CN204121504U - A kind of multi-functional automatic decanting infusion apparatus device - Google Patents

Abstract

A kind of multi-functional automatic decanting infusion apparatus device, comprise the first bottle stopper puncture head be connected with the first infusion bottle, first bottle stopper puncture head is communicated with the first infusion tube, first infusion tube is communicated with top first entrance of the first dropping funnel, second bottle stopper puncture head is connected with the top of the first squeezing tube, the lower end of the first squeezing tube is communicated with top second entrance of the first dropping funnel, the bottom of the first squeezing tube is stretched on the top of the first buoyancy flexible pipe, the external diameter of the first buoyancy flexible pipe is larger than the internal diameter of the first squeezing tube, the inner chamber of the first dropping funnel is stretched in the bottom of the first buoyancy flexible pipe, the bottom of the first buoyancy flexible pipe and the inner space of the first ball float, the frictional resistance that first buoyancy flexible pipe top and the first squeezing tube bottom produce mutually is less than the combination gravity of the first buoyancy flexible pipe and the first ball float, frictional resistance is larger than this combination gravity to the buoyancy sum of the first ball float with medicinal liquid.This utility model cost is low, security performance strong, can arbitrarily connect multiple infusion bottle.

Description

A kind of multi-functional automatic decanting infusion apparatus device

Technical field

This utility model relates to transfusion instrument class, particularly a kind of automatic decanting infusion apparatus device.

Background technology

Traditional medical transfusion device infusion method is that the liquid that need input is contained in an infusion bottle or transfusion bag, and be suspended on eminence, utilize the effect of gravity to make liquid flow into intravenous by infusion rubber tubing, the size of flow velocity carries out manual adjustment by the speed governing clamp be placed on leather hose.The automatic decanting infusion apparatus device of current utility model, it is by connecting multitube or utilizing atmospheric pressure to carry out changing bottle transfusion, and more have by automatically controlling implementation procedure full-automatic, other links are then similar with traditional infusion mode.By above multiple method transfusion, there is following problem: 1) for traditional approach, need defeated more than one bottle need be changed bottle by transfusion person, and when healthcare givers be in busy state when just cannot take patient into account, therefore patient safety can not get to a certain extent ensure; 2) tradition changes bottle transfusion needs, through loaded down with trivial details links such as hand disassemblies, the time to cause waste; 3) for automatic decanting infusion apparatus device now, it is most quantitative for determine bottle, or is device complexity, wayward, cannot be used widely.

Summary of the invention

In order to the deficiency that the device overcoming existing transfusion device is complicated, security performance is low, cost is high, this utility model provides that a kind of cost is low, security performance strong, arbitrarily can connect the multi-functional automatic decanting infusion apparatus device of multiple infusion bottle.

This utility model solves the technical scheme that its technical problem adopts:

A kind of multi-functional automatic decanting infusion apparatus device, comprise the first bottle stopper puncture head be connected with the first infusion bottle, described first bottle stopper puncture head is communicated with the first infusion tube, described first infusion tube is communicated with top first entrance of the first dropping funnel, described transfusion device also comprises the second bottle stopper puncture head be connected with the second infusion bottle, described second bottle stopper puncture head is connected with the top of the first squeezing tube, the lower end of described first squeezing tube is communicated with top second entrance of described first dropping funnel, the bottom of described first squeezing tube is stretched on the top of the first buoyancy flexible pipe, the external diameter of described first buoyancy flexible pipe is larger than the internal diameter of described first squeezing tube, the inner chamber of described first dropping funnel is stretched in the bottom of described first buoyancy flexible pipe, the described bottom of the first buoyancy flexible pipe and the inner space of the first ball float, the frictional resistance that described first buoyancy flexible pipe top and described first squeezing tube bottom produce mutually is less than the combination gravity of described first buoyancy flexible pipe and the first ball float, described frictional resistance is larger than the combination gravity of described first buoyancy flexible pipe and the first ball float to the buoyancy sum of the first ball float with medicinal liquid.

