TR202013447A2 - A multi-purpose actuator system lever mechanism for reservoir discharge valves - Google Patents

Abstract

The invention relates to the lever mechanism of an actuator system that operates the discharge valves of concealed reservoir systems to which toilets are connected.

Description

DESCRIPTION A MULTI-PURPOSE ACTUATOR FOR RESERVOIR DRAIN VALVES SYSTEM LEVER MECHANISM Technical Area The invention is the concealed cistern to which the toilet bowls are connected. an actuator that operates the relief valves of systems It is related to the lever mechanism of the system.

State of the Art Flush of the reservoirs to which the toilet bowls are connected actuator for operating the valves mechanical, pneumatic and electro-mechanical types of systems available.

In the prior art, mechanical actuators have at least one and usually for 2/3 and 4/6 Liter discharge functions operated via actuator panels, including are mechanisms. User-controlled actuator buttons driven by the lever of the reservoir system water discharge by transferring to the mechanism and the discharge valve function is realized. draining water valves, pre-set a certain amount of water discharges it from the reservoir and sends it to the toilet.

Patent document DE3139834; on the market today Many mechanical actuator panels and valve drives available describe the working principle of the mechanisms at a basic level It is the first example that has ever been made. operated in similar ways as a basic principle. describes the actuator panels. These mechanical systems The common feature is that the buttons are usually at the top. swing type in a joint axis created Drive type and position in lever mechanisms: Actuator with swing type button action actuator lever mechanisms driven by panels, located in the relatively lower part of the actuator panel. from positions. Most available lever mechanisms basically, it is described in patent document number DE3139834. possible to do.

Referenced in our explanations in this document lever mechanisms in all documents, swing type unloading, driven by moving actuator buttons as mechanisms that can transfer they are explained. Explained in the state of the art and single-stage lever mechanisms available on the market swing type lever systems.

Integration of lever mechanisms with the reservoir system: In the patent document number DE3l39834, the mechanism a valve that closes the access channel opening of the reservoir system. It is explained that it is on the 'protective cover'. This document in a possible application within the scope of; a mechanism to be on the protective cover, the levers of the assembly to establish a mounting relationship with the relief valve during makes it relatively difficult and makes it possible to to bring the lever handles straight and hollow to the valve. It is understood that the transition has been achieved. At working time, The lever arms are freed from the unloader valve and the system malfunction or malfunction.

To eliminate this handicap, EPO276633 In the patent document, the mechanism assembly and maintenance making interventions easier it will provide. in the form; inspection channel of lever` mechanism a structure that allows its space to be partially accessible positioning is explained. This structure is the reservoir in the form of a “bridge” with the general construction of the system establishes an assembly relationship. In this way, the lever mechanism easily accessible from the reservoir maintenance channel. is coming. Mechanism that leaves the maintenance channel open With this advantage of the carrier structures, the maintenance channel a protective cover is then added. Mechanism as a carrier structure; Bridge format in document EP0276633 After the explanation of the structure, in document DE3139834 that the cap-like structure described was abandoned is being evaluated. Because of the disadvantages applications are not available. products available in the market and applications, mechanism described in document EP0276633 It is based on the carrier structure principle. Bridge-like structures in patent documents No. lever mechanisms connected on has been defined.

In the patent document number DE19508865, the maintenance channel a different structure, such as an exposed bridge, is described.

Bridge-like lever in all commercially available applications mechanism bearing structures are available. maintenance channel A protective cover is added to the system to close it. is being done. At the time of maintenance or repair, the reservoir system's valves or other inside the reservoir. In order to gain access to the associated parts, make sure that the protective cover 'and individual disassembly and maintenance of the mechanism bridge then reassembly in the same order required.

In some applications, especially in-wall concealed cistern of the reservoir system, which remains under plaster in applications the tank body partially deforms under pressure. is coming. This is especially the bridge-shaped mechanism. Carrier constructions are also included in the system. causing it to jam. These jams, maintenance and lever with bridge-shaped carrier in repair time disassembly and reassembly of constitutes a serious disadvantage. flush-mounted In applications, the thermoplastic main part of the reservoir system caused by the neck and deformations of the parts lever mechanism to prevent carrier bridge jams structurally various reinforcements in the design for the purpose of added and implemented. However, the field especially bridges due to mistakes made in jamming problem is still frequently encountered. Wall cistern not in it, installed in front of the wall system applications, this disadvantage is eliminated.

