptive material, this magnetic field intensity is the switch controlling signal of Hall element, after receiving magnetic input signal, it is converted to the signal of telecommunication of practical application by the element of Hall element switch internal, differentiates whether this pipeline consumptive material is installed according to the height of electrical signal levels and puts in place；Centrifuge Cup types of consumables identification for different size, it is possible to by Centrifuge Cup consumptive material and the pipeline consumptive material being fixed with Magnet being supported the use the purpose reaching to identify Centrifuge Cup specification.

nullSpecifically，As shown in Figure 6，Two Hall switch sensor S1 (the first Hall element) and S2 (the second Hall element) are respectively embedded in the casing M of blood recovery system，Its top is stretched out，The bottom of pipeline consumptive material is fixed on the fixing plate D1 of the first pipeline or the fixing plate D2 of the second pipeline simultaneously，And when pipeline consumptive material is installed and put in place，The fixing plate D1 of first pipeline or the second pipeline fix the position fixed magnet G1 (first Magnet) corresponding with Hall element or G2 (the second Magnet) of the bottom surface on plate D2，The Centrifuge Cup of a kind of specification one of them Magnet corresponding is (such as，The Centrifuge Cup consumptive material of 250ml and the pipeline consumptive material being fixed with the first Magnet G1 support the use，The Centrifuge Cup consumptive material of 125ml and the pipeline consumptive material being fixed with the second Magnet G2 support the use)，First Hall element S1 and the second Hall element S2 is connected to the interface of intelligent terminal 9 respectively through cable.

For the ease of the installation of consumptive material identification sensing unit 44, being provided with a clamp on front side of the pump housing of occlusion pump parts 4, the pipeline fixing board card of pipeline consumptive material enters described clamp bottom surface.The detecting distance of Hall element is generally relevant with the sensitivity of the distance of the magnetic field intensity of Magnet, Hall element and Magnet and Hall element itself etc., it is preferable that when the installation of pipeline consumptive material puts in place, and the distance of itself and Hall element is mm level.

In above-mentioned occlusion pump parts 4, the front side of the pump housing 41 arranges a pipeline draw-in groove, pipeline snaps in this draw-in groove, the bottom surface of this draw-in groove is provided with cutout sensing unit 45, cutout sensing unit 45 adopts ultrasonic sensing device, this device adopts the principle of ultrasonic resonance to detect, including launching, receiving hyperacoustic potsherd unit and coordinate the oscillating circuit of its work, amplifying circuit etc..It utilizes ultrasound wave to have no liquid to exist with the change of conductive performance in liquid in pipeline to detect in atmosphere, is characterized in that detection sensitivity is high, to the not requirement of detected liquid transparency；When main pipeline T4 cutout occurs, the ultrasonic signal change that cutout sensing unit 45 detects is converted to the signal of telecommunication and is transferred to intelligent terminal 9, such that it is able to find and process the abnormal conditions of main line T4 cutout in time.

In this utility model, as shown in Figure 7 to 10, centrifugal well parts 5 include centrifugal well body 51, centrifugal pallet 52, the mechanism 53 that is installed, blood layer sensing unit 54, leakage sensing unit 55 and centrifugal motor 56, wherein, centrifugal well body 51 is embed the cylindrical well body in the middle part of cabinet, and the bottom of centrifugal well body 51 is provided with a rotating centrifugal pallet 52；Centrifugal motor 56 is arranged on the bottom outside centrifugal well body 51, the outfan of this centrifugal motor 56 is upward through the bottom of centrifugal well body 51, and be connected with centrifugal pallet 52, centrifugal pallet 52 can rotate under the driving of centrifugal motor 56, thus driving the Blood calldack tank 100 being placed on centrifugal pallet 52 to rotate；Shown in Figure 10, the mechanism 53 that is installed is arranged on the surrounding of centrifugal pallet 52.

