DE3934494A1 - Vehicle electromagnetically-actuated piston pump esp. for heater fuel - incorporates free intake in central aperture of annular pole piece carried on hollow cylindrical support - Google Patents

Abstract

In a cylindrical sleeve (1) bonded to the coil housing (2), a cylindrical support (3) for the annular magnetic pole piece (15) encloses an intake piston (4) dividing an intake space (22a) from a lifting space (22b) around a pressure piston (6). The latter is recessed (30) into the end of the intake piston (4) with a restraining spring (12). The pressure piston (6) enters a working cylinder (5) contg. inlet ports (32) for fuel drawn from the intake piston space. The final piston (34) incorporating a spring-loaded ball valve (9,10) is sealed into the working cylinder (5) with a packing ring (11). ADVANTAGE - Straightforward and magnetically efficient pump has simple but effective seal around free piston (4), is light in wt. and comprises smaller number of easily fabricated and replaceable components.

Description

The invention relates to an electromagnetically actuated Piston pump, in particular a fuel pump for standing heaters of vehicles and Like. According to the preamble of the main claim.

In the z. B. used in motor vehicles independent Heating units with diesel fuel or petrol as heating medium is an adjustable uniform and reliable Fuel delivery very important. For these purposes  different types of pumps, e.g. B. piston pumps, gear pumps, diaphragm pumps and. Ä., used. Most known are the piston pumps in which the piston is driven by the Armature of the electromagnetic circuit is operated, wherein the amount of fuel by piston stroke and by frequency given his strokes. These pumps are controlled by An connect the connector of your coil to the elec trical circuit of the mechanically operated breaker or the electronic pulse source.

An electromagnetic piston pump (DE 23 15 842), in which the coil of the electromagnet is stored in a pot-shaped jacket, which is the same timely the ferromagnetic part of the electromagnetic Circle that forms on the fuel supply side through a base forming the pole piece and a cover with the connecting piece and the seat of a closing valve closed is. On the side of the fuel displacement the housing is firmly connected to the body by soldering, in which a pressure valve and a pressure nozzle turned on screws and a sleeve are pressed. The real one The active pump part forms the anchor, with one of which Side of the piston is firmly connected and on the other Side a seal of the closing valve is housed. The reversible movement of the armature and thereby also the Piston in the rest position ensures a return feather. The armature is in the axis cavity of the coil body stored and the fuel is around it sucked because the outside diameter of the anchor is smaller than the diameter of the axis cavity of the coil former is. The tightness of the active part of the pump is thereby ensured that both on the body, as well as on  the profiled connection piece forming the pole piece trained and in the axis cavity of the bobbin are firmly pressed in, with a sealing pad between the base forming the pole piece and the cover the connecting piece is inserted.

A disadvantage of this piston pump is the design complexity, which is due to the large number of complications graced items is characterized. An essential one Another disadvantage is that the seal against fuel leakage is claimed in three places, which makes the possibility Leak occurrence increases and further this Seal forms a connection that cannot be disassembled, which makes repairs difficult. Furthermore, the electromagnetic Circle not optimal due to the relatively large air gaps, resulting in low magnetic efficiency and therefore leads to larger solenoids. After all, this one electromagnetic piston pump a large mass and one large space requirement.

The object of the invention is to construct a constructive simple electromagnetically operated piston pump with a higher magnetic efficiency, with a fold and effective seal of the cylindrical Support body compared to the floating and the Anchor-forming suction piston with a smaller mass and a reduced number of simple, easy ago adjustable and interchangeable parts.

This task is done with an electromagnetic piston pump according to the invention by the characterizing note solved the main claim.  

The cylindrical support body goes on the side of the Fuel entry into the cylindrical part, which is formed in one piece with the bottom formed from the outside of the connecting piece and from the inside the valve seat of the shut-off valve valve is formed, the inner diameter of the cylindrical support body at the same time the guide forms for the suction piston and on the outside diameter the forehead forming the pole piece is attached. On the Side of the fuel outlet is on the cylindrical Support body the recess for the storage of the seal trained ring.

The suction piston is through a body with polygonal Cross-section formed, in which the edges partially are twisted into a cylindrical part, this cylindrical part with minimal play through the inside diameter of the cylindrical support body and the coil is guided and the flow channels, which between the Surfaces, the remnants of the wall of the polygon with the inside knife of the cylindrical support body arise Allow fuel to pass.

The connection of the suction piston and the pressure piston is executed as pivotable, with a cylin in the suction piston derform depression is formed, in which the Pressure piston is freely stored, which with a counter pressing or provided with a ring on which the return spring supports the constant contact guaranteed between the suction piston and the pressure piston.

The fixed connection between the cylindrical sleeve  and the cylindrical support body is through the Ver press the deposit on the cylindrical sleeve ge forms because with regard to the application of you tungsringes this connection against the fuel ent softening need not be tight.