Problems That Invention Aims To Solve The invention has both swing type and linear actuation buttons. with alternative actuator panels that have multi-purpose mechanism options suitable for use offers. One for different drive position needs and/or two-stage lever mechanism assembly solution offers.

The basic aim to be achieved with this multi-purpose lever mechanism. The benefit is that mechanical reservoir actuator panels (which allows the user to operate the reservoir valves) mechanical. button panels), both the working principle and diversity in terms of design features to ensure that it can be increased. With the same lever mechanism access to a large variety of actuator panel solutions opportunity is created. In this way, different actuators different mechanism that may be needed by the panels eliminating the need for additional investment for the production of is being removed. Common to many major product sets multi-purpose lever mechanism solution to be used, It provides significant advantages in production costs.

Multi-purpose lever mechanism, which is the scope of the invention, reservoir system; bridge-like or plate-like mechanism It can be integrated with a carrier structure. Both carrier structure, features of multi-purpose lever mechanism is exactly the same in terms of: Bridge-shaped carrier structure, application form, plaster-mounted may be preferred for non-main product configurations.

In this use, a protective cap is placed on the reservoir maintenance channel. addition is preferred. The preference of the bridge carrier system The reason for this is that it is possible to interfere with the lever mechanism. is that. Because the assembly/disassembly of the lever mechanism lever its relationship with the relief valve during It is possible to provide it by positioning the arms.

Lever mechanism with a panel structure as carrier. additional support in the maintenance channel of the reservoir system. This will eliminate the need for a protective cover. However, using a panel as the mechanism carrier In case of assembly/disassembly, the lever handles The need to determine the position will also arise.

Invention, lever mechanism for assembly/disassembly time panel support, allowing to control its position It also includes an integrated solution with

Explanation of Figures Figure 1.- Representation of the multi-purpose lever mechanism position and relations in the reservoir system, section view Figure 2 i Panel carrier lever mechanism group options, perspective Figure 3 - Lever mechanism group with bridge carrier options, perspective Figure 4 - Lever mechanism group with panel carrier options, partially exploded perspective view Figure 5 i Panel carrier lever mechanism group, single and two-stage options, perspective Figure 6 - Lever mechanism group with panel carrier, single and two-stage options, perspective Figure 7 - Panel carrier lever mechanism assembly, two step lever option free position, perspective Figure 8 - Panel carrier lever mechanism assembly, two stepped lever option end-of-stroke position, perspective Figure 9- Lever mechanism group with panel carrier, single step lever option free position, perspective Figure 10 - Lever mechanism group with panel carrier, single stage lever option stroke end position, perspective Figure 11 - Main lever, perspective Fig. 12 l Main lever, perspective Figure 13 - Second stage lever, perspective Figure 14 - Swing drive adapter, perspective Figure 15 - Linear drive adapter, perspective Figure 16 - Linear drive adapter, perspective Figure 17 - Panel holder, perspective Figure 18 - Panel carrier, sectional view Figure 19 i Bridge carrier, perspective Figure 20 - Bridge carrier, section view Figure 21 - Lever mechanism group with panel carrier, perspective view Explanation of References in Figures CC - Concealed (concealed) reservoir system T - Reservoir tank P - Actuator panel V i Drain valve A - Lever mechanism group with panel carrier A.l - lever mechanism linear drive option A.2 i lever mechanism swing drive option B - Lever mechanism group with bridge carrier - Main lever arm rotation axis i Second stage lever arm rotation axis - Second stage lever arm drive axis - Second stage drive transmission axis - First stage drive transmission axis 1 - Linear drive axis 2 l Swing type drive axis Main lever 1.1. lever handle extension rotation axis bearing extension Second stage drive extension First stage drive transfer bearing Lever arm frame structure connections ONLJTi-Ihwm Lever lever manual control extensions second stage lever slave 2.1. axis of rotation bearing 2.2. Linear drive take-up extension 2.3. Drive transfer guide slot linear drive adapter 3.1. Drive transfer rod connection socket 3.2. Extension on body 3.2.1. Drive transfer guide slot 3.3. adapter body Swing drive adapter 4.1. Drive transfer rod mount 4.2. axis of rotation joint extension drive transfer rod mechanism carrier 6 (A) i Panel type construction 6 (B) - Bridge type structure 6.1 - Linear motion transmission channel 6.2 - Main lever knuckle bearing extension 6.3 - Second stage lever knuckle extension 6.4 i Channel body opening Disclosure of the Invention The invention relates to the water supply of a concealed reservoir system (CC). activating the flush valve (V) functions A complete lever system (A, B) and It covers multi-purpose usage options (A.l, A.2).

