MOBILE COMPRESSED AIR TOOL UNIT

Abstract

The invention relates to a mobile compressed air tool unit (10) comprising a tool (11) operated with compressed air and a compressed air storage unit (12), which are connected to each other via a compressed air connection (13), wherein the compressed air connection (13) is realized as a support for the tubeless connection of the tool (11) and the compressed air storage unit (12) in a defined relative arrangement and for design of the compressed air tool unit (10) as a handling unit, and to a pressure reducing unit (30) for forming a compressed air connection (13) between a tool (11) operated with compressed air and a compressed air storage unit (12).

Claims

1. A mobile compressed air tool unit (10) comprising a tool (11) operated with compressed air and a compressed air storage unit (12), which are connected to each other via a compressed air connection (13), characterized in that the compressed air connection (13) is realized as a support for the tubeless connection of the tool (11) and the compressed air storage unit (12) in a defined relative arrangement and for design of the compressed air tool unit (10) as a handling unit.

2. The compressed air tool unit according to claim 1, characterized in that the compressed air connection is realized as a pressure reducing unit (30) having a compressed air storage port (17) and a compressed air tool port (16) which are arranged on a port side (15) of a housing (14) of the pressure reducing unit (30).

3. The compressed air tool unit according to claim 2, characterized in that the compressed air storage port (17) and the compressed air tool port (16) have parallel port axes (25, 28).

4. The compressed air tool unit according to claim 3, characterized in that the port axes (25, 28) are arranged perpendicular to the port side (15).

5. The compressed air tool unit according to claim 4, characterized in that the port axes (25, 28) have an axial distance a from each other which corresponds to the distance b between a longitudinal axis (29) of a handle part (20) of the connected tool (11), said handle part extending coaxially with the compressed air tool port (16), and a longitudinal axis (31) of a magazine (23) of the tool (11), said magazine extending substantially parallel to the handle part (20).

6. The compressed air tool unit according to claim 5, characterized in that the compressed air tool port (16) of the compressed air connection (13) is designed in such a manner that a relative rotation about the port axis (25) of the compressed air tool port (16) is possible between the tool (11) and the compressed air connection (13) connected to the tool (11) via the compressed air tool port (16).

7. A pressure reducing unit (30) for forming a compressed air connection (13) between a tool (11) operated with compressed air and a compressed air storage unit (12), characterized in that the pressure reducing unit (30) is realized as a connecting bracket for the mechanical connection of the tool (11) and the compressed air storage unit (12) and for the formation of a compressed air tool unit (10) according to claim 1, which comprises the tool (11) and the compressed air storage unit (12) and which forms a handling unit.

8. The pressure reducing unit according to claim 7, characterized by a housing (14) having two housing sections (34, 35) arranged offset from each other in a shared housing plane and connected to each other in a housing middle portion (33), each housing section (34, 35) comprising, at its free end on a port side (15) of the housing (14), a compressed air tool port (16) and a compressed air storage port (17) having parallel port axes (25, 28) in such a manner that the compressed air storage port (17) is arranged in one housing section (35) and the compressed air tool port (16) is arranged in the other housing section (34).

9. The pressure reducing unit according to claim 8, characterized in that a pressure reducer (32) and a safety valve (44) are arranged in the housing middle portion (33).

Description

BRIEF DESCRIPTION OF THE DRAWING FIGURES

[0020] Hereinafter, other embodiments of the invention will be explained in more detail with the aid of the drawing.

[0021] In the drawing:

[0022] FIG. 1: shows an isometric illustration of the mobile compressed air tool unit realized as a handling unit, a compressed air storage unit arranged to its right;

[0023] FIG. 2: shows the compressed air tool unit illustrated in FIG. 1, the compressed air storage unit illustrated in a transitional position;

[0024] FIG. 3: shows the compressed air tool unit illustrated in FIG. 1, the compressed air storage unit arranged to its left;

[0025] FIG. 4: shows the mobile compressed air tool unit in an exploded illustration;

[0026] FIG. 5: shows a front view of a compressed air connection, realized as a pressure reducing unit, of the compressed air tool unit illustrated in FIG. 1;

[0027] FIG. 6: shows a sectional view of the pressure reducing unit illustrated in FIG. 5 according to section line VI-VI;

[0028] FIG. 7: shows a sectional view of the pressure reducing unit illustrated in FIG. 5 according to section line VII-VII.

DETAILED DESCRIPTION

[0029] In FIGS. 1 to 3, a mobile compressed air tool unit 10 comprising a tool 11 operated with compressed air, a compressed air storage unit 12, and a compressed air connection 13 realized as a pressure reducing unit 30 is illustrated in different configurations.

