CN106620948A - Infusion needle silicification device and method - Google Patents

Abstract

The invention provides an infusion needle silicification device and method. The infusion needle silicification device includes a silicification agent pump, a rotating base, an arrangement plate positioning box, a second driving mechanism, a fixed base, an arrangement plate and a clamping mechanism. An infusion needle clamping hole and a silicification inserted hole are formed in the arrangement plate and interconnected with each other, and a silicification socket matched with the silicification inserted hole is formed in the arrangement plate positioning box, the arrangement plate is installed on the arrangement plate positioning box through the clamping mechanism, a rotating hinged structure is formed between the rotating base and the fixed base, the second driving mechanism drives the rotating base to rotate relative to the fixed base, and the silicification agent pump is communicated with the silicification socket through a pipeline. By the adoption of the infusion needle silicification device and method, manpower input can be saved, the labor intensity for silicification operation is reduced, the silicification operation efficiency and the silicification quality of an infusion needle are also improved, the infusion needle silicification device is convenient to use, and the silicification cost of the infusion needle can be effectively reduced.

Description

A kind of transfusion needle silication device and method

Technical field

The present invention relates to transfusion needle silicidation technique field, more particularly, to a kind of transfusion needle silication device and method.

Background technology

In the production process of some medicine equipments, need to be applied to transfusion needle, and, transfusion needle is had to through silication Just can come into operation after process.When silicidation is carried out to transfusion needle, it is desirable to which silication agent will as far as possible cover the use of transfusion needle Inner surface, meanwhile, after the completion of the silicidation of transfusion needle, can not there is the silication agent of a large amount of residuals in transfusion needle needle tubing.

In existing transfusion needle silicidation, handwork is depended on too much, not only high labor intensive, silication operation effect Rate is low, and easily produces the drawbacks such as transfusion needle silication is not complete, silication agent residual is excessive, it is impossible to ensure the silication matter of transfusion needle Amount；In addition, the silication agent after silicidation is unable to centralized recovery recycling, so as to cause the waste of silication agent resource, improve The silicidation cost of transfusion needle.

The content of the invention

The technical problem to be solved in the present invention is：For the problem that prior art is present, there is provided a kind of transfusion needle silication dress Put and method, improve the silication operating efficiency and silication quality of transfusion needle.

The technical problem to be solved in the present invention employs the following technical solutions to realize：A kind of transfusion needle silication device, including Silication agent pump, rotating base, arrangement plate positioning case, the second drive mechanism, fixed pedestal and arrangement plate and its clamping device, in row The transfusion needle card interface and silication socket being mutually communicated is set on fabric swatch, is formed and silication socket phase on arrangement plate positioning case The silication socket matched somebody with somebody；The arrangement plate is arranged on arrangement plate and positions on case by clamping device, the rotating base and fixed base Formed between seat and be movably hinged structure, and drive rotating base to rotate relative to fixed pedestal by the second drive mechanism, it is described Silication agent pump is communicated by pipeline with silication socket.

Preferably, also including air pump, the air pump is communicated by pipeline with silication socket.

Preferably, also including silication agent accumulator tank, the silication agent accumulator tank is fixedly mounted on fixed pedestal one end.

Preferably, also vessel are reclaimed including silication agent, diversion outlet is opened up on silication agent accumulator tank, the silication agent is returned Receive vessel and be located at diversion outlet lower section.

Preferably, described clamping device includes left jaw, right jaw, the first drive mechanism and Left-wing Federation's lever and right Lever, the first drive mechanism action output end is fixedly connected rotating disk, Left-wing Federation's lever two ends respectively with left jaw, rotation Disk shaped is into movable connection structure, and the right gangbar two ends form movable connection structure with right jaw, rotating disk respectively, described First drive mechanism drives rotating disk to rotate, and is made relative between left jaw and right jaw by Left-wing Federation's lever, right gangbar Open or draw close.

Preferably, connectivity slot and some transfusion needle card interfaces be set on the arrangement plate, the connectivity slot respectively with silication Socket, some transfusion needle card interfaces are mutually communicated.

A kind of transfusion needle silicification method, is carried out using transfusion needle silication device as above, is comprised the steps：

1st step, it would be desirable to which the transfusion needle of silication is plugged into the transfusion needle card interface on arrangement plate；

2nd step, is installed to arrangement plate arrangement plate and positions on case by clamping device；

3rd step, starts the second drive mechanism, makes rotating base turn to certain angle relative to fixed pedestal；

4th step, starts silication agent pump, makes silication agent that the transfusion for needing silication is pumped to along pipeline and by silication socket Pin, then discharged by transfusion needle needle tubing, complete transfusion needle needle tubing silication.

