The disclosure relates to a modular pump system.
This section provides background information related to the present disclosure which is not necessarily prior art.
This modular system is intended to render it possible, by means of few but fundamental common features of the pumps, to produce and to test the pumps in large quantities in a cost-effective manner on a partly or fully automated assembly machine that has limited flexibility. The pumps are reciprocating pumps having an energized electromagnetic drive, said reciprocating pumps being embodied as feed pumps that place small demands on the precision of the quantity being delivered per stroke of the piston or as metering pumps that place high demands on the precision of the quantity being delivered per stroke of the piston.
Reciprocating pumps having an energized electromagnetic drive are known for example from the publication DE 4328621A1. The publication DE 10 2008 055 610 A1 discloses a family of reciprocating pumps and the publication DE 10 2011 111 938 B3 discloses a reciprocating pump having a pump component in cartridge form. The utility patent DE 20 2013 011 666 discloses a reciprocating pump having connecting components that can be plugged in. A modular system for electromagnetically actuated valves is disclosed in the publication DE 10 2005 058 846 B4.
It is not possible to produce the known reciprocating pumps together on an assembly machine that has limited flexibility; high setup costs and considerable downtimes would be incurred if it is necessary to fit the machine for assembling another component. The family of reciprocating pumps in accordance with the publication DE 10 2008 055 610 A1 also does not fulfill the requirements since within this family it is only possible to alter the piston displacement but not the structural shapes.
This section provides a general summary of the disclosure, and is not a comprehensive disclosure of its full scope or all of its features.
A modular system of reciprocating pumps is to be designed in such a manner that all components of these reciprocating pumps can be assembled and tested in a cost-effective manner on an assembly device that has limited flexibility.
The pumps are connected using two connectors to an intake line and an outlet line.
The pumps comprise the following common features:
Client-specific connecting variants are predominantly achieved in the magnetic part, namely various plug embodiments and where appropriate various embodiments of the intake connection.
Various constructions of the pump function are achieved in the pump part, namely:
Naturally, constructions having other combinations of these features are also possible. ln order to facilitate the assembly on a flexible assembly device, the geometric interface between the pump part and the magnetic part are also embodied in an identical manner, in particular the cylinder surfaces for receiving the pump part and the stop surface for delimiting the insertion path are standardized, the closing arrangement on the side of the outlet connection is in part standardized by means of a cover. The sealing arrangement of the pump part with respect to the magnetic part is achieved either by means of a pole pipe or by means of a membrane. If a membrane is used, an intermediate ring is also used in order to position the pump cylinder. In addition, standardized O-rings are used on the connection side sealing arrangement. The outlet connection is either part of the cover or part of the pump part that penetrates through the cover.
The intake connection is either part of the magnetic part or part of the pump part that penetrates through the magnetic part.
The modular system in accordance with the disclosure is used in order to assemble different feed pumps and metering pumps for fuels or aqueous reagents on a common assembly machine that has limited flexibility.
The drawings described herein are for illustrative purposes only of selected embodiments and not all possible implementations, and are not intended to limit the scope of the present disclosure.
Example embodiments will now be described more fully with reference to the accompanying drawings.
The modular pump system includes electromagnetically actuated reciprocating pumps of different constructions (I, II, Ill), wherein the reciprocating pump comprises a magnetic part (1), a pump part (9), which is connected by way of a connecting site (32) and is arranged predominantly in the interior of the magnetic part (1), and a cover (34).
The magnetic part comprises a magnetic coil (5), a magnetic flux-conducting support (7) and a brace (8), and is injection molded with synthetic material.
The pump part (9) comprises a pole (12) having a control cone (6), a pole pipe (30), an armature (3), a cylinder (36) and a displacement piston (10) that is pushed or pulled by the armature in a longitudinal direction, said displacement piston being returned by a resilient element (11) into the, in each case, other longitudinal direction if the armature is not energized.
