DE20315631U1 - Magnetic holding system for pressure relief valve has holding force of permanent magnets able to be adjusted by device between contact surface and counter-surface - Google Patents

Abstract

The magnetic holding system has a permanent magnet with a contact surface acting with a counter-surface to hold a component in the flow channel (2) in position. The holding force of the permanent magnet can be adjusted by means of a device between the contact surface and the counter-surface, in which a spacing element can be displaced reversibly.

Description

The invention relates to a magnetic holding system a permanent magnet and a counter surface interacting with the contact surface of the permanent magnet releasable Holding one adjustable, in a flow channel of an air conditioning System arranged component in a predetermined position, as long the flow load acting on the component the holding force of the permanent magnet.

Such magnetic holding systems are in air conditioning systems etc. in pressure relief flaps for Holding a lamella sheet designed as a component is used. In the closed position the lamella leaf is held by the magnet holding system. exceeds the pressure in the flow channel the holding force, opens the pressure relief flap, so that a pressure reduction occurs. Falls below that in the flow channel prevailing pressure the holding force, the pressure relief valve held by the permanent magnet.

Known magnetic holding systems one on the inside of the flow channel fixed permanent magnets with a contact surface. The counter surface, the is ferromagnetic, is provided on the lamella leaf itself. Self-adhesive foils are used to adjust the holding force on the contact surface applied to thereby reduce the holding force.

The disadvantage here is that Adjusting the holding force is complex, since it has to be tried several times first the film of the correct thickness must be determined, which the desired holding forces causes. Therefore, there is also a later one change the holding force, especially if the pressure relief flap already in a flow channel is not possible.

The object of the invention is that to avoid the aforementioned disadvantages and to specify a magnet holding system, its holding force can be changed more easily is.

This task is solved in that the holding force of the permanent magnet by means of one in the holding state smallest possible Distance between the contact area of the permanent magnet and the counter surface adjusting device reversible through guided Moving a spacer element is changeable. The counter surface is ferromagnetic so that they interact with the permanent magnet can. The distance between the contact surface of the permanent magnet and the Counter surface can also be zero so that the permanent magnet itself is in contact with the counter surface is. If the holding force is to be reduced, relocation the spacing element, the distance between the contact surface and the counter surface increased. Provided a lamella sheet of a pressure relief flap is provided as a component is that usually pivotable about a shaft arranged in the region of a side wall of a flow channel is stored as a spacer element, preferably in the area the opposite of the wave Sidewall a stop may be provided, which is displaceable in its position and against which the lamella leaf rests in the holding state. As a permanent magnet For example, a rare earth magnet can be used with which extremely high adhesive force values can be achieved. Of course other magnets are also possible.

The spacer can Holding the component with at least part of the magnet holding system in physical Are in contact. In such an embodiment, for example Spacer element are pivoted in front of the contact surface, so that it is then in contact with the counter surface in the holding state. At a another embodiment For example, the spacer element can be laterally adjacent to the contact area of the permanent magnet, it being used for change the holding force orthogonal to the plane of the contact surface change of the distance between the contact surface and the counter surface is.

The spacer can be formed as a ring comprising the permanent magnet, the orthogonal related to the plane of the contact surface on the contact surface to change the distance between the contact surface of the permanent magnet and the counter surface is movable. The ring is preferably the contour of the Permanent magnets adjusted so that the permanent magnet guides the ring. The Ring can be angular or can be designed as a circular ring.

The spacer element is advantageously from a material with lower magnetizability, especially brass. Other materials such as B. plastic, are of course possible.

The device can be a fixing device Fixing the set position of the spacer element exhibit. For example, the fixing device to be a screw. The spacer is as a permanent magnet comprehensive ring formed, the screw is radially related to the longitudinal axis of the permanent magnet is screwed into the spacer element. By Solving the The ring designed as a spacer element can be screwed as desired be moved on the permanent magnet. Securing the screw can be ensured by a lock nut or by gluing his.