Further, the lower part outlet of described first dropping funnel is connected with the top of the second infusion tube, the bottom of described second infusion tube is communicated with top first entrance of described second dropping funnel, the lower part outlet of described second dropping funnel is connected with the top of the 3rd infusion tube, the bottom of described 3rd infusion tube and transfusion device outlet;

Described transfusion device also comprises the 3rd bottle stopper puncture head be connected with the 3rd infusion bottle, described 3rd bottle stopper puncture head is connected with the top of the second squeezing tube, the lower end of described second squeezing tube is communicated with top second entrance of described second dropping funnel, the bottom of described second squeezing tube is stretched on the top of the second buoyancy flexible pipe, the external diameter of described second buoyancy flexible pipe is larger than the internal diameter of described second squeezing tube, the inner chamber of described second dropping funnel is stretched in the bottom of described second buoyancy flexible pipe, the described bottom of the second buoyancy flexible pipe and the inner space of the second ball float, the frictional resistance that described second buoyancy flexible pipe top and described second squeezing tube bottom produce mutually is less than the combination gravity of described second buoyancy flexible pipe and the second ball float, described frictional resistance is larger than the combination gravity of described second buoyancy flexible pipe and the second ball float to the buoyancy sum of the second ball float with medicinal liquid.

According to above-mentioned annexation, if increase by the 3rd dropping funnel, then can mate with the 4th infusion bottle and form next cascade structure, the like, multiple cascade structure form can be formed.

Further again, described first infusion tube installs the first flow regulator, described second infusion tube installs the second flow regulator.

Further, the first bottle stopper puncture head comprises the breather and the first fluid-through tube that are arranged side by side, and described first fluid-through tube is connected with the first upper end inputting flexible pipe; Described second bottle stopper puncture head comprises the breather and the second fluid-through tube that are arranged side by side, and described second fluid-through tube is connected with the second upper end inputting flexible pipe; Described breather is communicated with air.

Or: the first bottle stopper puncture head comprises the first fluid-through tube, and described first fluid-through tube is connected with the first upper end inputting flexible pipe, and the bottom of described first fluid-through tube is provided with passage; Described second bottle stopper puncture head comprises the second fluid-through tube, and described second fluid-through tube is connected with the second upper end inputting flexible pipe; The bottom of described second fluid-through tube is provided with passage, and described passage is communicated with air.

Between the bottom of described second infusion tube and top first entrance of described second dropping funnel, between the lower end of described second squeezing tube and top second entrance of described second dropping funnel, the lower part outlet of described second dropping funnel is detachable connection with between the top of the 3rd infusion tube.

Described first buoyancy flexible pipe, the second buoyancy flexible pipe are made as vacuum, described first buoyancy flexible pipe, the second buoyancy flexible pipe, and its diameter is set to R1; Described first squeezing tube, the second squeezing tube, its diameter is set to R2; Described first dropping funnel, its diameter is set to R3, wherein, R2<R1<R3.Control R2 and R1 difference enough little, make before the use flexible pipe can be attached to its connect infusion tube on and can not come off downwards.

Extruding gasbag is installed at the middle part of described first squeezing tube and the second squeezing tube.

The beneficial effects of the utility model are: described flow regulator adjustable flows out the speed of medicinal liquid, and can produce enough pressure by squeezing tube, buoyancy flexible pipe manually can be come off, described dismountable second dropping funnel can be more than one, can connect multiple to meet needed for patient on this basis; Buoyancy flexible pipe flows out with the priority effectively controlling medicinal liquid that coordinates in medicinal liquid face, and buoyancy flexible pipe also can Automatic-falling, achieves the effect of automatic decanting; On the other hand, this installation cost is low, structure is simple, achieve noticeable achievement, and effectively can make up the weak point of existing transfusion device.

Accompanying drawing explanation

Fig. 1 is the structure chart of multi-functional automatic decanting infusion apparatus device.

