FR2997749A1 - Compressed air device for punctually providing energy to operate pneumatic tool, has compressed air tank whose support portion is connected to lower part of dorsal plate, and holding strap on plate maintaining tank against dorsal plate - Google Patents

Abstract

The device (100) has a compressed air tank (2) placed in a support (3) and connected to an end (7) of a hose (6) through a pressure reducer that is adapted to regulate air pressure in the hose. Another end of the hose is connected to a connector (9) to supply energy to a pneumatic tool (4). The support includes a dorsal plate (12) on which a strap and a ventral belt (17) are fixed. A support portion (13) of the tank is connected to a lower part of the dorsal plate. A holding strap (15) on the dorsal plate maintains the tank against the dorsal plate.

Description

The present invention relates to a compressed air device for providing punctually energy for the operation of a pneumatic tool. Maintenance work performed in exterior troubleshooting situations or at sites that are not connected to the sector must be carried out with tools with on-board energy. This energy is traditionally provided by batteries, which for example power a power tool. But according to the situations, for example the unscrewing of nuts for the change of a wheel of a vehicle, the need for energy can be punctually very important. However, the energy delivered by the batteries is quite limited. In addition, the batteries have a limited life so that the autonomy of the tool is also limited. In addition, the batteries are sensitive to low temperatures. Their yield then decreases sharply.

The present invention aims to overcome one or more of these disadvantages. For this purpose, the invention proposes a compressed air device intended to provide punctual energy for the operation of a pneumatic tool, the device comprising a compressed air reservoir arranged in a support adapted to be worn on the back of an operator, the air reservoir being connected to a first end of a hose via a regulator adapted to adjust the air pressure in the hose, a second end of the hose being connected to a connector adapted to be connected and supply energy to the pneumatic tool, the support comprising a back plate on which at least one strap and a lap belt are fastened, adapted for carrying the support by the operator, a support portion of the reservoir of compressed air connected to the lower part of the backplate, and at least one retaining strap provided on the backplate so as to maintain the compressed air reservoir. against the backplate. Thus, this device makes it possible to meet a large and punctual need for energy by supplying compressed air directly from a tank where the compressed air is stored. The regulator guarantees to be able to regulate the pressure supplied, in particular according to the need of the pneumatic tools used. In addition, the connector of the device allows easy connection to any standard pneumatic tool, so that it is easy to change tools on site when necessary. In addition, the tank support reduces the load on the weight of the tank through the possibility of wearing on the back of the operator. This configuration thus allows the operator to move easily and quickly, to intervene on different locations of the site for example. The wearing of the device on the back makes it possible to contribute to a freedom of movement of the arms and hands of the operator, so that the execution of his task is simplified. Preferably, the support portion of the support forms a support for the compressed air reservoir and comprises an orifice allowing access to the pressure regulator disposed under the compressed air reservoir. It is thus possible for the operator to adjust the compressed air pressure before, during or after the feeding step of a pneumatic tool without having to remove the device from his back. According to one possibility, the support portion is connected perpendicularly to the lower part of the backplate. The support of the compressed air reservoir is thus optimal. This support, combined with the effect of the holding strap, prevents the tank from tilting towards the back of the operator, which secures the wearing of the device. Advantageously, the lap belt comprises at least one lateral housing adapted to receive the pneumatic tool. This makes it possible to temporarily store the tool connected to the tank, so as to ensure great maneuverability of the device. This arrangement also makes it possible to promote operator mobility as well as to store at hand one or more tools, in addition to the one that is connected to the reservoir. According to one arrangement, the hose of the device comprises at least one elastic portion. Thus, it is possible to reach locations 25 away from the position of the tank expander without the operator being hampered by a long and bulky hose. More specifically, the compressed air tank comprises air at a pressure of between 300 bars and 450 bars. This makes it possible to provide sufficient energy to the most demanding pneumatic tools. Advantageously, the regulator regulates the pressure between 6 and 10 bar. Thus, it is possible to adjust the air pressure according to the energy requirements of the tool. The compressed air tank is for example formed of a cylinder of compressed air, available and inexpensive on the market. Preferably, the backplate comprises two shoulder straps connected to the lap belt. Thus, the weight device is balanced between the two straps, the two shoulders of the operator are distributed the load and the stability of the device worn on the back is guaranteed.

According to one arrangement, the back plate comprises two retaining straps of the compressed air tank. Thus, the reservoir is well wedged and held against the back plate so as to prevent its tilting of the support. Advantageously, the back plate comprises a central recess 10 formed between the fixing positions of the two holding straps. Thus, the weight of the back plate and the device are lightened. Other aspects, objects and advantages of the present invention will become more apparent upon reading the following description of an embodiment thereof, given by way of non-limiting example and with reference to the accompanying drawings. The figure does not necessarily respect the scale of all the elements represented so as to improve their readability. Figure 1 is a schematic view of a compressed air device connected to a pneumatic tool according to one embodiment of the invention. As illustrated in Figure 1, the device 100 comprises a reservoir 20 2 of compressed air disposed in a support 3 adapted to be worn on the back of an operator and is designed for connection with a pneumatic tool 4. This device 100 thus makes it possible to replace an on-board power source conventionally obtained in the prior art by means of batteries. This device 100 is indeed easily transportable and very manageable once positioned on the back. It allows to provide punctually a great energy. The tank 2 of compressed air, such as a cylinder of compressed air, has in its lower part a regulator 5 for adjusting the pressure of the air leaving the tank 2 according to the needs of the tool 4 used, for example between 6 and 10 bar. A hose 6 makes it possible to connect the tank 2 to the pneumatic tool 4. A first end 7 of the hose 6 is in fact connected to the pressure reducer 5 of the compressed air reservoir 2 and a second end 8 of the hose 6 is connected to a connector 9 adapted to allow connection with the pneumatic tool 4. As illustrated in Figure 1, the hose 6 comprises a resilient portion 11 of the form of a helical spring 35 so as to form a compact hose 6 and to be able to extend the radius of action of the device 100 without hindering its manipulation.

