The invention relates to a device for monitoring a pneumatically actuated, reciprocating linear displacement pump.
The invention also relates to a system for monitoring a pneumatically actuated, reciprocating linear displacement pump.
The invention is particularly useful for monitoring paint-delivery pumps in applications of pumping or of extrusion, of metering, or of regulation of liquid or thick products intended to be pumped, delivered, regulated and deposited in continuous or intermittent flow rates.
In this kind of paint-delivery pump, the reciprocating linear displacement pneumatic motor is the source of the output pressure of the product.
The ratio of the sections of the piston of the reciprocating linear displacement pneumatic motor and of the piston of the pump gives the theoretical pressure ratio between the reciprocating linear displacement pneumatic motor and the paint-delivery pump.
This theoretical pressure ratio between the reciprocating linear displacement pneumatic motor and the paint-delivery pump therefore determines the product output pressure generated by the pump.
Reciprocating linear displacement pneumatic motors operate with the pneumatic power delivered by a pressurized air supply and are usually connected to an exhaust.
The movement of reciprocating linear displacement pneumatic motors may be controlled by an electromechanical system comprising two end-of-travel contactors connected to an air directional flow valve.
This high flow rate air directional flow valve directs the pressurized air alternately into the upper chamber or the lower chamber of the motor in order to cause the piston to descend or rise, while exhausting the air expelled from the other chamber, the lower or upper chamber, of the motor.
Other techniques for controlling reciprocating linear displacement pneumatic motors, manufactured by the French company KREMLIN REXSON, have different systems of controlling the inversion of the motor: with differential motor, with inverter block, with flip-flop switch.
All these known systems for controlling the reversal of direction of reciprocating linear displacement pneumatic motors cause the piston to rise or fall by directing the pressurized air in an alternating manner in the upper chamber or the lower chamber of the motor in order to cause the piston to fall or rise, while exhausting the air expelled from the other chamber, the lower or the upper chamber, of the motor.
Monitoring devices are known for reciprocating linear displacement pneumatic motors driving pumps.
Document WO 2007/016151 A2 describes a method for controlling a pump actuated by compressed air, using a magnet mounted in the spool of the directional flow valve of the pneumatic motor and two magnetic sensors mounted in the cover of the directional flow valve in order to observe the speed and the position of the spool in this directional flow valve.
A first object of the invention is to develop the known prior art by proposing a new device for monitoring a pneumatically actuated, reciprocating linear displacement pump, that is unaffected by magnetic interference.
A second object of the invention is to propose a new device for monitoring a pneumatically actuated, reciprocating linear displacement pump, that is economical to manufacture, easy to maintain and simple to use.
A third object of the invention is to propose a new system for monitoring a pneumatically actuated, reciprocating linear displacement pump, that is immediately understandable and simple to use.
The subject of the invention is a device for monitoring a pump for a liquid or pasty product such as a paint, said pump being a pneumatically actuated, reciprocating linear displacement pump, the pneumatic actuation being provided by a pneumatic motor, the device comprising sensor means for sensing the pneumatic pressure of the pneumatic motor, means for transmitting the signal representative of the sensed pneumatic pressure of the pneumatic motor, and means for managing the pump for liquid or pasty product, with pneumatic actuation and with reciprocating linear displacement, based on the transmitted signal representing the sensed pneumatic pressure of the pneumatic motor.
According to other alternative features of the invention:
A further subject of the invention is a system of a pump for a liquid or pasty product such as a paint, said pump being a pneumatically actuated, reciprocating linear displacement pump, the pneumatic actuation being provided by a pneumatic motor, the system comprising means for sensing the pneumatic pressure of the pneumatic motor, means for transmitting the signal representative of the sensed pneumatic pressure of the pneumatic motor, and means for managing the pump for liquid or pasty product, with pneumatic actuation and with reciprocating linear displacement, based on the transmitted signal representing the sensed pneumatic pressure of the pneumatic motor.
According to other alternative features of the invention:
The invention will be better understood by virtue of the following description given as a nonlimiting example with reference to the appended drawings in which:
With reference to
The sensor means 2 for sensing pneumatic pressure advantageously comprise a single pressure sensor making it possible to measure the pressure of the upper chamber 1a of the pneumatic motor 1.
The pneumatic pressure sensor is situated outside the pneumatic motor 1 in this example.
The invention also covers the variant not shown according to which the pneumatic pressure sensor is situated inside the pneumatic motor 1.
The means 3 for transmitting the signal representative of the sensed pneumatic pressure preferably transmit an electrical signal representative of the sensed pneumatic pressure to means 4 for managing a pneumatically actuated, reciprocating linear displacement pump.
