CN204116349U - Pack device and blomelicalbloodgasandelectrolrteanalyzers - Google Patents

Pack device and blomelicalbloodgasandelectrolrteanalyzers Download PDF

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CN204116349U
CN204116349U CN201420497839.6U CN201420497839U CN204116349U CN 204116349 U CN204116349 U CN 204116349U CN 201420497839 U CN201420497839 U CN 201420497839U CN 204116349 U CN204116349 U CN 204116349U
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inlet opening
column
reagent
hole
bag
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CN201420497839.6U
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梁炜
余复锦
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Shenzhen Uray Medical Science & Technology Co Ltd
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Shenzhen Uray Medical Science & Technology Co Ltd
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Abstract

The utility model is applicable to medical detecting Instrument technical field, provides a kind of pack device and has the blomelicalbloodgasandelectrolrteanalyzers of this pack device, is intended to solve in prior art adopt independent bottled electrolyte reagent and the unhandy problem brought.This pack device comprises multiple reagent bag of being arranged side by side and waste fluid bag, is provided with the first spliced eye of multiple corresponding reagent bag, the second spliced eye of corresponding waste fluid bag, multiple reagent leadout hole with the corresponding setting of the first spliced eye and the waste liquid entrance hole that arrange corresponding to the second spliced eye.A closed reagent bag is formed by multiple reagent bag and waste fluid bag being integrated in accommodating cavity, and utilize adapter to be connected between this closed reagent bag and Electrolytic analyzer, after electrolyte reagent in each reagent bag runs out of after repeatedly testing simultaneously, only pack assembly need be extracted from adapter, and plug new pack assembly, can replacing be completed, easy to operate.

Description

Pack device and blomelicalbloodgasandelectrolrteanalyzers
Technical field
The utility model belongs to medical detecting Instrument technical field, particularly relates to a kind of pack device and has the blomelicalbloodgasandelectrolrteanalyzers of this pack device.
Background technology
Blomelicalbloodgasandelectrolrteanalyzers is must be obligato in clinical examination, and in clinical, it mainly tests the balance maintaining osmotic pressure in blood of human body, body fluid.Electrolyte analysis instrument is used to the instrument detecting potassium ion, sodion, chlorion, ionized calcium, lithium ion, pH and TCO2 etc. from sample, and sample can be whole blood, serum, blood plasma, urine, dislysate and hydrating fluid.
Potassium, sodium, chlorine, calcium, pH, TCO2 are the electrolytical principal ingredients of blood of human body, and potassium, sodium, calcium are dominant cation, and chlorine, TCO2 are Main Anions.Patient is in operation or the disease generating process such as burn, diarrhoea, acute myocardial infarction, and the concentration of a certain ion or multinomial ion there will be disappearance, causes zwitterion unbalance, entail dangers to life time serious.Clinician needs the blood intermediate ion concentration of monitored patient timely, and which kind of ion this patient that makes a determination accurately, the need of fluid infusion, mends, and mends the amount of ion, has maintained the ionic equilibrium of the blood of this patient.So blomelicalbloodgasandelectrolrteanalyzers is must be obligato in clinical examination.
At present, hospital clinical human body electrolyte parameter mainly adopts the blomelicalbloodgasandelectrolrteanalyzers of bottled electrolyte reagent, and the reagent bottle of this type of bottled electrolyte reagent and waste liquid bottle are all the designs of separate single bottle, during use, 2 kinds or 3 kinds of reagent bottles, waste liquid bottles are connected in blomelicalbloodgasandelectrolrteanalyzers by Reagent Tube, when certain or certain several reagent loss are complete, need the Reagent Tube extracted respectively on instrument, open novel agent bottle cap, then inserted by Reagent Tube in novel agent bottle, it is very inconvenient to operate; When waste liquid bottle has been expired, need manually to extract sewer pipe, pour out waste liquid and carry out emptying, have biological pollution composition due to what have a large amount of serum class in waste liquid, have the risk of secure context.