More specifically, as shown in Figure 9, the bottom of centrifugal pallet 52 is provided with the screwed hole for connecting centrifugal motor 56 power transmission shaft, and the power transmission shaft of centrifugal motor 56 is fixed on the bottom of centrifugal well body 51 by bearing, and centrifugal motor 56 can pass through motor transmission shaft and drive centrifugal pallet 52 to rotate.Referring to Fig. 9, the mechanism 54 that is installed includes centrifugal pressure block 531 and rotating shaft 532.As shown in Figure 8, centrifugal pallet 52 includes being positioned at the tray body 521 of downside and being positioned at the upper cover 522 above tray body 521, wherein, tray body 521 is the disc structure of upper shed, the cylindrical groove 524 for holding centrifugal pressure block 531 it is provided with between tray body 521 upper inside wall and outer wall, and the upper inside wall of this cylindrical groove 524 is provided with through hole 523, the upper end of centrifugal pressure block 531 can be passed through hole 523 and lean out to the inner side of centrifugal pallet 52；Position near through hole 523 of the cylindrical groove 524 of tray body 521 is provided with strip groove 525, and the length of this groove is more than the width of through hole 523, and vertical with the radial direction of centrifugal pallet 52, is used for placing rotating shaft 532；The upper end of tray body 521 is evenly arranged with at least three via 526, and the position that upper cover 522 is corresponding with the via 526 of tray body 521 simultaneously is provided with screwed hole, for fixed cover 522 and tray body 521.

As shown in Figure 9, rotating shaft 532 is positioned in the strip groove 525 of tray body 521, the width of the diameter of rotating shaft 532 and above-mentioned strip groove 525 matches, rotating shaft 532 can compress the bottom of strip groove 525 under the centrifugal action when centrifugal pallet 52 rotates, and stably supports centrifugal pressure block 531.

As shown in Figure 9 and Figure 10, in order to coordinate the use of Blood calldack tank automatic card mount device of the present utility model, the bottom of Blood calldack tank 100 is provided with shoulder structure 101 near the circumferential position of the through hole 523 of tray body 521, and shoulder structure 101 upper end is located between bottom and the rotating shaft 532 of the through hole 523 of centrifugal pallet 52；The top of centrifugal pressure block 531 has the through hole for wearing rotating shaft 532, it is possible to rotate with rotating shaft 532 for axle；Centrifugal pressure block 531 includes being positioned at the centrifugal portion below rotating shaft 532 and is positioned at the pressure unit above rotating shaft 532, wherein, centrifugal portion is arranged in the cylindrical groove 524 of centrifugal pallet 52, the center of gravity of centrifugal pressure block 531 is positioned at centrifugal portion, when centrifugal pallet 52 is static, centrifugal portion due to action of gravity in cylindrical groove 524 vertically downward, pressure unit raises up the inner side of indentation cylindrical groove 524, and now the pressure unit of centrifugal pressure block 531 does not interfere with the loading of Blood calldack tank 100；When centrifugal pallet 52 rotates, centrifugal portion moves out along the radial direction of centrifugal pallet 52 under the influence of centrifugal force, pressure unit is along the radial inward movement of centrifugal pallet 52, cylindrical groove 524 finite capacity due to centrifugal pallet 52, the lateral wall of tray body 521 stops that centrifugal portion continues radial outward movement, then pressure unit also cannot be moved still further below, therefore there is between pressure unit and centrifugal portion certain angle, namely pressure unit tilts to the inner side of tray body 521 relative to centrifugal portion, the shoulder structure 101 of side compression Blood calldack tank 100 under the end of pressure unit is so made when centrifugal pallet 52 rotates, and Blood calldack tank 100 is applied pressure, so that Blood calldack tank 100 and centrifugal pallet 52 are stably installed.

In a preferred embodiment, centrifugal pressure block 531 is set to three, is evenly distributed in the circumference of described tray body 521.Adopt technique scheme, mechanism 53 utilization that is installed is centrifuged produced centrifugal force during pallet 52 high speed rotating, by lever supercharging principle, make centrifugal pressure block 531 that Blood calldack tank 100 to produce downward pressure, and pressure increases with the rotating speed of centrifugal pallet 52 and increases.When the turn up 5600 revs/min of centrifugal pallet 52, the pressure that Blood calldack tank 100 is downward can be reached 6 kilograms by each centrifugal pressure block 531, thus the Blood calldack tank 100 that is installed securely, makes Blood calldack tank 100 together rotate with described centrifugal pallet 52.