[0030] As shown in particular in FIG. 4, the compressed air connection 13 has a compressed air housing 14, which on a port side 15 is provided with a compressed air tool port 16, which is realized as a quick coupling in the case at hand, and with a compressed air storage port 17 for connecting a compressed air storage unit 12, which is realized as a cartridge in the case at hand. The tool 11 and the compressed air storage unit 12 are provided with suitable connectors 18 and 19, respectively, which, in the case of connector 18, can be plugged into the compressed air tool port 16 and, in the case of connector 19, can be screwed into the compressed air storage port 17.

[0031] As can best be seen in FIG. 2, the tool 11 is realized, by way of example, as a compressed air nail gun in the case at hand, which has, at an axial end of a handle part 20, a drive piston unit 21 having a attachment tip 22 which serves to discharge fastening means, such as nails, stored in a magazine 23, which extends parallel to the handle part 20, the fastening means being driven out of a discharge channel of the attachment tip 22 when a trigger 24 arranged at the handle part 20 is actuated and being driven into a surface that is in contact with the attachment tip 22.

[0032] Generally, however, the flexibility of the compressed air tool unit is to be stressed, which means that it is also possible for the compressed air storage unit to be combined with a tool in the form of a compressed air grinder or a compressed air drill, for example, in order to form the compressed air tool unit defined by claim 1 and illustrated here merely in an embodiment example.

[0033] As becomes clear from the sequence of FIGS. 1 to 3, the arrangement of the compressed air storage unit 12 relative to the tool 11 can also be changed by pivoting the compressed air connection 13 together with the connected compressed air storage unit 12 about a port axis 25 of the compressed air tool port 16, thus pivoting it, for example, from the right-hand side position illustrated in FIG. 1, in which the compressed air storage unit 12 is located substantially parallel to a right longitudinal side 26 of the magazine 23, into a left-hand position, in which the compressed air storage unit 12 is located substantially parallel to a left longitudinal side 27 of the magazine 23.

[0034] As becomes clear from FIGS. 1 to 4, the port axis 25 of the compressed air tool port 16 and a port axis 28 of the compressed air storage port 17 are located parallel to each other and have an axial distance a that substantially corresponds to the axial distance b between a longitudinal axis 19 of the handle part 20 and a longitudinal axis 29 of the magazine 23 in such a manner that in the right-hand position of the compressed air storage unit 12, illustrated in FIG. 1, and in he left-hand position of the compressed air storage unit 12, illustrated in FIG. 3, the compressed air storage unit 12 is located not only in an arrangement parallel to the magazine 23 but also in an arrangement overlapping the magazine 23, which means that the tool 11 neither protrudes beyond the magazine 23 in the downward direction, nor does it hinder access of an operator's hand gripping the handle part 20 to a finger space D formed between the handle part 20 and the magazine 23.

[0035] As can be seen in particular from a combination of FIGS. 1 and 4, the compressed air connection 13 forms a removable mechanical connecting bracket between the tool 11 and the compressed air storage unit 12, the connecting bracket allowing the formation of a handling unit comprising the tool 11 and the compressed air storage unit 12, which, in particular when the compressed air tool unit 10 formed as a handling unit is passed from one operator to another operator, enables the other operator to take over the compressed air tool unit by taking hold of the connecting bracket 36.

[0036] As will be explained in more detail hereinafter by reference to FIGS. 5 to 8, in the case at hand, the compressed air connection 13 is not only realized as a connecting bracket 36, but also simultaneously forms a pressure reducing unit 30 in the compressed air housing 14, which comprises a pressure reducer 32 in addition to the compressed air tool port 16 and the compressed air storage port 17.

[0037] As FIG. 7 shows, the pressure reducer 32 is located in a housing middle portion 33, whereas the compressed air tool port 16 and the compressed air storage port 17 are each arranged on a free end of a housing section 34 and of a housing section 35, respectively, which extend in opposite directions from the housing middle portion 33 and which are arranged in a shared housing plane.

[0038] As can be seen from a combination of FIGS. 6 and 7, the compressed air storage port 17, which serves to be connected to the compressed air storage unit 12, which is illustrated in FIGS. 1 to 4 and realized as a cartridge in the case at hand, is connected to a compressed air inlet 38 of the pressure reducer 32 via a storage air line 37 and the compressed air tool port 16 is connected to a compressed air outlet 40 of the pressure reducer 32 via a working air line 39. The pressure reducer 32 is set to a defined pressure difference in such a manner that storage air having 300 bar at the compressed air inlet 38, for example, is reduced to a working air pressure of 6.5 bar at the compressed air outlet 40. Of course, different pressure differences can be set as needed for a closing spring 41 and an adjusting spring 42 arranged in the pressure reducer 32 by suitable choice.

[0039] As can be seen in particular in FIG. 7, in the case at hand, the storage air line 37 is provided with a manometer 43 for displaying the filling pressure of the compressed air storage unit 12. In the working air line 39, a safety valve 44 is provided parallel to the compressed air tool port 16, the safety valve 44 preventing a compressed air overload of the tool 11 in case of failure of the pressure reducer 32.