Utility model content
The purpose of this utility model is to provide a kind of pack device, plurality of reagents is integrated in a closed reagent bag, and by adapter, pack is connected to blomelicalbloodgasandelectrolrteanalyzers, be intended to solve in prior art and adopt independent bottled electrolyte reagent and the unhandy problem brought.
The utility model realizes like this, a kind of pack device, for in blomelicalbloodgasandelectrolrteanalyzers to carry electrolyte reagent, it is characterized in that: described pack device comprises pack assembly and plugs with described pack assembly the adapter be connected, described pack assembly comprise there is accommodating cavity housing, to be multiplely arranged side by side in described accommodating cavity and for the reagent bag that holds different described electrolyte reagent and be arranged side by side with described reagent bag and waste fluid bag for holding liquid waste; Described adapter is provided with multiple patching and the reagent leadout hole of the first spliced eye of corresponding described reagent bag, grafting the second spliced eye of corresponding described waste fluid bag, the multiple and corresponding setting of described first spliced eye and the waste liquid entrance hole that arrange corresponding to described second spliced eye.
Further, each described reagent bag is provided with the first connected entrance, described waste fluid bag is provided with the second connected entrance, and described pack assembly also comprises the flexible pipe inserting the first catheter bottom described reagent bag along described first connected entrance, insert the second catheter in described waste fluid bag along described second connected entrance and be communicated between described first spliced eye and described first catheter and between described second spliced eye and described second catheter.
Further, the top of described waste fluid bag is provided with opening, and is pasted with waterproof ventilated membrane in described opening part.
Further, described pack assembly also comprises and is fixedly installed on described housing and has the installing plate of multiple mounting hole and to be multiplely interspersed in described mounting hole and to be symmetricly set in the hollow inserting column of the relative both sides of described installing plate, and one end of described hollow inserting column is communicated with described reagent bag and is communicated with described first spliced eye and described second spliced eye with described waste fluid bag and other end correspondence.
Further, described hollow inserting column comprise be communicated with corresponding described reagent bag the first inserting column, the second inserting column, the 3rd inserting column, the 4th inserting column, the 5th inserting column and the 6th inserting column and the 7th inserting column being communicated with described waste fluid bag, described first inserting column, described second inserting column, described 3rd inserting column and described 4th inserting column are that trapezoidal shape shifts to install, described first inserting column and described 5th inserting column lateral alignment, described 3rd inserting column and described 7th inserting column lateral alignment, described 4th inserting column and described 6th inserting column lateral alignment.
Further, described adapter comprises the first sidepiece and the second sidepiece that are oppositely arranged, be fixed on the outlet end of the end of described first sidepiece and described second sidepiece and be multiplely connected between described first sidepiece and described second sidepiece and extend to the connecting bend of described outlet end, each described first spliced eye and described second spliced eye are through described first sidepiece and described second sidepiece, each described reagent leadout hole and described waste liquid entrance hole are arranged at described outlet end, each described connecting bend is communicated between each described first spliced eye and corresponding described reagent leadout hole and between described second spliced eye and described waste liquid entrance hole respectively.
Further, described first spliced eye comprises first inlet opening corresponding with each described reagent bag, second inlet opening, 3rd inlet opening, 4th inlet opening, 5th inlet opening and the 6th inlet opening, described first inlet opening, described second inlet opening, described 3rd inlet opening and described 4th inlet opening are arranged at the side away from described outlet end of described first sidepiece and are dislocatedly distributed in trapezoidal shape, described first inlet opening and described 5th inlet opening lateral alignment, described 3rd inlet opening and described second spliced eye hole lateral alignment, described 4th inlet opening and described 6th inlet opening lateral alignment.
Further, described reagent leadout hole comprises setting in column and is communicated with described first inlet opening by corresponding described connecting bend is corresponding respectively, described second inlet opening, first fluid hole of described 3rd inlet opening and described 4th inlet opening, second fluid hole, 3rd fluid hole is with the 4th fluid hole and setting in column and be communicated with the 5th fluid hole and the 6th fluid hole of described 5th inlet opening and described 6th inlet opening respectively by corresponding described connecting bend, described first fluid hole and described 5th fluid hole lateral alignment, described 3rd fluid hole and described waste liquid entrance hole lateral alignment, described 4th fluid hole and described 6th fluid hole lateral alignment.
