WO1998053789A1

WO1998053789A1 - Multichamber ampoule

Info

Publication number: WO1998053789A1
Application number: PCT/DE1998/001484
Authority: WO
Inventors: Alberto Sogaro
Original assignee: Dentaco Dentalindustrie Und -Marketing Gmbh
Priority date: 1997-06-01
Filing date: 1998-05-30
Publication date: 1998-12-03
Also published as: DE19880675D2; DE19722765A1; DE19880675B4

Abstract

Known multichamber ampoules are made of elastic material, and have a first and a second cylindrical case which fit into each other coaxially and are telescopic. The second case is sealed by a stopper. The invention proposes fitting external, auxiliary tools to the stopper.

Description

Multi-chamber ampoule

The invention relates to a multi-chamber ampoule made of elastic material, having a first cylindrical sleeve which forms a first chamber which extends along an axis x and which has an opening on the top side, a second cylindrical sleeve which forms a second chamber and which is coaxial adapted to the first sleeve, can be inserted from an upper locking position like a piston along the axis x into the opening of the first sleeve, a sealing lip which is spaced between the inner wall of the first sleeve and the outer wall of the second sleeve at a distance from the bottom of the first sleeve is formed, radial transverse bores, which are formed in the region of the bottom of the second sleeve above the sealing lip in the wall of the second sleeve, a head part which closes the opening on the cover side of the second sleeve, and an actuating element which is in the upper region on the second sleeve attacks to manually push the second sleeve into the first sleeve to effect.

Such a multi-chamber ampoule is known from DE 197 06 932 by the same applicant. This well-known multi-chamber ampoule has proven itself extremely well, but requires further application options to be expanded. A similar single-chamber syringe from US 4,391,590 with a cannula is also known.

It is therefore an object of the invention to provide a multi-chamber ampoule, the uses of which are further improved.

The object of the invention is solved by the features of claim 1.

According to the invention, the actuating element, which serves to press the second sleeve into the first sleeve of the multi-chamber ampoule, forms a stopper which has an additional tool which is arranged outside the second sleeve.

In a first embodiment, the stopper has a flat cover side. In a second embodiment, the stopper has lateral arms with grip parts, which are used to pull the second sleeve into the first sleeve. The second sleeve forms the piston-like stopper itself and the sleeve chamber that spans the second sleeve consists of a thin flow channel. In a third embodiment, the stopper has a cannula. According to a fourth embodiment, a rod-shaped handle can also be attached to the stopper.

In this way, there is the advantage that the miniaturized multi-chamber ampoule according to the invention can be supplied to a wide variety of applications simply by replacing the stopper-shaped closure part of the second sleeve. A kit can thus be formed in which the first and second sleeves are identical for all variants of multi-chamber ampoules according to the invention.

In the first embodiment, the flat top side of the plug forms the additional tool. With the first embodiment, the second sleeve can pass through simple finger pressure on the flat top side of the plug into the second sleeve.

The second embodiment has side arms with handle parts as an additional tool. The multi-chamber ampoule can thus advantageously be used as a miniature syringe.

In the third embodiment, the stopper has a cannula as an additional tool, so that the multi-chamber ampoule can be used as a miniature drip ampoule.

In the fourth embodiment, the rod-shaped handle forms an additional tool that can be plugged onto the multi-chamber ampoule. In this way, the multi-chamber ampoule can be held with the handle and the two sleeves pushed into one another with the thumb.

The invention is described in more detail below with reference to the drawing. Show it:

Figure 1 is a longitudinal section through an embodiment of a multi-chamber ampoule with a flat plug on the top.

2 shows a side view of a partial view of another embodiment of the multi-chamber ampoule with lateral arms;

3 shows a section through the ampoule in FIG. 2 along the section line AA;

4 shows a further embodiment of the multi-chamber ampoule with a cannula; 5 shows another embodiment of the multi-chamber ampoule with an attachable handle, and

6 shows another version of the handle with transverse slots.

1 shows a multi-chamber ampoule with a first cylindrical sleeve 1 and a second cylindrical sleeve 2 which can be plugged into one another coaxially along the axis x. The two sleeves 1, 2 have dimensions in the range of 30 mm in length and diameters of, for example, 3 and 5 mm. The sleeves 1, 2 thus form a miniaturized multi-chamber ampoule. The sleeves 1, 2 consist of an elastic plastic material. A foot 4 is provided on the underside of the first sleeve 1, for example.

The diameters of the two sleeves 1, 2 are selected so that the outer wall 18 of the second and inner sleeve 2 lies tightly against the inner wall 17 of the first and outer sleeve 1. The second sleeve 2 can be pressed into the first sleeve 1 like a piston along the axis x. Approximately halfway up the first sleeve 1 there is a sealing lip 3 which spans a first chamber 5.