The permanent magnet can be in the opposite of the counter surface Area have a thread, preferably an internal thread. In the internal thread can be screwed in via a threaded rod the permanent magnet is fixed in the flow channel is.

The permanent magnet can be used directly or about suitable means such. B. a traverse, inside the flow channel be attached.

The counter surface can be a component of the component itself. In this case, the component is, at least in the area of the counter surface, made of a ferromagnetic material.

Alternatively, the counter surface can be part of a separate counter plate, which in turn is connected to the component is. With such a configuration, only the counter plate has to be formed ferromagnetic at least in regions, while the Component itself does not have to be ferromagnetic.

The invention also relates to a Pressure relief flap with at least one magnet holding system a permanent magnet and one interacting with the contact surface of the permanent magnet counter surface to the detachable Holding one adjustable in a flow channel of an air conditioning Plant arranged as a component lamella in one predetermined position, as long as the acting on the lamella flow stress the holding force of the permanent magnet does not exceed, the holding force of the permanent magnet by means of the smallest possible in the holding state Distance between the contact area of the permanent magnet and the counter surface adjusting device reversible through guided Moving a spacer element is changeable. The lamellar leaf is pivotable in the flow channel stored. In the closed position, in which the lamella leaf is held by the permanent magnet the flow channel closed by the lamella leaf. If the pressure inside the flow channel the holding force generated by the permanent magnet becomes the lamella pivoted into the open position, so that in the flow channel prevailing pressure can be reduced. Falls below in the Prevailing flow channel If the holding force of the permanent magnet is pressed again, the lamella leaf will attracted by the permanent magnet and in the closed position held.

Below is one shown in the drawings embodiment of the invention explained. Show it:

1 a section through a pressure relief flap with three lamella blades arranged one above the other,

2 a rear view of the object after 1 and

3 the detail "X" 1 ,

In all the figures are the same or similar parts matching Reference numerals used.

In the figures is a pressure relief flap 1 shown in a flow channel 2 is installed. In the illustrated embodiment, the pressure relief valve has 1 a total of three lamella leaves 3 on. Of course, it is possible, for example, for flow channels 2 smaller dimensions only one lamella sheet 3 is provided.

Every slat leaf 3 is about a wave 4 pivotable in the flow channel 2 stored. Each slat sheet is for this 3 over a hinge 5 on the shaft in question 4 attached.

The waves 4 are in turn in a holding frame 6 held over which the pressure relief flap 1 with the flow channel 2 communicates. Orthogonal to the wave 4 of each lamella leaf 3 is on the holding frame 6 one crossbeam each 7 provided an elongated hole 8th having.

The back is on each lamella sheet 3 an angle profile 9 with holes 10 in the area of the respective traverse 7 intended. The holes 10 preferably extend in a uniform grid over the entire length of the angle profile 9 ,

For holding the lamella leaves 3 in the in 1 The closed position shown is per lamella leaf 3 one magnetic holding system each 11 provided that a permanent magnet 12 with a contact surface 13 having. To change the holding force of the permanent magnet 12 is a facility 14 with a spacer element designed as a ring 15 intended. The spacer element 15 is in the direction of the arrow 16a on the permanent magnet 12 slidable so that the distance between the contact surface 13 and a counter surface 16 is changeable. The counter surface 16 is part of a counter plate 17 which in turn has a bolt 18 that in a hole 10 of the angle profile 9 engages with the lamella leaf 3 connected.

At the in 3 illustrated embodiment, there is a distance between the contact surface 13 and the counter surface 16 on hold. If a greater holding force is required, this distance can be reduced. Is the contact area 13 with the counter surface 16 in contact, the greatest possible holding force is exerted.

On the back is in the permanent magnet 12 an internal thread is provided in which a threaded rod 19 is turned. Using two screws 20 is the permanent magnet 12 on the traverse 7 attached, due to the elongated hole 8th the desired mounting position (arrow 21 ) is adjustable. When assembling the magnetic holding system 11 the permanent magnet is in the desired position in the slot 8th the traverse 7 attached as well as the counter plate 17 on the angle profile 9 assembled. When increasing the distance between the associated shaft 4 and the counter plate 17 or the contact surface 13 the lever arm is enlarged and so far the time at which the lamella leaf 3 is pivoted into the open position, not shown, shifted towards larger pressures.

