TR201704416A2 - A MOTION CONTROL MECHANISM - Google Patents

Abstract

In particular, the present invention relates to a motion control mechanism (1) for concealing and / or revealing control knobs, which are provided in control panels in domestic appliances and which enable the use of the domestic appliance for the preferred purpose.

Description

The device shaft (A) to be operated in the specification is the expression of any household appliance. to adjust by pressing and/or turning the component located on the control panel (B). The shaft connected to the component will be mentioned. The subject will be run appliance shaft (A) is connected to the gas tap that regulates the gas flow, for example in cooking appliances. The connected spindle is connected to the program device that controls the program flow in the washing machine. connected spindle, in devices with thermostat, spindle connected to heat thermostat, with potentiometer shaft connected to the potentiometer in the devices or used in the workplaces at home There can be many different shafts like your lighting switches.

The "free position (D)" button that will be mentioned later in the specification (C) expresses its unconcealed, in other words, its exposed position (Figure 1), Especially in home appliances, it is located in the control panel (B) and is the preferred choice of the home appliance. control knobs (C) to the free position (D) that enable their use according to the purpose. and/or motion control mechanism (l) created to come to the hidden position (E) at its most basic, - at least one that is mounted on the button (C) and moves with the button (C) movable body (2), - mounted on the spindle (A) of the device to be operated and brought to a still position, and movable body in the process of concealing or revealing the button (C). (2) at least one fixed body (3) guiding its movement, - located between the movable body (2) and the fixed body (3) and the button (C) is hidden thrust force on the movable body (2) when it comes to position (E) at least one that forces the switch (C) to its free position (D) by applying flexible element (4), - restricting the movement of the movable body (2) in the hidden position (E), with the flexible element (4) so that the flexible element (4) exerts pressure connected and fixed body (3) at an angle with its central axis. positioned on the fixed body (3), o Returning the button (C) in the free position (D) to the hidden position (E) on the movable body (2) when the first compressive force is applied for the purpose of oriented according to the geometric structure of the blocker (2.1.4), 0 indicates that the movable body (2) moves along the central axis of the fixed body (3). movable by becoming in contact with the blocker (2.1.4) in one position. restricting the movement of the body (2), 0 when the second compression force is applied, the fixed body (3) is oriented to its center axis. recovering from the blocker (2.1.4) by returning to its angled position relative to the which allows the movable body (2) to return to the free position (D) again. contains a small locator (6).

The motion control mechanism (l) in an embodiment of the invention is generally a movable body (2), a fixed body (3), a flexible element (4), a grip element (5) and a locator (6). find this The movable body (2) in the application is mounted on the button (C).

The movable body (2) is divided into two different parts, the main region (2.1) and the connection region (2.2). consists of the region. The said main zone (2.1) and connection zone (2.2) It has a cylindrical geometry and is flat on one side of the main zone (2.1) (2.1.2). are available. In addition to this, inside the main zone (2.1) and the connection zone (2.2) is the host. The main region (2.1) in the movable body (2) is the main part of the movable body (2). forms its structure. The connection area (2.2) is the moving body (2) to the button. (C) forms the assembled part. The main part in the movable body (2) in zone (2.1) there is one or more guide openings (2.1.1). Promise the guide openings (2.1.1) of the moving body (2) fixed body (3) center in order to be able to move without any deviation along its axis, the main It opens in region (2.1). The guide span (2.1.1) located in the main zone (2.1), along the central axis of the movable body (2) across the main region (2.1) is opening. In addition to the guide opening (2.1.1) in the main area (2.1), there is also a straight floor (2.1.2). If the flat ground (2.1.2) in question is the movable body (2) and additionally so that the fixed body (3) does not rotate about its axis. has been created. Perfect back and forth movement of the movable body (2) in one direction. There is also a guide protrusion (2.1.3) in the main area (2.1) in order to has been created. Guide protrusion (2.1.3) movable inside main zone (2.1) along the main zone (2.1) so that the body (2) is parallel to the central axis. has been created. In this way, the central axis of the fixed body (3) of the movable body (2) There is no deviation in his back and forth movement throughout.

In addition to these, there is a blocker (2.1.4) in the movable body (2).

The said barrier (2.1.4) is preferably located inside the movable body (2). It is located on the side of the zone (2.1) that is close to the connection zone (2.2).

The blocker (2.1.4) is in connection with the locator (6) mounted on the fixed body (3) movable body (2) in order to restrict the movement of the movable body (2) when it becomes formed in the body (2). A blocker (2.1.4) is a movement-restricting design and consists of a directing obstacle (2.1.4.1) and a restraining obstacle (2.1.4.3). is formed. In the router block (2.1.4.1), which is located in the blocker (2.1.4), There are many routing surfaces (2.1.4.2). The said orientation surfaces (2.1.4.2) to guide the movement of the locator (6) designed and positioned in the movable body (2) in this way.

In the blocker (2.1.4), there is a restraining obstacle other than the guiding obstacle (2.1.4.1). (2.1.4.3) exists. In the aforesaid restraining obstacle (2.1.4.3), the movable body (2) position in advance motion from free position (D) to hidden position (E) a guiding surface (2.1.4.4) that guides the determinant (6), position at the time of locking the holding surface (2.1.4.5) and the seating surface (2.1.4.6) that support the determinant (6) and also the advancement of the movable body (2) from the hidden position (E) to the free position (D) a turning surface (2.1.4.7) that guides the locator (6) in the process are available. In the blocker (2.1.4) additionally with the guiding block (2.1.4.1) A gap (2.1.4.8) is created between the holding obstacle (2.1.4.3). Aforementioned If it is within the range (2.1.4.8), the locking protrusion on the locator (6) (6.3) is in progress.