The opening 7 of the first chamber 5 is closed by the bottom 9 of the second sleeve 2. The interior of the second sleeve 2 forms a second chamber 6. On the deck side, the opening 8 of the second sleeve 2 is closed by a stopper 10. The two chambers 5, 6 can each contain a liquid. According to FIG. 1, the edge 15 of the first sleeve 1 extends into the lower third of the second sleeve 2. The chamber 6 of the second sleeve 2 is larger in volume than the chamber 5 of the first sleeve 1. On the plug 10, in one Bore 13 a rod 12 can be formed with a brush 16. In the bottom area of the second sleeve 2, one or more radial transverse bores 14 are provided, which serve as overflow openings when the second sleeve 2 is pressed down along the axis x down to the bottom of the first sleeve 1. The transverse bore 14 can also be a slot, as shown in broken lines in FIG.

If both chambers 5, 6 are filled with liquids, the volume of the chamber 6 must be larger so that the liquid can be taken up from the first chamber 5.

The plug 10 is formed flat on the cover side 11 as a manual additional tool. E.g. If a ventilation hole is punched in the plug 10 beforehand, the second sleeve 2 can be lowered like a piston in the first sleeve 1. A simple finger press is all it takes to lower it. There are many applications for the use of a multi-chamber ampoule with a flat top side 11.

For example, the first chamber 5 can be completely filled up to the sealing lip 3, while the second chamber 6 is empty. In this case, the second sleeve 3 acts as a cover, which is additionally closed again with the plug 10. This double closure has the advantage that the liquid can be stored in the first chamber 5 in the absence of air. If the first chamber 5 were closed with a stopper, there would always be a risk that the liquid would spill when opened. Spilling is disadvantageous if skin contact with the liquid is to be avoided.

If the second chamber 6 remains empty or takes up a tool, the air seal of the first liquid in the first chamber 5 can be canceled by depressing it. Due to the larger volume and the greater height of the second chamber 6, the plug 10 can be safely removed without there is a risk of the liquid spilling out. Sloshing is thus avoided in the small portions that can be stored in the first chamber 5 for a long time in the absence of air.

If there are two liquids in the two chambers 5, 6, mixing can be reliably achieved by pressing down the second sleeve 6 even in small quantities. The ampoule can easily be gripped and shaken with two fingers on the bottom and the top side 11 to promote mixing. Consequently, the flat top side forms an essential functional part to promote the area of application of the multi-chamber ampoule.

2 shows a stopper 10 which has the dimensions of the second sleeve 2. In other words, it is essential that the second chamber 6 is reduced to a flow channel which extends from the transverse bore 14 to the cover side 11. On the cover side 11, the chamber 6 in the form of the flow channel can open into a channel 22 of a cannula 19 which has a rounded tip 20.

2, lateral arms 23, 24 are provided, which extend parallel to the axis x in the direction of the transverse bore 14. The arms 23, 24 have grip parts 25, 26 at the free ends. The distance between the arms 23, 24 is such that free spaces 27, 28 are formed, so that the arms 23, 24 can slide over the first sleeve 1 or have a distance from the wall of the first sleeve 1. Consequently, the multi-chamber ampoule can be used in this embodiment as a miniature piston syringe, in which the liquid can escape at the outlet opening 21 of the tip 20.

The dimensions of the first sleeve do not have to be changed for this application for the safe placement of the liquid, particularly in the dental field become. The application possibilities of the multi-chamber ampoule can thus be further increased simply by exchanging the individual kit parts.

All parts shown in Figure 2 can be injection molded in one piece from plastic. However, it is also possible to manufacture the arms 23, 24 separately as brackets with a support shoulder 30 which rests on the top side 11 of the stopper 10. The bracket with the arms 23, 24 is snapped on, for example, and has a bore 29 according to FIG. 2 so that the cannula 19 can be pushed through.

3 shows a section along the section line AA in FIG. 2 in order to clarify that the arms 23, 24 can have a rectangular cross section and are dimensioned smaller in width than the stopper 10 or the sleeve 2.

FIG. 4 shows a stopper 10 which has an outlet opening 31 which opens into the second chamber 6 of a sleeve 2 according to FIG. 1. The outlet opening 31 is closed by a thin membrane 32 which can be pierced with a needle. The outlet opening 31 can open into the cannula 19 with and without a membrane 32. With the same sleeves 1, 2, the plug 10 provides further uses for the multi-chamber ampoule. It is only necessary to use the respective plug 10, which can also have arms 23, 24.

The inclined plane 33 shown in FIG. 4 (shown in dashed lines) can serve as a contact surface for a handle 34, which is shown as a further additional tool in FIG. At the upper end 35 of the handle 34 bores 36, 37 are provided in the dimensions of the sleeve 2 and the cannula 19, into which the multi-chamber ampoule can be inserted and locked. 5, the cover side 11 is shown flat. The axis x of the multi-chamber ampoule is preferably at an angle of 60 ° to the axis y of the handle 34. In this way, the inserted ampoule are held in hand by means of the handle 34, while the sleeve 1 is pressed onto the sleeve 2 with the thumb.