Fig. 2 is dismountable dropping funnel (the second dropping funnel) structure chart, and wherein (a) is dropping funnel schematic diagram, and (b) is detachable interface schematic diagram.

Fig. 3 is the structure chart of squeezing tube and buoyancy flexible pipe, and wherein, (a) is squeezing tube, and (b) is buoyancy flexible pipe.

Fig. 4 is the functional diagram changing bottle realization in dropping funnel, is wherein divided into (a) (b) (c).

Fig. 5 is all the other combined methods of breather and bottle stopper puncture head, is wherein divided into (a) for the schematic diagram of bottle stopper puncture head, the schematic diagram that (b) is passage.

Detailed description of the invention

Be described further below in conjunction with accompanying drawing

With reference to Fig. 1 ~ Fig. 5, a kind of multi-functional automatic decanting infusion apparatus device, comprise the first bottle stopper puncture head be connected with the first infusion bottle, described first bottle stopper puncture head is communicated with the first infusion tube, described first infusion tube is communicated with top first entrance of the first dropping funnel, described transfusion device also comprises the second bottle stopper puncture head be connected with the second infusion bottle, described second bottle stopper puncture head is connected with the top of the first squeezing tube, the lower end of described first squeezing tube is communicated with top second entrance of described first dropping funnel, the bottom of described first squeezing tube is stretched on the top of the first buoyancy flexible pipe, the external diameter of described first buoyancy flexible pipe is larger than the internal diameter of described first squeezing tube, the inner chamber of described first dropping funnel is stretched in the bottom of described first buoyancy flexible pipe, the described bottom of the first buoyancy flexible pipe and the inner space of the first ball float, , the frictional resistance that described first buoyancy flexible pipe top and described first squeezing tube bottom produce mutually is less than the combination gravity of described first buoyancy flexible pipe and the first ball float, make the first buoyancy flexible pipe before the use can be attached on the first squeezing tube inwall, described frictional resistance is larger than the combination gravity of described first buoyancy flexible pipe and the first ball float to the buoyancy sum of the first ball float with medicinal liquid.

Further, the lower part outlet of described first dropping funnel is connected with the top of the second infusion tube, the bottom of described second infusion tube is communicated with top first entrance of described second dropping funnel, the lower part outlet of described second dropping funnel is connected with the top of the 3rd infusion tube, the bottom of described 3rd infusion tube and transfusion device outlet;

Described transfusion device also comprises the 3rd bottle stopper puncture head be connected with the 3rd infusion bottle, described 3rd bottle stopper puncture head is connected with the top of the second squeezing tube, the lower end of described second squeezing tube is communicated with top second entrance of described second dropping funnel, the bottom of described second squeezing tube is stretched on the top of the second buoyancy flexible pipe, the external diameter of described second buoyancy flexible pipe is larger than the internal diameter of described second squeezing tube, the inner chamber of described second dropping funnel is stretched in the bottom of described second buoyancy flexible pipe, the described bottom of the second buoyancy flexible pipe and the inner space of the second ball float, the frictional resistance that described second buoyancy flexible pipe top and described second squeezing tube bottom produce mutually is less than the combination gravity of described second buoyancy flexible pipe and the second ball float, make the second buoyancy flexible pipe before the use can be attached on the second squeezing tube inwall, described frictional resistance is larger than the combination gravity of described second buoyancy flexible pipe and the second ball float to the buoyancy sum of the second ball float with medicinal liquid.

According to above-mentioned annexation, if increase by the 3rd dropping funnel, then can mate with the 4th infusion bottle and form next cascade structure, the like, multiple cascade structure form can be formed.

Further again, described first infusion tube installs the first flow regulator, described second infusion tube installs the second flow regulator.