The invention is a multi-purpose lever mechanism with different carriers. It explains (A, B) that it can be integrated with structures.

The invention is particularly relevant to the use of a panel-type mechanism carrier. solutions that enable its use in practice contains.

Within the scope of the document; lever mechanism, panel (A) and bridge with shapes as carrier (B) integration options is being announced. In the representations made with figures, the panel type carrier integration (A) is used. This the working principle of the lever mechanism, structural details and carrier integration All details are also available in bridge type carrier integration. (B) is valid as is.

Actuator panels (P) of reservoir systems (CC), buttons that usually make a swing type movement the functions of the drain valve (V) through makes it activate. State of the art reference documents we have mentioned in the summary and available In applications, mechanical actuator panels (P) are likewise It provides propulsion with salihcak type movement.

Mechanical actuator panels (P), user's buttons The propulsion, which is formed through the reservoir system (CC) lever mechanisms positioned inside It transfers the water to the discharge valves through it. This The basics of the “multi-purpose lever mechanism” described in the document One of its features is both swing type and It can work with linear drives and use the water drain valve (V) that it can be activated.

The water discharge valves (V) have two different function volumes. has. With approximately 2/4 and 3/6 liters of water, two different volume of water is sent to the toilet. For these functions, The existing valves (V) are driven by two separate lever mechanisms. needs to be done.

Figure 2, Figure 3, and Figure 4 are multi-purpose levers. of the parts group that provides all the options of the mechanism shows the whole as a whole. representation in figures mechanism groups (A, B) with two groups to operate both stages. has been created. At least one lever mechanism group (A, B) It is preferred that it be formed with a lever mechanism.

Provided from the actuator panel (P); - for linear drive; Parts 1, 2, 3, 5 grouped by “lever mechanism linear drive option group" (A.l) is formed (Figure 5, Figure 6, - for swing type drive; Parts 1, 4, 5 when grouped “lever mechanism swing drive option group” (A.2) is created (Figure 5, Figure 6, Figure 9, Figure 10). Swing type drive parts used for linear drives It may also be preferable to have it present in the system.

Two separate valve (V) functions from actuator panel (P) the drives provided for the stage; - two wishbone drives (A.2), - two linear drives (A.1), - one linear (A.1) and one wishbone drive (A.2), can be selected as one of the options. Figure 5 and Figure 6, example for a linear and a swing type drive shows the mechanism option groupings. This selections for the actuators, the actuator panel (P) relates to the working system“ and lever` mechanism grouping of options (A.l, A.2), selected actuator panel can be preferred according to its features.

For both linear (A.l) and swing type (A.2) drives, the common component of the mechanism is the main Lever Lever (l) part (Fig. 11, Fig. 12). The main lever (1) is basically It has a frame-shaped structure and is one side of the structure. side, one of the functions of the water drain valve (V) a lever arm extension that allows it to be associated with (1.1) exists. The lever arm extension (1.1) is a special It has a curvilinear structure and the valve the ability to move the function arm (V) on the vertical axis It will be preferred that it be formed in the most appropriate way for

Lever handle extensions (1.1) (V) according to the design features of the frame-shaped structure may be on one side or the other, probably prefer to be created symmetrically can be done. Main lever arm rotates at runtime while making movements, other parts of the lever mechanism To avoid collisions with (3-dimensional interference), the frame the lever arm of the shaped structure (1.5) It is preferable to shape it with appropriate details. is being done. Structural details of these connections (1.5), both to prevent collisions and mechanically to the frame structure. appropriately to provide strength and rigidity. shaping is preferred.

