DE2312311A1 - COMPRESSED AIR PISTOL - Google Patents

Description

y.

PB. ING. KARL BOEHM-ÜT - 'UiPl --IH5. Ai3? RT

28 BREMEN FELDSTRASSE 24 TEL. {04 21} * 444038

DR.-ING. WALTER HOOüMÄ?: N - D PL. PHYS, DR, HEINZ GOPPAR New TeL no. (042Ί) »74044 | File number: NeUanBieldUng Postscheckkonto. Hamburg 126083

, Bank account! Bremer Bank, Bremen, account 1001449

Named note: S.R.C. Laboratories, Inc.

My reference: S 1? 29 28 3remen, March 13, 1973

S.R.C. Laboratories, Inc., 1525 Kings Highway, Fairfie! ^, Connecticut (V.St.A.). ■ ■

Compressed air gun

The invention relates to a compressed air gun, the handle part of which at one end is connected to a compressed air source is connected, at its other end to the exit nozzle is provided for the air flow and also has a valve for regulating the air flow.

Compressed air guns, which are used in particular for blowing away waste at workplaces, exist so far essentially only from a piece of pipe connected to a compressed air source, which with a the flow through the pipe is provided with a valve regulating the flow. Such compressed air guns are growing Dimensions complained about due to stricter safety regulations, in which a maximum value for the outlet the gun is pressurized when the nozzle is clogged. Compressed air guns developed so far, which take these regulations into account were not

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fully "satisfactory because the required to meet the requirements Measures taken on them led to a reduction in the efficiency of the pistol.

The object on which the invention is based is therefore primarily to provide a compressed air gun create that on the one hand meets the safety regulations and on the other hand has a high level of efficiency.

According to the invention, this is the case with compressed air guns of the type mentioned at the beginning * achieved in that the Nozzle one of the. Nozzle mouth continuous up to the outlet Has bore which is located at an inwardly of the nozzle mouth point with a rounded inlet point is provided, and that between the inlet point and the nozzle mouth'ein with the bore and with the valve communicating slit-shaped passage is provided.

With this arrangement, additional secondary air is sucked in from the environment through the nozzle wheel located in front of the sdalitsförffligen passage, through which the air deflection in the nozzle jet is increased,

If the outlet of the nozzle is clogged or closed is "t _t is, even if the compressed air is at a pressure up to about 7 kg / cm, an increase in pressure in the nozzle thereby largely prevents the carcass of the slot-shaped passageway exit air flow reverses and flows through the nozzle and drains. The person working with the gun is

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inverted flowing air jet through a hook-shaped extension arranged between it and the nozzle mouth the handle part protected, the impacting on him Air jet dispersed. In another embodiment of the gun, there are one or more communicating with the nozzle bore additional nozzle outlet openings provided through which a Part of the air can escape to reduce the size of the "reverse flow" that occurs when the nozzle is closed. In both embodiments, "at closed nozzle outlet without major pressure build-up in the nozzle and without reducing the normal efficiency the compressed air can be discharged from the nozzle. The one emerging from the additional air outlet openings During normal operation of the pistol, air forms a barrier to prevent parts of the pistol from flying back Waste blown away by the main jet of the nozzle.

Embodiments of the invention are provided below described with reference to the drawing. In the drawing is:

1 shows a partially sectioned side view of a first embodiment of a compressed air gun according to the invention;

Figure 2 is a view of the nozzle seen in the direction of arrows 2-2 of Figure 1;

FIG. 3 is a view similar to FIG. 2 of another embodiment; FIG.

Fig. 4- is a plan view of a spacer washer;

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Fig. 5 is a plan view of another

Shape of an annular spacer washer;

6 a shown on a larger scale Cross section through the slotted part of the nozzle; and

7 shows a cross section through a nozzle,

which at their slotted passage with a spray of liquid or solid material permitting pipe is provided.