Further, described second sidepiece is provided with multiple storage tank be arranged side by side for accommodating described connecting bend, the bottom land of described storage tank comprises first plane and the second plane with difference in height, described connecting bend comprises the first elbow be communicated between described first inlet opening and described first fluid hole, be communicated in the second elbow between described second inlet opening and described second fluid hole, be communicated in the triple section arm between described 3rd inlet opening and described 3rd fluid hole, be communicated in the 4th elbow between described 4th inlet opening and described 4th fluid hole, be communicated in the 5th elbow between described 5th inlet opening and described 5th fluid hole, the 7th elbow being communicated in the 6th elbow between described 6th inlet opening and described 6th fluid hole and being communicated between described second spliced eye and described waste liquid entrance hole, described first elbow, described second elbow, described triple section arm and described 4th elbow are arranged at corresponding described storage tank and are positioned in described first plane, described 5th elbow, described 6th elbow and described 7th elbow to be arranged in corresponding described storage tank and to be positioned in described second plane.
The utility model additionally provides a kind of blomelicalbloodgasandelectrolrteanalyzers, and this blomelicalbloodgasandelectrolrteanalyzers comprises mentioned reagent packaging and puts.
The utility model relative to the technique effect of prior art is: form a closed reagent bag by multiple reagent bag and waste fluid bag being integrated in described accommodating cavity, and utilize adapter to be connected between this closed reagent bag and Electrolytic analyzer, after electrolyte reagent in each reagent bag runs out of after repeatedly testing simultaneously, only described pack assembly need be extracted from adapter, and plug new pack assembly, replacing can be completed, easy to operate, and in test and Renewal process, human body does not directly contact liquid waste, greatly reduce the possibility of biological pollution.
Accompanying drawing explanation
Fig. 1 is the three-dimensional structure diagram of the pack device that the utility model embodiment provides;
Fig. 2 is that in Fig. 1, the exploded view put packed by reagent;
Fig. 3 is that in Fig. 1, the partial sectional view put packed by reagent;
Fig. 4 is the distribution plan of hollow inserting column in Fig. 3;
Fig. 5 is the structural drawing of reagent bag in Fig. 3;
Fig. 6 is the structural drawing of waste fluid bag in Fig. 3;
Fig. 7 is the structural drawing of connector in Fig. 3;
Fig. 8 is the another structural drawing of connector in Fig. 3;
Fig. 9 is the distributed architecture figure of connecting bend in Fig. 3;
Figure 10 is the partial sectional view of connector in Fig. 3.
Embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.
Please refer to Fig. 1 to Fig. 3, the pack device 1 that the utility model embodiment provides in blomelicalbloodgasandelectrolrteanalyzers to carry electrolyte reagent, described pack device 1 comprises pack assembly 10 and plugs with described pack assembly 10 adapter 15 be connected, described pack assembly 10 comprise there is accommodating cavity 130 housing 13, to be multiplely arranged side by side in described accommodating cavity 130 and for the reagent bag 11 that holds different described electrolyte reagent and be arranged side by side with described reagent bag 11 and waste fluid bag 12 for holding liquid waste; Described adapter 15 is provided with multiple patching and the reagent leadout hole 150 of the first spliced eye 152 of corresponding described reagent bag 11, grafting the second spliced eye 153 of corresponding described waste fluid bag 12, the multiple and corresponding setting of described first spliced eye 152 and the waste liquid entrance hole 151 that arrange corresponding to described second spliced eye 153.
In this embodiment, the quantity of described reagent bag 11 can be 2,3,4,5,6,7 and above any number, and described first spliced eye 152 is corresponding with the quantity of described reagent bag 11 with the quantity of described reagent leadout hole 150.
Preferably, the quantity of described reagent bag 11 is six, hold electrolyte reagent A, electrolyte reagent B, electrolyte reagent C, electrolyte reagent D, electrolyte reagent E and electrolyte reagent F respectively, waste fluid bag 12 is for holding the liquid waste of recovery, each described reagent bag 11 and waste fluid bag 12 placed side by side in accommodating cavity 130, be integrated into a closed pack.The material of described reagent bag 11 and described waste fluid bag 12 is tygon (being called for short PE), nylon, polyethylene terephthalate (being called for short PET) or aluminum foil compound bag, and this aluminum foil compound bag is composited by PET, AL, nylon and PE.
