1. Field of the Invention
The present invention relates to a spray gun for spraying paints and similar viscous media that can be propelled pneumatically or electrically, comprising a gun housing for accommodating the propulsion mechanism, the components of the spray gun that effect mixture and/or metering, a handle projecting from the gun housing and a reservoir tank removably attached to the gun housing for holding the medium to be processed, with the possibility of introducing the medium from the reservoir tank into the gun housing of the spray gun via a feed duct that, in a preferred embodiment, is provided with a riser pipe.
2. Description of the Prior Art
Spray guns of this type have been described in numerous different configurations and have also proven their effectiveness in practice. In order to enable a medium to be processed with these spray guns, it is necessary to remove the reservoir tank from the gun housing and to fill it accordingly. This procedure is time-consuming, and also the paint or other medium can easily be spilled. Furthermore, it is often essential to carry out extensive cleaning work when changing the medium to be processed, and this also takes time. However, the principal disadvantage of these spray guns is that the viscosity of the medium put into the reservoir tank has to be adapted to the particular design configurations of the spraying device by means of which the medium is to be sprayed. This requires expert knowledge and skill. Frequently, it is not possible to achieve an optimum working method with spray guns of prior art.
The purpose of the present invention is therefore to create a spray gun of the aforementioned type that enables reservoir tanks of different configurations to be reliably attached to it straightforwardly and within a short period of time, these tanks being filled with a medium that is adapted to the spray gun to be used and/or the work to be undertaken, meaning that it is possible to process the material immediately after the reservoir tank has been attached to the gun housing. Accordingly, setup times should be practically eliminated and also it should not be necessary to undertake any cleaning work; instead, it should be possible simply to remove one reservoir tank after a working step and to seal it.
In accordance with the present invention, this is achieved in a spray gun of the aforementioned type in that the reservoir tank is configured as a commercially available storage container, in particular in the form of a paint can, and that the storage container is attached directly to a projection by means of a one or multi-part adapter, the projection preferably being configured as a cover or plate that is connected to the gun housing and/or to the handle by a web.
It is advantageous in this case for the adapter to be configured as a hollow body in the form of a pot into which the storage container can be inserted in an oriented position. This can be achieved in that the adapter is provided with projecting support ribs in the area of the base and/or walls. In addition, it should be possible to screw the adapter into the projection by means of a male thread provided, in a preferred embodiment, on a mouthpiece.
Also, the hollow body should be configured as an approximately cylindrical vessel with a U-shaped cross section having enclosed walls, in order to be used as a reservoir tank to be attached to the spray gun if necessary. However, the walls of the hollow body can also have penetrations worked into them in order to allow the storage container to be inserted or removed easily.
According to one configuration variant, there is also provision for the hollow body of the adapter to have a contact shoulder formed by a construction in the area facing the spray gun in order to support the storage container and, in the area of the base, for the hollow body of the adapter to have an adjustment element, for example in the form of a setscrew or a compression spring, that acts on the adapter either directly or via intermediate elements so that spray cans of different heights can be inserted into the hollow body in a straightforward manner.
In order to adjust to the different heights of storage containers, however, the hollow body of the adapter can also have one or several inserts assigned to it that are configured with different heights and, in a preferred embodiment, can be interlocked together, these inserts being inserted in between the base of the hollow body and the base of the storage container and/or between the container and the projection. It is also possible, however, for the hollow body to be provided with a base in an adjustable arrangement that can be moved towards the projection, e.g. by means of a female thread or a ratchet profile.
Furthermore, it is advantageous for the hollow body of the adapter to be adapted to the shape and size of the storage container that is to be inserted into it.
The hollow body can also be surrounded by a jacket that is firmly attached to it, having a support surface running flush with the support surface of the handle in one plane.
In accordance with a different embodiment, the adapter can also be configured as a clamping belt attached directly to the plate-shaped projection or to an adapter that can be screwed onto the projection, in which case the clamping belt should act on the base of the reservoir tank by means of a pressure piece through which the clamping belt is passed and is secured at one end onto the plate or onto the adapter, e.g. on an eyelet, and can be tensioned at the other end by means of a clamping lever.
According to a further embodiment, provision is made for the adapter to be configured as a clamping ring and for this to be screwed onto the projection, and for the storage container to be clamped onto the projection or a seal inserted into the projection by means of clamping arms projecting radially inwards, acting in a preferred embodiment on a radially projecting collar of the storage container.
