CH632940A5 - Compressed air blower gun - Google Patents

Description

The invention relates to a compressed air blow gun with a gun body which has a compressed air inlet, an outlet nozzle, a duct connecting the compressed air inlet to the outlet nozzle and a first valve device which determines the passage through the duct and which can be actuated from the outside by means of a trigger device. Such compressed air blow guns are used in industry for cleaning tools and workpieces during processing, e.g. of metals, for blowing chips, blowing out devices, etc.

In known compressed air blow guns of this type, the compressed air always emerges unhindered regardless of its pressure after the opening of the first valve unit, which occurs at high pressures in the area of the outlet nozzle, when it is brought too close to an object or when the operator unintentionally approaches the gun holds, can lead to damage or injuries, generates a correspondingly loud exit noise and entails a correspondingly high air consumption.

The object of the present invention is to improve a pistol of the type in question here in such a way that it has low air consumption on the one hand, produces relatively low noises and provides safety for the operator insofar as the operator no longer has one too sharp a jet of compressed air can be injured, e.g. if he accidentally points the gun at himself, his hand, etc.

For the above-mentioned purpose, according to the invention it is provided in the new arrangement that a second valve device, which is in series with the first valve device, is arranged in the channel, the closure member of which determines the passage through the channel independently of the closure element of the first valve device permitted or blocked by the channel if the pressure in the channel section downstream of the closure member of the second valve device is below or above a safety pressure limit value.

The new arrangement has the advantage that because it is now possible to drive with reduced pressure, there are only a few exit noises and up to 50% less noise is generated. In addition, due to the maximum pressure corresponding to the safety pressure limit, the air consumption is limited, e.g. up to 40% smaller, which increases efficiency. In addition, there is much greater safety for the operator because he can no longer accidentally injure himself, since the second valve device blocks the passage through the gun if too high a pressure arises in the area of the outlet nozzle, e.g. if the gun hits a counter surface

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surface or baffle, which e.g. can be represented by the hand. The blown-out chips can be adjusted with the safety pressure limit set to e.g. 2.5 bar can no longer be blown against sensitive machine parts or measuring devices with excessive energy.

Exemplary embodiments of the subject matter of the invention are shown in the drawing. Show it:

1 is a side view in an axial section of a compressed air blow gun according to the invention,

2 shows the detail "A" of the arrangement of FIG. 1 in a side view in an axial section and on a larger scale,

3 shows a variant of the arrangement according to FIG. 1 again in a side view in an axial section,

Fig. 4 shows some elements of a valve that can be used advantageously in a compressed air blow gun according to the invention, in a perspective view and in an exploded state and

Fig. 5 shows the valve according to Fig. 4 in the assembled state in a side view partially cut and on a larger scale.

In the embodiment according to FIGS. 1 and 2, the gun body of the new compressed air blow gun is designated 1, which has a channel 2 for the flow of compressed air and which, for example, can be formed as a casting in a manner known per se. In channel 2, two valve arrangements 10, 20 are provided, which serve to control the flow of compressed air and are arranged one behind the other in such a way that the compressed air passing through the gun flows through the two valves in succession, the closure of one of the two valves causing the passage the air is prevented by the blow gun.

The valve arrangement 10 is set up so that it can be actuated by the operator of the blow gun, its components are shown on a larger scale in FIG. 2. It has a valve seat 11, which is preferably conical, and a valve closure member 12, which is adjustable back and forth with respect to the valve seat 11 according to arrow 12a. This valve closure member 12 has the shape of a cone-shaped plug which sits at the end of an actuating rod 14 which passes through the body 1 of the blow gun (cf. also FIG. 1) and can be adjusted back and forth relative thereto. To operate the valve seat by the operator is gem. Fig. 1, a trigger lever 15 is provided which is pivotally arranged on the gun body 1 at 15a and which cooperates with the lower end of the actuating rod 14 (Fig. 1), with which it forms the actuating device, in order when an operator grips the pistol and press the lever to move the bar. The valve closure member 12 is resiliently pressed onto its seat by a compression spring 16, which is accommodated in the gun body 1 and engages the valve closure member 12 at the top, while its other end rests against a ring 18 which is cylindrical in relation to the wall 19 surrounding it, is certain. The wall 19 is formed by an enlarged part of the channel extending through the gun body (see FIGS. 1 and 2); the recess defined by the wall 19 can e.g. be produced in that a corresponding transverse bore is provided in the gun body, but the recess can also be formed in a different way, as will be shown later. Instead of the ring 18 you can of course also provide another fixed stop for the spring 16.

