DE102018210276B4 - Valve - Google Patents

Abstract

Valve (10) for activating an impact function of a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer, the valve (10) being arranged in a hydraulic channel through which hydraulic fluid can flow to effect the impact function, and an in a valve bore (12) provided axial seal (14) which cooperates with a switching piston (16) axially displaceable in the valve bore (12) between a closed position and an open position, which by the pressure at an inflow bore (18) and / or in a pressure chamber of the valve (10) is acted upon in the closing direction and can be moved into its open position by the spring force of a switching spring unit (20) when the pressure at the inflow bore (18) or in the pressure chamber falls below a predeterminable limit pressure.

Description

The invention relates to a valve for activating an impact function of a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer. It also relates to a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer, with such a valve.

Hydraulically damped door closers are generally known and cause a door to close automatically, whereby both the movement of the door leaf into the door frame and the falling of the latch of the door lock into the lock plate are guaranteed. A controlled closing as far as possible should be ensured. Such a door closer usually comprises an output shaft, a piston guided in a housing and connected to the output shaft via a gearbox, and at least one spring interacting with the piston, a pressure chamber or an unpressurized chamber being provided on opposite sides of the piston and During a respective closing process, hydraulic fluid can be transferred from the pressure chamber into the pressureless chamber via at least one valve. When the wing is opened manually or, for example, automatically by a hydraulic pump, the spring arranged in the housing filled with hydraulic fluid is compressed by moving the piston, so that it can serve as an energy store for automatically closing the wing. Between the spaces of the housing separated from one another by the piston, hydraulic channels with associated valves are arranged, via which the overflow of the hydraulic fluid can be influenced in order to control the drive behavior.

With hydraulically damped door closers, the pressurized hydraulic fluid is throttled by means of one or more valves. The impact function of such a hydraulically damped door closer enables, when activated, an undamped closing of the door by short-circuiting the damping circuit. Often this so-called impact range can also be adjusted by a valve, i.e. also throttled again.

A disadvantage of the previously known hydraulically damped door closers, such as those described in the publication DE 92 03 873 U1 are described, is in particular that the impact function can only be set rigidly, for example, during commissioning. Random resistance on the door cannot be overcome when the door is deactivated. If, on the other hand, the knock is set to wind load, the door begins to slam loudly without wind load.

The pamphlet DE 103 25 202 A1 describes a hydraulic system designed as a power steering system of a motor vehicle with pressure-dependent switchable damping elements.

The invention is based on the object of specifying a valve and a hydraulically damped door, gate or window drive of the type mentioned at the outset, with which the aforementioned disadvantages are eliminated. In particular, a more variable activation of the knocking function of a respective door, gate or window drive, which can be optimally adapted to the respective circumstances, should be ensured.

According to the invention, this object is achieved by a valve with the features of claim 1 or a hydraulically damped door, gate or window drive with the features of claim 13. Preferred embodiments of the valve according to the invention and the hydraulically damped door, gate or window drive according to the invention emerge from the subclaims, the present description and the drawing:

The valve according to the invention for activating an impact function of a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer, is arranged in a hydraulic duct, in particular in a duct for short-circuiting a damping circuit, through which hydraulic fluid can flow to effect the impact function. It comprises an axial seal provided in a valve bore, which cooperates with a switching piston which is axially displaceable in the valve bore between a closed position and an open position and which is acted upon in the closing direction by the pressure at an inflow bore and / or in a pressure chamber of the valve and when the Pressure at the inflow bore or in the pressure chamber below a predeterminable limit pressure can be transferred into its open position by the spring force of a switching spring unit.

