DE102009016788A1 - Two component multi-dripper for press fitted in e.g. glass bottle to dispense droplet of medicine, has outer part including sealing sleeve for press fitted in neck of bottle and stop collar attached to sealing sleeve - Google Patents

Abstract

The dripper has a separate inner part (1) including a thin wall drip tube (14) formed at a base disk (23), where the drip tube is provided with a drip channel (2). An air tube (4) is provided with an air channel (11), which projects into an inner space of a pharmaceutical bottle. The inner part is formed in an outer part (6), which has an edge angle larger than the inner part. An outer part is provided with a sealing sleeve (7) for press fitted in a neck of the bottle, and with a stop collar (8) attached to the sealing sleeve. The inner part consists of alkylbenzene sulfonate. An independent claim is also included for a method for producing multi-dripper.

Description

The The invention relates to a multigrade dropper for pressing in a pharmaceutical bottle made of glass or plastic for dispensing drops a medicine with a tightly tolerated drop size, which works independently of the level and with the liquids of as many as possible Recipes can be donated.

usual Droppers must always be on the concrete liquid Be adapted to medicine. That is, the manufacturers store 200 to 500 different drippers with very different dimensions the drip tube and the air duct in length, diameter and Capillarity.

Especially to complain are drippers, which is the beginning of the donation annoying delay or unexpected during simply do not drip at a certain level.

Also should the drop size regardless of the level be kept constant within standardized tolerance ranges.

So there was a try in the DE 29 49 262 To arrange in the region of the exit of the drip tube axial, capillary ribs. Also, anti-drip accelerators were molded into the area towards the interior.

A conical course of the air channel and the drip channel should after DE 33 17 373 Remedy.

All However, these attempts could not prevent some One hundred models needed, even close to be able to donate all liquid types. Nevertheless comes in practice to drip misfires, the clogging of capillaries Suspended particles or in other borderline case to swallow the dropper. The latter drips in part over the too large air tube instead of the drip.

The indicated problems are solved according to the explanations of the first claim and its subclaims.

Obviously the main problem of all previous solutions is that the surface tension, the wettability and thus the contact angles to water in polyethylene according to own measurements vary greatly between 74 and 86 °. There are even Areas on the plastic that have contact angles greater than 90 °. In such cases, one approaches a capillary Ascension, similar to a drop of mercury on one Glass pane, which is known to bead off. In such cases You can only with overpressure (as by hand heat at the pharmaceutical glass sometimes actually arises) or by vigorous pouring uncontrollably a drop deploy. This case becomes too common in practice observed. On the one hand, these are strong inhomogeneities of the PE and on the other hand by injection molding technology related Scatters of surface tension. One speaks generally in plastic from a sprayed skin, which during injection molding more or less pronounced arises. This problem a too low and a strongly scattering wettability and thus Capillarity of the dropper tube and the trachea does not appear to be soluble in this type of homogeneous dropper. A Antropfkapillare brings a very minimal benefit.

The Rising height h (in meters) of a liquid column is given by:

σ

= Oberflächenspannung der Flüssigkeit (J/m² oder N/m)

θ

= Randwinkel

ρ

= Dichte der Flüssigkeit (kg/m³)

g

= Fallbeschleunigung durch die Schwerkraft (m/s²)

r

= Radius der Röhre (m)

Where:

σ

= Surface tension of the liquid (J / m ² or N / m)

θ

= Contact angle

ρ

= Density of the liquid (kg / m ³ )

G

= Gravitational acceleration (m / s ² )

r

= Radius of the tube (m)

When Variable always come only the surface tension, the is determined by the recipe and the edge angle in question. The radius is determined by the manufacturer of the dropper and can because of the standardized drop size and a manageable Drip time can not be arbitrarily small.

The latter is in turn a function of the surface tension of the Plastic. There is hardly any other option as the plastic to make it more hydrophilic, what about PE and specifically is problematic in pharmaceutical packaging. Or you choose another plastic that has a higher surface tension having.