Further, the first bottle stopper puncture head comprises the breather and the first fluid-through tube that are arranged side by side, and described first fluid-through tube is connected with the first upper end inputting flexible pipe; Described second bottle stopper puncture head comprises the breather and the second fluid-through tube that are arranged side by side, and described second fluid-through tube is connected with the second upper end inputting flexible pipe; Described breather is communicated with air.

Or: the first bottle stopper puncture head comprises the first fluid-through tube, and described first fluid-through tube is connected with the first upper end inputting flexible pipe, and the bottom of described first fluid-through tube is provided with passage; Described second bottle stopper puncture head comprises the second fluid-through tube, and described second fluid-through tube is connected with the second upper end inputting flexible pipe; The bottom of described second fluid-through tube is provided with passage, and described passage is communicated with air.

Between the bottom of described second infusion tube and top first entrance of described second dropping funnel, between the lower end of described second squeezing tube and top second entrance of described second dropping funnel, the lower part outlet of described second dropping funnel is detachable connection with between the top of the 3rd infusion tube.

Described first buoyancy flexible pipe, the second buoyancy flexible pipe are made as vacuum, described first buoyancy flexible pipe, the second buoyancy flexible pipe, and its diameter is set to R1; Described first squeezing tube, the second squeezing tube, its diameter is set to R2; Described first dropping funnel, its diameter is set to R3, wherein, R2<R1<R3.Control R2 and R1 difference enough little, make before the use flexible pipe can be attached to its connect infusion tube on and can not come off downwards.

Extruding gasbag is installed at the middle part of described first squeezing tube and the second squeezing tube.

The present embodiment is with the first infusion bottle A, and the second infusion bottle B and the 3rd infusion bottle C is that example is described, and whole multi-functional automatic decanting infusion apparatus device, comprises breather 1, the first bottle stopper puncture head 2, second bottle stopper puncture head the 3, three bottle stopper puncture head 4; First dropping funnel 5, second dropping funnel 6; First flow regulator 7, second flow rate regulation 8, first squeezing tube 9, second squeezing tube 10, first infusion tube 11, second infusion tube the 12, three infusion tube 13; First buoyancy flexible pipe 14 and the second buoyancy flexible pipe 15;

Described first bottle stopper puncture head 2, second bottle stopper puncture head 3, the 3rd bottle stopper puncture head 4, first dropping funnel 5, second dropping funnel 6, first infusion tube 11, second infusion tube 12, the 3rd infusion tube 13, the material of the first flow regulator 7, second flow rate regulation 8 is identical with the material of traditional infusion device.First squeezing tube 9, second squeezing tube 10, first buoyancy flexible pipe 14, second buoyancy flexible pipe 15 is identical with traditional infusion tube material.

Described first infusion tube 11, second infusion tube 12, its diameter is greater than traditional infusion flexible pipe, and the 3rd infusion tube 13 is identical with traditional infusion hose diameter.

Described first buoyancy flexible pipe 14, second buoyancy flexible pipe 15 is made as vacuum, is convenient to float on liquid level.

With reference to Fig. 2, the top of described dismountable dropping funnel (the second dropping funnel) is provided with two connectors a, b, and a interface has connecting device, and be conveniently connected with external hose and control, bottom has c to export, and medicinal liquid flows out through c.Fig. 2 (a) for dismountable dropping funnel overall structure figure, Fig. 2 (b) be detachable dropping funnel interface section enlarged drawing, dropping funnel is connected with infusion tube by interface.

With reference to Fig. 3, there is pressurizing unit in the middle part of squeezing tube, be similar to a small container, utilize external compression to produce pressure, buoyancy flexible pipe can be made to come off, thus make medicinal liquid flow out the first squeezing tube or the second squeezing tube.By the method, avoid when automatic decanting, buoyancy flexible pipe is automatic the produced hidden danger that do not come off downwards yet.

With reference to Fig. 4, time in (a) figure for starting most, the liquid level in dropping funnel constantly rises to desired height, now just connects other medicine bottles.Because the buoyancy of liquid level to buoyancy flexible pipe makes buoyancy flexible pipe to come off downwards, therefore, the medicinal liquid of other medicine bottles can not flow into dropping funnel.