If the pressure at the inflow bore or the pressure chamber of the valve is at least substantially proportional or representative to the pressure in the pressure chamber of the door, gate or window drive, in that the inflow bore or the pressure chamber of the valve is connected to this, for example, or the pressure chamber of the valve is formed by the pressure chamber of the door, gate or window drive, the pressure in front of the piston of the hydraulically damped door, gate or window drive and thus the relevant state of this drive can be detected by the valve according to the invention. The valve according to the invention can thus also be referred to as a sensor valve. The valve according to the invention also makes the impact function dependent activated or deactivated by the respective state of the drive. The principle on which the solution according to the invention is based is based on the fact that the pressure in front of the piston of the drive and therefore the pressure in front of the relevant valve or at the inflow bore drops as soon as the vane is decelerated or braked externally. The safety valve according to the invention detects this state and activates the impact function of the hydraulically damped drive in that the switching piston is moved into its open position by the switching spring unit. The valve is now open. The wing in question now also closes in the event of unexpected resistance such as a sluggish lock latch, sporadic winds that are not too strong and / or lock situations with air cushions to be overcome.

If, on the other hand, there is pressure on the inflow hole when there is no pressure at the outflow hole, the switching spring unit cannot overcome the force applied by the pressure on the inflow hole. In this case, the switching piston assumes its closed position, so that the valve is closed via the axial seal. The impact function is now deactivated.

With the solution according to the invention, a more variable activation of the knocking function of a respective door, gate or window drive, which can be optimally adapted to the respective circumstances, is thus guaranteed.

The axial seal preferably comprises a sealing element which seals axially on a radial projection provided in the valve bore.

When the pressure is present at the inflow bore or in the pressure chamber of the valve and the switching piston is in its closed position, the sealing element of the axial seal is thus pressed against the radial projection, with the result that the valve is closed. In contrast, the sealing element of the axial seal is released when there is no pressure at the inflow bore or in the pressure chamber, so that the valve is opened.

According to an expedient practical embodiment of the valve according to the invention, the switching piston is provided on its circumference with at least one recess, via which the inflow bore or the pressure chamber of the valve can be hydraulically short-circuited with an outflow bore when the switching piston is in its open position.

The impact function is activated by short-circuiting the inflow bore or the pressure chamber and the outflow bore.

Advantageously, the limit pressure can be variably set in particular via the pretensioning force of the switching spring unit which acts on the switching piston in the opening direction. In this case, the limit pressure or the pretensioning force of the switching spring unit acting via the switching piston in the opening direction is preferably variably adjustable via an adjusting cam.

The switching spring unit can expediently be acted upon by the adjusting cam via a plunger which can be axially displaced in the valve bore for the variable adjustment of its prestressing force.

The limit pressure or the pretensioning force of the switching spring unit acting on the switching piston in the opening direction can in particular be at least partially continuously adjustable or also at least partially in steps via the adjusting cam.

For this purpose, the adjusting cam can be provided with at least one corresponding control surface. The adjusting cam can in particular be designed in two parts, for example one part having the at least one control surface can remain in the valve and another part provided for adjustment can be removed again after the pretensioning force of the switching spring unit has been adjusted. The impact function can, for example, be switched off completely using the setting cam.

The switching piston is expediently acted upon in the closing direction by a return spring unit.

In this way it can be ensured, for example, that the switching piston assumes its closed position when the impact function is switched off, i.e. for example when the switching spring unit is relieved by a corresponding setting via the adjusting cam.

The return spring unit is advantageously arranged between the switching piston and a plug introduced into the valve bore.

The stopper is preferably axially adjustable via a thread, in particular for setting the pretensioning force of the return spring unit.

It is also particularly advantageous if the switching piston, which is acted upon in the opening direction by the switching spring unit, rests against the plug in its open position.

The axial movement of the switching piston is thus limited in the opening direction by the plug.

The hydraulically damped door, gate or window drive according to the invention, in particular a hydraulically damped door closer, comprises a housing, a piston guided displaceably in the housing and hydraulic channels provided in the housing through which hydraulic medium can flow. According to the invention, a valve according to the invention is arranged in at least one hydraulic channel through which the hydraulic fluid can flow to effect an impact function.

