DE1176435B - Push-button closing body - Google Patents

Description

Impact Operated Closure The invention relates to an impact actuated Closing body.

Known shock-actuated closing organs, in which one on the housing the closing element acting impact the closing element, for example, from an open position brings into a closed position are already used as safety shut-off valves for Pipelines prone to earthquakes have been used, which are a flow medium the leakage of which is very dangerous in the event of a line break would be.

To a response of the closure organ due to a shock or a To ensure stronger vibration is one of these known valves inert mass suspended within the valve housing space like a pendulum, that every time it swings out of its own caused by an external shock Rest position triggers a pre-tensioned spring snap mechanism, the spring of which is the same as in the closing element located in the open position pushes into its closed position. To reset the snap mechanism and at the same time reopen the A hand-operated plunger is provided for the valve in the wall of the housing a gland bushing must be provided in which the plunger can move leaves. However, sliding bushings with stuffing boxes have the disadvantage that they are at Closing organs for dangerous media carried out very carefully with regard to the wear is constantly monitored and their packing with relatively high pressures must be burdened if you want to get a reasonably secure seal. It is not uncommon for such stuffing box seals to have an inert gas barrier to be provided within the seal, which means a considerable additional effort.

In order to avoid sliding bushings that have to be sealed, one has to seal movable actuators also already have elastic membranes or bellows used. This permanently fixed to both the housing and the actuator and tightly connected membranes or bellows can mostly only be used for closure organs used for lower pressures; at higher pressures are membranes or bellows too stiff; in addition, the material of the diaphragm or the bellows can change with frequent actuation easily tire and tear.

The actuation of a terminating link within a tightly sealed on all sides closed housing is also possible by magnetic forces that are generated by the Act through housing walls; this type of actuation is economical only with relative Small pressures applicable because the magnetically through the housing walls transmitting forces are limited; with larger closing organs with relatively heavy ones Terminators, higher pressures, thicker housing walls and accordingly larger With the magnets to be executed, the effort required grows rapidly over the still economical acceptable limit.

The invention is based on the object of a shock-actuated closure member to create, the terminating link by a shock acting on its housing brought only from a certain predetermined rest position into another end position can be, from which a mechanical reset must take place; it should also Resetting can be carried out by a push on the housing in order to In this way, bushings of actuators through the housing walls or the Use of bellows and finally the use of magnetic To avoid power transmissions.

The invention is based on the exploitation of a "targeted" impact or Impact on the housing of the impact-operated closing element, whereby from the appearance the »bouncing« is used to achieve this with a double-acting snap mechanism to bring coupled terminating member alternately in one or the other end position. That inventive shock-actuated closure member is essentially due to the combination the following features: a) a housing that is closed on all sides a tight wall on which the external actuation shock acts and on its inside a part of the terminating member in its one end position or a shock-transmitting one moving part of the actuating mechanism rests, b) one with the end member coupled, resilient snap mechanism, which the terminating link in each case one or the other end position urges.

A shock or blow from the outside on that part of the wall of the housing is guided, on the inside of which a part of the terminating link or a "baffle body" acting shock-transmitting moving part of the actuating mechanism directly is applied, acts through the wall as a short impact on the one against the wall Part that is "bruised" away from the wall as a result. This is done with the snap mechanism coupled final link against the spring action of the snap mechanism to over whose dead center is moved out and immediately by then in the sense of the initiated Movement acting spring force of the mechanism pushed into its other end position. The resetting of the terminating element is also carried out by a shock that is too a corresponding movement leads in the opposite direction, the also in this Direction in the same way acting snap mechanism ensures that the terminating link is returned to its first position and held there.

The wall part of the housing that absorbs the external impact or shock can have a relatively large wall thickness; the bouncing effect is due to the thickness the wall is not significantly affected. So you can use the push-operated according to the invention Design the closing element for high pressures. Another advantage is to be seen in that the opening or closing movement of the terminating link is rapid.