Young's equation describes the relationship between the surface tensions of the solid, that of the solid to the air, and that of the drop to the air. According to this, among other things, the contact angle is correspondingly smaller (and thus the wettability and capillarity are the better) the larger the surface tension of the solid is, according to the course of the cosine function:

Therefore, in this invention, the following Way proposed:
Solved the problems described by a separate inner part 1 with an axially continuous, thin-walled dropper 14 with a drip channel 2 and / or from an integrally formed, in the interior 3 a pharmaceutical bottle 9 into elongated, thin-walled trachea 4 with an air duct 11 is made of a first type of plastic, which has a contact angle R1 of less than 80 ° with respect to a drop 5 of distilled water and has a surface tension of more than 40 mN / m. In a second process step, the separate inner part 1 in an outdoor part 6 formed of a second type of plastic with a comparatively larger contact angle of a polyolefin, in particular of PE or PP.

The outer part has a known sealing sleeve 7 for pressing in the neck 9 a bottle 10 and a stop collar touching it. It is also envisaged that the inner part consists exclusively of the drip tube, as in the selbigem the biggest problems with insufficient capillarity are more serious.

proposed is, preferably the inner part in 2K injection molding to spray in the first step and the outer part in the second Step around. Also a variant is possible, first the To produce outside part by injection molding and To mold a component, for example, of PUR as an inner part.

The Water absorption of PE and thus a possible swelling are close to zero at PE.

The Wall thickness of the inner part should be as low as possible 0.25 to 0.4 mm, if possible, to avoid the effects of a swelling behavior, which is due to a real absorption of water to minimize. This Value is right due to the damp microclimate in the sealed glass easy to determine and to compensate for the dimensions.

a Polyamide has a significantly lower contact angle than PE it is about 65 to 68 °. The water intake is relatively low with polyamide 12 at 1.5%. Similarly good Values include PETP, PCTEF, ABS and PVC. However, the consistency is of PE and PP towards aromatic hydrocarbons and oxidizing compounds and other carbon compounds badly, some of these substances can also be absorbed by the dropper which is totally unacceptable. For this reason is suggested for certain drugs that the base is produced as a closed disc of a material with blocking effect, For example, made of biocompatible polyamide, made of, polyesters, of polynitrile, PCTFE or PVC. An inner part made therefrom with a base disk, her sealing ring pressed into the neck of the bottle, the trachea and the dropper seal the interior of the bottle to the softer outer part of PE completely off. Thereby can not take any substance from liquid medicine into the polyolefin penetrate the outer part. Except from the outside backward flowing, single drops, however are irrelevant to the contents of the bottle. The softer PE provides with its sealing rings and the elastic stop collar for a perfect seal of the screw cap.

It sometimes interferes with the last drops flowing out of a glass bottle when the liquid level is already below the air outlet of the trachea. This can lead to significant disturbances in the dripping behavior in this area, which would be inadmissible, for example, for heart drops. For such highly effective preparations, a compact dropper is proposed in which the drip channel and the air channel are directly superimposed. As a special feature, a wedge-shaped Antropfkapillare is proposed, which cleans itself again and again by inflowing liquid and the parts of a teardrop-shaped, tapering towards the interior cross-section. Further embodiments and examples of the present invention are the following 1 to 12 refer to.

there demonstrate:

1 to 4 - made a multi-section dripper with inner part and outer part according to the 2-K process,

5 to 8th - a multi-section dripper with inner part and outer part according to the 2-K process produced with a dense base plate with molded sealing ring,

9 to 12 - A multi-section dripper with inner part and outer part according to the 2-K process produced with dense base plate and superimposed air duct.

1 . 2 and 4 show a multizone dropper in different views.

In 3 is a longitudinal section through this multi-area dropper shown.

In a first step a 2K injection molding process became the inner part 1 made of a thin-walled, inner dropper 22 and from one to the interior 3 a bottle 10 protruding inner trachea 4 consists. Both tubes are over a base disc 23 connected with each other.

The inner trachea 4 is opposite the main axis 24 the bottle 10 outwardly so offset that it is in the annular groove 21 an outdoor part 6 empties.

