DE1918757B2 - AUTOMATICALLY CLOSING FILLING GUN - Google Patents

Description

The invention relates to an automatically closing nozzle for dispensing liquids, in particular liquid fuel from a dispensing hose, in which the liquid flow through the nozzle in one Air supply pipe, the opening of which rests against the end of the nozzle nozzle, an induced draft which sucks air through the pipe until its opening is immersed in the liquid of the finally filled container is closed, so that as a result of the resulting negative pressure Closes the nozzle and stops the flow of liquid through the nozzle, one arranged at the end of the nozzle nozzle when the nozzle is inserted into a Container nozzle against spring pressure retractable grommet for a closure of the air line provides for as long the nozzle nozzle is not inserted into the container neck.

A fuel nozzle of this type is disclosed in US Patent No. 88,179. The closure of the air line is effected there directly by a part of the displaceable nozzle which covers the inlet opening of the air line located in the mouthpiece wall.

Dispensing nozzles in such a design have the disadvantage that when the dispensing is automatically terminated, some liquid always penetrates into the air line, which not only results in a small loss of liquid, but is also dangerous when the liquid is flammable. This disadvantage has already been countered with a suggestion made by DT-AS 10 72 902, in which a freely movable ball is arranged between a seat and a detent in the air supply tube arranged in the mouthpiece, the ball being obviously lighter than the one to be dispensed Liquid, the tube closes as soon as the end of the mouthpiece is immersed in the liquid.
ίο The prior art is also to include US-PS 3148 713, which discloses how an electrical contact is switched on the fuel nozzle by means of a magnet insert in the tank nozzle.

The invention is based on the object of designing a fuel nozzle of the type mentioned at the outset with little structural effort so that it is only operational when it is inserted into a tank nozzle and that liquid which has penetrated into the air line cannot be lost.
This object is achieved according to the invention in that in front of the end of the air line located in the mouthpiece of the fuel nozzle, a freely movable closure body made of ferromagnetic or permanent magnetic material is arranged in a chamber, and a permanent magnet is provided on the displaceable spout, which the closure body when not pushed back Holds the spout in the closed position in front of the end of the air line.

The further development of the subject matter of the invention emerges from the subclaims.

The advantages achieved by the invention are the simplicity of the construction with which the desired Properties of the nozzle can be reliably achieved.

Embodiments of the invention are shown in the drawing and will be described in more detail below described. It shows

Fig. 1 is a side view of a fuel nozzle according to the invention,

FIG. 2 shows a longitudinal section of the mouthpiece of the FIG. 1 nozzle shown before inserting it into a Container nozzle,

3 shows a longitudinal section as in FIG. 2, but after it has been inserted into the container nozzle,
F i g. 4 shows a section along the line 4-4 in FIG. 2,

F i g. 5 shows a section along the line 5-5 in FIG. 2,

6 is a side view of the mouthpiece part of a further embodiment of the fuel nozzle according to the invention,

F i g. 7 is a front view of the FIG. 6 mouthpiece part shown,

F i g. 8 shows a longitudinal section of the FIG. 6 and 7 mouthpiece parts shown, similar to FIG. 2,

F i g. 9 shows a longitudinal section of the FIG. 6 and 7 shown mouthpiece parts, similar to FIG. 3,

F i g. 10 shows a section along the line 10-10 in FIG. 8th, F i g. 11 shows a section along line 11-11 in FIG. 10,

12 shows a longitudinal section of a mouthpiece of a further embodiment according to the invention Fuel nozzle, similar to FIG. 2 and

13 shows a longitudinal section of the mouthpiece shown in FIG. 12, similar to FIG. 3.

1-5 show a fuel nozzle 10 consisting of a housing 12 with a mouthpiece 14 with an outlet end 16. With the housing 12 is a liquid line, e.g. B. is connected to a gasoline line 18 by means of a connecting part 20 . The flow of gasoline through the inside of the case is through a

Dispensing valve (not shown) controlled which is connected to a lever 22 which is pivotable on the Housing is hinged. The flow of liquid through the nozzle takes place in an air line 24 which is located on the Mouthpiece i4 has an inlet opening 34, a suction / ug that sucks air through the line until the opening thereof by dipping into the liquid of the finally filled up to the level of the filling port 58 Container is closed, so that the closing of the nozzle due to the resulting negative pressure is initiated in a known manner.

The fuel nozzle 10 according to FIGS. 2-5 has a ferromagnetic closure body 28 in the form of an in a channel 32 of a chamber 30 freely movable steel ball, which is used to close and open the Air line 24 is provided.