The invention is illustrated below with reference to a few exemplary embodiments illustrated. In the drawing, F i g. 1 shows an axial section through a push-operated Closing member, the closing member of which is designed as a slide, F i g. 2 one Axial section through a shock or impact-operated closing element with a direct, inclined Passage, the end member of which is designed as a valve, F i g. 3 a partial cross-section by a push-actuated closing element, in which the actuation pushes only on a single wall point or a single "actuating head" act and alternate bring the terminating element into the terminating or opening position, FIG. 4 one Axial section through a hammer head which is used to actuate a closure member can that with a single actuating head according to F i g. 3 is provided.

In the first in FIG. 1 illustrated embodiment of a shock-actuated closure member according to the invention is sealed on all sides thick-walled housing 1 made of three components 2, 3 and 4, for example by welding are firmly and tightly connected to each other. The one on either side of the middle part 3 opposing components 2 and 4 are each at their outer ends closed by tightly connected walls 5 and 6; form these walls the "actuating heads" on the pushes necessary to actuate the closing organ or Blows are applied. The middle housing part 3 is with two opposite Provided through holes, connected to the inlet and outlet lines for the fluid will.

The closing element designed as a slide, its slide body 8 the middle part of a slide body extending on both sides Forms actuating rod 7 is guided in the middle housing part 3; the ends the actuating rod 7 protrude through axial bores in the components 2 and 4. In that position of the terminating member as shown in FIG. 1 shown is, the lower end of the operating rod 7 is directly on the inside the wall 6 or the actuating head 6, and the through holes are through the slide closed. In the other end position of the terminating link lies the upper end of the operating rod 7 on the inside of the upper wall 5 or of the upper operating head 6, and the two through holes are direct connected via the passage 9 of the slide.

The slide body 8 contains two sealing disks 10 and 11, which are radially guided in the slide body and are pressed sealingly onto the mouths of the passage bores in the end position of the slide by a compression spring 12, which is clamped between two pressure blocks 13 and 14.

The actuating rod 7 is coupled to a snap mechanism which is designed as a knee joint snap mechanism known per se and has a tension spring 15 which connects the ends of two levers 16 and 17 which are symmetrically linked to the rod 7 and extend in opposite directions. On both sides of the free end portions of the levers 16 and 17 of the knee joint snap mechanism, fixed stops 18, 19 and 20, 21 are provided at a mutual distance, on which the levers 16 and 17 can be supported in the end positions of the snap mechanism, the spring 15 the rod 7 and with it presses the slide in one or the other of the two end positions which are given by the contact of one of the ends of the rod 7 on the walls or actuating heads 5 and 6.

A magnet body 22 is attached to the actuating rod 7, which serves, the respective position of the final link within the perfectly to determine the closed housing; this can e.g. B. done in such a way that a magnet is brought from the outside to two of the aforementioned places on the housing and due to the attraction force that becomes noticeable, the position of the magnet body 22 and thus of the final link. The remaining parts of the housing exist made of non-magnetic material.

The actuation of this closing organ takes place with one blow onto one of the walls 5 or 6, which will continue to be called "actuating heads".

In the case of the in FIG. 1 'position of the closing element, a blow is exerted on the actuating head 5 to open the closing element, which has the consequence that the rod 7 and the closing element are "bounced" in the upward direction, the two levers 16 and 17 of the toggle mechanism against the action of the spring 15 first "snap" into an extended dead position and then into an angular position due to the action of the spring 15, which is the same as that shown in FIG. 1 angular position shown is opposite. The spring 15 then generates an upward force on the rod 7, while the ends of the levers 16 and 17 bear against the lower stops 19 and 21. The upper end of the rod is pressed against the upper actuating head 6, and the passage channel 9 of the slide 8 is in the axis of the two passage bores; the closing organ is in the open position.

A blow on the upper operating head 6 brings under the appropriate Effect of the knee joint snap mechanism in the opposite direction of the terminating link back to its final position.

