EP0861493A1 - Systeme d'electro-aimant de levage - Google Patents
Systeme d'electro-aimant de levageInfo
- Publication number
- EP0861493A1 EP0861493A1 EP96937253A EP96937253A EP0861493A1 EP 0861493 A1 EP0861493 A1 EP 0861493A1 EP 96937253 A EP96937253 A EP 96937253A EP 96937253 A EP96937253 A EP 96937253A EP 0861493 A1 EP0861493 A1 EP 0861493A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- armature
- lifting magnet
- spring
- housing
- magnet arrangement
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Definitions
- the invention relates to a solenoid arrangement for controlling a pressure or directional valve according to the preamble of claim 1.
- Solenoid assemblies are used to control hydraulic components, such as switching or proportional valves, directional or pressure valves and slide or seat valves.
- types with a direct current magnet and with an alternating current magnet can be distinguished, in each of which the magnet armature switches in air (“dry” magnet) or in oil (“wet” magnet). This means that in the last case the anchor space is filled with oil and relieved towards the tank.
- proportional magnets so-called proportional magnets are used which belong to the group of direct current lifting magnets and which generate an output variable (force or travel) which is proportional to the electrical input signal.
- stroke-controlled magnets Depending on the application, a distinction is made between stroke-controlled magnets and force-controlled magnets, with the latter regulating the magnetic force with a negligible change in stroke by changing the current, while in the former the position of the armature (stroke) is regulated.
- FIG. 1 shows a view of a conventional lifting magnet arrangement with a pushing actuating element, in which a direct current magnet switching in oil is used.
- Such a lifting magnet arrangement 1 essentially consists of a magnet housing 2 into which a pole tube 4 with a wound coil 10 is pressed.
- the pole tube serves both to limit the coil space and also to axially close the housing.
- This function takes on the other end face a cover plate 8, which if necessary. (For example, for engaging in the magnetic force system) can also be divided into ring 9 and cover 8.
- the magnet coil 10 can be connected to a current / voltage supply via a connection 12 on the housing 2.
- the pole tube 4 has an axial bore in which an armature 16 is axially movable.
- the armature 16 On its left end in FIG. 1, the armature 16 carries a plunger 18 which protrudes from the pole tube 4 in the axial direction and, in the embodiment shown, can be covered by a protective cap 20 (indicated by dashed lines in FIG. 1) for transport purposes.
- the axial bore 14 is stepped back radially in the region of the plunger 18, in order to form a guide section or at least one receiving space for the plunger 18, depending on the construction.
- a coaxial rod 22 which projects into the interior of the cover cap 8, is attached to the other end section of the armature 16, which is remote from the tappet 18.
- the front end section of the pole tube 4 is formed by a stop piece 24 which is screwed into the pole tube 4 and forms an axial stop for the armature 16.
- the rod 22 passes through the stop piece 24 in the middle and has at its end section 22 a threaded section onto which a spring plate 26 is screwed on as an anchor-side thrust bearing.
- a compression spring 28 acts on the latter, the other end section of which is supported on the adjacent end face of the stop piece 24 as an abutment on the housing side.
- the spring plate 26 anchor-side abutment
- the spring plate 26 thus has a larger axial distance from the armature space than the axial stop (housing-side abutment).
- the axial bore 14, i.e. the armature space formed by this, the space encompassed by the protective cap 20 and the space enclosed by the cover plate 8 in the extension of the pole tube 4, in which the compression spring 28 is arranged (spring space), are filled with oil, this oil space via a
- the line (not shown) is connected to a tank connection (also not shown), so that there is always a constant oil pressure (tank pressure) inside the lifting magnet.
- the object of the invention is to create a lifting magnet arrangement in which simple adjustment is possible with minimal expenditure on device technology, without intervening in the hydraulic system.
- the basic adjustment can also be carried out with an impacting magnet without opening the lifting magnet housing being necessary. That means that the basic adjustment is internal. of the solenoid, those pressure conditions as they exist when using the arrangement.
- the force adjustment can thus be carried out much more precisely with little expenditure on device technology.
- rapid readjustment is also possible without dismantling the lifting magnet arrangement, so that the adjustment process can be carried out more easily, more precisely, more quickly and without oil in comparison with conventional solutions. The latter leads to cleaner assembly and less environmental pollution.
- actuating section is designed as a cap which is screwed into an inner bore of a bush-shaped stop piece, which forms an end closure of the lifting magnet housing.
- the axial length of the lifting magnet arrangement can be reduced if the compression spring is encompassed at least in sections by the cap.
- the axial stop and the cap are formed separately from one another, the axial stop can be prestressed against the cap via a spring element, so that an axial separation of the axial flange and the cap can be prevented due to the action of the compression spring.
