EP1790438A1 - Fuel canister for combustion setting tools and fuel canister accomodation of a setting tool - Google Patents

Abstract

Propellant container has locking means (25) which has a connecting element (24). A valve outlet (23) is provided for releasing propellant. The connecting element with the locking means is arranged on an end area (29) turned away to the valve outlet. A control element (26) is provided for the locking means. An independent claim is also included for the propellant container retainer.

Description

The present invention relates to a combustion-powered setting tool referred to in the preamble of claim 1. Art and a propellant container referred to in the preamble of the independent claim Art. Such setting devices can be operated by liquid or gaseous fuels.

From the US Pat. No. 6,523,860 B1 a setting tool is known which has a arranged in a housing of the setting device metering valve for a fuel and a receiving space for a propellant container containing the fuel. On the valve head of the propellant container acting as a connector adapter can be plugged, which cooperates with a arranged on the receiving space closure to releasably fix the propellant container in the receiving space and to keep in a fuel connection with the metering valve.

The disadvantage here is that a removal of the fuel tank from the receiving space with only one hand is not possible.

The object of the present invention is therefore to develop a propellant container and a propellant container receptacle of a setting device of the aforementioned type, which avoid the disadvantages mentioned and are user-friendly.

This object is achieved according to the invention by the measures mentioned in the characterizing part of claims 1 and 7.

Accordingly, the connecting element is arranged with the latching means at an end region of the propellant container facing away from the valve outlet, so that the user Propellant container with one hand can easily take out of a propellant container receptacle, since the locking means is located at the end of the propellant container, where this can be removed from the propellant container receptacle. A conversion of the operating hand after releasing the locking means is no longer necessary. Furthermore, the propellant container is supported by this measure now at both ends or end portions when it is inserted into the propellant container receptacle and is above the valve outlet in fluid or propellant connection with a connection element of the propellant container receptacle. At one end it is held at least in the radial direction via the valve outlet on the connection element while it is fixed at its other end via the latching means. There is then a secure fluid connection between the setting device and the propellant container. The connecting element with the locking means is for example no longer releasably fixed to the propellant container, for. B. via an adhesive bond or by direct injection of a plastic connecting element to the propellant container. But it can also be in the manner of an adapter plugged onto the end of the propellant container.

It is also advantageous if an operating element is provided for the locking means, so that the locking connection via the operating element is easily solvable without the user would have to attack directly on the possibly not easily accessible locking means. By the arrangement of the control element in the end region of the propellant container which faces away from the valve outlet, the easy operability remains with one hand, d. H. the introduction and removal of the propellant container with one hand without embracing the same obtained.

In a structurally favorable solution, the locking means is designed as a spring tab, which is connected via a web to the connecting element and which forms a latching hook at its end remote from the web. The operating element is arranged between the web and the latching hook on the spring clip.

It may also be advantageous if at least a first means for rotationally fixed definition of the propellant container in a propellant container receptacle is arranged on the connecting element, which prevents the propellant container in the propellant container receptacle can be rotated and thus radial shear forces can be exerted on the latching means, this could destroy, for. B. if the propellant container would be rotated during removal from the propellant container receptacle.

In a structurally favorable solution, the means for non-rotatably fixing the propellant container forms at least one groove-shaped recess, which is arranged running in the direction of a longitudinal axis of the propellant container to the connecting element.

Furthermore, it is advantageous if the connecting element as a closure means, such. B. as a closure body or housing cover, for closing a propellant container receptacle of a setting device is formed. An additional housing cover or an additional cover of the opening of the propellant container receptacle of the setting device is therefore no longer necessary.

At a subsequent to the opening end portion of the propellant container receptacle is advantageously arranged a counter-locking means for the locking means of the propellant container, the ease of use with one hand, d. H. the introduction and removal of the propellant container with one hand without encompassing the same, is ensured and a secure latchability is made possible at the end.

Advantageously, the counter-locking means forms a first counter-latching element for releasably securing the propellant container in a first detent position. In this first detent position, the propellant container receptacle is closed at the opening via the connecting element, without a propellant connection between the setting device and the propellant container being established.

It is also advantageous if the counter-locking means forms a second counter-locking element for releasably securing the propellant container in a second detent position. In this second detent position, the valve outlet of the propellant container is connected to the connection element and a propellant compound established, while the propellant container receptacle is still closed at the opening via the connecting element.

It is advantageous if at the Treibmittelbehälteraufnahme at least a second means for rotationally fixed attachment of the propellant container in the propellant container receptacle is formed, which prevents the propellant container in the propellant container receptacle can be rotated and thus radial shear forces can be exerted on the locking means that could destroy it. This second means preferably cooperates with the first means arranged on the propellant container receptacle and thus supports its advantageous effect.

Advantageously, the second means for rotationally fixed fixing of the propellant container thereby comprises at least one rib-shaped projection extending in the direction of a longitudinal axis he Treibmittelbehälteraufnahme and which is inserted into the at least one groove-shaped recess on the connecting element of the propellant container and its outer contour corresponds to the inner contour of the groove-shaped recess.