The advantage of the electromagnetic according to the invention Piston pump is that by training the integrated cylindrical sleeve to seal against Only one fuel leak for the whole pump Sealing ring must be used, which eliminates the Allows cover with the connecting piece. Furthermore, the diameter of the axis cavity of the cylindrical Carrying body and thereby also the total diameter of the cylindrical support body, the winding and the housing the coil can be reduced. That is also advantageous Pump noise reduction because of the entire cylindrical Carrier body can be made of plastic. The polygonal design of the suction piston increases the magneti efficiency and forms channels for the fuel flow through the pump. The rounding off the edges of the polygon, which is the surface of the suction piston forms, enables better guidance in the cylinder shaped cavity of the cylindrical support body. To Increasing the efficiency of the electromagnetic circuit also contributes to the valve seat coming off the floor of the cylindrical support body emerges when resting on the sealing element, which in the recess of the Suction piston is mounted, engages in this recess and thus ensures that the suction piston in this position engages enough in the opening of the pole piece. Advantage the pivoting design of the connection is also suitable  the suction piston and the pressure piston of the pump, which essential in maintaining functional reliability lower demands on manufacturing accuracy points.

Because the fixed connection of the cylindrical sleeve and of the bobbin case is done by pressing the elaborate solder connection avoided.

Overall, this pump arrangement enables on the one hand reducing their mass and further increasing their Operational reliability, improving the impact degree of the electromagnetic circuit and therefore also reducing the consumption of copper wire for the Coil winding. The pump version enables the Ver simplification of the technological manufacturing process. This pump runs with less noise during operation.

Further details and special features of the invention are realized in the illustrated embodiment light, the following based on the drawing is described. Show it:

Fig. 1 shows a pump in axial section.

Fig. 2 shows a cross section of the suction piston with part of the coil housing and the winding.

Fig. 3 shows a section through the sealing edge on the output screw, and

Fig. 4 shows a detail of the connection of the body and the jacket with the seal of the active part of the pump.

The electromagnetic piston pump according to FIG. 1 consists of a cylindrical sleeve 1 , which is firmly connected to a Spu lengehäuse 2 , from a cylinder-shaped supporting body 3 , a suction piston 4 and a pole piece 15th A part of the cylindrical support body 3 is provided with an excitation winding 14 . These components essentially form the electromagnetic circuit of the pump.

The cylindrical support body 3 has, on the side of the fuel inlet, a closed part formed by a base 23 , on which a connecting piece 24 is formed from the outside and a valve seat 25 of the shut-off valve is formed from the inside. The bottom 23 is provided with an opening 23 a . A suction chamber 22 a above the suction piston 4 is separated by the suction piston 4 from a displacement 22 b under the suction piston 4 . On the side of the fuel outlet, the cylindrical support body 3 is provided with an open end 26 , in which a bevel 27 for the mounting of a sealing ring 17 and further connecting plugs 16 for connecting the excitation winding 14 to a pulse source are formed.

The pole piece 15 is placed on the periphery 22 of the cylindrical support body 3 through its opening 15 a and inserted the housing 2 in a recess 28, wherein a hem is formed by Zerpressen the recess 28 29, which establishes a fixed connection of the electromagnetic circuit. The suction piston 4 is provided on the suction side with a recess 4 a, a sealing element is mounted for supporting the valve seat 25 on the bottom 13, which element in the support to the seal 13 in the recess 4 a largely engages. This enables the suction piston 4 in this position to be in a magnetically advantageous position with regard to the pole piece 15 . The suction piston 4 is formed on its circumference in cross section as a polygon, the edges of which are rounded symmetrically to the axis of the suction piston 4 . These edges can advantageously form part of the circular line with the center on the axis of the suction piston 4 .

A part of the pressure piston 6 engages in a cylindrical recess 30 of the suction piston 4 , which has on one end a support surface 31 on which a return spring 12 is supported, the pretensioning of which in the rest position makes permanent contact between the suction piston 4 and the pressure piston 6 manufactures. With its second end, the pressure piston 6 engages in the drilling of the working cylinder 5 , which is firmly pressed into the sleeve 1 . In the working cylinder 5 suction openings 32 are formed and up to this opening, the working cylinder 5 is limited in the outer diameter, whereby a circular ring 33 is formed, which allows the passage of fuel from the space of the suction piston 4 to the suction openings 32 .

The sleeve 1 has at least in part a polygonal cross-section and is offset at one end, this offset serving on the one hand for a firm connection to the housing 2 and further attached to it with its inner diameter of the support body 3 . At its second end, the sleeve 1 has a thread in part of its internal cavity, into which a stop 7 is screwed. The stop 7 forms with a part of the outer surface a piston 34 on which a groove for receiving the sealing ring 11 is formed. The piston 34 with the sealing ring 11 engages in the bore of the working cylinder 5 , the end face of the piston 34 serving as the stop surface of the pressure piston 6 . In the internally threaded part of the stop 7 , a screw 8 is screwed, whereby the check pressure valve is formed in cooperation with a ball 9 and a spring 10 . By screwing the stop 7 into the sleeve 1 , the stroke size of the pressure piston 6 can be changed and thereby the fuel quantity can also be regulated.