In the embodiment according to FIG. 2 is the terminating element as Valve formed which has an oblique to the axis of the closure member extending passage can complete.

The passage bores 23 a and 23 b, which run coaxially to one another and are provided in the central part of the housing 24, are closed by the valve body 26 guided by means of its actuating rod 7 in the housing and the guide member 25 when the latter opens with its conical part 27 a valve seat connecting the two bores 23 a and 23 b is applied. The valve body 26 is extended downwards by a rod-like extension, under which a magnetic body 28 is arranged axially movable in the housing at an axial distance, which has the task of acting as a shock-transmitting "impact body". This magnetic body 28 is attracted by a magnet 29 pressed into the lower actuating head 6 and is thus held in direct contact with the actuating head 6. The snap mechanism coupled to the rod 7 corresponds to the snap mechanism according to FIG. 1.

On the lower extension of the valve body 36 there is again a magnetic one Part 36 set, which is used to determine the respective position of the terminating link can be, as described above for the magnetic part 22 according to FIG. 1 described became.

If you look at the in F i g. 2 shown closed position of the valve body 26 exerts a blow on the actuating head 6 of the closing element on the underside, so by this blow the magnet body 28 is against the extension on the underside of the valve body 26 bounced; the valve body 26 is thereby connected to the rod 7 pushed up so far that the snap mechanism is back over its dead position snaps and through its spring 15 the rod 7 and with it the valve body 26 to brings into the upper end position, in which the passage 23 a, 23 b is released and the upper end of the rod 7 rests against the inside of the upper actuating head 5.

To reset the valve body 26 in the final position is then a blow is carried out on the upper actuating head 5.

The use of the baffle 28 as a shock-transmitting movable Part of the actuation mechanism that clears a valve when the valve is in the closed position Distance from the valve body, allows a perfect seating of the Valve body 26 on the valve seat because this seat is the only stop in the Forms closed end position.

In the embodiments described so far, the outer impact-absorbing walls or actuating heads opposite one another End faces of the housing, which means that alternating blows on the upper and lower actuating head must be exercised in order to open or close.

The use of the knee joint snap mechanism already described, like the one in the explanations according to FIG. 1 and 2 is used, it also makes it possible to the Ahschlussorgan only a single actuator head alternately in each case To operate the sense of opening or closing. The F i g. 3 shows one for this Type of actuation designed actuator head.

The end wall 5 of this actuating head 31 has a central extension 32 and an annular extension 33 which is concentric with the central extension. Below the central extension 32, the actuating rod 7 is guided in such a way that in the upper end position of the terminating element it rests directly on the inner part of the extension 32 or is pressed on by the spring of the toggle lever snap mechanism. An annular body 34 rests against the annular extension 33 and is pressed against the annular extension 33 by a spring 35. The ring body 34 extends with its lower edge up to the vicinity of the levers 16 and 17 of the knee joint snap mechanism when these levers are in contact with the upper fixed stops 18 and 20 and the spring presses the actuating rod 7 and with it the end member downward. The movement of the ring body acting as a baffle in the direction of the snap mechanism is limited by the spring 35.

Takes place in the FIG. 3 visible location of the just mentioned Share a blow on the actuating head 31, only the ring body 34 is after bruised down, with its lower edge on the end of the two levers 16 and 17 and the two at their common point of articulation by the rod 7 The lever held in place is suddenly pivoted downwards over the dead center of the knee joint until the levers touch the lower fixed stops 19 and 21. Immediately the ring body 34 is then moved back up to its starting position by the spring 35 returned. The toggle lever mechanism now exercises on the actuating rod 7 upward force and lifts the rod 7 up to its stop on the central approach 32, with which the closing organ is opened. Another blow on the actuating head 31 now acts at the same time bouncing on the actuating rod 7 and the ring body 34; however, there are the two levers 16 and 17 of the knee joint knee mechanism to rest against their lower fixed stops 19 and 21, the downward bouncing Ring body 34 have no effect on the toggle mechanism; just the down bruised rod 7 can bring the toggle lever beyond its dead position, from the he then into the in F i g. 3 "snaps" the position shown, that of the final position of the closing body.