When the medicinal liquid flowed into for one of them interface in Fig. 4 (b) is used up soon, buoyancy flexible pipe Automatic-falling.When the non-Automatic-falling of buoyancy flexible pipe, pressurizing unit extruding set on squeezing tube can be utilized, thus generation pressure makes buoyancy flexible pipe come off.

Be after buoyancy flexible pipe comes off completely in Fig. 4 (c), because buoyancy flexible pipe is very soft, cannot be upright when coming off completely, this just ensure that after medicinal liquid flows out, and can not block delivery outlet when the medicinal liquid height in dropping funnel increases.

With reference to Fig. 5, except the above-mentioned scheme that breather and bottle stopper puncture head are separated, that is to say that breather and bottle stopper puncture head do not belong to same pipeline, Fig. 5 provides another kind of combined method, and it will be reduced costs further by the combination of breather and bottle stopper puncture head.A () figure is Integral combined structure figure, (b) figure is the structure chart of passage, and outside air to be entered in infusion bottle by passage thus liquid is flowed out.

Further, the design of squeezing tube.There is pressurizing unit in the middle part of squeezing tube, be similar to a small container, utilize external compression to produce pressure, buoyancy flexible pipe can be made to come off, thus make medicinal liquid flow out the first squeezing tube or the second squeezing tube.By the method, avoid when automatic decanting, buoyancy flexible pipe is automatic the produced hidden danger that do not come off downwards yet.

Further again, the design of detachable dropping funnel.Shown in Fig. 2 (a), dropping funnel is connected by interface a, b, control entering of medicinal liquid, then connects next structure by an outlet c, carries out plus-minus infusion bottle by removable a interface and c interface.And multiple dismountable dropping funnel can be interconnected, as Fig. 2 (b), wherein a, c are connected with the external world by pore, and b connects squeezing tube, thus meet the sick Man's Demands of difference.

Further, the control action of buoyancy flexible pipe and dropping funnel.When starting most, the liquid level in dropping funnel constantly rises to desired height, now just connects other medicine bottles.Because the buoyancy of liquid level to buoyancy flexible pipe makes buoyancy flexible pipe to come off downwards, therefore, the medicinal liquid of other medicine bottles can not flow into dropping funnel.When the medicinal liquid that one of them interface of dropping funnel flows into is used up soon, buoyancy flexible pipe Automatic-falling.When the non-Automatic-falling of buoyancy flexible pipe, pressurizing unit extruding set on squeezing tube can be utilized, thus generation pressure makes buoyancy flexible pipe come off.After buoyancy flexible pipe comes off completely, because buoyancy flexible pipe is very soft, cannot be upright when coming off completely, this just ensure that after medicinal liquid flows out, and can not block delivery outlet when the medicinal liquid height in dropping funnel increases.

Further, the speed governing effect of flow regulator.Starting most to flow out for accelerating A bottle liquid medicine, the first flow regulator, the second flow regulator can be opened completely, make the first dropping funnel, the second dropping funnel liquid level reaches desired height, thus decrease the working time.And when being connected to B, after C two bottle liquid medicine, just scalable flow regulator is by medicinal liquid reduced velocity flow.

In the present embodiment, first infusion tube is connected with the first dropping funnel with the first bottle stopper puncture head, second infusion tube is connected with the second dropping funnel with the first dropping funnel, 3rd infusion tube is connected with the second dropping funnel, first squeezing tube is connected with the first dropping funnel with the second bottle stopper puncture head, second squeezing tube is connected with the second dropping funnel with the 3rd bottle stopper puncture head, first flow regulator and the second flow regulator are connected the first infusion tube and the second infusion tube respectively, and the first buoyancy flexible pipe, the second buoyancy flexible pipe are connected with the second dropping funnel with the first dropping funnel respectively.