The tip 20 of the cannula 19 can additionally be angled in the direction of the axis z in order to facilitate placement of the liquid. The upper end 35 and the handle 34 can be connected to one another via a joint 40 in order to achieve any angular positions between the axis x and the axis y.

6 shows a further embodiment of the upper end 35 of the handle 34, the axes x, y being perpendicular to one another. As a further variant, the bores 36, 37 have radial transverse slots 38, 39, so that the multi-chamber ampoule can be snapped into place laterally. The lateral snap-in is indicated when the tip 20 is angled as in FIG. 5 and should not be bent when it is inserted into the bore 37. So that the ampoule holds securely in the handle 34, the transverse slots 38, 39 are formed as undercuts with smaller dimensions than the bores 36, 37.

Reference list

01 = first sleeve

02 = second sleeve

03 = sealing lip

04 = feet

05 = first chamber

06 = second chamber

07 = opening

08 = opening

09 = floor

10 = plug

11 = cover side = Hole = cross hole = edge = brush = inner wall = outer wall = cannula = tip = outlet opening = channel = arm = arm = handle part = handle part = free space = free space = hole = support shoulder = outlet opening = membrane = inclined plane = handle = upper end = Hole = hole = transverse slot = transverse slot = joint

Claims

claims

01. multi-chamber ampoule made of elastic material, with a first cylindrical sleeve which forms a first chamber which extends along an axis x and which has an opening on the cover side, a second cylindrical sleeve which forms a second chamber and which is coaxial with the adapted first sleeve, a piston-like insertable from an upper locking position along the axis x in the opening of the first sleeve, a sealing lip which is formed between the inner wall of the first sleeve and the outer wall of the second sleeve at a distance from the bottom of the first sleeve radial cross bores which are formed in the region of the bottom of the second sleeve above the sealing lip in the wall of the second sleeve, a head part which closes the opening on the cover side of the second sleeve and an actuating element which engages the second sleeve in the upper region, to cause a manual pushing of the second sleeve into the first sleeve, thereby ge indicates that the actuating element is a stopper (10) which has an additional tool which is arranged outside the second sleeve (2).

CORRECTED SHEET (REGE 9t)

02. multi-chamber ampoule according to claim 01, characterized in that the stopper (10) has a flat cover side (11) as an additional tool.

03. multi-chamber ampoule according to claim 02, characterized in that the stopper (10) as an additional tool has a cannula (19) whose channel (22) extends into the second chamber (6) of the second sleeve (2).

04. multi-chamber ampoule according to claim 03, characterized in that the cannula (19) has a rounded tip (20).

05. multi-chamber ampoule according to claim 04, characterized in that a membrane (32) is formed in the channel (22) of the cannula (19).

06. multi-chamber ampoule according to claim 01 to 05, characterized in that the flat top side (11) is designed as an inclined plane (33) which is at an angle to the axis x, which forms the longitudinal axis.

07. multi-chamber ampoule according to claim 01 to 06, characterized in that two arms (23, 24) are formed on the stopper (10) as an additional tool, which extend parallel to the axis x to form free spaces (27, 28) , and which have handle parts (25, 26) at the free ends.

08. multi-chamber ampoule according to claim 08, characterized in that the arms (23, 24) can be snapped onto the stopper (10) as brackets.

09. multi-chamber ampoule according to claim 09, characterized in that the bracket has a bore (29) for receiving the cannula (19).

10. Multi-chamber ampoule according to claim 01 to 09, characterized in that the transverse bore (14) is formed in the plug (10), that the plug (10) has the length of the second sleeve (2), and that the second chamber (6) forms a flow channel which extends from the transverse bore (14) to the top side (11, 33) of the stopper (10).

11. Multi-chamber ampoule according to claim 01 to 10, characterized in that a rod-shaped handle (34) can be plugged onto the stopper (10) as an additional tool, the axis y of which is at an angle to the axis x of the ampoule.

12. Multi-chamber ampoule according to claim 11, characterized in that the handle (34) at the upper end (35) has bores (36, 37) which are adapted to the outer diameter of the stopper (10) and the cannula (19) .

13. Multi-chamber ampoule according to claim 12, characterized in that the bores (36, 37) have radial transverse slots (38, 39) which extend outwards along a common axis w and have a smaller diameter than the associated bores (36 , 37).

14. Multi-chamber ampoule according to claim 11 to 13, characterized in that the upper end (35) relative to the handle (34) can be bent.

15. Multi-chamber ampoule according to claim 11 and 14, characterized in that the angle between the axes x and y is preferably 60 °.

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