This is followed by the holding force of the permanent magnet 12 by moving the spacer element 15 on the permanent magnet 12 set, as this creates the distance between the contact surface 13 and the counter surface 16 changed is changed. The set position is confirmed by a screw 22 that are radially related to the longitudinal axis of the permanent magnet 12 into the spacer element 15 is screwed in, fixed.

The in the 1 to 3 pressure relief valve shown 1 serves that in the flow channel 2 a pressure can be generated and only when a pressure on the magnet holding system is exceeded 11 facing side of the lamella leaf 3 , the lamella leaf 3 is pivoted into the open position, not shown, and so the pressure is reduced.

Claims (10)

Magnetic holding system ( 11 ) with a permanent magnet ( 12 ) and one with the contact surface ( 13 ) of the permanent magnet ( 12 ) interacting counter surface ( 16 ) for detachably holding one adjustable, in a flow channel ( 2 ) a component arranged in an air conditioning system in a predetermined position, as long as the flow load acting on the component increases the holding force of the permanent magnet ( 12 ) does not exceed, characterized in that the holding force of the permanent magnet ( 12 ) by means of the smallest possible distance between the contact surface in the holding state ( 13 ) of the permanent magnet ( 12 ) and the counter surface ( 16 ) hiring facility ( 14 ) reversible through guided displacement of a spacer element ( 15 ) is changeable. Magnetic holding system ( 11 ) according to claim 1, characterized in that the spacer element ( 15 ) when holding the component with at least part of the magnet holding system ( 11 ) is in physical contact. Magnetic holding system ( 11 ) according to claim 2, characterized in that the spacer element ( 15 ) as the permanent magnet ( 12 ) formed ring which is orthogonal to the plane of the contact surface ( 13 ) related to the contact area ( 13 ) to change the distance between the contact surface ( 13 ) of the permanent magnet ( 12 ) and the counter surface ( 16 ) is movable. Magnetic holding system ( 11 ) according to one of claims 1 to 3, characterized in that the spacer element ( 15 ) consists of a material with lower magnetizability, in particular brass. Magnetic holding system ( 11 ) according to one of claims 1 to 4, characterized in that the device ( 14 ) a fixing device for fixing the set position of the spacer element ( 15 ) having. Magnetic holding system ( 11 ) according to one of claims 1 to 5, characterized in that the permanent magnet ( 12 ) in which the counter surface ( 16 ) facing away from a thread, preferably an internal thread. Magnetic holding system ( 11 ) according to one of claims 1 to 6, characterized in that the permanent magnet ( 12 ) directly or via suitable means on the inside of the flow channel ( 2 ) is attached. Magnetic holding system ( 11 ) according to one of claims 1 to 7, characterized in that the counter surface ( 16 ) Is part of the component. Magnetic holding system ( 11 ) according to one of claims 1 to 7, characterized in that the counter surface ( 16 ) Part of a separate counter plate ( 17 ) that is connected to the component. Pressure relief flap ( 1 ) with at least one magnetic holding system ( 11 ) with a permanent magnet ( 12 ) and one with the contact surface ( 13 ) of the permanent magnet ( 12 ) interacting counter surface ( 16 ) for detachably holding one adjustable in a flow channel ( 2 ) of an air conditioning system arranged as a component designed lamella ( 3 ) in a predetermined position, as long as the on the lamella leaf ( 3 ) acting flow load the holding force of the permanent magnet ( 12 ) does not exceed, in particular according to one of claims 1 to 9, characterized in that the holding force of the permanent magnet ( 12 ) by means of the smallest possible distance between the contact surface in the holding state ( 13 ) of the permanent magnet ( 12 ) and the counter surface ( 16 ) hiring facility ( 14 ) reversible by moving a spacer element ( 15 ) is changeable.