In this embodiment, described first spliced eye 152 and described second spliced eye 153 are connected to each described reagent bag 11 and described waste fluid bag 12, also be delivered in described blomelicalbloodgasandelectrolrteanalyzers thus the electrolyte reagent in each reagent bag 11 is sent in described adapter 15, meanwhile, also the liquid waste produced in blomelicalbloodgasandelectrolrteanalyzers is delivered in waste fluid bag 12 by described adapter 15 and described connectedness.
In this embodiment, the quantity of described first spliced eye 152 and described reagent leadout hole 150 is six, and be communicated to each described reagent bag 11 and corresponding with described reagent leadout hole 150, namely hold electrolyte reagent A, electrolyte reagent B, electrolyte reagent C, electrolyte reagent D, electrolyte reagent E and the reagent bag 11 of electrolyte reagent F and be communicated with independently the first spliced eye 152 a corresponding independent reagent leadout hole 150 respectively.Described second spliced eye 153 is communicated with described waste fluid bag 12 and described waste liquid entrance hole 151.
The pack device 1 that the utility model embodiment provides forms a closed reagent bag by multiple reagent bag 11 and waste fluid bag 12 being integrated in described accommodating cavity 130, and utilize adapter 15 to be connected between this closed reagent bag and Electrolytic analyzer, after electrolyte reagent in each reagent bag 11 runs out of after repeatedly testing simultaneously, only described pack assembly 10 need be extracted from adapter 15, and plug new pack assembly 10, replacing can be completed, easy to operate, and in test and Renewal process, human body does not directly contact liquid waste, greatly reduce the possibility of biological pollution.
Please refer to Fig. 5 and Fig. 6, further, each described reagent bag 11 is provided with the first connected entrance 110, described waste fluid bag 12 is provided with the second connected entrance 120, and described pack assembly 10 also comprises and inserts the first catheter 112 bottom described reagent bag 11 along described first connected entrance 110, insert the second catheter 122 in described waste fluid bag 12 and be communicated in described connectedness and the flexible pipe 8 between described first catheter 112 and described second catheter 122 along described second connected entrance 120.The length of described first catheter 112 is greater than the length of described second catheter 122, and described first catheter 112 and described second catheter 122 are made by PE.Described first catheter 112 inserts bottom described reagent bag 11 so that all derived by the electrolyte reagent in described reagent bag 11 along described first connected entrance 110, described second catheter 122 inserts in described waste fluid bag 12 along described second connected entrance 120, this second catheter 122 need stretch into a bit of distance of described waste fluid bag 12, and without the need to being inserted into bottom it.Described first catheter 112 is connected described flexible pipe 8 to be communicated with described connectedness with the other end of described second catheter 122, be convenient to other positions described electrolyte reagent being exported to from described reagent bag 11 described blomelicalbloodgasandelectrolrteanalyzers, or liquid waste be directed in described waste fluid bag 12.
Please refer to Fig. 6, in this embodiment, described first catheter 112 for being tightly connected, prevents electrolyte reagent from flowing out along its junction with described first connected entrance 110, described second catheter 122 also for being tightly connected, prevents liquid waste from flowing out along its junction with described second connected entrance 120.
Please refer to Fig. 6, preferably, the top of described waste fluid bag 12 is provided with opening 124, and is pasted with waterproof ventilated membrane 126 in described opening 124 place.The shape of described waterproof ventilated membrane 126 is circular, and pastes double faced adhesive tape in its outer shroud.The material of described waterproof ventilated membrane 126 is poly tetrafluoroethylene (being called for short PTFE) or the eptfe membrane (being called for short ePTFE) of throughput 1000 ~ 10000 ml/min/square centimeter.