Referring to Fig. 7, in this utility model, described centrifugal well parts 5 also include a clamping device 6, and one end of this clamping device 6 is fixed on centrifugal well body 51, and the other end can swing at the top of centrifugal well body 51；The structure of above-mentioned clamping device 6 is such as shown in Figure 11, Figure 12 and Figure 13, including for the bindiny mechanism 62 fixing with centrifugal well body 51, for clamping the clamping device 63 of Blood calldack tank 100 and for handling the Knob mechanisms 64 of clamping device 63, and for fixing the main part single armed body 61 of said mechanism.

Wherein, single armed body 61 is a fixture of clamping device, and as shown in figure 11, single armed body 61 is the shuttle shape structure that one end is relatively big, the other end is less, and its upper surface is streamlined curved surface, and both ends are arc；As is illustrated by figs. 11 and 12, the upper surface middle part of single armed body 61 offers upper groove, and is provided with cylindrical bore in the middle part of the bottom surface of this groove, is used for placing Knob mechanisms 64；The bottom, one end that single armed body 61 is relatively large in diameter is provided with low groove, is used for placing bindiny mechanism 62；Next-door neighbour's low groove is provided with a rectangular recess, and its degree of depth is less than the degree of depth of low groove, and extends to one end that single armed body 61 is less, is used for placing card bolt mechanism 631.

Shown in Figure 11, Figure 12 and Figure 13, bindiny mechanism 62 includes single armed axle bed 621, single armed axle 622 and securing member 626, wherein: single armed axle bed 621 is the stepped cylinder table of two-stage of hollow, middle part is for running through the cylindrical bore of single armed axle bed 621, the first order cylinder table top that diameter is less is provided with the stopper slot 624 of strip arc, the side relative with stopper slot 624 is provided with the wedge-shaped impression 623 that the center to single armed axle bed 621 inside contracts, and this groove is longitudinally through single armed axle bed 621.

Single armed axle 622 is stepped cylinder, and wherein, the maximum first order cylinder of diameter is fixed in the low groove of single armed body 61, and the diameter of diameter and low groove matches；The side (downside) that the cylindrical first order cylinder table top with single armed axle bed 621 of the first order connects is fixed with a limited post 625, and this limited post 625 is positioned at the scope of stopper slot 624；Second level cylinder and the first cylinder integral type that diameter is less connect, and it is set in the cylindrical bore of single armed axle bed 621, the inwall of the first order cylinder table of the single armed axle bed 621 after wearing and the low groove of single armed body 61 is fitted, the downside of the second level cylinder table upper side of single armed axle bed 621 and the cylinder shape groove wall of single armed body 61 is close to, the cylindrical lower end, the second level of single armed axle 622 is set in the axis hole of centrifugal well body 51, and matches with the axis hole of the cylindrical bore of single armed axle bed 621 and centrifugal well body 51；The minimum third level cylinder of diameter is provided with connection screw thread, for matching with securing member 626.

Securing member 626 includes nut or has female part and pad, for fixing single armed axle bed 621, nut or have female part and have at least two, if having some nut or loose-parts in clamping device 6 motor process, another or multiple nut or part can also reliably work.Clamping device 6 can pass through bindiny mechanism 62 and is rotatably fixed to by this single armed body 61 on centrifugal well body 51, assembling process is as follows: be first fixed in the low groove of single armed body 61 by the first cylinder of single armed axle 622, then single armed axle bed 621 is placed on centrifugal well body 51, make the cylindrical bore of single armed axle bed 621 and the axis hole alignment of centrifugal well body, then single armed axle 622 lower end is set in successively in the axis hole of single armed axle bed 621 and centrifugal well body 51, make to be close on the downside of the second level cylinder table of single armed axle bed 621 upside of centrifugal well body 51, the third level cylinder of single armed axle 622 stretches out centrifugal well body 51 and fixes with securing member 626.So, for being rotatably connected between single armed axle 622 and each axis hole, single armed body 61 can rotate with single armed axle 622 for axle, and the slewing area of single armed body 61 is limited by the length of stopper slot 624.

As shown in figure 12, clamping device 63 includes card bolt mechanism 631, clamping part 632 and clamping plate 633, wherein:

Clamping part 632 is connected with single armed body 61 integral type, and one end less by the diameter of single armed body 61 extends to form；The side that clamping part 632 connects with single armed body 61 offers concave arc, has gap between this concave arc sidewall and single armed body 61, and during work, the upper end of Blood calldack tank 100 is placed in this gap, and this concave arc matches with card bolt mechanism 631, is used for clamping Blood calldack tank 100.

