EP0407812A1 - High-pressure cleaning apparatus - Google Patents

Abstract

In order to permit, in a high-pressure cleaning apparatus with a high-pressure pump, a pressure line (7) leading from said pump to a closable outlet (9), a bypass line (10) leading from said pressure line to the suction side of the pump and a closing valve (13) which closes the bypass line (10), automatic switching off of the pressure of the pump when the outlet (9) is closed, it is proposed that a flow detector (15,16,17) be arranged upstream of the outlet (9) and downstream of the branching off of the bypass line (10), which detector closes the closing valve (13) of the bypass line (10) when the outlet (9) is closed. <IMAGE>

Description

The invention relates to a high-pressure cleaning device with a high-pressure pump, a pressure line leading from the latter to a closable outlet, a bypass line leading from this to the suction side of the pump, and a closing valve closing the bypass line.

Such a high-pressure cleaning device is known from DE-PS 32 48 622. In this known high-pressure cleaning device, the flow monitor releases the bypass line when the outlet is closed, so that the liquid conveyed by the high-pressure pump can in this case be conveyed through the bypass line in the circuit. With such an arrangement, the high-pressure pump runs continuously regardless of whether the pressure line is open or closed.

On the other hand, there are high-pressure cleaning devices in which the high-pressure pump is switched off when the outlet is closed. This is usually done because the pressure rise, which is reflected in the pressure line when closing the outlet, determined by a pressure switch and the high pressure pump is switched off depending on this pressure increase.

An automatic shutdown of the high-pressure pump is not possible with an arrangement as described in DE-PS 32 48 622, since the automatic opening of the bypass line when the outlet closes does not increase the pressure in the pressure line, but rather decreases. In this arrangement, the bypass line is provided in such a way that, when the outlet is closed, the liquid can be circulated through it.

Bypass lines of this type are also provided, however, when in normal operation, in which the outlet is open, part of the liquid delivered by the pump is passed through a bypass line to meter the amount of liquid dispensed, while the rest is passed through the outlet is delivered normally. It is an object of the invention to enable automatic shutdown of the high pressure pump when the outlet is closed in such an arrangement.

To achieve this, according to the invention, in a high-pressure cleaning device of the type described in the introduction, a flow monitor is provided upstream of the outlet and downstream of the branching of the bypass line, which closes the closing valve of the bypass line when the outlet is closed.

In contrast to an arrangement according to DE-PS 32 48 622, the bypass line is not opened in this arrangement, but closed when the outlet is closed, ie when no liquid flows through the outlet. In this case, in which the outlet and the bypass line are closed, this inevitably results in an increase in pressure, which leads to the automatic shutdown of the high-pressure pump via a pressure switch in a manner known per se. If the outlet is opened again, the pressure drops so that the high pressure pump switches on again. Via the flow monitor, this also leads to the bypass line being opened again, so that part of the liquid conveyed by the pump is circulated through the bypass line. By changing the cross-section of the bypass line, for example, the amount dispensed can be metered in this way.

In a particularly advantageous embodiment it is provided that the flow monitor comprises a control piston actuating the closing valve, the control piston on one side from the liquid in a region of the pressure line with a narrowed cross-section and on the other side from the liquid in the pressure line in a region upstream is applied to the constriction, so that the control piston closes the closing valve of the bypass line when the pressure difference on both sides of the control piston falls below a certain value.

A very particularly advantageous embodiment is obtained when the closing valve is a metering valve and when an adjustable stop is provided with which the opening movement of the closing valve can be limited. In this arrangement, the closing valve simultaneously assumes the function of metering the amount of liquid flowing back through the bypass line, since the amount of liquid flowing back through the bypass line is reduced if the closing valve is only partially opened.

The stop can preferably be formed by a screw spindle.