The wall thickness W of the inner trachea 4 and the inner dropper tube 22 is 0.3 mm, as the material polyamide 12 was used with a contact angle of 68 ° to water. The outer part 6 consists of HDPE with a contact angle of about 88 °. It envelops the inner trachea 4 on the one hand with the outer trachea 4 ' and on the other hand, the inner dropper 22 with the outer dropper tube 22 ' , The latter is surrounded by a ring channel 22 , to the outside a sealing sleeve 7 with sealing rings 7 ' and with a stop collar 8th for pressing in the neck 9 a bottle 10 , The exit point of the inner dropper tube 22 points opposite the front side 25 of the outer dropper tube 22 ' a supernatant 17 of 0.3 mm. This will get the drop 5 Do not touch the poorly wetted face made of PE during draining. The chamfer 18 ensures a uniform tear of the drop at this point.

At the inner end of the inner trachea 4 there is a projection 19 over its front side 26 of 0.4 mm and a chamfer 20 to a defined detachment of each rising bubble from the output 11 '' of the air duct 11 in the interior 3 to secure. The constriction 27 of the drip channel 2 in the area of the entrance 2 '' is also designed with a wall thickness of 0.22 mm extremely thin-walled. The filling 28 stabilizes the thin-walled part of the entrance 2 ' , The complete outer part 6 is made in the second step of a 2K injection molding process, leaving the inner trachea 4 and the inner dropper tube 22 first on their forming pins.

The 5 to 8th show in principle the same vertical dropper, in which, however, the base 23 is produced as a closed disc of a biocompatible polyamide 12 with high barrier to aromatic hydrocarbons, oxidizing compounds, halogens and other ingredients in medicine. This material is also used for hip joint implants. Approval as a second material component for a dropper should be possible in principle. The base disk 23 , her the bottleneck 9 sealing gasket 33 and the outer contour 34 of the dropper tube 14 seal the interior 3 the bottle 10 to the outer part 6 completely out of PE. As a result, no substance from the liquid medicine in the polyolefin of the outer part 6 penetration. As another special feature compared to the execution 1 only a thin-walled trachea exists here 4 made of said polyamide 12. The wettability of PA 12 is, on average, 15 to 20 degrees better than that of PE seen from the edge angle R2. This shows over the entire level a sufficiently high capillarity in the air duct 11 and especially in the high-capillary area of the constriction 27 of the drip channel 2 ,

In the 9 to 12 is a compact multi-section dropper with an inner part 1 and an outdoor part 6 produced by the 2-component process. It is with a medicine-dense base disk 23 with a sealing ring 33 made in which the drip channel 2 and the superimposed air duct 11 are formed. For highly effective preparations, in which the last drops must be precisely dosed, a compact dropper is here proposed, in which the drip channel 2 and the air duct 11 are superimposed directly. The inner part 1 is in turn injection molded in 2K process and in this case made of a polyester which, unlike PE, has excellent resistance to aromatic hydrocarbons and oxidizing compounds.

A special feature is a wedge-shaped Antropfkapillare 12 proposed, which always cleans itself and which is part of a teardrop-shaped, tapering towards the interior cross-section.

1

inner part

2

drip channel

2 '

entrance

2 ''

exit

3

inner space the bottle

4

Interior air tubes

4 '

outer air tubes

5

drops

6

outer part

7

sealing sleeve on the outer part

7 '

seal

8th

stop collar

9

neck the bottle

10

bottle

11

air duct

11 '

entry of the air duct

11 ''

output of the air duct

12

capillary in the drip channel

13

score in the drip channel

14

Interior dropper

14 '

outer dropper

15

score in the air duct

16

capillary in the air duct

17

Got over of the dropper tube

18

chamfer

19

Got over of the air duct

20

chamfer

21

ring groove

22

Rear opening

22 '

outer dropper

23

base disc

24

main axis

25

front of the dropper tube

26

front of the trachea

27

constriction

28

filling

29

inner cone

30

inner cone

31

recess

32

Front opening

33

seal at the base disk

34

outer contour of the dropper tube

35

outer contour of the trachea

R1

contact angle of the inner part

R2

contact angle of the outer part

W

wall thickness on the inner part

A

distance

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 2949262 [0005]
• - DE 3317373 [0006]