According to a preferred practical embodiment of the hydraulically damped door, gate or window drive according to the invention, a pressure space is provided on one side of the piston of the door, gate or window drive and a pressureless space on the other side and the pressure at the inflow bore or in the Pressure chamber of the valve at least substantially equal to the pressure in the pressure chamber of the door, gate or window drive or at least substantially proportional or representative to the pressure in the pressure chamber of the door, gate or window drive.

The inflow bore or the pressure chamber of the valve is advantageously connected to the pressure chamber of the door, gate or window drive. According to an alternative advantageous embodiment, the pressure chamber of the valve can also be formed by the pressure chamber of the door, gate or window drive.

• 1 eine schematische geschnittene Seitenansicht einer beispielhaften Ausführungsform eines erfindungsgemäßen Ventils,
• 2 eine schematische, teilweise geschnittene Draufsicht des Ventils gemäß 1 und
• 3 eine schematische Ansicht der Einstellnocke des Ventils gemäß 1 von unten.

The invention is explained in more detail below using an exemplary embodiment with reference to the drawing; in this show:

• 1 a schematic sectional side view of an exemplary embodiment of a valve according to the invention,
• 2 a schematic, partially sectioned plan view of the valve according to FIG 1 and
• 3 a schematic view of the adjustment cam of the valve according to FIG 1 from underneath.

The 1 to 3 show a schematic representation of an exemplary embodiment of a valve according to the invention 10 to activate the impact function of a hydraulically damped door, gate or window drive. The valve can 10 be provided in particular to activate a knock function of a hydraulically damped door closer.

The valve 10 is arranged in a hydraulic channel through which hydraulic fluid can flow to effect an impact function, it being possible in particular to be arranged in a channel for short-circuiting a damping circuit. It includes one in a valve bore 12th provided axial seal 14th that with one in the valve bore 12th Shift piston axially displaceable between a closed position and an open position 16 cooperates by the pressure at an inflow bore 18th and / or in a pressure chamber of the valve 10 applied in the closing direction and when the pressure at the inflow bore drops 18th or in the pressure chamber below a predeterminable limit pressure by the spring force of a switching spring unit 20th can be converted into its open position.

The axial seal 14th includes one axially on one in the valve bore 12th provided radial projection 22nd sealing sealing element 24 .

The shift piston 16 can have at least one recess on its circumference 26th be provided over which the inflow bore 18th or the pressure chamber when the switching piston is in its open position 16 with a drain hole 28 can be hydraulically short-circuited.

The limit pressure is in particular about the biasing force of the switching piston 16 switching spring unit acting in the opening direction 20th variably adjustable.

The limit pressure or the pretensioning force is the switching piston 16 switching spring unit acting in the opening direction 20th for example via an adjusting cam 30th variably adjustable. In the present embodiment, the switch spring unit 20th for variable adjustment of their pre-tensioning force via one in the valve bore 12th axially displaceable plunger 32 through the adjustment cam 30th can be charged.

The limit pressure or the pre-tensioning force of the switching piston 16 switching spring unit acting in the opening direction 20th can via the adjustment cam 30th be at least partially continuously adjustable or at least partially adjustable in steps, with a corresponding relief of the switching spring unit 20th the impact function can also be switched off completely, for example. This is the setting cam 30th with corresponding control surfaces 40 Mistake.

Like in particular from 1 can be seen, the adjustment cam 30th in particular be designed in two parts. This leaves one with the control surfaces 40 . provided part 30 ' even after adjusting the pretensioning force of the switch spring unit 20th in the valve 10 while another hiring part 30 " after setting the pre-tensioning force of the switch spring unit 20th can be removed from the valve again.

Like in particular from 2 As can be seen, this can only be done to adjust the preload force of the switch spring unit 20th serving part 30 " of the Adjustment cam 30th with a tool holder 42 be provided for a screwdriver or the like.

The shift piston 16 is through a return spring unit 34 acted upon in the closing direction, this return spring unit 34 is made weaker than the shift spring unit 20th . By such a return spring unit 34 can be ensured, for example, that the switching piston 16 when the impact function is switched off, that is to say, for example, when a corresponding setting is made using the setting cam 30th relieved switch spring unit 20th , assumes its closed position.