Further advantages and measures of the invention will become apparent from the dependent claims, the following description and the drawings. In the drawings, the invention is shown in one embodiment.

Fig. 1

ein handgeführtes Setzgerät in teilweiser Längsschnittansicht, mit einem in einer Treibmittelbehälteraufnahme befindlichen Treibmittelbehälter,

Fig. 2

die Treibmittelbehälteraufnahme des Setzgerätes in Schnittansicht, mit dem darin befindlichen Treibmittelbehälter in einer zweiten Raststellung,

Fig. 3

die Treibmittelbehälteraufnahme des Setzgerätes aus Fig. 2, mit dem darin befindlichen Treibmittelbehälter in einer ersten Raststellung,

Fig. 4

die Treibmittelbehälteraufnahme des Setzgerätes aus Fig. 2, mit einem ausserhalb dieser befindlichen Treibmittelbehälter,

Fig. 5

die Treibmittelbehälteraufnahme des Setzgerätes aus Fig. 2 in einer anderen Ansicht, mit einem darin befindlichen Treibmittelbehälter in der zweiten Raststellung.

Show it:

Fig. 1

a hand-held setting tool in a partial longitudinal section view, with a propellant container located in a propellant container receptacle,

Fig. 2

the propellant container receptacle of the setting device in sectional view, with the propellant container located therein in a second detent position,

Fig. 3

2, with the propellant container located therein in a first detent position, the propellant container receptacle of the setting device of FIG.

Fig. 4

the propellant container receptacle of the setting device from FIG. 2, with a propellant container located outside it,

Fig. 5

the propellant container receptacle of the setting device of FIG. 2 in another view, with a propellant container located therein in the second detent position.

FIGS. 1 to 5 show a setting device 10 according to the invention which can be operated with a liquid or gaseous fuel as the blowing agent and with a blowing agent container 20 according to the invention. The setting tool 10 has a housing 11 with a handle 16 formed thereon, on which a trigger switch 17 is located, by means of which a setting process can be triggered. The setting tool 10 further includes a setting network, which includes a combustion chamber 38 for combustion of an air-blowing agent mixture. In an inventive propellant container receptacle 16 of the setting device 10 of the propellant container 20 is interchangeably arranged in the present Embodiment is designed as a gas can. The propellant container 20 can be inserted into the propellant container receptacle 16 via an opening 19 and has at one end a valve outlet 23 of a valve 22, via which propellant can be dispensed from the propellant container 20. In the propellant container receptacle 16 is a connection element 14 such. B. a connecting piece, which is connected to the valve outlet 23 when the propellant container 20 is completely inserted into the propellant container receptacle 16, as shown in Figures 1 and 2 can be seen. Provided sealant, such as. As seals, etc., can ensure the tightness of the connector. The connecting element 14 is connected via a propellant conduit 15 with a metering device 13, the z. B. includes a valve means. About the propellant conduit 15, the metering device 13 is then further connected to the combustion chamber 12, so that can be introduced from the propellant container 20 via the propellant conduit 15 and the metering device 13, propellant or fuel in the combustion chamber 12 of the setting tool 10.

For detachable fixing of the propellant container 20 in the propellant container receptacle 16, a connecting element 24, which has a latching means 25, is arranged on an end or end region 29 of the propellant container 20 opposite the valve outlet 23. The connecting element 24 is designed as a closure means or closure body for the opening 19 of the propellant container receptacle 16. The locking means 25 is formed as a spring tab which is fixed at one end via a web 27 on the connecting element 24 and which has a latching hook 28 at its other end. On the latching means 25, a control element 26 is further arranged, which is manually operable by a user to pivot the latching hook 28 on the spring tab in the direction of the connecting element 24 out. The connecting element 24 with the latching means 25 and the operating element 26 is preferably formed integrally as a plastic injection molded part.

For cooperation with the latching means 25 of the propellant container 20, a counter-latching means 35, which has a first counter-latching element 36 and a second counter-latching element 37, which are each designed as latching openings, is arranged on the end region 39 of the propellant container receptacle 16 facing the opening. In these latching openings of the latching hook 28 engage to fix the propellant container 20 in two different locking positions in the propellant container receptacle 16.

In Figures 1 and 2, the propellant container 20 is held in a second detent position in the propellant container receptacle 16, in which the valve outlet 23 with the Connection element 14 is connected or plugged into this. The latching hook 28 of the latching element 25 is engaged with the second counter-latching element 37. In this second latching position, as already described above, propellant can be supplied via the propellant conduit 15 and the metering device 13 to the combustion chamber 12. The opening 19 of the propellant container receptacle 16 is closed by the connecting element 24 designed as a closure means or as a closure body, so that no dirt can get into the propellant container receptacle 16.