Please refer to Fig. 3 and Fig. 4, further, described pack assembly 10 also comprises and is fixedly installed on described housing 13 and has the installing plate 132 of multiple mounting hole 134 and to be multiplely interspersed in described mounting hole 134 and to be symmetricly set in the hollow inserting column 14 of described installing plate 132 both sides relatively, and one end of described hollow inserting column 14 is communicated with described reagent bag 11 and is communicated with described first spliced eye 152 and described second spliced eye 153 with described waste fluid bag 12 and other end correspondence.Described mounting hole 134 and the corresponding setting of described hollow inserting column 14, described mounting hole 134 is identical with the number summation of described waste fluid bag 12 with described reagent bag 11 with the number of described hollow inserting column 14, can be 2, 3, 4, 5, 6, 7 and above any number, preferably, the number of described mounting hole 134 and described hollow inserting column 14 is seven, wherein six hollow inserting columns 14 are connected between the first catheter 112 of described reagent bag 11 and described first spliced eye 152, hollow inserting column 14 described in another is connected between the second catheter 122 of described waste fluid bag 12 and described second spliced eye 153, to realize being communicated with of reagent bag 11 and described waste fluid bag 12 and described adapter 15.
Please refer to Fig. 3 and Fig. 4, further, described hollow inserting column 14 comprises the first inserting column 14a being communicated with corresponding described reagent bag 11, second inserting column 14b, 3rd inserting column 14c, 4th inserting column 14d, 5th inserting column 14e and the 6th inserting column 14f and the 7th inserting column 14g being communicated with described waste fluid bag 12, described first inserting column 14a, described second inserting column 14b, described 3rd inserting column 14c and described 4th inserting column 14d is that trapezoidal shape shifts to install, described first inserting column 14a and described 5th inserting column 14e lateral alignment, described 3rd inserting column 14c and described 7th inserting column 14g lateral alignment, described 4th inserting column 14d and described 6th inserting column 14f lateral alignment.The arrangement mode of described mounting hole 134 is identical with the mode of each described hollow inserting column 14, i.e. described first inserting column 14a, described second inserting column 14b, described 3rd inserting column 14c and described 4th inserting column 14d to insert in corresponding mounting hole 134 and respectively in trapezoidal dislocation layout on described housing 13, lay respectively on four angles of same parallelogram in other words, described 5th inserting column 14e, described 6th inserting column 14f and described 7th inserting column 14g lays respectively on leg-of-mutton three angles, and described first inserting column 14a and described 5th inserting column 14e is positioned on same level line, described 3rd inserting column 14c and described 7th inserting column 14g is positioned on same level line, described 4th inserting column 14d and described 6th inserting column 14f is positioned on same level line, above-mentioned three horizontal lines are parallel to each other.
Please refer to Fig. 2, Fig. 3, Fig. 7 to Figure 10, further, described adapter 15 comprises the first sidepiece 158a and the second sidepiece 158b that are oppositely arranged, be fixed on the outlet end 159 of the end of described first sidepiece 158a and described second sidepiece 158b and be multiplely connected between described first sidepiece 158a and described second sidepiece 158b and extend to the connecting bend 154 of described outlet end 159, each described first spliced eye 152 and described second spliced eye 153 are through described first sidepiece 158a and described second sidepiece 158b, each described reagent leadout hole 150 and described waste liquid entrance hole 151 are arranged at described outlet end 159, each described connecting bend 154 is communicated between each described first spliced eye 152 and corresponding described reagent leadout hole 150 and between described second spliced eye 153 and described waste liquid entrance hole 151 respectively.Described first sidepiece 158a and described second sidepiece 158b is for be parallel to each other and facing and arrange, and described outlet end 159 is mutually vertical with described second sidepiece 158b with described first sidepiece 158a.Described connecting bend 154 is two-way square elbow, described first spliced eye 152 is inserted with described second spliced eye 153 to be communicated with described second catheter 122 with described first catheter 112 in one end of each described connecting bend 154, the other end is inserted in described reagent leadout hole 150 and described waste liquid entrance hole 151, thus realizes each reagent bag 11 and be communicated with the miscellaneous part of blomelicalbloodgasandelectrolrteanalyzers with waste fluid bag 12.