So that the impact on this single actuating head is always simultaneous on the two approaches 32 and 33 acts and no incorrect operations occur, a hammer adapted to the shape of the head is used.

F i g. 4 shows the head 36 of such a hammer attached to a spring 37 depends. If you hit an external blow with the one shown in FIG. 4 hammer shown executes on the actuator head 31, everyone is in contact with the wall Part set in motion and so alternately the opening and closing of the closing organ caused by a blow on only one side of the housing.

The shock actuated closure members according to the invention are special Suitable for installation in lines that are dangerous, for example radioactive Carry liquids or gases. They also have the additional advantage that they can be used without the use of a lubricant at temperatures up to 350 ° C can so that the fluid is not contaminated when flowing through and no entertainment is needed. All building materials for the production of the closing organs, which are in contact with the fluid are not oxidizable, and the Pressure losses are reduced to a minimum because the passage cross-sections are not are constricted. The dimensions of such a closure member are small and the The flat shape of the housing allows several closure organs to be strung together in a limited installation space.

The external actuation shock can be done by hand using a hammer or by means of an electromagnet, a pneumatic impact device or any other impact device are executed, for example, as a separate Component can be grown on the outside of the closing organ.

Claims (7)

Claims: 1. Impact-operated closing element, g e k e n n -z e i c h n e t d u r c h the combination of the following features: a) one that is closed on all sides Housing (1) with a tight wall (5, 6) on which the external actuation shock acts and on the inside of which a part (7) of the terminating member (8 or 26) in one of which End position or a shock-transmitting moving part (28 or 34) of the actuating mechanism b) a resilient snap mechanism coupled to the terminating member (15 to 21), which pushes the terminating element into one or the other end position. 2. Closing member according to claim 1, characterized in that the terminating member a slide (8), which is in the middle part of a in the direction of movement of the end member extending actuating rod (7) sits, the ends of which alternately in one and the other end position of the slide opposite one another front wall parts (5, 6) of the housing (1) are in contact (FIG. 1). 3. Closing body according to claim 1, characterized in that the closing element is a valve body (26) with an actuating rod extending in the stroke direction of the valve body (7) is firmly connected, which in the open position of the valve on an end face Wall part (5) of the housing (1) rests, while on the other side of the end member an approach is provided, coaxial to which a shock-transmitting impact body (28) is guided in the valve housing, which is at one at the other end of the housing provided end plate rests and from the approach of the valve body by a Space is separated (Fig. 2). 4. Closing element according to claim 1, characterized in that the housing has only one wall part (5) serving as an "actuating head" (31) on which an actuating rod (7) connected to the closing element rests in one end position of the closing element and against which In addition, an annular body (-14) surrounding the rod is pressed by a spring (35), which acts as a baffle directly on the snap mechanism (15 to 21) when it hits the end plate when it is in the same position as the other End position of the terminating link corresponds to (Fig. 3). 5. Closing member according to claim 2 or 3, characterized in that intimate contact between the actuating rod or the impact body (28) and the wall (5, 6) of the housing (1) is achieved by the magnetic action of a permanent magnet (29) . 6. Closing member according to one of claims 1 to 4, characterized in that intimate contact between the rod (7) and the wall (5 or 6) of the housing is ensured by a mechanical pressing device using a spring (15). 7. Closing member according to one of claims 2 to 6, characterized in that the resilient snap mechanism is a knee joint snap mechanism which consists of two levers (16, 17) articulated symmetrically to the actuating rod (7) and a tension spring (15) connecting the levers and the levers of which can be supported on fixed stops (18, 19) and (20, 21) arranged at a mutual spacing on both sides of their free end sections (FIGS. 1 to 3). Considered publications: German Patent Nos. 965 037, 1008 976, 1024 303, 1038 360; USA. Patent Nos. 2,158,753, 2 771,900th