First, medical personnel by 1 with the medicine bottle A for preparing, B, C are connected, 3,4 connect respectively 9,10, A medicine bottles connect again with 7 11, connect 5,12,8,6,13 successively by 11, when the liquid level in 5,6 reaches desired height, just connect B, C by 2,3.Wherein, 14,15 connect 9,10, medicinal liquid warp, and 13 export.

Wherein, first A herb liquid flows into the first infusion tube, the first dropping funnel, the second infusion tube, the second dropping funnel, the 3rd infusion tube, is flowing into human vein through traditional infusion link.Wherein, utilize the first infusion tube and the second infusion tube diameter greatly, the feature that flow is large, and open the first flow regulator, the second flow regulator completely, accelerate A herb liquid and make liquid level in the first dropping funnel, the second dropping funnel reach desired height.When the medicinal liquid in the first dropping funnel, the second dropping funnel reach a certain height, just the second bottle stopper puncture head and the 3rd bottle stopper puncture head are connected to infusion bottle B, infusion bottle C, now coutroi velocity actuator, the medicinal liquid speed flowed out is slowed down.

Described first buoyancy flexible pipe, the second buoyancy flexible pipe block the first squeezing tube and the second squeezing tube, therefore, are starting most, A bottle liquid medicine flow out, and B, C two bottle liquid medicine be plugged.

Because the medicinal liquid in the first dropping funnel is to the buoyancy of the first buoyancy flexible pipe, the first buoyancy flexible pipe is made to float on medicinal liquid face and can not come off downwards.And when A bottle liquid medicine runs low, the first buoyancy flexible pipe just comes off downwards automatically.If now the first buoyancy flexible pipe does not come off, can extrude the first squeezing tube downwards, the pressure utilizing water column to produce makes the first buoyancy flexible pipe come off, and B bottle liquid medicine just starts to flow out.

Wherein, because the buoyancy of the medicinal liquid in the second dropping funnel to the second buoyancy flexible pipe makes the second buoyancy flexible pipe block the outlet of the second infusion tube, but the first squeezing tube circulation, so B bottle liquid medicine flows out, C bottle liquid medicine is still plugged.

In like manner, when B bottle liquid medicine runs low, the second buoyancy flexible pipe comes off, and utilizes automatic or manual method to make C bottle liquid medicine start to flow out.

Described first buoyancy flexible pipe, the second buoyancy flexible pipe just cannot be upright after coming off, so after follow-up medicinal liquid instills the first dropping funnel, rise can not block outlet due to medicinal liquid face.

When A bottle liquid medicine runs low, the first buoyancy flexible pipe comes off, and B bottle liquid medicine just starts to flow out.

For meeting needed for patient, make full use of dismountable dropping funnel, namely the second dropping funnel can have multiple, also can deduct, and can be connected to each other between dropping funnel, can meet the different demands of patient.

Medicinal liquid finally all through the 3rd infusion tube, then will flow through traditional infusion link, as flow regulator, liquid medicine filter, intravenous needle, finally enter human vein, thus realize the treatment to patient.

Claims (8)

1. a multi-functional automatic decanting infusion apparatus device, comprise the first bottle stopper puncture head be connected with the first infusion bottle, described first bottle stopper puncture head is communicated with the first infusion tube, described first infusion tube is communicated with top first entrance of the first dropping funnel, it is characterized in that: described transfusion device device also comprises the second bottle stopper puncture head be connected with the second infusion bottle, described second bottle stopper puncture head is connected with the top of the first squeezing tube, the lower end of described first squeezing tube is communicated with top second entrance of described first dropping funnel, the bottom of described first squeezing tube is stretched on the top of the first buoyancy flexible pipe, the external diameter of described first buoyancy flexible pipe is larger than the internal diameter of described first squeezing tube, the inner chamber of described first dropping funnel is stretched in the bottom of described first buoyancy flexible pipe, the described bottom of the first buoyancy flexible pipe and the inner space of the first ball float, the frictional resistance that described first buoyancy flexible pipe top and described first squeezing tube bottom produce mutually is less than the combination gravity of described first buoyancy flexible pipe and the first ball float, described frictional resistance is larger than the combination gravity of described first buoyancy flexible pipe and the first ball float to the buoyancy sum of the first ball float with medicinal liquid.