Preferably, after the completion of the 4th step, air pump is started, the silication agent to remaining in the transfusion needle needle tubing after silication Carry out Air blowing cleaning.

Preferably, in the 3rd step, start the second drive mechanism, rotating base is rotated relative to fixed pedestal, until Angle between rotating base and fixed pedestal is 90 °.

Compared with prior art, the invention has the beneficial effects as follows：By silication agent pump to be fixedly mounted on arrangement plate on The transfusion needle for treating silication pumps silication agent with certain pressure, after transfusion needle needle tubing is flowed out in silication agent, that is, completes the pin of transfusion needle Pipe silication operation, not only saves human input, reduces silication operation labor intensity, and improves the silication of transfusion needle and makees Industry efficiency, because silication agent is to flow out transfusion needle needle tubing with certain pressure, speed, therefore, the silication agent in transfusion needle needle tubing Residual quantity is fewer, and needle tubing silication is than more uniform, easy to use such that it is able to improve the silication quality of transfusion needle, reduces Silication agent is wasted, and reduces the silication cost of transfusion needle.

Description of the drawings

Fig. 1 is a kind of organigram (silication readiness) of transfusion needle silication device of the invention.

Fig. 2 is a kind of organigram (transfusion needle is installed in place state) of transfusion needle silication device of the invention.

Fig. 3 is a kind of organigram (silication job state) of transfusion needle silication device of the invention.

Fig. 4 is the cooperation schematic diagram between arrangement plate and transfusion needle in Fig. 2 or Fig. 3.

Mark in figure：1- silication agent pumps, 2- rotating bases, the left jaws of 3-, 4- silication sockets, the right jaws of 5-, 6- first drives Motivation structure, 7- Left-wing Federations lever, the right gangbar of 8-, 9- rotating disks, 10- conduits, 11- arrangement plate positioning casees, 12- rotating shafts, 13- silication Agent accumulator tank, 14- silication agent recovery vessel, 15- air pumps, the drive mechanisms of 16- second, 17- fixed pedestals, 18- transfusion needles, 19- arrangement plates, 20- connectivity slots, 21- silication sockets.

Specific embodiment

In order that the objects, technical solutions and advantages of the present invention become more apparent, below in conjunction with the accompanying drawings and it is embodied as The present invention is described in detail for example.It should be appreciated that specific embodiment described herein is only to explain the present invention, not For limiting the present invention.

Transfusion needle silication device as shown in Figure 1, Figure 2, Figure 3 shows, specifically includes silication agent pump 1, rotating base 2, arrangement plate Positioning case 11, silication agent accumulator tank 13, silication agent reclaim vessel 14, air pump 15, the second drive mechanism 16, the and of fixed pedestal 17 Moveable hinge binding is formed by rotating shaft 12 between arrangement plate 19 and its clamping device, described rotating base 2 and fixed pedestal 17 Structure, drives rotating base 2 12 to rotate around the shaft relative to fixed pedestal 17 by the second drive mechanism 16.Described clamping machine Structure is arranged on arrangement plate positioning case 11, specifically includes left jaw 3, right jaw 5, the first drive mechanism 6 and the and of Left-wing Federation's lever 7 Right gangbar 8, the action output end of first drive mechanism 6 is fixedly connected rotating disk 9, the two ends of Left-wing Federation's lever 7 respectively with Left jaw 3, rotating disk 9 form movable connection structure, and the two ends of right gangbar 8 form with right jaw 5, rotating disk 9 live respectively Dynamic attachment structure, is preferably coaxial flexible connection between Left-wing Federation's lever 7 therein, same one end of right gangbar 8 and rotating disk 9, And form eccentric structure and the rotary shaft of rotating disk 9 between.Therefore, when the first drive mechanism 6 drives rotating disk 9 to rotate, lead to Cross Left-wing Federation's lever 7, right gangbar 8 just can make it is relative between left jaw 3 and right jaw 5 open or draw close so that arrangement Plate 19 can be positioned on case 11 by clamping device installed in arrangement plate, or the convenient plate 19 that will arrange is from arrangement plate positioning case 11 On take off.

The transfusion needle card interface and silication socket 21 being mutually communicated is set on described arrangement plate 19, in arrangement plate positioning case Form the silication socket 4 matched with silication socket 21 on 11, described silication agent pump 1, air pump 15 by conduit 10 with Silication socket 4 is communicated, and described conduit 10 preferably adopts flexible pipe.Described silication agent accumulator tank 13 is fixedly mounted on fixed pedestal 17 one end, further, in the bottom of silication agent accumulator tank 13 diversion outlet are offered, and are put below the diversion outlet It is equipped with silication agent and reclaims vessel 14.