Like in particular from 1 can be seen, the return spring unit 34 between the switching piston 16 and one in the valve bore 12th inserted stopper 36 be arranged. Here is the stopper 36 in the present case in particular for setting the preload force of the return spring unit 34 via a thread 38 axially adjustable.

By the valve according to the invention 10 the impact function is activated or deactivated depending on the respective state of the drive. The principle on which the solution according to the invention is based is based on the fact that the pressure in front of the piston of the drive and therefore the pressure in front of the valve 10 or at the inflow bore 18th drops as soon as the sash is decelerated or braked externally. The valve according to the invention 10 detects this condition and activates the impact function of the hydraulically damped drive by the switching piston 16 through the switch spring unit 20th is moved into its open position in which it is attached to the stopper 36 is applied. The valve 10 is now open. The wing in question now also closes in the event of unexpected resistance such as a sluggish lock latch, sporadic winds that are not too strong and / or lock situations with an air cushion to be overcome.

On the other hand, if there is no pressure at the end hole 28 Pressure at the inflow bore 18th on, the switch spring unit can 20th caused by the pressure at the inflow bore 18th do not overcome the applied force. The shift piston 16 in this case assumes its closed position, so that the axial seal 14th or their sealing element 24 against the one in the valve bore 12th provided radial projection 22nd seals and the valve is closed. The impact function is now deactivated.

With the solution according to the invention, a more variable activation of the knocking function of a respective door, gate or window drive, which can be optimally adapted to the respective circumstances, is thus guaranteed.

While the valve 10 in the 1 is shown in a schematic sectional side view, it is in the 2 reproduced in a schematic, partially sectioned plan view. 3 shows the setting cam 30th of the valve 10 in a schematic view from below, in particular also on the part 30 ' the adjustment cam 30th provided control surfaces 40 can be recognized.

One valve 10 according to the 1 to 3 can for example be used in a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer. Such a hydraulically damped drive comprises, for example, a housing, a piston guided displaceably in the housing and hydraulic channels provided in the housing through which hydraulic medium can flow. In this case, a valve according to the invention can be in at least one hydraulic channel of such a drive, through which hydraulic fluid can flow to bring about an impact function 10 be arranged as it relates to the 1 to 3 has been described by way of example.

A pressure chamber can be provided on one side of the piston of the door, gate or window drive and a pressureless chamber on the other side, and the pressure at the inflow bore 18th or in the pressure chamber of the valve 10 be at least substantially equal to the pressure in the pressure chamber of the door, gate or window drive or at least substantially proportional or representative of the pressure chamber of the door, gate or window drive. Any pressure drop or rise in the pressure chamber of the door, gate or window drive can thus be caused by the valve 10 are detected accordingly in order to activate the impact function as a function thereof if necessary.

The inflow well 18th or the pressure chamber of the valve 10 can be connected to the pressure chamber of the door, gate or window drive.

As in particular from the 1 can be seen in the valve bore 12th also one the radial projection 22nd having sleeve 44 be used in which the piston 16 and the plunger 32 are each axially displaceable. In addition, the valve 10 with a leak pipe 46 be provided.

List of reference symbols

10

Valve

12th

Valve bore

14th

axial seal

16

Shift piston

18th

Inflow well

20th

Shift spring unit

22nd

radial projection

24

Sealing element

26th

Recess

28

Drain hole

30th

Adjustment cam

30 '

Part of the setting cam provided with control surfaces

30 "

part of the setting cam used for setting

32

Plunger

34

Return spring unit

36

Plug

38

thread

40

Control surface

42

Tool holder

44

Sleeve

46

Leakage line

Claims (17)