Clamping plate 633 are strip plate body, it is nested in the rectangular recess of single armed body 61, the circular arc of the first cylinder table of its one end shape adjacent with single armed axle bed 621 and single armed axle bed 621 matches, fitting with the inwall of this rectangular recess in the edge of plate body, the upper side of plate body connects with the bottom surface of the rectangular recess of single armed body 61 and fixes；The upside of clamping plate 633 offers three rectangular recess being interconnected so that form the cavity for placing card bolt mechanism 631 between clamping plate 633 and single armed body 61.

Card bolt mechanism 631 is placed in the cavity that three rectangular recess on the upside of by clamping plate 633 are formed, including locking snib and locking spring and auxiliary snib and secondary spring, wherein,

Locking snib is stepped plate body structure, is arc end part towards one end of clamping part 632, and the other end is placed with locking spring, and locking spring withstands the groove inner wall of clamping plate 633；Under the effect of locking spring, locking snib level can slide in described cavity, the groove of the extended clamping plate 633 of its arc end part the locking Blood calldack tank 100 that matches with clamping part 632.

Auxiliary snib is stepped plate body structure, is thin bar towards one end of single armed axle bed 621, and this thin bar end portion width is less than the end portion width of the wedge-shaped impression 623 of single armed axle bed 621, and this thin bar is placed in the groove of clamping plate 633；The other end is placed with secondary spring, and secondary spring withstands the groove inner wall of clamping plate 633；Under the effect of secondary spring, auxiliary snib level can slide in described cavity, and its thin bar end can be inserted in the wedge-shaped impression 623 of single armed axle bed 621, and now lockable single armed body 61 makes single armed body 61 not rotate.

Referring to Figure 13, locking snib and auxiliary snib abut against in same level, are collectively disposed in described cavity, and the cylindrical bore place of position correspondence single armed body 61 in the middle is provided with accommodation chamber, for holding the rotation axis 642 of Knob mechanisms 64；The position corresponding with two knob baffle plates 643 fixing on rotation axis 642, locking snib and auxiliary snib are respectively provided with a square draw-in groove longitudinally through snib plate；Under the effect of spring and Knob mechanisms 64, two snib plates can relative sliding.

In conjunction with Figure 11, shown in Figure 12 and Figure 13, Knob mechanisms 64 includes knob 641, rotation axis 642 and knob baffle plate 643, knob 641 is hat shape " convex " shape structure, upwardly projecting portion outer surface is airflow design, so that the feel that operator has had is experienced, it is placed in the upper groove of single armed body 61, rotation axis 642 is inserted in the groove in the middle part of knob 641 from down and is fixed together, the cylindrical bore of bottom traverse single armed body 61, and in the accommodation chamber that formed of two snibs extending to card bolt mechanism 631, fixing two the knob baffle plates 643 in relative both sides, the bottom of rotation axis 642 are put in the square draw-in groove of two snibs, and the upside of knob baffle plate props up single armed body 61, so that Knob mechanisms 64 is rotatably fixed in the upper groove of single armed body 61.

As the presently preferred embodiments, the wedge-shaped impression 623 of single armed axle bed 621 is optimized design with the position of stopper slot 624, when the limited post 625 making single armed axle 622 is positioned at one end of stopper slot 624, wedge-shaped impression 623 just with auxiliary snib thin rod shape end part aligning, single armed body 61 just forwards Blood calldack tank 100 working position to simultaneously, and this makes user be easily found aligned position；When limited post 625 is positioned at the other end of stopper slot 624, single armed body 61 is away from Blood calldack tank 100 working position, it is simple to pick and place Blood calldack tank 100.

With reference to Fig. 7, blood layer sensing unit 54 and leakage sensing unit 55 in centrifugal well parts 5 are arranged on the inwall of the centrifugal well body 51 below clamping device 6, wherein:

Blood layer sensing unit 54 adopts infrared photoelectric sensor detection blood layer state, infrared photoelectric sensor includes emitter and receptor, the light that emitter is launched is irradiated on liquid, the refractive index produced due to different liquids composition is different, make the light quantity that receptor receives different, thus, the signal of telecommunication that blood layer sensing unit 54 is converted to is also different；When reaching predetermined height and thickness when the erythrocyte in Blood calldack tank 100,54 optical signals of blood layer sensing unit are converted to the signal of telecommunication, are transferred to intelligent terminal 9, and intelligent terminal 9 carries out judgement according to signal of telecommunication size and tells whether erythrocyte reaches predetermined state.