The compressed air gun designated as a whole by 10 ″ has a handle part 11, which preferably consists of one piece with a hook-shaped body 12 used to hang the gun. A cavity 13 penetrating the handle part 11 in the longitudinal direction has an opening 14 provided with an internal thread at one end The section 16 of the cavity adjoining the opening 14 is of such a size that it can accommodate a filter. The other end of the cavity has a normally connected by a spring closed valve I7, the solenoid 18 of which is actuated in the export form shown in laiei * by an itoslöseliebel 19. By actuating the release lever 19, the valve I7 is opened, so that Burekluft in a cavity 20 and then over a Robrfönniges insert 21, which is attached by a set screw 22 nm handle part 11, in an annular recess 2J of the nozzle 24 can reach.

The nozzle 24 has a nozzle bore 25 of essentially constant diameter. The in the ring

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shaped "recess 23 reached compressed air passes over a narrow slot-like passage 26 into the nozzle bore 25 and exits from its outlet indicated by a dashed line 27. By the pressurized air flowing from the slot-shaped passage 26 to the outlet 27 becomes ambient air or secondary air sucked into the nozzle mouth 28, which mixes with the outflowing compressed air. The current the secondary air is indicated by arrows. The air flowing through the nozzle bore 25 exists so not just from the through the slit-shaped Passage 26 entering the bore, but also from ambient air drawn into the nozzle. This advantageously increases the amount of air emerging from the nozzle.

The air flow can either exit directly from the end of the bore (Fig. 7) or be subdivided, with part of the flow exiting at an angle to the main direction and forming a kind of barrier which prevents part of the blown waste from flying back again. In the embodiment shown in FIG. 1, the main flow is blown out of the end 30 of a narrowed outlet section 29, while the air which prevents parts of the blown away waste from moving back is blown out of an opening y \ in form which opens into the nozzle bore immediately before the beginning of the outlet section 29 a circular arc-shaped curved slot emerges.

If desired, a plurality of holes 32 arranged on an arc of a circle can be used instead of the slot-shaped

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opening 3 "i can be used.

If the end of the outlet 30 is blocked or closed when the valve 17 is open, the compressed air flowing through the slot-shaped passage 26 at the in Pig. 1 through the opening 3I exit. If all of the air cannot exit through this opening y \ , a low pressure of fractions of an atmosphere will build up in the nozzle bore, so that the air then exits from the nozzle mouth 28. The hook-shaped deflecting body 12, which is arranged in front of the inlet of the nozzle, then acts as a protective shield against this reverse flow, which is scattered when it hits the body 12. In the embodiment described, even if the valve is fully open, if the outlet end 30 of the nozzle is blocked, no high pressure can build up in the nozzle and the compressed air can rather flow off in a manner that is safe for the person using the pistol . -, -

The nozzle shown in]? Ig * 1 has a cylindrical section 33 _} in which the annular cavity 23 is arranged and a likewise cylindrical inlet section 3 ^ _s which is arranged in a cylindrical recess 55 at the inlet end of section 33, between these two Sections a the thickness of the slot-shaped passage 26 determining spacer 36 is arranged. The two sections can be connected to one another in any desired manner, for example by jamming.

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If desired, "can be inserted into the slot-shaped passage 26 a spacer disk 37 dividing this into small segments can be used. The fat the spacer disk 36 or 37 determines the width of the passage 26, with disks of a thickness of 0.08 mm have proven to be useful - The maximum flow rate of the compressed air depends, apart from on the width of the slot-shaped passage also on the size or area of the passage, so that the flow rate using the spacer shown in Fig. 5 is reduced. A regulation is therefore both by changing the thickness of the spacer washers and by using them a spacer washer with segment-shaped openings possible.

As can be seen from Fig. 6, the slot-shaped passage is arranged between a flat surface 33a of the cylindrical nozzle portion 33 and a flat surface 34-a of the inlet portion y \ . A surface 33b which is curved inwardly in the direction of the nozzle outlet and which forms a rounded inlet point 38 for the nozzle bore 25 extends from the surface 33a. The narrowed end of this inlet point determines the inlet cross section of the nozzle bore, which preferably remains the same up to outlet 27. The inlet point 38 greatly reduces the turbulence of the compressed air flow in the nozzle bore. The surface 34-a ends at 34-b (Fig. 6), where it is intersected by the only very slightly curved surface 3 ^ - of the nozzle mouth. The intersection or line of intersection 34b extends radially a little further inward than the transition from the flat surface 33a to the curved surface.