In a special embodiment it is provided that the pressure line is adjoined on one side by a cylindrical control space which is divided by the control piston into two chambers, one of which is directly connected to the pressure line, while the other with the narrowed area of the pressure line in Connection is established that the bypass line branches off from the pressure line on the side opposite the control chamber and that a valve body which closes the bypass line and is held on the control piston passes through the pressure line. The result is a particularly compact design that is largely maintenance-free and not susceptible to faults with little moving parts.

The closing valve can be designed as a needle valve.

The following description of a preferred embodiment serves in conjunction with the drawing for a more detailed explanation. The drawing shows a longitudinal sectional view through the cylinder head of a high-pressure piston pump with bypass line and automatically operating closure device for the bypass line.

In the drawing, only a part of a high-pressure pump is shown, as is usually used in high-pressure cleaning devices, for example, it can be a swash plate pump with a plurality of pistons 1, which can be moved periodically in the axial direction and which each immerse in a pump chamber 2 of a cylinder head 3. A suction line 5 opens into the pump chamber 2, which is closed by means of a spring-loaded suction valve 4 and can be opened in the inlet direction. On the other hand, a line 6 leads from the pump chamber 2 to a pressure line 7, a spring-loaded pressure valve 8, which can be opened in the outlet direction against the action of the spring load, being arranged in the transition region from line 6 to line 7.

The pressure line 7 leads to a pressure-side outlet 9, to which, for example, a spray lance is connected via a flexible high-pressure hose, not shown in the drawing, which can be closed by means of a closing valve.

A bypass line 10 branches off from the pressure line 7 downstream of the pressure valve 8 and is connected to the suction line 5. At the branch from the pressure line 7, a valve seat 11 is screwed into the bypass line 10, which has a cylindrical passage opening 12 with a small cross section. A needle-shaped valve body 13 interacts with this through-opening 12, which passes through the pressure line 7 vertically and is mounted in the cylinder head 3 so as to be displaceable in the longitudinal direction of the through-opening 12. For this purpose, a cylindrical control chamber 14 is arranged on the side of the pressure line 7 opposite the bypass line 10, which is connected to the pressure line 7 and which is moved from a longitudinally displaceable control piston 15 into a first chamber 16 facing the pressure line 7 and in a second chamber 17 facing away from it is divided. The control piston 15 is sealed off from the inner wall of the control chamber 14. It carries the valve body 13, which can be moved by the movement of the control piston 15 from the closed position closing the through opening 12 into an open position raised from the through opening 12. Downstream of the branching of the bypass line 10, a cross-sectional constriction 19 is provided in the pressure line 7, in the form of an injector-like insert 20. In the region of the narrowest cross-section, a control line 21 branches off radially from the pressure line constricted in this way, via a connecting line 22 in the cylinder head communicates with the second chamber 17 of the control chamber 14.

The control chamber 14 is closed on the side facing the chamber 17 by a sealing plug 23, which is screwed sealed and screwed into a corresponding internal threaded hole in the control chamber 14. In this sealing plug 23, a spindle 24 is sealed, which is arranged coaxially to the longitudinal axis of the control chamber 14 and passes through the sealing plug 23. At its end 25 protruding from the sealing plug 23 on the outside, the spindle carries a handle 26 by means of which it can be screwed more or less deeply into the sealing plug 23, so that its opposite end 27 is more or less deep into the chamber 17 of the control chamber 14 immersed and thus forms a variable stop for the control piston 15, the displacement thereof in the direction of the opening of the through opening 12 is thereby more or less limited.

In normal operation, in which the outlet 9 is open, the pump conveys liquid to the outlet 9 via the line 6 and the pressure line 7. The chamber 16 facing the pressure line 9 has the static pressure of the liquid conveyed, in the opposite chamber 17 on the other hand, the pressure reduced by the constriction and due to the flow of the liquid, which is established in the constriction area. As a result of this pressure difference on the control piston 15, the latter is displaced in the direction of the chamber 17, so that the valve body 13 is lifted from the through opening 12 and the bypass line 10 is released. How far the valve body 13 moves from the valve seat 11 depends on how deep the spindle 24 is screwed into the sealing plug 23, ie the opening movement the valve body is limited by the spindle 24 at different heights above the through opening 12. Due to the different position of the valve body relative to the valve seat 11, a correspondingly different part of the liquid conveyed by the pump returns to the suction side of the pump via the bypass line 10, that is to say by adjusting the spindle 24, the amount of the liquid can be discharged via the outlet 9 Dosing the dispensed liquid continuously.