Leakage sensing unit 55 adopts comb electrode sensor, it is longitudinally mounted on the inwall of centrifugal well body 51 in the form of sheets, the liquid being splashed on electrode sensor when Centrifuge Cup leakage makes the resistance value generation significant change of electrode sensor, resistance change owing to being in loop causes that output voltage values changes, the intelligent terminal 9 electrically connected with leakage sensing unit 55 judges whether leakage according to magnitude of voltage change, if it is determined that leakage then starts sound and light alarm.

Figure 14 illustrates the structure of intelligent terminal 9, and Figure 15 illustrates the electrical connection of intelligent terminal 9 and miscellaneous part.As shown in Figure 14 and Figure 15, intelligent terminal 9 includes touch screen 91, microcontroller 92, circuit board 93 and interface unit 94, wherein:

Microcontroller 92 is the core component of intelligent terminal, 32 ARM microcontroller LPC2138FBD64 can be adopted, LPC2138FBD64 microcontroller be based on one support real-time simulation profit Embedded Trace 16/32 ARM7TDMI-SCPU, and with 512kB embed high speed flash storage, multiple serial line interface, multiple 32 bit timing devices, 2 ADC on 10 8 tunnels, 1 10 DAC, PWM passage, 47 GPIO and be make them particularly suitable for use in Industry Control Application system up to the external interrupt at 9 edges or level triggers.

Interface unit 94 includes the various types of interfaces such as serial ports, USB port, GPIO mouth, middle fracture, the various parts with compatibility interface can be accessed intelligent terminal 9, interact with microprocessor 92；Circuit board 93 is the peripheral circuit for coordinating microcontroller 92 to work, it electrically connects respectively through interface corresponding in interface unit 94 and weighing and sensing unit 24, pressure sensitive unit 35, leakage sensing unit 55, blood layer sensing unit 54, cutout sensing unit 45, consumptive material identification sensing unit 44 and well lid sensing unit, and the signal that each sensing unit is gathered process after be sent to the microcontroller 92 of intelligent terminal 9；Circuit board 93 by interface corresponding in interface unit 94 and the centrifugation frequency device of centrifugal motor 56, the first driver of the first motor 34, the second motor 43 the second driver electrically connect, it coordinates microcontroller 92 to generate control signal, converter or driver for controlling each motor complete respective function according to the order drive motor set, and the running state data gathering each motor sends microprocessor 92 to；Buzzer 7 is arranged on the inside of cabinet 1, and is electrically connected with the circuit board 93 of intelligent terminal 9 by the corresponding interface of interface unit 94；Dual-colored LED display lamp 8 is arranged on the side at vertical rod top of rack 15, operator are facilitated to observe blood recovery system duty, dual-colored LED display lamp is electrically connected to circuit board 93 by the corresponding interface of interface unit 94, time properly functioning, three display lamps are all green, and during fault, three display lamps are all redness；Signal or the status signal of motor that the microcontroller 92 of intelligent terminal 9 sends according to each sensing unit are analyzed processing, and carry out judging once occur abnormal according to setup parameter, are generated as driving signal driving buzzer 7 and/or dual-colored LED display lamp 8 to send warning.

The interface unit 94 of intelligent terminal 9 is also reserved with the USB interface connecting mini-printer 10, mini-printer 10 is electrically connected with circuit board 93 by this interface, and mutual with microcontroller 92, print control order is sent to mini-printer 10 by microcontroller 92 after manually being arranged by touch screen 91.

Touch screen 91, LJD-ZN-8400T chromatic liquid crystal screen can be adopted, it is electrically connected with circuit board 93, microcontroller 92 by interface unit 94, controlled display content by microcontroller 92, reception arranges parameter, touch screen 91 can show motor speed, fluid flow, each component working state, consumptive material model etc., and it is provided with function key, stop at pipeline, can manual intervention when needing stop component operation etc..

