DE4221286A1 - Automatic switching device for motor-pump unit - uses sensor to detect overpressure at output of pump to operate microswitch - Google Patents

Abstract

The automatic switching device uses a sensor (14) coupled directly via a connection line (9) to the exit line (2) of the pump so that it responds to an over-pressure in the exit line and operates a microswitch (15) lying in series with the main switch (16) in the current circuit of the pump motor. Pref. the sensor has a chamber (10) containing an axially sliding piston (11), which is displaced against a spring bias, in dependence on the press at the output side of the pump. USE - Automatic ON-OFF switching of motor/pump unit in high pressure, jet cleaning machine.

Description

The invention relates to a device for automatic switching on and off of a motor pump Unit for water cleaning machines.

The most common use of these machines is seeing usually the use of a mouthpiece with a suitable one Nozzle in front and is by means of a sufficiently long Hose to give the user sufficient freedom of movement allow connected to the pump.

The structure provides that the motor-pump unit so installed and left that the length of the Hose ensures the necessary freedom of movement. The Mouthpiece is usually with a locking and / or Provide a control element that allows the user the regulating and / or exiting water jet interrupt.

Versions are known in which automatic Devices when the water jet is interrupted Open valve at pump outlet; this makes it  Pour water back into the intake water. Naturally the motor-pump unit works even when it is interrupted of the water jet, since the unit can only be Switch can be turned off.

On the other hand, most of the operating conditions demand frequent turning on and off of the water jet, what a constant switching on and off of the unit extremely uncomfortable and often even unreasonable. Therefore in In the majority of cases, the engine is constantly started, too to save time and this is possible thanks to the Device that uses the pouring water for pump suction returns.

However, this is not necessarily the best solution from both Aspect of energy consumption, as well as from Aspect of economical use of the machine, which are certainly exposed to greater wear and tear which in no way corresponds to the real operating time.

The invention pursues the following claims Target the disadvantages and shortcomings of the known, mentioned above Devices through a simple device that can be installed anywhere for automatic switching on and off of the motor-pump Unit, especially for water purification machines too eliminate without relying on remote control systems to have to resort to the cultivation of special organs on the mouthpiece and on the motor-pump unit  require.

Other features and advantages of the invention go from the detailed description and the enclosed pictures, which refer to a prefer preferred application form, but not at all excludes other possible uses.

Fig. 1 shows a schematic representation of the unit;

Fig. 2 shows an enlarged longitudinal section of a detail of Fig. 1;

Fig. 3 shows in the same detail of Fig. 2 another working moment of the invention.

In the attached figures, 1 denotes the entire motor-pump unit of a water cleaning machine with a correspondingly long hose 3 , which is connected at one end to the spout of the pump and at the other end of which there is a mouthpiece 4 . The latter has a pistol-shaped handle equipped with the locking device 5 and the nozzle 6 .

By actuating the locking device 5 on the pistol-shaped handle, the user can not only open and close the water jet, but also switch the pump motor on and off. A sensor 14 , which is attached directly to the pouring line 2 of the pump through a connecting hose 9 , “senses” possible overpressures in the pouring line 2 . The sensor 14 acts on a microswitch 15 connected in series with the main switch 16 in the circuit of the pump motor. If an overpressure arises in the pouring line after the pump outlet, the sensor 14 activates the microswitch 15 , which causes the circuit to be opened. The sensor 14 consists of a cylindrical chamber 10 , in which a sealed piston 11 is axially and movably mounted, which divides the chamber 10 into a lower chamber 12, into which the connecting line opens, and an upper chamber 13 . A spring 17 to the side of the upper chamber 13 exerts a pressure on the piston 11 and thus has an effect of a predetermined magnitude opposite to the pressure of the liquid in the lower chamber 12 ; the chamber 12 is connected directly to the spout line 2 below. The connecting line 9 is derived directly below the cross-section of a one-sided (hold) valve 7 , which is coaxially attached to the pouring line 2 . The valve 7 has a closure 27 which moves coaxially to the axis of the pouring line 2 .

The piston 11 is installed transversely to the axis of the spout line 2 and coaxially carries the movable element which serves as a closure 18 of a one-way recirculation valve 8 on the spout line 2 above the valve 7 . The piston 12 and the closure 18 are provided and measured so that with normal water jet through the nozzle 6 , ie with sensor 14 not activated by overpressure in the lower part of the pouring line, the piston 11 limits the minimum volume of the lower chamber 12 while the movable one Element 18 is pressed by the spring 17 against the tight fit of the valve 8 , whereby this is closed.