2. multi-functional automatic decanting infusion apparatus device as claimed in claim 1, it is characterized in that: the lower part outlet of described first dropping funnel is connected with the top of the second infusion tube, the bottom of described second infusion tube is communicated with top first entrance of described second dropping funnel, the lower part outlet of described second dropping funnel is connected with the top of the 3rd infusion tube, the bottom of described 3rd infusion tube and transfusion device outlet;

Described transfusion device device also comprises the 3rd bottle stopper puncture head be connected with the 3rd infusion bottle, described 3rd bottle stopper puncture head is connected with the top of the second squeezing tube, the lower end of described second squeezing tube is communicated with top second entrance of described second dropping funnel, the bottom of described second squeezing tube is stretched on the top of the second buoyancy flexible pipe, the external diameter of described second buoyancy flexible pipe is larger than the internal diameter of described second squeezing tube, the inner chamber of described second dropping funnel is stretched in the bottom of described second buoyancy flexible pipe, the described bottom of the second buoyancy flexible pipe and the inner space of the second ball float, the frictional resistance that described second buoyancy flexible pipe top and described second squeezing tube bottom produce mutually is less than the combination gravity of described second buoyancy flexible pipe and the second ball float, described frictional resistance is larger than the combination gravity of described second buoyancy flexible pipe and the second ball float to the buoyancy sum of the second ball float with medicinal liquid.

3. multi-functional automatic decanting infusion apparatus device as claimed in claim 2, is characterized in that: described first infusion tube installs the first flow regulator, described second infusion tube installs the second flow regulator.

4. multi-functional automatic decanting infusion apparatus device as claimed in claim 2 or claim 3, is characterized in that: the first bottle stopper puncture head comprises the breather and the first fluid-through tube that are arranged side by side, and described first fluid-through tube is connected with the first upper end inputting flexible pipe; Described second bottle stopper puncture head comprises the breather and the second fluid-through tube that are arranged side by side, and described second fluid-through tube is connected with the second upper end inputting flexible pipe; Described breather is communicated with air.

5. multi-functional automatic decanting infusion apparatus device as claimed in claim 2 or claim 3, it is characterized in that: the first bottle stopper puncture head comprises the first fluid-through tube, described first fluid-through tube is connected with the first upper end inputting flexible pipe, and the bottom of described first fluid-through tube is provided with passage; Described second bottle stopper puncture head comprises the second fluid-through tube, and described second fluid-through tube is connected with the second upper end inputting flexible pipe; Described breather is communicated with air, and the bottom of described second fluid-through tube is provided with passage.

6. multi-functional automatic decanting infusion apparatus device as claimed in claim 2 or claim 3, it is characterized in that: between the bottom of described second infusion tube and top first entrance of described second dropping funnel, between the lower end of described second squeezing tube and top second entrance of described second dropping funnel, the lower part outlet of described second dropping funnel is detachable connection with between the top of the 3rd infusion tube.

7. multi-functional automatic decanting infusion apparatus device as claimed in claim 2 or claim 3, is characterized in that: described first buoyancy flexible pipe, the second buoyancy flexible pipe are made as vacuum, described first buoyancy flexible pipe, the second buoyancy flexible pipe, and its diameter is set to R1; Described first squeezing tube, the second squeezing tube, its diameter is set to R2; Described first dropping funnel, its diameter is set to R3, wherein, R2<R1<R3.

8. multi-functional automatic decanting infusion apparatus device as claimed in claim 2 or claim 3, is characterized in that: extruding gasbag is installed at the middle part of described first squeezing tube and the second squeezing tube.