Main lever lever (1) structure, function of lever mechanism necessary to perform the options (A.1, A.2) which form the rotation and articulation axes (Xa, Xd, Xe) it has structural details (1.2, 1.3, 1.4).

Mechanism supporting structure (6), Main Lever Lever (l) rotation joint axes for axis bearing extensions (1.2) It has joint bearings (6.2) forming (Xa) (Fig. 17, Figure 18). In the preferred embodiment of the invention, the Lever arm (1) and make the carrier. (6) for this Inafsalli combination, Some of these parts produced with thermo plastic raw materials Snap-fit connection relationship is preferred thanks to its stretches. has been made. The joint axis (Xa) has a different connection It is also preferable to create it with a relationship.

Linear drive (A.1): Main lever (l), linear drive via Xd axis It converts it into rotational motion on the Xa axis. produced in the 'actuator' panel (P). linear drive, Inekanism to the mechanism (A.l) via the drive rod (5) is being transmitted. Mechanism drive rod (5), XA.1 axis is moving on. XA.1 axis, mechanism of a hollow extension (6.1) on the body of the carrier (6) is the central axis. This extension is on the linear drive axis. (XA.l) is the guide to the movement.

Mechanism drive rod (5) with linear drive adapter (3) It has a position-adjustable connection.

For connection with drive transfer rod (5), linear drive adapter (3) drive transfer rod mounting socket (3.1) inner There is preferably a threaded connection in the cavity.

Mechanism drive rod (5) and linear drive adapter (4), guide extension (6.1) on the mechanism carrier (6) moves together. Drive transfer rod (5) and adapter (3), guide channel (6.1) the channel of the adapter piece for bedding in body structure (3.3) channel (6.1) shaped according to the cross section, preferably both guide duct (6.1) and adapter body (3.3) cylindrical structures is preferred. find alternative Prismatic with different cross-sections in applications. buildings preferable. of the mechanism drive rod (5), XA.1 Actuator panel for linear bearing on its axis It also needs a second bedding on the (P) side.

Second bearing on actuator panel (P) side this document not represented by the figures in the scope, panel (P) relates to the design needs of the party, very variable possible with alternative solutions.

Linear drive adapter (3) in guide groove (6.1) protruding through a trunk opening (6.4) body extension (3.2). This extension is a slot-shaped The guide contains spaces (3.2.1). in the guide channel linear drive with cross section width (6.4) of body opening The cross section width of the body extension (3.2) of the adapter is one has dimensional tolerance. This tolerance, linear drive lateral rotation of the adapter (3) on the guide axis XA.1 to prevent their movements with a certain tolerance is necessary.

Linear motion via linear drive adapter (3) the second stage is transferred to the lever arm (2). Second step lever (2), approximately “U” with one side open It has a shaped frame structure. second stage lever lever, second stage rotation axis of the mechanism (Xb) It makes rotary movements by bedding on it. This bearing, on the arm-shaped structures of the part, bearing housings (2.1), mechanism carrier (6) linear knuckle extensions on the motion channel extension It is performed in combination with (6.3).

In assembled form, located inside the frame-shaped structure Linear drive take-up extensions (2.2), linear drive in the guide slots (3.2.1) of the adapter and the slot it has the possibility of movement within the field of its opening.

The Xb axis position is fixed in the mechanism. Xc axis; XA.l with linear motion in any direction on its axis. together, on the radius formed between Xb and XC and linear drive adapter inside the guide slot (3.2.1) is relocating. Linear motion, adapter (3) and second with this relationship between the step lever lever is taking place.