Claims (13)

2-component multigrade dropper for pressing into a pharmaceutical bottle made of glass or plastic for dispensing drops of medicine with a tightly tolerated droplet size, which works independently of the level and can be dispensed with the liquids of as many, different recipes, characterized in that • a separate inner part ( 1 ) with one on a base disk ( 23 ) molded, axially continuous, thin-walled dropper ( 14 ) with a drip channel ( 2 ) and one also on the base disk ( 23 ), parallel spaced from the drip channel ( 2 ) or directly selbigen superimposed trachea ( 4 ) with an air duct ( 11 ) in the interior ( 3 ) of a pharmaceutical bottle ( 9 ) is made of a first type of plastic having a contact angle (R1) of less than 80 ° with respect to a drop ( 5 ) of distilled water and has a surface tension of more than 40 mN / m, • that the separate inner part ( 1 ) in an outer part ( 6 ) of a second type of plastic with one compared to the inner part ( 1 ) larger contact angle (R2) of a polyolefin, in particular of PE or PP is formed, • wherein the outer part ( 6 ) with a sealing sleeve ( 7 ) for pressing in the neck ( 9 ) of a bottle ( 10 ) and with a stop collar ( 8th ) is provided. Multi-zone dropper according to claim 1, characterized in that the base ( 23 ) with its sealing ring ( 33 ) together with the outer contour ( 34 ) of the dropper tube ( 14 ) and the outer contour ( 35 ) of the trachea ( 4 ) the liquid in the interior ( 3 ) to the outer part ( 6 ) has sealed off. Multi-section dropper according to claim 1, characterized in that the wall thicknesses (W) of the trachea ( 4 ) and the dropper tube ( 14 ) on the inner part ( 1 ) is less than 0.4 mm. Multi-section dropper according to claim 1 and 2, characterized in that the inner part ( 1 ) consists of a polyamide. Multi-section dropper according to claim 1 and 2, characterized in that the inner part ( 1 ) consists of an ABS. Multi-section dropper according to claim 1 and 2, characterized in that the inner part ( 1 ) consists of another, pharmaceutically approved plastic with a contact angle (R1) of less than 70 °. Multi-section dropper according to claim 1 and 2, characterized in that the inner part ( 1 ) consists of a pharmaceutically approved plastic having a surface tension of more than 43 mN / m. Multi-section dropper according to claim 1 and 2, characterized in that the inner part ( 1 ) is made of a plastic having a surface tension of more than 43.5 mN / m, such as PS, PMMA, PET or PC. Multi-section dropper according to claim 1, characterized in that the axially continuous drip channel ( 2 ) and / or in the interior ( 3 ) of a pharmaceutical bottle ( 9 ) extended trachea ( 4 ) at least one axially continuous capillary ( 11 . 12 ) exhibit. Multi-section dropper according to claim 1, characterized in that the axially continuous drip channel ( 2 ) and / or in the interior ( 3 ) of a pharmaceutical bottle ( 9 ) extended trachea ( 4 ) at least one axially continuous capillaries ( 11 . 12 ) as notches ( 13 . 14 ) are formed at an acute angle (W3). Method for producing a multigrade dripper according to one of the preceding claims, characterized in that the inner part ( 1 ) is injection-molded in the first step of an injection molding from a harder, better wettable plastic and that the inner part ( 1 ) in the second method step from an outer part ( 6 ) molded from a softer plastic, in particular from a polyolefin or from a TPE form fit. Method for producing a multigrade dripper according to one of the preceding claims, characterized in that the outer part ( 6 ) is injection-molded in the first step of an injection molding process from a softer plastic, in particular from a polyolefin or from a TPE, and that in the second process step the inner part ( 1 ) from another, more wettable plastic in the outer part ( 6 ) is injected positively. Method of making a multigrade dropper according to one of the preceding claims, characterized that the injection molding process as a two-component injection molding be executed.