The cylindrical wall 19 also encloses the elements of a further valve arrangement 20.

This valve arrangement 20 contains a shaped piece 21, which has a pipe-shaped pipe directed towards the other valve arrangement.

Migen approach 21a, which has an axial through hole which is connected to the channel 2 in the gun body 1 (Fig. 2). The tubular extension of the shaped piece 21 has a cylindrical outer wall 22 which interacts with other elements of the valve arrangement 20 and which is concentric with the cylindrical wall 19 with which it forms an annular space. Between the walls 19 and 22 and in the aforementioned annular space, a valve ring 25 is provided which closes the space between the walls 19 and 22 (Fig. 2). The valve ring 25 has a disk-like, annular main body 26 with a central bore and with a flexible end lip 28 on its outer circumference. A closing cone 29 of the valve ring 25 is arranged centrally with respect to the open space and contains a conical surface which can bear against the end part 29a of the edge which surrounds the channel of the attachment of the shaped piece 21 and which forms the valve seat for this purpose. The inner diameter of the central opening through the closure piece 25 is selected such that it lies against the cylindrical outer surface of the tubular extension of the shaped piece 21, while the closing lip 28 lies against the cylindrical wall 19, so that the closure piece 25 lies against the cylindrical walls 19 and 22 is guided in the longitudinal direction along the tubular extension of the shaped piece 21. In the course of this linear movement, the closure cone 29 of the closure piece 25 lies against the end of the tubular extension 21a and closes the passage through this extension. In order to protect the user of the air blow gun 10 against the action of dangerously high pressures, the movement of the closure piece 25 is provided as a compensating movement in order to achieve a balance between a resilient spring force which acts on the closure piece 25 and air pressures which act against the piston surface of this closure piece. In particular, a compression spring 30 is provided in order to exert a force on the closure piece 25, which moves the closure piece relative to the end of the tubular extension of the shaped piece 21. Forces that cooperate with the spring force result from the effect of the air pressure upstream of the end of the bore through the fitting 21 on an annular piston surface of the valve closure piece 25, from an air pressure downstream of the end of the tubular extension of the fitting on an annular piston surface and from surrounding atmospheric pressure.

The surrounding atmospheric pressure is supplied to an inner chamber inside the body 1 of the compressed air blast stole through a channel 35 which extends from outside the body 1 to the cylindrical wall 19 (FIGS. 1 and 2) and by means of which the chamber, which is defined by the shaped piece 21, by the upper ring surface of the closure ring 25 and by the cylindrical wall 19, is kept under atmospheric pressure. In this way, the air pressure acting on a surface of the closure piece 25 between the walls 19 and 22 produces a force acting in the same direction as the force exerted by the compression spring 30 to move the closure ring 25 towards the seat to prevent.

In addition, against the movement of the locking ring 25 in the direction of the seat, air pressure acts upstream of the end of the bore through the fitting 21, which is directed onto a surface of the locking ring 25 that is defined by the locking cone 29 with respect to the bore of the fitting 21 . This area corresponds to the projection of the area of the closure cone onto the end face of the bore through the extension 21a of the fitting 21. Finally, air pressure acts downstream of the end of the bore through the extension 21a against a ring 5