On the same piston 11 , a spindle 19 is coaxially attached, which passes through the chamber 13 and which mechanically actuates the microswitch 15 . In Fig. 2, the spindle 19 does not operate the microswitch 15 which is in the normal closed position. In Fig. 3, however, the spindle 19 acts on the microswitch 15 and causes the latter to open, thereby interrupting the circuit of the pump motor. The displacement of the spindle 19 , which opens the microswitch 15 , is triggered by the excess pressure in the lower part of the pouring line 2 , ie below the valve 7 , when, for. B. is interrupted during operation of the water jet by actuating the locking device 5 . As a result, an overpressure is formed in the lower part of the pouring line 2 , which also causes the piston 11 to move upward as a result of the valve 7 being closed due to the pressure of the liquid in the lower chamber 12 . This displacement of the piston 11 , which occurs because the predetermined pressure of the spring 17 is overcome, also simultaneously creates the opening of the valve 8 , which redirects the quantity conveyed by the pump, thereby causing a recirculation. The displacement of the piston 11 by the spindle 19 causes the microswitch 15 to open immediately, which interrupts the circuit of the pump motor. The restoration of a normal pressure value in the lower part of the discharge line automatically causes the piston to return and, as a result, the pump motor to switch on automatically. This is repeated every time the user actuates the locking device 5 and triggers its opening, which leads to a pressure drop in the hose 3 and consequently also in the pouring line 2 below the valve 7 . The engine is started each time the pressure below the valve 7 drops below a certain value determined by the adjustable spring 17 .

The use of the water cleaning machine is therefore extremely simple, since the user only has to switch it on at the beginning of the work by means of the switch 16 and switch it off again after the end of the work, without having to take care of every interruption. When the main switch 16 in fact closes, the microswitch 15 is also closed and the engine starts, whereby the pump starts up, which pumps the pressurized liquid into the hose 3 until the blocking device 5 is still closed. Almost immediately the spindle shifts due to the overpressure that arises in the pouring line 2 below the valve 7 and thus interrupts the circuit to the pump motor, which is consequently switched off. Through the opening of the blocking device 5 , the pressure in the pouring line drops and both the piston 11 and the valve 7 return to their starting position (see FIG. 2), and the pump motor starts almost simultaneously.

Of course, the invention can make numerous changes in the experience the practical execution of the construction details, without, however, from the area of patent protection the claims below.

Claims (5)

1. Device for the automatic switching on and off of the motor-pump unit for water cleaning machines, which leads the liquid under pressure to a mouthpiece ( 4 ) equipped with a locking device ( 5 ), characterized in that it has a sensor ( 14 ) comprises, which is connected via a connecting line ( 9 ) directly to the pouring line ( 2 ) of the pump and which is triggered by a predetermined overpressure in the pouring line ( 2 ) below the sensor itself, to one with the main switch ( 16 ) in series switched microswitch ( 15 ) to act in the circuit of the pump motor in order to cause its opening in the event of excess pressure and its closure in the absence of this excess pressure. 2. Device according to claim 1, characterized in that said sensor ( 14 ) comprises a chamber ( 10 ) in which there is axially and tightly arranged a movable piston ( 11 ) which the chamber ( 10 ) in a lower chamber ( 12th ), in which the connecting line ( 9 ) opens and divides into an upper chamber ( 13 ); Furthermore, a spring ( 17 ) is provided on the side of the upper chamber ( 13 ), a spring ( 17 ) which exerts a back pressure of a predetermined size against the pressure of the liquid in the lower chamber ( 12 ). 3. Apparatus according to claim 2, characterized in that the connecting hose ( 9 ) branches just below the closure cross-section of a unidirectional (hold) valve ( 7 ) on the pouring line ( 2 ) from the same. 4. The device according to claim 3, characterized in that the movable piston ( 11 ) is installed transversely to the axis of the pouring line ( 2 ) and thereon coaxially the movable closure element ( 18 ) of a unidirectional recirculation valve ( 8 ) which on the pouring line above the Valve ( 7 ) is attached; if the sensor ( 14 ) is not activated, the piston ( 11 ) limits the minimum volume of the lower chamber ( 12 ), while the movable element ( 18 ) is pressed by the spring ( 17 ) against the tight seat of the valve ( 8 ), which causes this is closed. 5. The device according to claim 4, characterized in that on the piston ( 11 ) at the level of the upper chamber ( 13 ) coaxially a spindle ( 19 ) is attached which actuates the mechanically connected microswitch ( 15 ).