Assembled, second stage lever stem (2) slot-shaped guide spaces formed on Second stage drive on (2.3) and main lever (l) a tolerant dimensional relationship between the extensions (1.3) available. Linear drive of main lever (1) extensions (1.3) on the second stage lever` body It is mobile within the slot space area. xd axis; XA.1 with linear motion in any direction on its axis. together, on the radius formed between Xb and Xd and second stage lever arm guide slot space (2.3) is changing in.

User generated via actuator panel (P) linear drive by combination of rod (5) and adapter (3) to the second stage lever (2) and the main lever (l) is being transmitted. With these transfer relations, a two-stage lever` mechanism is implemented. linear drive when the supplying force is removed; mechanism, main the position of the center of gravity of the lever arm (l) part. spontaneously reversed by its displacement under the influence of gravity working in the direction of the mechanism, the mechanism rod (5) with linear movement. back to its free position (Figure 7).

Swing type drive (A.2): Swing type drive, state of the art It is the type of drive found in applications. Meet The reason why it is within the scope of the as the carrier structure (6) and the main lever (1) and to the mechanism for swing type drive a modular system by adding a different drive adapter (4) application can be created. In this application, the linear drive the parts (2 and 3) that complete the mechanism. may or may not be added. This situation, will be used. mechanism drive options, planning depending on preference, whether it is predetermined or not.

So the mechanism is Figure 2, Figure 3 or Figure 4 both linear drive and grouped ready-to-run for swing type drive it could be. However, in the ways described in the document, the swing type driven mechanism option is simplified and the most It is shown in basic form (Figure 9, Figure 10).

The swing type drive option of the mechanism is generally an actuator with a swing type operating button(s) It is preferable to select to transfer the drive coming from the panel (P). can be done. Here, a drive transfer rod (5) and a swingarm drive adapter (4), movement to main lever (l) transmits.

Swing drive adapter (4), in its most basic form, has two axes has. Drive transfer rod (5), rod coupling socket (4.1) preferably with an adjustable screw thread connection has a relationship. Axis of drive transfer rod (5) (XA.2) is also the axis of the force vector of the drive.

Swing drive adapter (4) with main lever (1) combination with freedom of movement on the Xe axis is taking place. Rotation axis on the adapter body The knuckle extensions (4.2) are located on the main lever frame structure. specified with first stage drive transfer bearings (1.4) coupled with a gap tolerance. mechanism rod (5) end of actuator panel side, actuator another one that is integrated with the panel (P). separate with the piece is being bedded. Bearing on the actuator panel (P) side are not represented by the figures within the scope of this document, relates to the design needs of the panel (P) side, very realization with variable alternative solutions possible.

Drive transmitted by rod (5); Xa axis position fixed while Xe-Xa converts it into a radius rotational motion. (Fig. 9, Fig. 10). Xe axis, rod on radius Xe-Xa It moves with (5). During this movement The parallelism of the XA.2 axis to the ground plane is changing. This Therefore, this mechanism drive type is covered by the document. Drive transmitted by the mechanism rod (5), the main lever (l) activating the valve (V) functions by moving (Figure 10). drive when the mechanism is terminated, the weight of the main lever (l) opposite to the displacement of its center under the effect of gravity direction and returns to its free position (Fig. 9) is freezing.

Advantages obtained with the panel-shaped carrier structure: Reservoir access channel of drive mechanisms fixing it on a panel that can be closed, in practice especially in the assembly and disassembly stages. that it could not be preferred due to difficulties, above annotated, At the same time, a bridge-like mechanism make a carrier. advantages and disadvantages above we explained.

The invention shows that a panel type mechanism carrier structure, assembly and It can be used easily in disassembly stages. Provides Features. First, a preferably transparent with thermoplastic polymer` material (preferably, Polycarbonate) mechanism to the user during assembly/disassembly. Provides visual contact with

As shown in Figure 21, the mechanism (A.1 or A.2) extensions (1.6) on main lever arms (l), panel outward to a certain extent from the gaps above extends. These extensions are the lever arms, the panel on the user-facing surface, by the user allows them to be controlled manually.