In this embodiment, the material of described connecting bend 154 is PE or polypropylene (being called for short PP).The material of described adapter 15 main body is the silica gel of hardness 30 ~ 80 degree or the Polyurethane Thermoplastic Elastomer rubber (Thermoplastic polyurethanes is called for short TPU) of hardness 30 ~ 80 degree.
Please refer to Fig. 3, Fig. 4, Fig. 7 and Fig. 8, preferably, described first spliced eye 152 comprises the first inlet opening 152a corresponding with each described reagent bag 11, second inlet opening 152b, 3rd inlet opening 152c, 4th inlet opening 152d, 5th inlet opening 152e and the 6th inlet opening 152f, described first inlet opening 152a, described second inlet opening 152b, described 3rd inlet opening 152c and described 4th inlet opening 152d is arranged at the side away from described outlet end 159 of described first sidepiece 158a and is dislocatedly distributed in trapezoidal shape, described first inlet opening 152a and described 5th inlet opening 152e lateral alignment, described 3rd inlet opening 152c and described second spliced eye 153 hole lateral alignment, described 4th inlet opening 152d and described 6th inlet opening 152f lateral alignment.The arrangement mode of described first inlet opening 152a, described second inlet opening 152b, described 3rd inlet opening 152c, described 4th inlet opening 152d, described 5th inlet opening 152e, described 6th inlet opening 152f and described second spliced eye 153 and described first inserting column 14a, described second inserting column 14b, described 3rd inserting column 14c, described 4th inserting column 14d, described 5th inserting column 14e, described 6th inserting column 14f are identical with the arrangement mode of described 7th inserting column 14g, and mutually corresponding, with corresponding with each described reagent bag 11 and described waste fluid bag 12.Preferably, described reagent leadout hole 150 comprises setting in column and is communicated with described first inlet opening 152a by corresponding described connecting bend 154 is corresponding respectively, described second inlet opening 152b, the first fluid hole 150a of described 3rd inlet opening 152c and described 4th inlet opening 152d, second fluid hole 150b, 3rd fluid hole 150c is with the 4th fluid hole 150d and setting in column and be communicated with the 5th fluid hole 150e and the 6th fluid hole 150f of described 5th inlet opening 152e and described 6th inlet opening 152f respectively by corresponding described connecting bend 154, described first fluid hole 150a and described 5th fluid hole 150e lateral alignment, described 3rd fluid hole 150c and described waste liquid entrance hole 151 lateral alignment, described 4th fluid hole 150d and described 6th fluid hole 150f lateral alignment.Each described reagent leadout hole 150 and described waste liquid entrance hole 151 are in two straight line arrangements, wherein said first fluid hole 150a, described second fluid hole 150b, described 3rd fluid hole 150c and described 4th fluid hole 150d is distributed on same straight line successively, described 5th fluid hole 150e, described waste liquid entrance hole 151 and described 6th fluid hole 150f are distributed on another straight line successively, and described first fluid hole 150a and described 5th fluid hole 150e is positioned on same level line, and be parallel to each other with described 3rd fluid hole 150c and described waste liquid entrance hole 151 place straight line and described 4th fluid hole 150d and described 6th fluid hole 150f place straight line.