If the setting device 10 is no longer needed for a longer period of time, then it makes sense to decouple the propellant container 20 from the metering device 13. The propellant container 20 no longer has to be completely removed from the propellant container receptacle 16, but can by actuating the operating element 26 and releasing the latching hook 28 from the second detent opening (or from the second counter-detent element 37) and by a partial extraction of the propellant container 20 from the propellant container receptacle 16 out until the latching hook 28 engages the first detent opening or on the first counter-latching element 36, be transferred to a first detent position. In this first detent position, the valve outlet 23 is decoupled from the connection element 14 (see FIG. 3). The actuation of the operating element 26 of the first locking means 25 and the extraction of the propellant container 20 can be done with one hand. The valve outlet 23 is closed in this position via the valve means 22. Also in this first detent position, the opening 19 of the propellant container receptacle 16 is closed by the closure member designed as a connecting element 24, so that no dirt can get into the propellant container receptacle 16. The propellant container 20 can be stored in this first detent position in the setting device 10.

In Fig. 4, the propellant container 20 has been completely pulled out of the propellant container receptacle 16, after which the operating element 26 has been actuated again to release the latching hook 28 from the first counter-latching element or to lift it out of the first latching opening. It is now possible to introduce a new propellant container 20 into the propellant container receptacle 16.

As shown in FIG. 5, the propellant container 20 still has a first means for non-rotatably fixing the propellant container 20 in the propellant container receptacle 16, which is arranged in the illustrated example on the connecting element 24 and a first groove-shaped recess 41 and a second groove-shaped recess 42nd includes, each extending in the direction of a longitudinal axis L1 of the propellant container 20 and each differ in their width (perpendicular to their longitudinal extent). hereby an unintentional rotation of the propellant container 20 is prevented in the propellant container receptacle 16, the z. B. could occur in the removal of the propellant container 20. By forming differently wide groove-shaped recesses 41, 42 a kind of key profile is generated at the same time, which may be indicative of the nature or the composition of the propellant contained in the propellant container 20.

When inserting the propellant container 20 into the propellant container receptacle 16, a first rib-shaped projection 44 and a second rib-shaped projection 45 of a arranged on the propellant container receptacle 16 second means for rotationally fixed attachment of the propellant container 20 are moved into the groove-shaped recesses 41. These rib-shaped projections 44, 45 each extend in the direction of a longitudinal axis L2 of the propellant container receptacle 16. They correspond in their outer contours each with the inner contours of the groove-shaped recesses 41, 42 and form a corresponding lock profile. In addition to the rotationally fixed definition of the propellant container 20, it can be additionally defined via the key and lock profile which propellant containers 20 can be used with the setting tool 10 in order to prevent the use of unauthorized propellants which would damage the setting tool or cause misalignments.

Due to the orientation of the groove-shaped recesses 41, 42 and the rib-shaped projections 44, 45 in the direction of the longitudinal axes L1 and L2, the propellant container 20 is also aligned when inserted into the propellant container receptacle 16 and thus avoid tilting in the propellant container receptacle 16.

Claims (11)

Propellant container for hand-held setting tools, with a connecting element (24) having a latching means (25) and with a valve outlet (23) for the release of propellant,
characterized,
in that the connecting element (24) is arranged with the latching means (25) on an end region (29) facing away from the valve outlet (23). Propellant container, according to claim 1, characterized in that an operating element (26) for the latching means (25) is provided. Propellant container, according to claim 1 or 2, characterized in that the latching means (25) is designed as a spring tab, which is connected via a web (27) with the connecting element (24) and at its, the web (27) facing away from a Locking hook (28) is formed, wherein the operating element (26) between the web (27) and the latching hook (28) is arranged on the spring tab. Propellant container, according to one of claims 1 to 3, characterized in that on the connecting element (24) at least a first means for rotationally fixed fixing of the propellant container (20) in a propellant container receptacle (16) is arranged. Propellant container, according to one of claims 1 to 4, characterized in that the means for rotationally fixed fixing of the propellant container (20) includes at least one groove-shaped recess (41, 42) extending in the direction of a longitudinal axis (L1) of the propellant container (20) the connecting element (24) is arranged. Propellant container, according to one of claims 1 to 5, characterized in that the connecting element (24) as a closure means for closing a propellant container receptacle (16) of a setting device (10) is formed. A propellant container receptacle of a propellant-driven hand-held setting device (10) for a propellant container according to one of claims 1 to 6, which has an opening (19) at one end,
the end opposite to one of the opening (19) has a connection element (14) for a valve outlet of the propellant container (20)
and having counter-locking means (35),
characterized,
in that the counter-latching means (35) is arranged on an end region (39) of the propellant container receptacle (16) adjoining the opening (19). Propellant container receptacle according to claim 7, characterized in that the counter-latching means (35) forms a first counter-latching element (36) for releasably securing the propellant container (20) in a first detent position. Propellant container receptacle according to claim 7 or 8, characterized in that the counter-latching means (35) forms a second counter-latching element (36) for releasably securing the propellant container (20) in a second detent position. Propellant container receptacle according to one of claims 7 to 9, characterized in that on the propellant container receptacle (16) at least a second means for rotationally fixed fixing of the propellant container (20) is formed. Propellant container receptacle according to one of claims 7 to 10, characterized in that the second means for rotationally fixed attachment of the propellant container (20) includes at least one rib-shaped projection (44, 45) which extends in the direction of a longitudinal axis (L2) of the propellant container receptacle (16).

Images