On the nozzle mouthpiece there is one which interacts with a ring 54 against the pressure Coil spring 52 retractable grommet 36, which consists of a sleeve part 38 and a conical part 40 the thread with the sleeve milteJs 42 connected is. A first cylindrical segment 44 of the sleeve is displaceable on the mouthpiece 14 and a second cylindrical segment 46 is arranged eccentrically with respect to the mouthpiece (FIG. 4). the Spout 36 can assume a front position (see FIG. 2) and a rear position (see FIG. 3). The sleeve part 38 has a slot 48 into which a pin 50 attached to de.n mouthpiece 14 is fitted so that forward and rearward movement is limited and orientation of the spout 36 is maintained.

A permanent magnet 56 is attached to the sleeve part 38 between the segments 44, 46. This Permanent magnet 56 has a sufficient field strength to attract the ferromagnetic ball 28, as soon as the grommet 36 is in the front position. When the grommet is in the position shown in Fig.2 is located, the ferromagnetic ball 28 is attracted by the permanent magnet, so that the air line 24 is closed. Their closure prevents further actuation of the nozzle. As soon so if the spout 36 is in its front position on the mouthpiece 14, the nozzle is not ready for use.

If you want to fill liquid in a container, then the mouthpiece 14 z. B. in the opening 60 of the Filling nozzle 58 introduced. The conical part 40 of the grommet 36 abuts against the nozzle edge on the opening 60 and the further introduction of the mouthpiece into the opening leads to the spout in its rear Position is pushed against the action of the spiral spring 52. With this shift it moves the permanent magnet 56 away from the ferromagnetic ball 28, with the magnetic force that the ball is attached to the opening 26 of the air line 24 holds decreases.

Finally, gravity prevails and the ball rolls into the position shown in FIG. 3 position shown. It can then Air will enter the air line, making the nozzle ready for use.

The dispensing process begins as soon as the lever 22, which opens the dispensing valve, is actuated. As soon as however the rising liquid in the container closes the opening 34 in the mouthpiece, no more air can enter the line 24 are sucked in and the nozzle is then automatically switched off.

When the nozzle of the filling nozzle is pulled out of the opening 60, the spiral spring pushes 52 the spout 36 in its front position on the mouthpiece.

The permanent magnet 56 then attracts the ferromagnetic ball 28, whereby the opening 26 of the Air line 24 is closed.

If the nozzle has not already been switched off by releasing the lever 22, the automatic operation takes place Shutdown by increasing the negative pressure in the air line 24.

The fuel nozzle 10 has a vapor removal system 62 which is not the subject of the invention. This system removes the vapors displaced during the tapping process. It shows a suction conduit 64 having an open end portion 66 which is adjacent to the outlet end 16 of the mouthpiece 14 lies. The suction force acts so that the existing vapors displaced by the rising liquid can be withdrawn during the tapping process. The ring 54 on the mouthpiece 14 has a number of Openings 68 and acts as a spacer between the mouthpiece and suction line 64. There is thus a Connection between the suction line 64 and the filler neck 58 via the openings 68 and via a A pair of circular channels 70 formed by the segments 44, 46 of the sleeve part in the sleeve parts the spout 36.

The suction line 64 is in communication with a Dam.pfentfernungssystem 62, which is on the fuel nozzle is connected (see Fig. 1).

The F i g. 6-11 show another embodiment the invention. The fuel nozzle 100 has a closure body 102 which is in the outlet end 16 of the Mouthpiece 14 is arranged in a chamber 104. The closure body 102 consists of an elongated one Permanent magnet 106 and a housing or casing 108 and is designed and arranged so that it moves inside a channel 110 in chamber 104, closing and opening the Opening 26 of the air line 24 can perform. A side opening 112 is provided in the fitting, which communicates with the inlet opening 34 in the mouthpiece.

The fuel nozzle 100, like the embodiment according to FIGS. 2-5, has a nozzle 114 which consists of a cylindrical sleeve part 116 and a conical Part 118 consists, which are connected via a thread 120. As in particular in FIG. 7 shown is, the sleeve 116 surrounds the mouthpiece 14 and has a offset arranged part 122, which has a longitudinal bore 124 in which an elongated Permanent magnet 126 is arranged with north pole and south pole ends.

The spout 114 can be displaced between a front and a rear position on the mouthpiece 14. the cylindrical sleeve 116 has a slot 128 for receiving a pin 130 on the mouthpiece and for limiting forward and rearward movement and orientation with respect to the spout 114 provides. Between the nozzle end and a ring 134 which is attached to the mouthpiece 14, a spiral spring 132 is arranged, which holds the grommet in the starting position or returns it.