- a particularly high pressure force in a minimal space is obtained if a spring plate package is used to pretension the axial stop.
- the axial stop can also be formed in one piece with the cap.
- the axial stop can be connected to the fastening cap, this connection preferably being made by pressing.
- a simple possibility for attaching an emergency actuation is that an externally accessible emergency actuation bolt is guided axially displaceably in the actuation section or in the adjustment cap, via which in the event of a power failure, a manual axial displacement of the armature can be brought about.
- a simple basic setting is possible if the basic position of the spring plate on the spring rod can be adjusted.
- the lifting magnet arrangement according to the invention can be used for lifting as well as for force-controlled lifting magnets and is in principle suitable for controlling switching valves and proportional valves.
- Figure 1 is a partial longitudinal section of a conventional solenoid assembly.
- FIG. 2 shows a first exemplary embodiment of a lifting magnet arrangement according to the invention, in which a coil former has been omitted, and
- FIG 3 shows a further exemplary embodiment of a lifting magnet arrangement according to the invention.
- the lifting magnet arrangement 1 in turn has a pole tube 4, which has an axial bore 14 whose right section in FIG. 2 is radially expanded and forms an armature space 30.
- An anchor 16 is guided axially displaceably in the armature space 30 and a plunger 18 is fastened to the left end portion thereof and penetrates a radially narrowed portion 32 of the axial bore 14.
- the freely projecting end of the plunger 16 is provided with a spherical or cone-shaped contact surface 34, by means of which the plunger 18 can be brought into contact with an actuating element of the valve to be controlled (not shown).
- two through holes 38 are formed which are inclined to the axis of the lifting magnet arrangement 1 and via which the subspaces of the armature space 30 which are separated from the armature 16 are connected to one another. With a lifting movement of the armature 16, a compensating flow can take place via the through bores 38, so that the oil can pass from the diminishing partial space into the other partial space.
- a depression 36 is formed in the right end face of the armature 16 in FIG. 2, a rod 22 being screwed into the end face thereof.
- the right end section of the pole tube 4 is closed by a stop piece 24, which is firmly inserted into the end section of the pole tube 4. (In the exemplary embodiment, the stop piece 24 is screwed into the pole tube 4 via a threaded section).
- a hub-shaped section adjoins the connection surface 40 and is penetrated by the rod 22, so that it protrudes into the interior of the stop piece 24 constructed in the manner of a bush.
- the stop piece 24 has a receiving bore 42 which widens in connection with the hub-shaped section and on the end face of which a plate spring assembly 44 is supported.
- An axial stop ring 46 is received in the bore 42 coaxially with the disk spring assembly 44.
- the open end of the stop piece 24 in FIG. 2 is closed by an adjusting cap 48, which is in threaded engagement with the receiving bore 42 of the connecting piece 24, so that the end section of the rod 22 passing through the plate spring assembly 44 and the stop ring 46 is removed from the adjusting cap 48 is encompassed.
- the radial width of the axial stop ring 46 is larger than the adjacent wall thickness of the adjusting cap 48, so that the axial stop ring 46 projects radially inwards towards the spring rod 22.
- a compression spring 28 is supported with an end section. The other end section rests on a spring plate 26 which is fixed to a radially stepped end section of the spring rod by means of a fastening nut 50.
- the spring rod 22 additionally has a slot at the end section, which enables the spring rod 22 to be screwed into the armature 16.
- the compression spring 28 is conical, so that the contact surface on the spring plate 26 has a smaller diameter than that on the axial stop ring 46.
- the same function can also be achieved with a cylindrical compression spring.
- the armature space 30 and the spring space delimited by the stop piece 24 and by the adjusting cap 48 are filled with hydraulic oil in the installed state of the lifting magnet arrangement 1, the spaces mentioned being connected to a tank via the axial bore 32 of the pole tube.
- the axial fixation of the coil body 6 takes place via a union nut 52 which is screwed to the outer circumference of the connecting piece 24 and which surrounds the adjacent end section of the pole tube 4 with a jacket section and the coil body 6 against a valve housing (not shown) presses.
- the adjusting cap 48 With its end section removed from the disk spring assembly 44, projects axially from the connecting piece 24, so that this part forms an actuating section 54 which is accessible from the outside and which is operated by an operator - Person is adjustable by hand or using a simple tool.
- a disk 56 is provided on the left end face of the armature space 30 in the region of the guide section 32, which serves as an axial stop for the
- the prestressing of the compression spring 28 can take place by axially displacing the axial stop ring 46.
- the axial stop ring 46 is pressed against the plate spring assembly 44 via the adjustment cap 48, the spring rate and preload of which is selected such that when the compression spring 28 is deformed, no substantial axial displacement of the axial stop ring 46 due to compression of the plate springs can take place.