The means 4 for managing a pneumatically actuated, reciprocating linear displacement pump comprise a clock or a counter capable of generating at least one timing chart representative of the change in the sensed pneumatic pressure on the basis of the transmitted signal representative of the sensed pneumatic pressure.
The invention applies to the monitoring of all known systems for controlling the reversal of direction of reciprocating linear displacement pneumatic motors driving a delivery pump which cause the piston to rise or fall by directing the pressurized air alternately into the upper chamber or the lower chamber of the motor in order to cause the piston to fall or rise, while exhausting the air expelled from the other chamber, the lower or upper chamber, of the motor.
In
Based on the pressure measurement carried out in the chamber of the reciprocating linear displacement pneumatic motor 1, the system according to the invention for monitoring a reciprocating linear displacement pneumatic motor 1 computes the frequency of the piston of the motor 1 in order to deduce therefrom by computation the flow rate of the paint-delivery pump, and computes the value of air pressure in the motor 1 in order to deduce therefrom by computation the pressure of the paint at the output of the delivery pump.
In this kind of paint-delivery pump, the reciprocating linear displacement pneumatic motor that is the source of the output pressure of the product sustains a resistant force of the paint-delivery pump as a function of the product output pressure generated via the pump.
The regular reciprocating timing chart of
In
In this kind of paint-delivery pump, the reciprocating linear displacement pneumatic motor that is the source of the product output pressure sustains a resistant force of the paint-delivery pump as a function of the product output pressure generated by the pump.
The irregular reciprocating timing chart of
This effective detection of a substantial reduction in the cycle time of the pump reflects a racing of the pump, which may for example originate from an unpriming of the pump, or of a cavitation problem.
In
In this kind of paint-delivery pump, the reciprocating linear displacement pneumatic motor that is the source of the product output pressure sustains a resistant force of the paint-delivery pump as a function of the product output pressure generated by the pump.
The irregular reciprocating timing chart of
This effective detection of a change, in which the discharge time T1 of the pneumatic pressure P is greater than the suction time T2 of the pneumatic pressure P originates from a leakage of the top paint-delivery valve element of the paint-delivery displacement pump.
In
In this kind of paint-delivery pump, the reciprocating linear displacement pneumatic motor that is the source of the product output pressure sustains a resistant force of the paint-delivery pump as a function of the product output pressure generated by the pump.
The irregular reciprocating timing chart of
This effective detection of a change, in which the discharge time T1 of the pneumatic pressure P is less than the suction time T2 of the pneumatic pressure P, originates from a leak of the paint-delivery bottom valve element of the paint-delivery displacement pump.
A first variant of a system according to the invention for monitoring a reciprocating linear displacement pneumatic motor 1 driving a paint-delivery pump advantageously comprises means for measuring, over several periods, the pneumatic pressure signal, and means for testing and validating this measurement only if the frequency of the signal is constant.
A second variant of a system according to the invention for monitoring a reciprocating linear displacement pneumatic motor 1 driving a paint-delivery pump advantageously comprises means for testing and validation by learning. In the event of change of nozzles 8 on the spray gun 6 of a paint-delivery pump, the monitoring system according to the invention repeats this learning.
The two variants of monitoring systems according to the invention for a reciprocating linear displacement pneumatic motor 1 driving a paint-delivery pump make it possible to avoid incorrect detections of leaks or errors in computing flow rate during a phase of priming or of rising to full tone, or during a normal working use by “triggering” touches.
Each system according to the invention for monitoring a reciprocating linear displacement pneumatic motor 1 therefore records the frequency of the signal which will be used as a reference for filtering the periods of priming or of rising to full tone, or of working by “triggering” touches.
By virtue of the invention, a single pneumatic pressure sensor of a chamber of a reciprocating linear displacement pneumatic motor 1 driving a paint-delivery pump makes it possible to compute the frequency of the piston of the pneumatic motor for the purpose of detecting racing, wear, or cavitation of the paint-delivery pump, to test whether the fall time of the piston is greater than the rise time for the purpose of detecting a leak of the top valve element of the paint-delivery displacement pump, to test whether the rise time of the piston is greater than the fall time for the purpose of detecting a leak of the bottom valve element of the paint-delivery displacement pump, to compute flow-rate values in different units, and to compute the output pressure of the pumped product.
The invention described with reference to particular embodiments is not limited thereto in any way, but on the contrary covers any modification of form and any variant embodiment in the context and the spirit of the invention.
Number | Date | Country | Kind |
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11 50644 | Jan 2011 | FR | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FR2012/050158 | 1/24/2012 | WO | 00 | 3/18/2013 |
Publishing Document | Publishing Date | Country | Kind |
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WO2012/101379 | 8/2/2012 | WO | A |
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Number | Date | Country | |
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20130189122 A1 | Jul 2013 | US |