In this way, the user can, for example, assemble the mechanism panel (A). while simultaneously running both panel (A) and these extensions (1.6). can hold both lever handle extensions (1.1) and control of the valve (V) in the reservoir system (CC) you can see the levers and that the lever levers (1) allow the centers of gravity to move freely It can perform panel assembly without In summary, in implementing a panel-type mechanism carrier to make it possible, that the panel is transparent and that the levers to be fixed during assembly.

Likewise, when disassembling the mechanism panel (A), lever handles extensions (1.6) fixed by the user It is possible to remove the panel by holding it.

In this way, the reservoir accessibility of a panel-type structure also in such a way that there is a protective cover in the channel formatting is preferable.

Claims (1)

CLIENTS mechanism and its feature; Lever mechanism linear drive option for linear drive, within the actuator mechanism, so that the water drain valve can work with both swing type and linear drive and the water drain valve (V) can be activated at the same time. group (A.l) and lever mechanism for swing type drive, swing drive option group (A.2). .It is a multi-purpose actuator mechanism according to claim 1 and its feature is; It has a lever mechanism integrated with the panel (A) and/or bridge carrier (B). .It is a multi-purpose actuator mechanism according to claim 1 and its feature is; Lever mechanism linear drive option group (A.l) and lever mechanism swing drive option group (A.2) are connected on the carrier structures, one or both of them can be used at the same time. .It is a multi-purpose actuator mechanism according to claims 1 and 3, and its feature is; o linear lever mechanism consisting of main lever (1), second-stage lever (2), linear drive adapter (3) and drive transfer rod (5) o main lever arm (l), swingarm drive adapter (4) and drive transmission Lever mechanism consisting of rod (5) includes swing drive option group (A.2). 5. It is a multi-purpose actuator mechanism according to claim 3 and its feature is; from the actuator panel (P), the ability to provide drives for two separate stages of valve (V) function o two swing type actuators (A.2), o two linear actuators (A.l), o one linear (A.l) and one swing actuator (A.2 ) option is optionally connected. .It is a multi-purpose actuator mechanism according to claim 4 and its feature is; It has a main lever arm (1), which has a frame-shaped structure and is equipped with a lever arm extension (1.1) on one side of the structure, which allows the water drain valve (V) to be associated with one of its functions. .It is a multi-purpose actuator mechanism according to claim 6 and its feature is; It has the lever arm extension (1.1), which has a curvilinear structure. .It is a multi-purpose actuator mechanism according to claim 6 and its feature is; It has a symmetrically formed lever arm extension (1.1), which can be on one side or the other side of the frame-shaped structure. .Multi-purpose actuator mechanism according to claim 4 or 6, and its feature is; The lever mechanism has the main lever arm (1), which is equipped with structural details (1.2, 1.3, 1.4) forming the rotation and articulation axes (Xa, Xd, Xe) necessary to realize the function options (A.l, A.2). 10. It is a 'multi-purpose actuator' mechanism according to isten 9 and its feature is; The main Lever Arm (1) contains the mechanism carrying structure (6), which has the joint bearings (6.2) forming the joint axes (Xa) for the rotation axis bearing extensions (1.2). 11. It is a multi-purpose actuator mechanism according to claim 9 or 10 and its feature is; It is the creation of snap-fit connections produced with thermo plastic raw materials for the articulated combination of the lever arm (1) and the carrier structure (6). 12. It is a multi-purpose actuator mechanism according to isten 4, and its feature is; The mechanism that transfers the linear drive produced in the actuator panel (P) to the lever mechanism linear drive option group (A.1) contains the drive rod (5). 13. Claim. It is a multi-purpose actuator mechanism according to 4 or 12 and its feature is; It contains the mechanism drive rod (5), which has a position-adjustable connection relationship with the linear drive adapter (3). 14. It is a multi-purpose actuator mechanism according to claim 13 and its feature is; The drive transmission rod connection housing (3.1) contains the linear drive adapter (3), which has a threaded connection in its inner cavity. 