DE8705733U1 - Manually operated valve, especially solenoid valve - Google Patents

Description

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H. KÜHNKE GHBH KG, Maifktstrasse 15, 2427 Malenfce

Manually operated valve, especially solenoid valve

This innovation relates to a manually operable valve, in particular a solenoid valve, as defined in the generic term of claim \

Such manual controls are often also referred to as manual emergency controls or emergency manual controls, as they provide an additional option for valve control if, for example, the power supply to a solenoid valve has failed and a valve function is still required. There are various principles of such manual controls, such as pressing in a pin with a conical tip, whereby the direction of movement is diverted due to the conical tip and the control element is thereby brought into the second desired position. Furthermore, state-of-the-art hand-operated devices which have an eccentric recess on their contact surface towards the control element, which can be opened by turning the manual control, for example. B. lift the control element by 180" and thereby bring it into the second target position. On the other hand, there are designs in which discs supported on one side are moved by the manual operation operated from the outside in such a way that they also lift up via an eccentric effect and, as an intermediate component, influence the control element.

The disadvantage of all variants is that there is no elastic element between the actuating elements of the manual control and the control element that would be able to compensate for tolerances. If the tolerances are unfavorable, the actuating element of the manual control can, for example, become permanently deformed. For this reason, the individual components of the valves that interact with the manual control and the corresponding holes must have very precise tolerances.

The object of this invention is to create a manual actuation for valves which, due to its elastic behavior, on the one hand causes a tolerance compensation based on the principle, on the other hand requires a minimum of effort in terms of price and assembly and at the same time causes the spring-elastic return of the external actuating element of the manual actuation.

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This task would be solved by the characterizing features of claim 1, with advantageous embodiments being described in the subclaims*

The principle is shown in Figures 1 and 2 and explained below:

Figure 1 shows an electromagnetically controlled valve with an additional manual operation. The coil system is made up of the coil 20, the iron yoke 21 surrounding the coil, with the associated iron core 22, the electrical connections 23 and a casing 24 protecting this coil system against external influences. Furthermore, the movable control element 11 is located inside the coil, which is sealed against the nozzle 30 by a spring 12 in its non-energized starting position and non-actuated manual operation, against the pressure coming from the connection hole 31.

When energized, the control element 11 moves against the core 22 so that the control element 11 and core 22 come into contact with one another in a flat manner. This releases the nozzle 30 from the control element 11 so that the fluid at 31 now has free passage from the nozzle 31 to the outlet 32. If the voltage is switched off or interrupted by a defect, the control element 11 moves against the nozzle 30 again due to the force of the spring 12 and closes it. The base 10, in which the nozzle 30 is integrated, also has an external actuating element 1 for manual actuation as well as an internal actuating element 6, which consists of an elastically deformable material, for example of spring-elastic bronze sheet, which comes into stationary contact with an abutment 6.1. The opposite side of this internal actuating element 6 is supported in a movable manner on the external actuating element 1. If the force F acts in the direction of the arrow on the outer actuating element, the inner actuating element bends, so that the direction of action of the force F is redirected in such a way that the control element 11 moves from the original, non-energized position to the second target position, the air gap-free system between the core and the control element. This also clears the path of the fluid from the connection through the nozzle 30 to the outlet 32.

■If the external force F on the actuating element I is removed, the recovery properties of the inner actuating element act in such a way that the outer actuating element is returned to its force-relieved original position, while at the same time the control element 11 again closes the nozzle 30 pressure-tight against the fluid due to the force of the spring 12.

Figure 2 shows the top view of the base 10 in the section plane A-A, whereby primarily the inner actuating element 6 with its recess 7 surrounding the nozzle can be seen. A part of the outer actuating element 1 is also visible. Here, in particular, the recess 5 and the locking pin 8, which is intended to limit the axial movement of the outer actuating element 1.

The advantage of this innovation is that it is very inexpensive and simple to use and has a smooth tolerance design. The entire manual control consists practically only of the external actuating element with seal 3, the associated locking pin and the internal actuating element. The internal actuating element can be produced as an inexpensive mass-produced part, and the manual control can also be completed in a very short time. All tolerances that occur, for example due to the armature length, the distance between the nozzle and its reference surfaces, etc., are no longer relevant due to the manual control described and are compensated for.

Malente, 13.04.87
PS-kl-nau

Claims (8)

1. Manually operated valve, in particular a solenoid valve, in which, in the de-energized state, a control element with different effects is pressed against the mouth of a flow channel and blocks it, and in which the control element can be brought into a desired position with a manually adjustable external actuating element without releasing the mouth against the spring effect, in that the external actuating segment acts on an internal actuating element for the control element, characterized in that the internal actuating element can be elastically deformed by adjusting the external actuating element and that the deformation movement can preferably be transferred directly to the control element for the purpose of adjusting it to the desired position. 2" Manually operated valve according to claim 1, characterized in that the inner actuating element (6) consists of an elastically deformable material that on the one hand comes into fixed contact with an abutment (6.1), while the opposite side is mounted in a positionally movable manner on the outer actuating element (1), whereby the effect of an external force F in the direction of the arrow on the outer actuating element (1) causes a deflection of the inner actuating element (6) so that the force F is diverted in its direction of action in such a way that the control element (11) moves from the original position to the second desired position. 3. Manually operated valve according to claims 1
and 2, characterized in that the inner actuating element (6) consists of a resilient
Material with appropriate recovery properties that are sufficient
are, the external actuating element
When the force directed in the direction of arrow (F) is removed, the outer actuating element is moved back to its force-relieved original position. 4. Manually operated valve according to claims 1 to 3, characterized in that the inner
Actuating elements (6) compared to the external
Actuating element (1) by slight deflection in the direction of control element (11) under
spring preload is maintained by
the length of the inner actuating element
(6) is selected so that a slight excess
in relation to the maximum installation length. 5. Manually operated valve according to claims 1
to 4, characterized in that the inner actuating element (6) is designed as a disc or fork which has a recess in its center. 6. Manually operated valve according to claims 1
to 4, characterized in that the inner actuating element (6) is designed as a rectangular tab, with an eccentric arrangement
to the nozzle. 7. Manually operated valve according to claims 1 to 3, characterized in that the force (F) acting on the outer actuating element (1) is directed in the direction of the greatest resistance moment of the inner actuating element (6). 8. Manually operated valve, according to claims
1 to 7, characterized in that the
inner actuating element (6) designed
is that the material can be compressed in the direction of the largest moment of resistance, but in the direction of the control element (11)
inevitably deflects*