Valve (10) for activating an impact function of a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer, the valve (10) being arranged in a hydraulic channel through which hydraulic fluid can flow to effect the impact function, and an in a valve bore (12) provided axial seal (14) which cooperates with a switching piston (16) axially displaceable in the valve bore (12) between a closed position and an open position, which by the pressure at an inflow bore (18) and / or in a pressure chamber of the valve (10) is acted upon in the closing direction and can be moved into its open position by the spring force of a switching spring unit (20) when the pressure at the inflow bore (18) or in the pressure chamber falls below a predeterminable limit pressure. Valve after Claim 1 , characterized in that the axial seal (14) comprises a sealing element (24) which seals axially on a radial projection (22) provided in the valve bore (12). Valve after Claim 1 or 2 , characterized in that the switching piston (16) is provided on its circumference with at least one recess (26) via which the inflow bore (18) or the pressure chamber when the switching piston (16) is in its open position can be hydraulically short-circuited with an outflow bore (28) is. Valve according to at least one of the preceding claims, characterized in that the limit pressure is variably adjustable in particular via the pretensioning force of the switching spring unit (20) acting on the switching piston (16) in the opening direction. Valve after Claim 4 , characterized in that the limit pressure or the pretensioning force of the switching spring unit (20) acting on the switching piston (16) in the opening direction is variably adjustable via an adjusting cam (30). Valve after Claim 5 , characterized in that the switching spring unit (20) can be acted upon by the adjusting cam (30) for the variable adjustment of its pretensioning force via a plunger (32) axially displaceable in the valve bore (12). Valve after Claim 5 or 6th , characterized in that the limit pressure or the pretensioning force of the switching spring unit (20) acting on the switching piston (16) in the opening direction is at least partially continuously adjustable via the adjusting cam (30). Valve according to at least one of the preceding claims, characterized in that the limit pressure or the pretensioning force of the switching spring unit (20) acting on the switching piston (16) in the opening direction is at least partially adjustable in steps via the adjusting cam (30). Valve according to at least one of the preceding claims, characterized in that the switching piston (16) is acted upon in the closing direction by a return spring unit (34). Valve after Claim 9 , characterized in that the return spring unit (34) is arranged between the switching piston (16) and a plug (36) introduced into the valve bore (12). Valve after Claim 10 , characterized in that the stopper (36) is axially adjustable via a thread (38), in particular for setting the pretensioning force of the return spring unit (34). Valve after Claim 10 or 11 , characterized in that the switching piston (16) acted upon in the opening direction by the switching spring unit (20) rests in its open position on the plug (36). Hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer, with a housing, a piston guided displaceably in the housing and hydraulic channels provided in the housing through which Can flow hydraulic medium, characterized in that in at least one hydraulic passage, can flow through the hydraulic fluid to effect a flip function, a valve (10) is arranged according to one of the preceding claims. Hydraulically damped door, gate or window drive Claim 13 , characterized in that a pressure chamber is provided on one side of the piston of the door, gate or window drive and a pressureless chamber is provided on its other side and the pressure at the inflow bore (18) or in the pressure chamber of the valve (10) is at least substantially is equal to the pressure in the pressure chamber of the door, gate or window drive or at least substantially proportional or representative to the pressure in the pressure chamber of the door, gate or window drive. Hydraulically damped door, gate or window drive Claim 13 , characterized in that the inflow bore (18) or the pressure chamber of the valve (10) is connected to the pressure chamber of the door, gate or window drive. Hydraulically damped door, gate or window drive Claim 14 , characterized in that the pressure chamber of the valve (10) is formed by the pressure chamber of the door, gate or window drive. Valve (10) with an axial seal (14) which is provided in a valve bore (12) and which interacts with a switching piston (16) which is axially displaceable in the valve bore (12) between a closed position and an open position and which is actuated by the pressure at an inflow bore ( 18) and / or is acted upon in the closing direction in a pressure chamber of the valve (10) and can be moved into its open position by the spring force of a switching spring unit (20) when the pressure at the inflow bore (18) or in the pressure chamber falls below a predeterminable limit pressure , characterized by the use of the valve (10) to activate a knocking function of a hydraulically damped door, gate or window drive, in particular a hydraulically damped door closer, by being arranged in a hydraulic channel of the door, gate or window drive via the for Effect of the impact function hydraulic fluid can flow.

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