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before 33b the entry point 38.

The through the slot-shaped passage 26 flowing through Compressed air follows the curved surface 33b of the inlet point 38 and thus reaches the nozzle bore 25, whereby it sucks in air in the second "indicated by the arrows (FIG. 1). Although the The pistol according to the invention is primarily intended to serve as a compressed air pistol, it can, if it is in connection with a pipe, for example the one in FIG. 7 pipe 39 shown is used, which is filled with a material containing water, light oil or even an abrasive material Reservoir is connected to be used as an atomizer. Through the nozzle 39 is a in the Eohr Vacuum is generated, whereby material is sucked in and finely distributed in the nozzle bore in the compressed air flow will. It was found that the end 39a of the tube 39 only into the rounded inlet point 33 of the nozzle tube and must not be pushed into the nozzle tube itself, but always inward of the slit-shaped Passage 26 are sol]. The end 39a of the tube 39 is preferably only a short distance apart arranged from the slot at the front end of the inlet point 28. In order not to obstruct the secondary flow, the size of the tube 39 should be much smaller than the diameter of the nozzle mouth on the Section line 34-b.

When the gun is used for atomizing, the flow through the slot-shaped passage should not are divided and the nozzle bore 25 have the same cross section over its entire length (Fig. 7)

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This design of the nozzle is advantageous to av.ch if a slot prevents a return flight from being blown away Waste is not required and one needs a strong exhaust jet.

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Claims (10)

Expectations Compressed air gun, the handle part of which is connected at one end to a compressed air source its other end is provided with the outlet nozzle for the air flow and also a valve for Control of the air flow, characterized in that that the nozzle (24-) has a bore (25) extending from the nozzle mouth (28) to the outlet (30), provided with a rounded inlet point (38 ') at a point lying inwardly of the nozzle mouth is ; and that between the inlet point and the nozzle mouth (28) with the bore (25) and with the valve (17t "18) communicating slot-shaped passage (26) is provided. 2. Compressed air gun according to claim 1, characterized in that the gun is provided with means (31 * 32) which disperse the air flowing through the bore (25) when the outlet (30) is clogged. 3. Compressed air gun according to claim 1 or 2 _r characterized by a part of the handle part (11) forming a deflector body (12) which is arranged near the inlet (28) and which disperses air emerging from the nozzle mouth (28) when the flow reverses . ■ 4. Compressed air gun according to claim 2, characterized in that. the means of dispersing the air 309839/0434 one communicating with the bore (25) and transversely to this opening (5Ό arranged near the outlet). 5- compressed air gun according to one of the preceding claims, characterized in that the nozzle is in two parts is formed and the slot-shaped passage (26) is a around the bore (25) extending, is a slot disposed between opposing surfaces of these two parts. 6. Compressed air gun according to claim 5> characterized in that the slot is annular. 7- Compressed air gun according to one of the preceding claims, characterized in that the slot in a number of spaced apart segment-shaped sections is divided. 8. Compressed air guns according to one of claims 5 to 7 » characterized in that a spacer washer defining the width of the slot between the two nozzle parts (24, 34 ·) is arranged. 9. Compressed air gun according to one of the preceding claims, characterized in that the narrowest cross section, the inlet parts (33) the inlet side Cross section of the bore (25) corresponds; and that the slot-shaped passage on one side of one transversely to the bore (25) extending surface (33a) of larger cross-section than the outer end of the Inlet parts (38) and from the rounded surface 309 8 3 9/0434 (33t)) the inlet point (38) is limited. 10. Compressed air gun according to claim 1, characterized in that that the outlet section (29) of the bore (25) is reduced in cross-section and close to the connection point one of the outlet section (29) and the bore (25) opens into the bore in the transverse direction further outlet opening (31) is arranged through which exits part of the air flowing through the nozzle. 303339/0434