The compressed air reservoir 2 is intended to supply energy successively to one or more pneumatic tools 4. The compressed air requirements necessary for an intervention vary according to the type of intervention and the number of pneumatic tools used. Typically, a tank 2 of compressed air comprising air at a pressure between 300 bar and 450 bar for a volume of between 1 and 10 liters for example can meet the energy needs of several simple interventions. Thus, the tank 2 to be transported has a mass of about 1 kg to 15 kg so that it is advantageously transported on a dorsal support 3 which 10 further improves its maneuverability. The support 3 comprises a back plate 12 intended to bear against the shoulder or the back of the operator. The lower part of the back plate 12 is connected perpendicularly to a support portion 13 adapted to form a support for the reservoir 2 of compressed air. As shown in FIG. 1, this support portion 13 comprises an orifice 14 through which it is possible to adjust the expander 5 of the reservoir 2, even when the back plate 12 of the support 3 is placed against the back of the operator. Two retaining straps 15 attached to the backplate 12 are provided to press the reservoir 2 against the backplate 12 and hold it in place despite the movements of the operator. These straps 15 may be made of an elastic material with or without adjustment loop (not shown) so that the positioning against the plate of the tank 2 is facilitated. Thus, it is also very simple to remove the reservoir 2 of compressed air from the support 3 to change it for example. According to another possibility not illustrated, the support 3 may comprise only a holding strap 15, preferably fixed on the back plate 12 at a corresponding position at the mid-height of the tank 2. This is particularly advantageous when the reservoir 2 for example has a small height so that there is little risk of rocking the tank 2. As shown in Figure 1, the side of the back plate 12 intended to be in contact with the back of the operator comprises two straps 16 attached to the upper part of the back plate 12 and connected to a waistband 17 attached to a lower part of the plate 12. In this configuration, the two straps 16 allow the distribution of the weight of the device 100 on both shoulders of the operator. The lap belt 17 prevents lateral movement of the lower portion of the back plate 12.

Moreover, in order to lighten the device 100 to be worn, the back plate 12 comprises a central recess 18 formed between the fixing positions of the holding straps 15. In this configuration, the support 3 ensures a good hold of the reservoir 2 d compressed air and easy access to the regulator 5, while preserving the health of the operator. According to a possibility not shown, the support 3 may comprise a single strap 16 so as to be worn on a shoulder or shoulder. This variant is particularly advantageous when the tank 2 10 of compressed air has a volume and a reduced weight. As shown in Figure 1, the lap belt 17 comprises a lateral housing 19 for receiving a pneumatic tool 4 or to store any other tool. Thus the hands of the operator remain free and the stored tool remains available if needed.

Thus, the present invention provides a compressed air device 100 for supplying a large amount of energy to pneumatic tools 4 for external maintenance or repair operations. It goes without saying that the invention is not limited to the embodiment described above by way of example but that it includes all the technical equivalents and variants of the means described as well as their combinations. 25 30

Claims (11)

REVENDICATIONS1. Device (100) of compressed air for punctually supplying energy for the operation of a pneumatic tool (4), the device (100) comprising a reservoir (2) of compressed air arranged in a support (3) adapted to be worn on the back of an operator, the tank (2) of air being connected to a first end (7) of a hose (6) via a pressure regulator (5) adapted to adjust the air pressure in the hose (6), a second end (8) of the hose (6) being connected to a connector (9) adapted to be connected and supplying power to the pneumatic tool (4), the support ( 3) comprising a dorsal plate (12) on which at least one shoulder strap (16) and a lap belt (17) are fixed, adapted for carrier support (3) by the operator, a support portion (13) of the reservoir (2) of compressed air connected to the lower part of the back plate (12), and at least one retaining strap (15) provided on the back plate (12) so as to hold the reservoir (2) of compressed air against the back plate (12). 2. Device (100) according to claim 1, characterized in that the support portion (13) forms a support for the reservoir (2) of compressed air and 20 comprises an orifice (14) allowing access to the expander (5) disposed under the reservoir (2) of compressed air. 3. Device (100) according to one of claims 1 to 2, characterized in that the support portion (13) is connected perpendicular to the lower portion of the back plate (12). 4. Device (100) according to one of claims 1 to 3, characterized in that the lap belt (17) comprises at least one lateral housing (19) provided for receiving the pneumatic tool (4). 30 5. Device (100) according to one of claims 1 to 4, characterized in that the hose (6) comprises at least one resilient portion (11). 6. Device (100) according to one of claims 1 to 5, characterized in that the reservoir (2) of compressed air comprises air at a pressure between 300 bar and 450 bar. 7. Device (100) according to one of claims 1 to 6, characterized in that the expander (5) adjusts the pressure between 6 and 10 bar. 8. Device (100) according to one of claims 1 to 7, characterized in that the reservoir (2) of compressed air is formed of a cylinder of compressed air. 9. Device (100) according to one of claims 1 to 8, characterized in that the back plate (12) comprises two shoulder straps (16) connected to the lap belt (17). 10 10. Device (100) according to one of claims 1 to 9, characterized in that the back plate (12) comprises two retaining straps (15) of the reservoir (2) of compressed air. 15 11. Device (100) according to claim 10, characterized in that the back plate (12) comprises a central recess (18) formed between the fixing positions of the two holding straps (15).