Please refer to Fig. 7 to Figure 10, alternatively, described second sidepiece 158b is provided with multiple storage tank 157 be arranged side by side for accommodating described connecting bend 154, the bottom land 1570 of described storage tank 157 comprises first plane 1572 and second plane 1574 with difference in height, described connecting bend 154 comprises the first elbow 155a be communicated between described first inlet opening 152a and described first fluid hole 150a, be communicated in the second elbow 155b between described second inlet opening 152b and described second fluid hole 150b, be communicated in the triple section arm 155c between described 3rd inlet opening 152c and described 3rd fluid hole 150c, be communicated in the 4th elbow 155d between described 4th inlet opening 152d and described 4th fluid hole 150d, be communicated in the 5th elbow 155e between described 5th inlet opening 152e and described 5th fluid hole 150e, the 7th elbow being communicated in the 6th elbow 155f between described 6th inlet opening 152f and described 6th fluid hole 150f and being communicated between described second spliced eye 153 and described waste liquid entrance hole 151, described first elbow 155a, described second elbow 155b, described triple section arm 155c and described 4th elbow 155d is arranged at corresponding described storage tank 157 and is positioned in described first plane 1572, described 5th elbow 155e, described 6th elbow 155f and described 7th elbow to be arranged in corresponding described storage tank 157 and to be positioned in described second plane 1574.By the bottom land 1570 of described storage tank 157 being arranged to first plane 1572 and second plane 1574 with difference in height, to play foolproof function.Described storage tank 157 comprises and communicating respectively and the first guide groove 157a of spaced setting, the second guide groove 157b, the 3rd guide groove 157c and the 4th guide groove 157d with described first fluid hole 150a, described second fluid hole 150b, described 3rd fluid hole 150c and described 4th fluid hole 150d, and described first guide groove 157a, described second guide groove 157b, described 3rd guide groove 157c and described 4th guide groove 157d have along the flow direction of described electrolyte reagent the first plane 1572 and the second plane 1574 be arranged in parallel respectively.Each described connecting bend 154 is contained in corresponding storage tank 157 respectively, particularly, one end of each described reagent leadout hole 150 of connection of described first elbow 155a, described second elbow 155b, described triple section arm 155c and described 4th elbow 155d is placed in described first guide groove 157a, described second guide groove 157b, described 3rd guide groove 157c and described 4th guide groove 157d respectively, and is all positioned in described first plane 1572; The connection described reagent leadout hole 150 of described 5th elbow 155e, described 7th elbow and described 6th elbow 155f and one end of described waste liquid entrance hole 151 are placed in described first guide groove 157a, described 3rd guide groove 157c and described 4th guide groove 157d successively, and are all positioned in described second plane 1574.
The utility model embodiment still provides blomelicalbloodgasandelectrolrteanalyzers, and this blomelicalbloodgasandelectrolrteanalyzers comprises mentioned reagent packaging and puts 1.Described pack device 1 and reagent in the various embodiments described above are packed the structure of putting 1 and are acted on identical, do not repeat herein.
The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (10)

1. a pack device, for in blomelicalbloodgasandelectrolrteanalyzers to carry electrolyte reagent, it is characterized in that: described pack device comprises pack assembly and plugs with described pack assembly the adapter be connected, described pack assembly comprise there is accommodating cavity housing, to be multiplely arranged side by side in described accommodating cavity and for the reagent bag that holds different described electrolyte reagent and be arranged side by side with described reagent bag and waste fluid bag for holding liquid waste; Described adapter is provided with multiple patching and the reagent leadout hole of the first spliced eye of corresponding described reagent bag, grafting the second spliced eye of corresponding described waste fluid bag, the multiple and corresponding setting of described first spliced eye and the waste liquid entrance hole that arrange corresponding to described second spliced eye.
2. pack device as claimed in claim 1, it is characterized in that: each described reagent bag is provided with the first connected entrance, described waste fluid bag is provided with the second connected entrance, and described pack assembly also comprises the flexible pipe inserting the first catheter bottom described reagent bag along described first connected entrance, insert the second catheter in described waste fluid bag along described second connected entrance and be communicated between described first spliced eye and described first catheter and between described second spliced eye and described second catheter.
3. pack device as claimed in claim 2, is characterized in that: the top of described waste fluid bag is provided with opening, and is pasted with waterproof ventilated membrane in described opening part.
4. pack device as claimed in claim 1, it is characterized in that: described pack assembly also comprises and is fixedly installed on described housing and has the installing plate of multiple mounting hole and to be multiplely interspersed in described mounting hole and to be symmetricly set in the hollow inserting column of the relative both sides of described installing plate, and one end of described hollow inserting column is communicated with described reagent bag and is communicated with described first spliced eye and described second spliced eye with described waste fluid bag and other end correspondence.
5. pack device as claimed in claim 4, it is characterized in that: described hollow inserting column comprise be communicated with corresponding described reagent bag the first inserting column, the second inserting column, the 3rd inserting column, the 4th inserting column, the 5th inserting column and the 6th inserting column and the 7th inserting column being communicated with described waste fluid bag, described first inserting column, described second inserting column, described 3rd inserting column and described 4th inserting column are that trapezoidal shape shifts to install, described first inserting column and described 5th inserting column lateral alignment, described 3rd inserting column and described 7th inserting column lateral alignment, described 4th inserting column and described 6th inserting column lateral alignment.