When carrying out the silication operation of transfusion needle using above-mentioned transfusion needle silication device, its concrete grammar can include as follows Step：

First, as shown in Figure 4, it would be desirable to which the transfusion needle 18 of silication is plugged into the transfusion needle card interface on arrangement plate 19.

Then, start the first drive mechanism 6, make it is relative between left jaw 3 and right jaw 5 open, as shown in Figure 1；Again will The arrangement plate 19 for being provided with transfusion needle 18 is placed between left jaw 3 and right jaw 5, and makes silication socket 4 and silication socket 21 It is mutually inserted in place, it is now, not locked between silication socket 4 and silication socket 21, it is loose fit.It is again started up the first driving machine Structure 6, make it is relative between left jaw 3 and right jaw 5 draw close, until left jaw 3, right jaw 5 clamp arrangement plate 19, now, silication Tight fit is formed between socket 4 and silication socket 21, while also transfusion needle 18 is carried out to position and locked, so that arrangement plate 19th, transfusion needle 18 is positioned on case 11, as shown in Figure 2 by clamping device location and installation in arrangement plate.In order to ensure left jaw 3, Right jaw 5 clamps arrangement plate 19, described left jaw 3, the jaw of the preferred U-shaped structure of right jaw 5, the preferred square of the arrangement plate 19 Shape plate.

Next, starting the second drive mechanism 16, rotating base 2 is set to turn to certain angle relative to fixed pedestal 17, Generally, it is to make rotating base 2 centered on rotating shaft 12 by the second drive mechanism 16 and rotate 90 ° relative to fixed pedestal 17, Angle i.e. between rotating base 2 and fixed pedestal 17 is 90 °, as shown in Figure 3.

Finally, start silication agent pump 1, make silication agent with certain pressure, certain speed and flow through conduit 10, and inserted by silication Seat 4 is pumped in the needle tubing of the transfusion needle 18 for needing silication, then is discharged by the needle tubing of transfusion needle 18, you can complete transfusion needle 18 Needle tubing silication operation.

Because the angle between rotating base 2 and fixed pedestal 17 is 90 °, as shown in figure 3, therefore, from the pin of transfusion needle 18 The silication agent that pipe is discharged all can be dropped into successfully in silication agent accumulator tank 13, and by the bottom of silication agent accumulator tank 13 Diversion outlet enters into silication agent and reclaims in vessel 14, in order to the recycling of silication agent, has saved silication agent resource, together When avoid silication agent working environment polluted.

After the completion of the needle tubing silication operation of transfusion needle 18, air pump 15 can be started, the compression for pumping out air pump 15 Gas can successively flow through conduit 10, silication socket 4, the needle tubing of transfusion needle 18 with certain speed, finally discharge the pin of transfusion needle 18 Pipe, such that it is able to carry out Air blowing cleaning to the silication agent remained in the needle tubing of transfusion needle 18 after silication, with the silication for preventing from remaining Agent blocks the needle tubing of transfusion needle 18, it is ensured that the silication quality of transfusion needle 18.Rotating base 2 is answered by the second drive mechanism 16 Position, by the first drive mechanism 6 make it is relative again between left jaw 3 and right jaw 5 open, using Left-wing Federation's lever 7, right gangbar 8 can eject arrangement plate 19, after taking out arrangement plate 19 and the transfusion needle 18 after silication, you can reenter the silication of next round Operation.Wherein, the described preferred motor of the first drive mechanism 6, the described preferred electric cylinders of the second drive mechanism 16, to ensure Drive steadily, be conducive to improving the silication quality of transfusion needle 18.

In order to further improve transfusion needle silication operating efficiency, connectivity slot 20 and some can be set on arrangement plate 19 Transfusion needle card interface, described connectivity slot 20 is mutually communicated respectively with silication socket 21, some transfusion needle card interfaces, such as Fig. 4 institutes Show.Therefore, some transfusion needles 18 can be installed on same arrangement plate 19, then some clamping machines is installed on rotating base 2 Structure and arrangement plate positioning case 11, it is possible to realize the silicon of the more transfusion needles 18 of quantity performed in a batch of silication operation Change is processed, so as to drastically increase transfusion needle silication operating efficiency.Preferably, it is described arrangement plate 19 on silication socket 21 most Pyramidal structure socket is designed to well, and relatively small end therein is connected with connectivity slot 20, corresponding, the silicon Change socket 4 and be also designed to pyramidal structure, when tight fit is formed between silication socket 4 and silication socket 21, can preferably keep away Exempt from silication agent and outflow is leaked between silication socket 4 and silication socket 21, to save silication agent resource, advantageously reduce transfusion needle 18 silication cost.