This utility model is in use, first blood recovery system is switched on power, various pipelines, Blood calldack tank, various bags of blood, the useless medical disposable material such as blood bag, cleaning normal saline are properly mounted on blood recovery system, close upper cover 11, and watches whether consumptive material installs information such as putting in place, whether Centrifuge Cup model is correct by touch screen 91；When recycling when there being blood to need, by the button on touch screen 91, start working procedure, the weighing and sensing unit 24 of blood reservior parts 2 detects when pending blood flow volume reaches setting value, being generated control instruction by intelligent terminal 9 drives centrifugal motor 56 to rotate, drive centrifugal pallet 51 and Blood calldack tank 100 high speed rotating, and generated control instruction by intelligent terminal 9 and drive the second motor 43 to rotate into blood driving occlusion pump parts 4, pending blood is pumped in Blood calldack tank 100；In the rotary course of Blood calldack tank 100, under centrifugal action, it is necessary to the erythrocyte of recovery is stayed in recycling can, the waste liquid such as blood plasma, normal saline, anticoagulant is discharged from the leakage fluid dram of Blood calldack tank 100, enters useless blood bag.After blood layer sensing unit 54 detects the erythrocyte in Blood calldack tank 100, intelligent terminal 9 generate control instruction and drive centrifugal motor 56 out of service, enter blood and stop；Being generated control instruction by intelligent terminal 9 drives the first motor 34 to be moved down by the push rod 33 corresponding to actuated by cams normal saline pipeline T2, open cleaning normal saline pipeline T2, and drive the second motor 43 to drive occlusion pump parts 4 to inject in Blood calldack tank 100 by the normal saline cleaned, erythrocyte is carried out, and the waste liquid after cleaning is discharged from leakage fluid dram；After having cleaned by the setting time, being generated control instruction by intelligent terminal 9 drives centrifugal motor 56 out of service, centrifugal well parts 5 stop the rotation, and control the second motor 43 and reversely rotate, and then drive occlusion pump parts 4 to reversely rotate, being injected in collecting bag by output channel T3 by cleaning erythrocyte in Blood calldack tank 100, the erythrocyte of this cleaning both can feed back to patient oneself.

Simultaneously, in blood recovery system work process, if in the dead of night sensing unit 55 detects that Centrifuge Cup has leakage to occur, cutout sensing unit 45 detects that pipeline has cutout to occur or pressure sensitive unit 35 detects that output pipe pressure becomes big to beyond normal range, each self-monitoring signal is sent to intelligent terminal 9 by each sensing unit, driving buzzer 7 and dual-colored LED display lamp 8 are sent sound and light alarm by intelligent terminal 9, be conducive to noting abnormalities in time, remove a hidden danger in time or fix a breakdown.

It will be appreciated by those skilled in the art that these embodiments are merely to illustrate this utility model and are not intended to scope of the present utility model, the various equivalent variations that this utility model is made and amendment belong to this utility model disclosure.

Claims (10)

1. null1. a blood recovery system，Including cabinet、It is arranged on the blood reservior parts on the upside of cabinet、It is arranged on the piping clip parts on cabinet top、It is arranged on the occlusion pump parts on cabinet top close piping clip parts and is arranged on the centrifugal well parts in the middle part of cabinet，Above-mentioned each parts are operationally connected by pipeline consumptive material，Described centrifugal well parts include centrifugal well body and Blood calldack tank automatic card mount device，It is characterized in that，Described Blood calldack tank automatic card mount device includes the centrifugal pallet for placing Blood calldack tank and the mechanism that is installed for the Blood calldack tank that is installed，The mechanism that is installed includes at least three pairs of separations and is arranged on the centrifugal pressure block of centrifugal pallet surrounding and rotating shaft combination，Rotating shaft is fixed on the sidewall of centrifugal pallet，Centrifugal pressure block is rotatable to be set in rotating shaft，The effect of centrifugal force when centrifugal pressure block is rotated by centrifugal pallet is installed Blood calldack tank.
2. 2. blood recovery system according to claim 1, it is characterized in that, described centrifugal pallet includes the tray body being positioned at downside, the cylindrical groove for holding centrifugal pressure block it is provided with between inwall and the outer wall of tray body, and the upper inside wall of this cylindrical groove is provided with through hole, the upper end of centrifugal pressure block can be passed through hole and lean out to the inner side of centrifugal pallet；The strip groove for placing rotating shaft it is provided with near the position of through hole at the cylindrical groove of tray body, the length of described strip groove is more than the width of through hole, and it is vertical with the radial direction of centrifugal pallet, described rotating shaft is positioned in the strip groove of tray body, and the width of the diameter of rotating shaft and described strip groove matches.
3. 3. blood recovery system according to claim 1, it is characterized in that, described centrifugal well parts also include clamping device, described clamping device includes for the bindiny mechanism fixing with the centrifugal well body in blood receipts machine, for clamping the clamping device of recycling can and for handling the Knob mechanisms of clamping device, and for fixing the single armed body of said mechanism, wherein:

   Bindiny mechanism is located at the downside of single armed body one end；The downside of the single armed body other end offers the rectangular recess for assembling clamping device, and this end of single armed body is integrally extended with the clamping part of clamping device, and clamping part forms grasping part with the locking snib set by the clamping device being placed in this rectangular recess；Single armed body upper surface offers upper groove, and Knob mechanisms is installed in this upper groove and locking clamp set by its underpart and clamping device ties dynamic.
4. 4. blood recovery system according to claim 3, it is characterized in that, described clamping device also includes in a rectangular recess being flush-mounted in single armed body for supporting the clamping plate of described locking snib, locking snib is arranged in the cavity that the rectangular recess of single armed body is formed with clamping plate, it is bare terminal end near one end of the clamping part of clamping device, and the other end is placed with locking spring.
5. 5. blood recovery system according to claim 4, it is characterized in that, described clamping device also includes auxiliary snib, this auxiliary snib is arranged in the cavity that single armed body rectangular recess is formed with clamping plate, abut against in same level with described locking snib, being placed with secondary spring near one end of the clamping part of clamping device, the other end is the thin bar that can stretch into bindiny mechanism for positioning；Described locking snib and auxiliary the adjacent side of snib middle part formed hold chamber, two knob baffle plates of the rotation axis bottom being located at Knob mechanisms are placed in described accommodation chamber, and with described locking snib and assist snib clamping.
6. 6. the blood recovery system according to any one of claim 1 to 5, it is characterized in that, described pipeline consumptive material includes for the input channel of the Blood calldack tank pending blood of input, for inputting the normal saline pipeline of normal saline to Blood calldack tank and for the output channel from the blood after the process of Blood calldack tank feedback, each pipeline is installed on piping clip parts on three draw-in grooves of setting respectively, the port of export at piping clip parts accumulates a main pipeline, is connected to the inlet of Blood calldack tank through occlusion pump parts.
7. 7. blood recovery system according to claim 6, it is characterized in that, also include an intelligent terminal, described intelligent terminal is electrically connected with any cell in weighing and sensing unit, consumptive material identification sensing unit, leakage sensing unit and pressure sensitive unit or multiple unit, and intelligent terminal is able to receive that and processes the signal from each sensing unit；Wherein:

   Weighing and sensing unit includes an elastomer and is installed in the senser element that elastomer deformation can be converted in elastomer the signal of telecommunication, and it is fixedly mounted on the cabinet of blood recovery system, and blood reservior parts are fixed on the elastomer of weighing and sensing unit；

   Leakage sensing unit is comb electrode sensor, is longitudinally mounted in the form of sheets on the inwall of centrifugal well body；

   Pressure sensitive unit is installed in the card groove bottom at the output channel place of piping clip parts.
8. 8. blood recovery system according to claim 7, it is characterized in that, described consumptive material identification sensing unit includes Magnet and Hall element, Hall element embeds in the upside casing of cabinet, its top is stretched out, the bottom of pipeline consumptive material is individually fixed on the fixing plate of the first pipeline or the fixing plate of the second pipeline, and when pipeline consumptive material is installed and put in place, the first Magnet is fixed in the bottom surface of the fixing plate of the first pipeline and the corresponding position of the first Hall element, or second the fixing plate of pipeline bottom surface and the corresponding position of the second Hall element fix the second Magnet, Hall element is connected to intelligent terminal respectively through cable.
9. 9. blood recovery system according to claim 7, it is characterized in that, also include buzzer and/or dual-colored LED display lamp, buzzer is installed on box house, dual-colored LED display lamp is installed on the side at the rack top being fixed on casing, and buzzer and dual-colored LED display lamp are electrically connected respectively to intelligent terminal.
10. 10. the blood recovery system according to any one of claim 7 to 9, it is characterised in that the front side of the end face of described cabinet is provided with the first in command, and the rear side of cabinet end face is provided with the second in command.