From Fig. 2, the polygonal profile of the suction piston 4 can be seen, which has symmetrical to the axis of the suction piston 4 rounded edges 37 , wherein 3 flow channels 18 are formed between the surfaces 19 of the polygon and the inner diameter of the cylindrical support body.

Fig. 3 shows a possible embodiment of the seal edge 20 on the screw. 8

From Fig. 4 shows a possible embodiment of the rigid connection of the barrel 1 with the housing 2 of the coil and the sealing of the pump against the fuel leakage can be seen.

On the cylindrical sleeve 1 , a paragraph is executed, the height of which is somewhat greater than the wall thickness of the housing 2 of the coil, as a result of which the seam 21 that arises after the compression ensures a mechanically firm connection of the two components. The sealing of the working part of the pump against the fuel leakage is carried out by means of the sealing ring 17 , which is clamped between the bevel 27 carried out on the open end 26 of the cylindrical support body 3 and the diameter of the cylindrical sleeve 1 .

The electromagnetic piston pump is started by connecting the connector 16 to the electrical circuit of the pulse source. When the current is fed into the inner winding of the excitation winding 14 , an electromagnetic field is formed, the force effects of which overcome the force of the return spring 12 and the suction piston 4 together with the pressure piston 6 move into the push-out position, the boundary of which forms the end face 35 of the piston 34 . The fuel enters the pump through the connection piece 24 and flows through the open shut-off valve, which is formed by the valve seat 25 and the processing element 13 , and further through the flow channels 18 around the suction piston 4 , through the annulus 33 and the Suction openings 32 in the pressure chamber 36 , which is limited by the inner diameter of the working cylinder 5 , by the end of the pressure piston 6 and by the end face 35 of the piston 34 . If the forehead of the pressure piston 6 covers the suction openings 32 , the fuel is pressed out with further stroke of the pressure piston 6 until it stops with the end face 35 through the opening in the piston 34 via the check valve into the screw connection 8 and further into the fuel circuit of the consumer . If the electrical current is interrupted and thereby erase the force effects of the electromagnetic circuit, the force of the return spring 12 returns the suction piston 4 together with the pressure piston 6 to the rest position, in which the check pressure valve and the shut-off valve are closed and the pressure chamber 36 with the fuel is filled. The size of the pressure chamber 36 and thereby also the amount of fuel delivered can be changed by screwing the stop 7 into the screw connection of the cylindrical sleeve 1 .

Claims (7)

1. Electromagnetically operated piston pump, in particular fuel pump for parking heaters of vehicles, consisting of

• a cylindrical support body with an excitation winding and a base which has a suction opening and a valve seat on the inside of the base,
• a suction piston forming the armature, which is movably mounted in the hollow cylindrical support body and has a sealing element and a throttle line,
• - One of the suction piston actuated positively and in the working cylinder of a printing unit ver slidably mounted pressure piston, and
• a pot-shaped housing for the field winding, the bottom of which is provided with an opening and is arranged on the circumference of the cylindrical sleeve,

characterized in that on the outer circumference of the hollow cylindrical support body ( 3 ) between its integrally molded upper end wall ( 23 ) and the excitation winding ( 14 ) an annular pole piece ( 15 ) is fixedly arranged, in the opening ( 15 a ) of which in the support body ( 3 ) floating suction piston ( 4 ) engages at least partially in each working position. 2. Piston pump according to claim 1, characterized in that the suction piston ( 4 ) on the suction side with the Ver recess ( 14 a ) is provided, on the bottom of which you processing element ( 13 ) for supporting the in the recess ( 4 a ) engaging valve seat ( 25 ) is mounted. 3. Piston pump according to claim 1 or 2, characterized in that the suction piston ( 4 ) is formed in one section as a polygon, the edges of which are rounded symmetrically to the axis of the suction piston ( 4 ). 4. Piston pump according to claim 1, characterized in that the housing ( 2 ) of the excitation winding ( 14 ) at its open end has a recess ( 28 ) for the pole piece ( 15 ) and a deformed hem ( 29 ) for the fixed connection of the pole piece ( 15 ) with the housing ( 2 ) of the excitation winding ( 14 ). 5. Piston pump according to claim 1 or 2, characterized in that the supporting body ( 3 ) on its open end ( 26 ) with the means for mounting the sealing element for sealing its displacement ( 22 b ) is provided. 6. Piston pump according to claim 5, characterized in that the open end ( 26 ) of the support body ( 3 ) on the inside with a chamfer ( 27 ) for the mounting of the sealing ring ( 17 ) is provided.