The transfusion needle silication apparatus structure reliability of the present invention, simple to operate, easy to use, silication agent residual is few, therefore, it is defeated The silication operating efficiency of liquid pin is higher, and the silication quality of transfusion needle is also reliable, in can avoiding conventional silicidation operation The drawbacks of transfusion needle needle tubing silication is not complete, and the waste of silication agent is reduced, so that the silication cost of transfusion needle is effectively dropped It is low.

Presently preferred embodiments of the present invention is the foregoing is only, not to limit the present invention, it is noted that all Any modification, equivalent and improvement for being made within the spirit and principles in the present invention etc., should be included in the guarantor of the present invention Within the scope of shield.

Claims (9)

1. a kind of transfusion needle silication device, it is characterised in that：Including silication agent pump (1), rotating base (2), arrangement plate positioning case (11), the second drive mechanism (16), fixed pedestal (17) and arrangement plate (19) and its clamping device, are arranged in arrangement plate (19) The transfusion needle card interface being mutually communicated and silication socket (21), form and silication socket (21) phase in arrangement plate positioning case (11) The silication socket (4) of matching；Arrangement plate (19) is arranged on arrangement plate and positions on case (11) by clamping device, the rotation Formed between pedestal (2) and fixed pedestal (17) and be movably hinged structure, and rotating base is driven by the second drive mechanism (16) (2) rotate relative to fixed pedestal (17), the silication agent pump (1) is communicated by pipeline with silication socket (4).

2. a kind of transfusion needle silication device according to claim 1, it is characterised in that：Also include air pump (15), it is described Air pump (15) is communicated by pipeline with silication socket (4).

3. a kind of transfusion needle silication device according to claim 1, it is characterised in that：Also include silication agent accumulator tank (13), the silication agent accumulator tank (13) is fixedly mounted on fixed pedestal (17) one end.

4. a kind of transfusion needle silication device according to claim 3, it is characterised in that：Also include that vessel are reclaimed in silication agent (14) diversion outlet, is opened up in silication agent accumulator tank (13), the silication agent reclaims vessel (14) positioned at the diversion outlet Lower section.

5. a kind of transfusion needle silication device according to any one of claim 1-4, it is characterised in that：Described clamping device Including left jaw (3), right jaw (5), the first drive mechanism (6) and Left-wing Federation's lever (7) and right gangbar (8), described first Drive mechanism (6) action output end is fixedly connected rotating disk (9), Left-wing Federation's lever (7) two ends respectively with left jaw (3), rotation Rotating disk (9) formed movable connection structure, right gangbar (8) two ends respectively with right jaw (5), rotating disk (9) formation activity Attachment structure, first drive mechanism (6) drives rotating disk (9) to rotate, and is made by Left-wing Federation's lever (7), right gangbar (8) It is relative between left jaw (3) and right jaw (5) to open or draw close.

6. a kind of transfusion needle silication device according to claim 5, it is characterised in that：The company of setting on arrangement plate (19) Groove (20) and some transfusion needle card interfaces, the connectivity slot (20) respectively with silication socket (21), some transfusion needle card interfaces It is mutually communicated.

7. a kind of transfusion needle silicification method, it is characterised in that：Filled using the transfusion needle silication as described in any one of claim 1-6 Putting is carried out, and is comprised the steps：

1st step, it would be desirable to which the transfusion needle of silication is plugged into the transfusion needle card interface in arrangement plate (19)；

2nd step, is installed to arrangement plate (19) arrangement plate and positions on case (11) by clamping device；

3rd step, starts the second drive mechanism (16), makes rotating base (2) turn to certain angle relative to fixed pedestal (17)；

4th step, starts silication agent pump (1), makes silication agent along pipeline and be pumped to by silication socket (4) to need the defeated of silication Liquid pin, then discharged by transfusion needle needle tubing, complete transfusion needle needle tubing silication.

8. a kind of transfusion needle silicification method according to claim 7, it is characterised in that：After the completion of 4th step, start empty Air pump (15), the silication agent to remaining in the transfusion needle needle tubing after silication carries out Air blowing cleaning.

9. a kind of transfusion needle silicification method according to claim 7 or 8, it is characterised in that：In 3rd step, start Second drive mechanism (16), makes rotating base (2) rotate relative to fixed pedestal (17), until rotating base (2) and fixed base Angle between seat (17) is 90 °.