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shaped piston surface, which is defined and determined by the inner diameter of the cylindrical wall 19. It can be seen that the forces resulting from the air pressures acting on the piston surfaces of the locking ring 25 and from the action of the spring 30, the locking ring 25 between a position sitting on the end of the tubular extension when the Pressure of the air flowing through the channel 2 downstream of the locking ring 25 is greater than a predetermined safety pressure, and move back and forth in a lifted position when this pressure is below the specific safety pressure. Thus, when the operator actuates the trigger 15 and opens the valve assembly 10 to allow air to pass through the duct 2 of the air blow gun, the balance of forces acting on the lock ring 25 is usually such that it opens the way for the air flow and Air is released from the compressed air blow gun for any purpose. However, if the operator should handle the gun so that its outlet nozzle is close to any counter surface, e.g. comes close to the surface of his skin, builds up in the channel 2 downstream of the two valve assemblies 10 and 20, a back pressure or back pressure. This causes the forces which tend to press the locking ring 25 onto its seat to increase, which leads to the closing of the channel 2. The backflow in channel 2, in which the above changeover takes place, is preferably selected such that the regulations for safety in industrial operation are observed. It follows from the above that when the compressed air blow gun according to the invention is used, a user is optimally protected from coming under the action of dangerously high air pressures.

The shaped piece 21 contains means which are intended to ensure that the passages and chambers within the gun body are sealed against undesired escape of the compressed air. For this purpose, an O-ring is provided, which serves to separate the bore through the shaped piece 21 from the chamber, which is supplied through the channel 35 atmospheric pressure. A second O-ring 38 (FIGS. 1 and 2) seals the outer end of the shaped piece 21 against a possible escape of compressed air. To ensure. that the desired compressed air flow can flow through the channel 2 in the body 1 of the compressed air blow gun, the guide piece 21 has a circumferential groove which extends around it, so that air can flow into the holes therethrough. Because of the presence of the circumferential groove, there is the advantage that a threaded locking pin 39 can be used, which can enter through the body 1 of the gun and hold the fitting 21 in position within the gun body.

The present application still contains a variant of the embodiment of the invention described above, which is shown in FIG. 3, in which a compressed air blow gun 40 is shown, in which the order of the valve arrangements can be reversed. The body of this pistol is shown at 41, it corresponds to body 1 of the arrangement according to FIG. 1. The variant according to FIGS. 1 and 2 differs from the variant according to FIG. 3 in that the valve arrangement 42 follows that of the valve arrangement 10 1 corresponds to means with which the stroke of the valve closure member 43 (corresponds to the member 12) is limited. By means of this limitation, the volume of air to be dispensed by the manually operated valve arrangement 42 can be controlled and controlled, which results in advantages for the pneumatic compressed air blow gun 40 under certain conditions. The limitation is achieved by an upwardly extending pin 44 which moves relative to an adjustable threaded piece 45. Other differences between the variant according to FIGS. 1 and 2 on one side and the variant according to FIG. 3 on the other side exist with regard to the structure and arrangement of the other valve arrangement 51. In this valve arrangement, the cylindrical wall 46 (corresponds to the wall 19) formed by a threaded sleeve member 47. One end of the threaded sleeve member 47 engages an external thread on the body of the air blow gun so that the generally cylindrical inner wall 46 of the sleeve member 47 surrounds an end portion of the body of the gun that is configured to form the fitting 48 (corresponds to the fitting 21). The opposite end of the sleeve member 47 is internally threaded to receive a flow-directing nozzle section (see also FIG. 1). In this construction, the spring 49 of the variant according to FIG. 3 can be designed somewhat differently from the spring 30 according to FIG. 2, while the locking ring 50 can be identical to the locking ring 25 in the previously described variant. The channel 52 corresponds to the channel 35 of the variant according to FIGS. 1 and 2, the sealing cone 53 corresponds to the cone 29 of the aforementioned variant. 54 is a release lever corresponding to part 15, 55 the actuating rod corresponding to part 14, 56 is the channel corresponding to channel 2 of the variant according to FIGS. 1 and 2. In the arrangement according to FIG. 3, the mode of operation of the pressure-sensitive valve arrangement 51 the same as the operation of the valve assembly 20 of the assembly of Figs. 1 and 2. This means that when the back pressure increases, the locking ring 50 moves downstream of the valve to a closed position to prevent compressed air from being applied to a user - Blow gun can act at dangerous pressures.