The reciprocal movement of the armature (3) is caused by means of a linked magnetic flux that is generated by means of the magnetic coil (5) and is guided by means of the support (7), the brace (8), the pole pipe (30), the armature (3) and the pole (12).
The magnetic part (1) is an assembly that can be pre-assembled and tested whose connecting site (32) to the pump part (9) comprises a predetermined connecting contour with which it is possible to connect pump parts of the modular system for various constructions.
The pump part (9) is an assembly that can be pre-assembled and can be tested with regard to its displacement volume and if it also includes all necessary valves, it can be completely tested.
The magnetic part (1) comprises in the case of all reciprocating pumps of the modular pump system identical or geometrically similar connecting surfaces (15), (16) for receiving the magnetic part in a holding device (17).
The pump part (9) also comprises in the case of all reciprocating pumps of the pump modular system identical or geometrically similar receiving surfaces (18) for receiving the pump component in a not illustrated holding and attaching device (28) whose receiving contour corresponds at least in sections to the inner contour of the magnetic part.
The pump part (9) in a preferred embodiment comprises at least two stepped outer diameters (13), (13′) that are identical for all constructions and the magnetic part (1) comprises at least two stepped inner diameters (14), (14′) that are tailored to suit said outer diameters.
The pump part (9) is effectively sealed in a predominantly radial direction by means of a pole pipe (30) or by means of a membrane (31), wherein the pole pipe also has the function of receiving the pole (12) and guiding the armature (3). If a membrane (31) is used, an intermediate ring (33) assumes the function of receiving the pole and produces the connection to the pole pipe.
The magnetic part (1) is closed by means of a cover (34) that also holds the pump part (9) in an axial direction in a secure manner and preferably includes a connection of the outlet, wherein the cover (34) is embodied from synthetic material and is connected in a materially-bonded manner to a synthetic material injection molding (35) of the magnetic part (1), preferably by means of welding.
The pump part (9) of the modular pump system comprises a first control valve (19) and preferably a second control valve (20) or (25) that are controlled by the fluid flow that is conveyed and/or the displacement piston (10) of the pump part, wherein the first control valve (19) connects a first displacement chamber (21) to a second displacement chamber (22). If the second control valve (20) or (25) is not part of the assembly pump part, said second control valve is arranged in the magnetic part (1) or in the cover (34).
The pump part (9) of the modular pump system comprises in a construction (II) or a construction (III) in accordance with the drawings in
The pump part (9) of the modular pump system comprises in a construction (I) in accordance with the drawing
The pump part of the modular pump system comprises in a construction (II) in accordance with the drawing
The pump part of the modular pump system comprises in one construction (I) in accordance with the drawing
The armature (3) of the modular pump system in the construction (I) in accordance with the drawing
The armature (3) of the modular pump system in the construction (Ill) in accordance with the drawing
In the construction (I) of the modular pump system in accordance with the drawing
In the construction (III) in accordance with the drawing
The foregoing description of the embodiments has been provided for purposes of illustration and description. It is not intended to be exhaustive or to limit the disclosure. Individual elements or features of a particular embodiment are generally not limited to that particular embodiment, but, where applicable, are interchangeable and can be used in a selected embodiment, even if not specifically shown or described. The same may also be varied in many ways. Such variations are not to be regarded as a departure from the disclosure, and all such modifications are intended to be included within the scope of the disclosure.
Number | Date | Country | Kind |
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10 2014 013 665.5 | Sep 2014 | DE | national |
This application is a National Stage of International Application No. PCT/EP2015/001808, filed on Sep. 8, 2015, and published in German as WO 2016/041623 A1 on Mar. 24, 2016. This application claims the priority to German Application No. 10 2014 013 665.5, filed on Sep. 16, 2014. The entire disclosures of the above applications are incorporated herein by reference.
Filing Document | Filing Date | Country | Kind |
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PCT/EP2015/001808 | 9/8/2015 | WO | 00 |