Pumps – Ambulant – body supported – or with carrying handle
Reexamination Certificate
2002-05-15
2004-08-10
Freay, Charles G. (Department: 3746)
Pumps
Ambulant, body supported, or with carrying handle
C417S521000, C417S539000
Reexamination Certificate
active
06773238
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a device for pumping high delivery volumes of a liquid, with at least two pumps each forming a single structural unit, which are on the delivery side jointly hooked up to a pressure line, and coupled to a single drive.
Such pumps are used when testing and cleaning pipelines. To test pipelines, they are checked for tightness by “stressing”. In this case, a liquid, e.g., water, is pumped into the pipelines under a pressure exceeding that of the medium to be conveyed in the pipeline during operation. If the pipeline inspected in this way stays tight under a higher test pressure, it is assumed that it will also remain so during operation at a pressure lower than the test pressure.
The length of the section that can be checked during the process of stressing depends on the amount of liquid that can be introduced into the pipeline. The higher the quantity of liquid that can be pumped into the pipeline at the desired pressure, the greater the length of the section that can be checked. The greater the length of the individual sections, the lower the number of stressing processes required for checking a given pipeline section, and the lower the costs associated with inspecting this pipeline section.
Known from practice is a device in which several pumps that respectively form a structural unit are jointly hooked up to a pressure line on the delivery side. This enables a high overall delivery volume for the device in the sum of individual delivery volumes for the individual pumps.
In the known device, high-pressure pumps with as high an odd number of cylinders are used. This makes it possible to minimize the pulsation of conveyed liquid by adjusting the pump stroke of the individual cylinders to each other in such a way that the pulsations resulting from the individual pump strokes mutually reduce or cancel each other out.
As a whole, the known device consists of three modules, a drive unit, a first pump unit and a second pump unit. The individual pumps of the known device are driven by the shared drive. A power divider coupled to the drive shafts of the pumps is connected to the drive. In this case, two pumps are arranged on a shared drive shaft in the first pump unit, while only one pump is provided in the second pump unit.
It has been shown in practice that this device is inconvenient due to the high number of modules and associated space requirement. Pipelines are respectively stressed on site at the individual segments of the pipelines. To this end, the device must be transported to the individual sections of the pipeline. In the known device, this is done by dismantling the device into its individual modules and transporting it module by module to the site.
SUMMARY OF THE INVENTION
The object of the invention is to further develop the known device described in greater detail above in such a way as to provide an easily transported and space-saving device.
This object is achieved in a device of the kind indicated at the outset by positioning at least one of the pumps in a plane spaced vertically apart from the plane in which the respective other pump is located. The vertically spacing makes it possible to stack the individual pumps one atop the other, significantly economizing on space. In addition, the invention makes it possible to combine the individual aggregates of the device into modules. These can simply be transported to the respective site and there be set up in a space-saving manner.
The driving power of the shared drive is preferably distributed to the drive shafts of the individual pumps by a power divider. In this case, it is best if each plane has allocated to it a power divider via which the pumps assigned to this plane are coupled with each other on the drive side, and the power dividers are additionally coupled together, so that the pumps can be connected to the shared drive by one of the power dividers.
In a special embodiment of the invention, the planes can run parallel to each other, and the power divider allocated to one plane can be coupled with the power divider of the other plane by a shaft running perpendicular to the respective plane.
One preferred embodiment of the invention exhibits three pumps, of which two are situated in one plane, and the third is positioned in the plane situated at a vertical distance thereto.
The device is especially easy to transport if their individual parts are accommodated in a casing, whose size corresponds to the dimensions of a standard container, e.g., an ISO 20″ container.
A device of the kind described in the invention optimized to minimize pulsation as much as possible is characterized by the fact that the pumps are coupled with the drive in such a way that each of them executes a pump stroke relative to the respective other pumps shifted by a specific, fixed time interval. In this embodiment, the pump strokes of the individual pumps are harmonized in such a way as to largely avoid a pulsation in the pressure line. Devices according to the invention set up in this way require no more pulsation dampers, and are particularly suitable as devices for stressing pipelines due to the achieved lack of pulsation, and because they are easy to dismantle and transport given the structural distribution of the device according to the invention over several vertical planes. This embodiment of the invention can here be realized in a simple manner by coupling the pumps with the drive by means of a crankshaft, wherein the stroke journals are uniformly distributed around the rotational axis of the crankshaft.
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patent: 2 482 206 (1981-11-01), None
patent: 24 047 (1909-10-01), None
patent: 2 101 231 (1983-01-01), None
Freay Charles G.
KAMAT-Pumpen GmbH & Co. KG
Proskauer Rose LLP
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