The present invention also provides that the valve arrangements 20 and 51 of the compressed air blow guns according to FIGS. 1 and 2 or FIG. 3 described above can also be designed such that they can be attached to existing blow guns that are already used for other applications in which pressure regulation is possible can be used. According to this construction, the valve device used for pressure regulation allows existing arrangements to be modified slightly so that they comply with the safety regulations which are now intended for industry. Such a valve device 60 used for pressure control is shown in FIGS. 4 and 5. It can be seen that the valve arrangement 60 (corresponds to the valve arrangement 20) contains a sleeve member 61 and a shaped piece 62, which essentially cooperate as has been carried out in FIG. 5 with reference to the sleeve member 47 and the shaped piece 48. In this arrangement, the fitting 62 is externally threaded at both ends, one row of threads cooperating with the sleeve member 61, while the other row of threads is designed to replace an outlet nozzle element that is normally provided on the body of an existing blow gun . In order to change an already existing blowgun and to obtain the advantages of the present invention, it is only necessary to remove the nozzle member existing in the already existing blowgun and instead to use the valve arrangement 60 of the arrangement according to FIGS. 4 and 5, 63 corresponds to the channel 35 of the variant according to FIGS. 1 and 2, 64 of the cylinder wall 19, the closure cone 65 the cone 29 of the variant according to FIGS. 1 and 2, the tubular extension 66 the part 22, the closure ring 67 the part 25, the lip 68 of the lip 28 of the variant according to FIGS. 1 and 2, the spring 69 of the variant according to FIGS. 4 and 5 corresponds to the spring 30 of the variant according to FIGS. 1 and 2.

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Claims (7)

632 940 2nd PATENT CLAIMS 1. A compressed air blow gun with a gun body which has a compressed air inlet, an outlet nozzle, a duct connecting the compressed air inlet to the outlet nozzle and a first valve device which determines the passage through the duct and which can be actuated from the outside by means of a trigger device, characterized in that In addition, a second valve device (20) is arranged in the channel (2) with the first valve device (19), the second valve device (20) determining the passage through the channel (2) independently of the closing element (12) of the first valve device (10). 29) permits or blocks the passage through the channel (2) when the pressure in the channel section downstream of the closure member (29) of the second valve device (20) is below or above a safety pressure limit value. 2. Air blow gun according to claim 1, characterized in that the safety pressure limit is adjustable. 3. Compressed air blow gun according to claim 1 or 2, characterized in that the closure member (29) of the second valve device (20) relative to the valve seat (29a) is adjustable and has piston surfaces on opposite sides, one of which faces the flow direction the valve seat (29a) and the other is exposed to the pressure prevailing in the flow direction after the valve seat (29a) in the channel (2). 4. Air blow gun according to claim 3, characterized in that the closure member (29) of the second valve device (20) is conical. 5. Compressed air blow gun according to claim 3 or 4, characterized in that the channel leading from the compressed air inlet to the outlet nozzle (2) contains a second valve device (20) receiving expanded chamber into which a shaped piece (2) is inserted, one with the channel (2) related bore, the diameter of which e.g. is smaller than that of the channel (2), at the mouth of which the valve seat (29a) of the second valve device (20) is provided, while the part of the chamber located downstream of the molded piece and this valve seat (29a) contains the closure member ( 29) of the second valve device (20). 6. Air blow gun according to one of claims 3 to 5, characterized in that above the valve closure member (29) of the second valve device (20) located part of the chamber communicates with the atmosphere surrounding the compressed air blow gun and a spring, e.g. a compression spring (30), which strives to lift the closure member from the valve seat. i5 7. compressed air blow gun according to one of claims 3 to 6, characterized in that the valve closure member (29) of the second valve device (20) consists of a front valve ring (25) seen in the flow direction, which is between an attachment of the shaped piece (21) and the inner wall 20 (19) of the chamber is guided to slide back and forth, and consists of the closure cone (29) connected to the valve ring, the tip of which, when the valve is in the closed position, protrudes into the extension of the fitting which forms the valve seat (29a). 25 8. Compressed air blow gun according to claim 7, characterized in that the second valve device (20) seen in the flow direction is arranged in front of the first valve device (10). 9. compressed air blow gun according to one of claims 3 to 30 8, characterized in that the valve closure member (12) of the first valve device (10) on the one hand by means of a release lever (15) via a pin (14) can be lifted from its seat and on the other is under the opposite action of a spring (16), which on the other hand is supported on a fixed ring (18) which is arranged downstream of the valve ring (25).