- a further coarse adjustment can be made possible in that the spring plate 26 can also be adjusted via washers and by appropriate adjustment of the fixing nut 50 the axial position of the spring plate 26.
- the axial stop ring 46 is formed in one piece with the adjusting cap 48, so that in this case the plate spring assembly could be omitted.
- the adjustment cap 48 in be open in some form in order to be able to mount the compression spring 28 and the spring plate 26.
- adjustment cap 48 can have additional functions, e.g. for manual operation (so-called emergency hands).
- FIG. 3 shows a further variant of an actuating section 54 for adjusting the spring preload.
- FIG. 3 For the sake of simplicity, only the right end section of the lifting magnet arrangement in the illustration according to FIG. 2 is shown in FIG. 3.
- the armature 16 is guided axially displaceably in the pole tube 4 and is provided with a spring rod 22 on which the compression spring 28 acts.
- the spring plate 126 is not - as the spring plate 26 in the embodiment of Figure 2 - axially displaceably guided on the spring rod 22, but positively received in an annular groove 60 of the spring rod 22 so that the anchor-side bearing is not adjustable .
- an axial stop ring 146 is pressed into the left-hand end section of the adjusting screw 148 in FIG. 3, which thus forms the housing-side abutment for the compression spring 28.
- the inner bore of the adjusting screw 148 is provided with an annular shoulder 62 on which the stop ring 146 can be supported.
- the loading the stop ring 146 can also be fixed by gluing, soldering, etc.
- the axial length of the stop piece 24 can be considerably reduced compared to the exemplary embodiment shown in FIG. 2, so that the end cap of the adjusting cap 48 projects axially beyond the stop piece 24 and dips into the depression 36 of the armature 16.
- the overall length of the solenoid arrangement can thus be shortened by this development compared to the solution shown in FIG.
- a guide bore 64 is formed in the end section of the adjustment cap 148 which is accessible from the outside and in which an emergency actuation bolt 70 is guided so as to be axially displaceable.
- This emergency actuation bolt 70 is held in one position via the prestressing of the sealing ring 78. Before the first actuation, it is in a basic position in which it rests with a stop 72 on a correspondingly shaped section of the guide bore 64.
- This emergency operating pin 70 can be externally - i.e. 3 from the right - with a suitable tool until it comes into contact with the spring rod 22 of the armature 16 in order to bring it into its switching position.
- the adjustment cap 148 is adjusted via a hexagon socket 76, which is arranged approximately in the extension of the guide bore 64.
- the pole tube 4 is fastened to the stop piece 24 by flanging the end section of the pole tube 4 so that it dips into a corresponding receiving ring groove of the stop piece 24 and has a positive fit connection is established.
- FIG. 3 essentially corresponds to that shown in FIG. 2, so that a further description can be dispensed with.
- the basic adjustment of the lifting magnet arrangement can be carried out without opening the magnet housing, so that the setting can be carried out with an oil filling of the housing and thus prevents adjustment errors.
Landscapes
- Magnetically Actuated Valves (AREA)
Abstract
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP96937253A EP0861493B1 (fr) | 1995-11-15 | 1996-10-25 | Systeme d'electro-aimant de levage |
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
DE19542642 | 1995-11-15 | ||
DE1995142642 DE19542642A1 (de) | 1995-11-15 | 1995-11-15 | Hubmagnetanordnung |
WOPCT/EP96/04343 | 1996-10-07 | ||
EP9604343 | 1996-10-07 | ||
EP96937253A EP0861493B1 (fr) | 1995-11-15 | 1996-10-25 | Systeme d'electro-aimant de levage |
PCT/EP1996/004667 WO1997018568A1 (fr) | 1995-11-15 | 1996-10-25 | Systeme d'electro-aimant de levage |
Publications (2)
Publication Number | Publication Date |
---|---|
EP0861493A1 true EP0861493A1 (fr) | 1998-09-02 |
EP0861493B1 EP0861493B1 (fr) | 2000-04-19 |
Family
ID=27215658
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP96937253A Expired - Lifetime EP0861493B1 (fr) | 1995-11-15 | 1996-10-25 | Systeme d'electro-aimant de levage |
Country Status (1)
Country | Link |
---|---|
EP (1) | EP0861493B1 (fr) |
-
1996
- 1996-10-25 EP EP96937253A patent/EP0861493B1/fr not_active Expired - Lifetime
Non-Patent Citations (1)
Title |
---|
See references of WO9718568A1 * |
Also Published As
Publication number | Publication date |
---|---|
EP0861493B1 (fr) | 2000-04-19 |
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