6. the pack device as described in claim 1 to 5 any one, it is characterized in that: described adapter comprises the first sidepiece and the second sidepiece that are oppositely arranged, be fixed on the outlet end of the end of described first sidepiece and described second sidepiece and be multiplely connected between described first sidepiece and described second sidepiece and extend to the connecting bend of described outlet end, each described first spliced eye and described second spliced eye are through described first sidepiece and described second sidepiece, each described reagent leadout hole and described waste liquid entrance hole are arranged at described outlet end, each described connecting bend is communicated between each described first spliced eye and corresponding described reagent leadout hole and between described second spliced eye and described waste liquid entrance hole respectively.
7. pack device as claimed in claim 6, it is characterized in that: described first spliced eye comprises first inlet opening corresponding with each described reagent bag, second inlet opening, 3rd inlet opening, 4th inlet opening, 5th inlet opening and the 6th inlet opening, described first inlet opening, described second inlet opening, described 3rd inlet opening and described 4th inlet opening are arranged at the side away from described outlet end of described first sidepiece and are dislocatedly distributed in trapezoidal shape, described first inlet opening and described 5th inlet opening lateral alignment, described 3rd inlet opening and described second spliced eye hole lateral alignment, described 4th inlet opening and described 6th inlet opening lateral alignment.
8. pack device as claimed in claim 6, it is characterized in that: described reagent leadout hole comprises setting in column and is communicated with described first inlet opening by corresponding described connecting bend is corresponding respectively, described second inlet opening, first fluid hole of described 3rd inlet opening and described 4th inlet opening, second fluid hole, 3rd fluid hole is with the 4th fluid hole and setting in column and be communicated with the 5th fluid hole and the 6th fluid hole of described 5th inlet opening and described 6th inlet opening respectively by corresponding described connecting bend, described first fluid hole and described 5th fluid hole lateral alignment, described 3rd fluid hole and described waste liquid entrance hole lateral alignment, described 4th fluid hole and described 6th fluid hole lateral alignment.
9. pack device as claimed in claim 8, it is characterized in that: described second sidepiece is provided with multiple storage tank be arranged side by side for accommodating described connecting bend, the bottom land of described storage tank comprises first plane and the second plane with difference in height, described connecting bend comprises the first elbow be communicated between described first inlet opening and described first fluid hole, be communicated in the second elbow between described second inlet opening and described second fluid hole, be communicated in the triple section arm between described 3rd inlet opening and described 3rd fluid hole, be communicated in the 4th elbow between described 4th inlet opening and described 4th fluid hole, be communicated in the 5th elbow between described 5th inlet opening and described 5th fluid hole, the 7th elbow being communicated in the 6th elbow between described 6th inlet opening and described 6th fluid hole and being communicated between described second spliced eye and described waste liquid entrance hole, described first elbow, described second elbow, described triple section arm and described 4th elbow are arranged at corresponding described storage tank and are positioned in described first plane, described 5th elbow, described 6th elbow and described 7th elbow to be arranged in corresponding described storage tank and to be positioned in described second plane.
10. a blomelicalbloodgasandelectrolrteanalyzers, is characterized in that: comprise the pack device as described in claim 1 to 9 any one.
CN201420497839.6U 2014-08-29 2014-08-29 Pack device and blomelicalbloodgasandelectrolrteanalyzers Active CN204116349U (en)

Priority Applications (1)

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Publication number Priority date Publication date Assignee Title
CN110927398A (en) * 2020-02-18 2020-03-27 南京德名声科技有限公司 Integrated kit, matching device and using method thereof

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110927398A (en) * 2020-02-18 2020-03-27 南京德名声科技有限公司 Integrated kit, matching device and using method thereof
CN110927398B (en) * 2020-02-18 2020-06-23 南京德名声科技有限公司 Integrated kit, matching device and using method thereof

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