15. Multi-purpose actuator mechanism according to any one of the above claims and its feature is; It contains the mechanism drive rod (5) and linear drive adapter (4), which are connected to move together in the guide extension (6.1) on the mechanism carrier (6). 16. It is a multi-purpose actuator mechanism according to claim 15 and its feature is; for bearing in the guide channel (6.1), the adapter piece contains the rod (5) and the linear drive adapter (3), which are shaped in accordance with the cross section of the body structure (3.3) channel (6.1) of the adapter piece moving in the channel. 17. It is a multi-purpose actuator mechanism according to claim 16, and its feature is; is that both the guide channel (6.1) and the adapter body (3.3) are cylindrical. 18. It is a multi-purpose actuator mechanism according to claim 16 and its feature is; is that both the guide channel (6.1) and the adapter body (3.3) are in prismatic structure. 19. It is a multi-purpose actuator mechanism according to claim 13 and its feature is; The linear drive adapter (3) is equipped with a body extension (3.2) that houses a slot-shaped drive transmission guide slot (3.2.1) protruding from a body opening (6.4) in the guide channel (6.1). 20. It is a multi-purpose actuator mechanism according to claim 13 and its feature is; the cross-section width (6.4) of the body opening in the guide channel The cross-section width of the body extension (3.2) of the linear drive adapter has a dimensional tolerance. 21. It is a multi-purpose actuator mechanism according to Isten 4, and its feature is; The second stage lever arm (2), which is designed in U form, is equipped with bearing housings (2.1) on the arm-shaped structures of the part. 22. It is a multi-purpose actuator mechanism according to claim 21, and its feature is; in assembled form; The linear drive adapter has the second stage lever arm (2) equipped with linear drive extensions (2.2) on the inside of the frame-shaped structure, which has the possibility of movement within the guide slots (3.2.1) and within the area of the slot opening. It is a multi-purpose actuator mechanism according to claim 21 and its feature is; in assembled form; with slot-shaped guide spaces (2.3) designed to have a tolerant dimensional relationship between the second-stage drive extensions (1.3) on the main lever (l) and in which the linear actuation take-offs (1.3) of the main lever can be moved / displaced equipped with the second stage lever arm body (2). 24. It is a multi-purpose actuator mechanism according to Isten 4 and its feature is; The mechanism that transfers the drive produced in the actuator panel (P) to the main lever arm (l) includes the drive rod (5) and the swing drive adapter (4). 25. It is a multi-purpose actuator mechanism according to claim 24 and its feature is; It has the swing drive adapter (4) which has two axes. 26. It is a multi-purpose actuator mechanism according to claim 24 and its feature is; O axis (XA.2), which preferably has an adjustable screw thread connection with the rod connection socket (4.1), contains the mechanism drive rod (5), which is also the force vector axis of the drive. 27. It is a multi-purpose actuator mechanism according to claim 24 and its feature is; It has the swing drive adapter (4), which combines the main lever arm (1) with freedom of movement on the Xe axis. 28. It is a multi-purpose actuator mechanism according to claim 27 and its feature is; The main lever arm contains the swing drive adapter (4), which is equipped with the rotation axis joint extensions (4.2) on its body, which combines with the first stage drive transfer bearings (1.4) in the frame structure with a certain clearance tolerance. 29. It is a multi-purpose actuator mechanism according to claim 24, and its feature is; The end part on the side of the actuator panel is the drive transfer rod (5), which is also bedded with another part integrated with the actuator panel (P). 30. It is a multi-purpose actuator mechanism according to claim 2 and its feature is; It has the panel (A) made of transparent thermoplastic. 31. It is a multi-purpose actuator mechanism according to claim 2 and its feature is; It has a panel (A) shaped as a protective cover in the reservoir access channel. 32. It is a multi-purpose actuator mechanism according to claim 30 and its feature is; It has the panel (A) made of polycarbonate. 33. It is a multi-purpose actuator mechanism according to any of the above claims and its feature is; The lever mechanism linear drive option group (A.l) and lever mechanism swing drive option group (A.2) have extensions (1.6) on the main lever arms (l), extending outward to a certain extent from the gaps on the panel.