When the outlet 9 is closed, the pressure in the chamber 17 also rises to the static pressure in the pressure line 7 due to the lack of flow, ie essentially the same pressure prevails on both sides of the control piston 15, so that the control piston 15 under its own weight or possibly under the action of a helical spring 28 supported on the sealing plug 23 and on the control piston 15 on the one hand in the direction of the bypass line until the valve body 13 rests on the valve seat 11 and closes the passage opening 12. In this state, the liquid delivered by the pump can no longer flow back to the suction side of the pump via the bypass line, so that the pressure in the pressure line rises and takes a maximum value which is above the pressure which occurs in normal operation. The drive of the high-pressure pump is switched off by a pressure sensor, which is not shown separately in the drawing and which records this pressure rise.

After the pump is switched off, the high pressure in the pressure line is maintained until the outlet 9 is opened again. This opening of the outlet leads to a pressure drop in the pressure line 7 and thus to the pump being switched on again. This conveys again and thereby builds up a pressure difference on the control piston 15 in the manner described above, which then opens against the action of the coil spring 28 until it rests against the end 27 of the spindle 24 and the previously described normal operating state is reached again. Due to the described configuration, the control piston and the valve body 13 have a double function, since this control element not only serves with the aid of the spindle 24 for metering the liquid portion flowing back through the bypass line, but at the same time also for automatically closing the bypass line in the event of a closure of the outlet 9. It is therefore possible, despite the use of a quantity metering via a bypass line, to use a pressure cut-out known per se for the high-pressure pump, which is also mechanically extremely simple and robust.

Claims (6)

1. High-pressure cleaning device with a high-pressure pump, a pressure line leading from this to a closable outlet, a bypass line leading from this to the suction side of the pump and a closing valve closing the bypass line, characterized in that
that a flow switch (15, 16, 17) is provided upstream of the outlet (9) and downstream of the branch of the bypass line (10), which closes the closing valve (13) of the bypass line (10) when the outlet (9 ) is closed. 2. High-pressure cleaning device according to claim 1,
characterized,
that the flow switch comprises a control piston (15) actuating the closing valve (13), the control piston (15) on one side from the liquid in a region of the pressure line (7) with a narrowed cross section (19) and on the other side from the liquid in the pressure line (7) in an area upstream of the constriction (19), so that the control piston (15) closes the closing valve (13) of the bypass line (10) when the pressure difference on the two Side of the control piston (15) falls below a certain value. 3. High-pressure cleaning device according to claim 1 or 2,
characterized,
that the closing valve (13) is a metering valve and that an adjustable stop (24, 27) is provided with which the opening movement of the closing valve (13, 15) can be limited. 4. High-pressure cleaning device according to claim 3,
characterized,
that the stop is formed by a screw spindle (24). 5. High-pressure cleaning device according to one of claims 2, 3 or 4,
characterized,
that the pressure line (7) is adjoined on one side by a cylindrical control chamber (14) which is divided by the control piston (15) into two chambers (16, 17), one of which is directly connected to the pressure line (7), while the other communicates with the narrowed area (19) of the pressure line (7), that the bypass line (10) branches off from the pressure line (7) on the side opposite the control chamber (14) and that the bypass line (10) closing valve body (13) held on the control piston (15) passes through the pressure line (7). 6. High-pressure cleaning device according to one of the preceding claims,
characterized,
that the closing valve (13) is designed as a needle valve.

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