Furthermore, it is advantageous for the length of the riser pipe to be adapted to the height of the storage container, for example by means of projections or intermediate pieces, and for the cover of the storage container to be supported on the projection by a plate-shaped seal.
If a spray gun is configured in accordance with the present invention, it is possible for commercially available storage containers of widely different dimensions to be attached straightforwardly and in a very short time to the gun housing, resulting in a reliable and direct connection, in which case these containers can contain a medium that is ready for immediate processing. Preparatory measures such as adjusting the viscosity are consequently no longer required, rather the medium to be processed can be optimally adapted to the particular working implement and application during the manufacture of a paint.
Furthermore, it is beneficial that, if the spray gun configured in accordance with the present invention is used, there will be scarcely and need for transferring the medium to be processed from one container to another or any need for cleaning work. This is because the storage container can easily be removed from the gun housing following completion of a working procedure and, if necessary, sealed with the original cap or disposed of. This means there are hardly any setup times. By offering straightforward handling in this manner, the processing of media with different consistencies is facilitated to a considerable extent without requiring additional work.
The drawing shows a spray gun configured in accordance with the present invention, with variously configured adapters attached to it for holding reservoir tanks, some of which are attached in different manners. In the drawing,
The spray gun shown in
The reservoir tank 21 arranged on the underside of the gun housing 2 at the level of the handle 3 in the illustrated embodiment can, however, also be arranged above and attached to the gun housing 2 so that the medium to be sprayed is supplied to the spray gun 1 by gravity. The tank 21 comprises a commercially available spray can 22 attached directly to the gun housing 2 of the spray gun by means of an adapter 31. To make this possible, a projection 11 is formed onto the gun housing 2 that is configured as a U-shaped cover 12 and is connected to the gun housing 2 and the handle 3 by means of two webs 12 and 14. A female thread 15 is worked into the projection 11 and the adapter 31 is provided with a mouthpiece 35 in the area of the can opening 24 into which a male thread 26 is worked. The nozzle 22 can therefore be securely attached to the projection 11 directly.
When the opened can 22 is screwed on after removal of a cover 23 that is only partially drawn, a riser pipe 9 projecting from the projection 11 is introduced into the can opening 24 by means of which the medium to be processed is sucked into a duct 8 by means of the air flowing into the gun housing 2, this channel 8 emerging in the inside of the gun housing 2. The paint can 22 filled with a medium prepared in an appropriate manner can therefore easily be attached to the projection 11. A seal 30 inserted between the projection 11 and the paint can 22, having an opening 30′ for the riser pipe 9, thereby guarantees that the paint can 22 is connected to the spray gun 1 with a liquid-tight seal.
The adapter 31 is configured as a hollow body 32 with a U-shaped cross-section that is provided with a base 33 and walls 34 that blend into the mouthpiece 35. In order to fix the paint can 22 in the hollow body 32, a circumferential rib 37 is formed onto the base 35 and the walls 34 have individual or circumferential ribs 38 against which each paint can 22 makes contact.
In the sample embodiment shown in
In accordance with
In the embodiment shown in
In order to compensate for different heights of the paint can 22, the embodiments shown in
For the same purpose, the embodiments shown in
In the embodiment shown in
The adapter 61 or 61′ provided for securing the paint can 22 is configured as a clamping belt 62 or 62′, as shown in
One end of the clamping belt 62 or 62′ is held on the plate 12′ or the adapter 67′ by means of an eyelet 63 or 63′ and its other end can be clamped by means of a clamping lever 64 or 64′. The clamping belt 62 or 62′ acts on the base of the paint can 22 by means of a pressure piece 65 that has the clamping belt 62 or 62′ passed through it.
In the embodiment shown in
By means of the clamping belt 65 that can be adapted to the paint can 22, this means it is also possible to press paint cans of different heights reliably onto the insert 11.
The adapter 71 shown in
Adaptations to the riser pipe 9 for different paint cans are made using a projection 9′ that can be attached to the shortened riser pipe 9, as shown in
Number | Date | Country | Kind |
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06002792 | Feb 2006 | EP | regional |
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Number | Date | Country | |
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20070221753 A1 | Sep 2007 | US |