The Fi g. 10 and 11 show the closure body 102. The north pole end of its permanent magnet 106 faces the opening 26 of the air line 24 and closes this when the spout 114 is in the front position on the mouthpiece 14.

The housing or the envelope 108 of the closure body 102 has four flat sides 136, which to longitudinally oriented spaces 138 between the

Lead closure body 102 and the channel 110 in the chamber 104. The middle part 139 of the Sheath 108 is designed to be recessed. If now the closure body 102 is the end of the line 24 releases, air can enter the line via the spaces 138, the recessed part 139, the side opening 112 and the Inlet opening 34 are sucked in.

The elongated permanent magnet 126 on the spout 114 and the elongated permanent magnet 106 of the closure body are arranged with the same polarity immediately adjacent to the outlet end of the mouthpiece 14, 8 and 9, the south poles of both magnets are in the immediate vicinity of the outlet end. Thus, when the mouthpiece is not in the tap position, the spout 114 is in its forward position (see FIG F i g. 8) pressed, d. H. the magnetic forces of the same poles of both magnets lead to one Repulsion of the two magnets from one another until the south pole of the permanent magnet 126 is attracted and so that the opening of the air line is closed.

During operation, after the filling nozzle 100 has been inserted into the opening 60 of the filler neck 58 of the The neck edge presses against the conical part 118 of the spout 114. The further insertion of the mouthpiece in the opening then leads to the grommet being in its rear position against the force of the spiral spring 132 is pushed. The permanent magnet 126 is then located in the position shown in FIG. 9 situation shown in the the opening of the air line 24 is released and the fuel nozzle is ready for use.

This embodiment of the fuel nozzle 100 also has a vapor removal system 62, which however is not the subject of the invention. The vapors displaced during the tapping process flow into the Suction line 64 through a number of openings 142 in the spout 114 and openings 140 in the ring 134 and are, as in connection with the embodiment according to FIGS. 1 to 5 described, deducted.

The Fi g. 12 and 13 show a further embodiment of a filling nozzle 150. This is basically correct with the nozzle 100 of Fig. 6-11, with Except for the design of the closure body and the chamber receiving it. The closure body Here 156 is a ball that can move freely inside a channel 158. The part containing the channel 158 additionally has an L-shaped bore 160, which at one end with the air line 24 and at its other End is connected to the channel 158. The L-shaped bore 160 forms an extension of the air duct 24, which thereby opens into the channel 158 at 162.

The function of the fuel nozzle 150 is similar to that of the fuel nozzle 10, with the exception that the ferromagnetic ball 156 is always under the action of the permanent magnet 126 as soon as the spout is moved between the anterior and posterior layers. When the grommet is in the position shown in FIG. 12 position shown is located, the ferromagnetic ball covers the opening 162 of the air line and prevents a Sucking air into the pipe. This prevents the nozzle from being operated. If the However, the nozzle is inserted into the opening 60 of the filler neck 58, as shown in FIG. 13, the pulls Permanent magnet 126 removes the ferromagnetic ball 156 from the opening 162, whereby the operational readiness ι is established.

For this purpose 2 sheets of drawings

Claims (3)

Patent claims: I. Automatically closing nozzle for dispensing liquids, especially liquid fuels, from a nozzle, in which the flow of liquid through the nozzle in an air supply pipe, the opening of which is at the end of the nozzle mouthpiece, causes an induced draft that sucks air through the pipe for so long , until its opening is closed by dipping into the liquid wedge of the finally filled container, so that as a result of the resulting negative pressure, the closing process of the nozzle is initiated and the flow of liquid through the nozzle is terminated, with one at the end of the nozzle mouthpiece when the nozzle is inserted A spout which can be pushed back into a container nozzle against spring pressure ensures a closure of the air line as long as the nozzle nozzle is not inserted into the container nozzle, characterized in that in front of the end of the air line (24) located in the mouthpiece (14) of the nozzle (10) a closure body (28, 102, 156) made of ferromagnetic or permanent magnetic material and made of ferromagnetic or permanent magnetic material is arranged in a chamber (30, 104) , and a permanent magnet (56, 126) is provided on the displaceable spout (36,114) holds the closure body in the closed position in front of the end of the air line (24) when the spout is not pushed back. 2. Dispensing nozzle according to claim 1, characterized in that the movable closure body is a ball (28, 156) made of ferromagnetic material. 3. Dispensing nozzle according to claim 1, characterized in that the movable closure body is an elongated permanent magnet (106) provided with a casing (108) .