The connection area (2.2) in the movable body (2) is as stated above. the part where the movable body (2) is mounted on the button (C) and said connection vertical seating channel (2.2.1) in the part (2.2) contacting the button (C) and there is a horizontal seating channel (2.2.2). Said vertical seating channel (2.2. 1) and horizontal seating channel (2.2.2) after the assembly of the button (C) They have been opened in order to ensure that it remains fixed where it is positioned.

One vertical seating in the joint region (2.2) included in this embodiment of the invention vertically intersecting the channel (2.2.1) and the said vertical seating channel (2.2.1), and multiple horizontal seatings parallel to the central axis of the movable body (2) channel (2.2.2). Vertical seating channel (2.2.1) in the connection area (2.2) and horizontal seating channels (2.2.2) other than the protrusion of the flexible element in the interior (2.2.3) exists. The protrusion of the said flexible element (2.2.3) is the flexible element. within the connection region (2.2) to restrict the movement of one end of the element (4). has been created. The flexible element (4) is attached to said flexible element protrusion (2.2.3). it is seated and thus its movement in the connection region (2.2) is restricted.

In the motion control mechanism (1), the button (C) is hidden from the free position (D) position (E) and also from hidden position (E) to free position (D) the movable body (2), which supports the movable body (2) and a device that causes it to move in a particular direction and in the opposite direction of that direction. fixed body (3). In fixed body (3) similar to movable body (2) It consists of a seating area (3.1) and a guide area (3.2) in the figure. is coming. The seating area (3.1) located in the fixed body (3) is preferably D. It has a structure in geometry and a flexible element space in its middle part. (3.1.1) exists. If the said flexible element is inside the space (3.1.1), a flexible element (4) located between the movable body (2) and the fixed body (3) enters. The one closest to the guide zone (3.2) of the resilient element gap (3.1.1) at its end, equidistant and perpendicular to the center axis of the resilient element space (3.1.1). There are at least two blocking extensions (3.1.2) in the position. The blocker in question extensions (3.1.2) ensure that the locator (6) is in contact with the flexible element (4) and they support the locator (6) to stay in the preferred position.

On the axis passing through the center of the blocking extensions (3.1.2) and the fixed body (3) A hole (3.1.3) is drilled on it. If from the hole in question (3.1.3), the location the directional extension (6.1) located in the determinant (6) is passed. in fixed body In the guide area (3.2) located in (3), the guide extension (3.2.1), the guide channel are available. The guide extension (3.2.1) located in the guide area (3.2) is preferably on the side of the guide zone (3.2) closest to the seating area (3.1) created and preferably two. These guide extensions (3.2.1) It fits into the guide opening (2.1.1) on the movable body (2) and In the process of sliding the body (2) on the fixed body (3), the movable body (2) it guides and thus prevents the moving body (2) from deviating from its course. hinders. Besides the guide extension (3.2.1) in the guide area (3.2) There is a guide channel (3.2.2). The guide channels in question (3.2.2) are fixed. along the guide area (3.2) so that the body (3) is parallel to the center axis. has been opened. In the guide channel (3.2.2), the guide located in the movable body (2) protrusion (2.1.3) fits and similarly guide channel (3.2.2) and guide The protrusion (2.1.3) of the movable body (2) on the fixed body (3) prevents it from deviating from the route during the process. In the guide area (3.2) there is also a There is also a connection gap (3.2.3). The connection space in question (3.2.3) preferably having D geometry and parallel to the central axis of the fixed body (3) has been opened. If the connection gap (3.2.3) is the shaft of the device to be operated (A) and thus the fixed body (3) is fixed to the control panel (B).

On one side of the joint gap (3.2.3) there is a space for an adhesion element (3.2.3.1) are available. An adhesion element (5) is placed in the space of the attachment element (3.2.3.1). is seated. The gripping element (5) preferably has a spring geometry and It is a flexible metal. The attachment element (5) is inserted into the space of the attachment element. (3.2.3.1) with the high middle part facing the connection gap (3.2.3) is placed and seated in this way. Connection of the fixed body (3) In the process of placing it in the cavity (3.2.3), the adhesion element (5) is slightly It flexes and constantly exerts a frictional force on the device shaft (A) to be operated. thus preventing the fixed body (3) from coming out from where it is positioned. hinders.

In the motion control mechanism (1) the movable body (2) the fixed body (3) control this movement of the movable body (2) in the process of its movement on a locator (6) that stops and stops at preferred stages are available. The locator (6) generally includes the directional extension (6.1) and the locking extension (6.2). The direction in the locator (6) the determining extension (6.1) is passed through the hole (3.1.3) and the blocking extensions (3.1.2) is placed in between. Blocking of the directional extension (6.1) one of the directional extensions (6.1) when placed between the extensions (3.1.2). fixed body (3) on one side and blocking extensions on two opposite sides (3.1.2) are available. Directional extension (6.1), flexible element from the other end edge It is in conjunction with (4). The flexible element (4) is attached to the directional extension (6.1). it connects from this edge and applies a pressure force. Location an inclined surface (6.1.1) at the directional extension (6.1) located in the locator (6) are available. Said inclined surface (6.1.1) It is located on the part that comes into contact with the fixed body (3). In this case flexible contacting the element (4) with the directional extension (6.1) and applying pressure In the case of the inclined surface (6.1.1) and the fixed body (3), the surface-to-surface contact is doing. A proximal part of the locking extension (6.2) of this inclined surface (6.1.1) The angle between it and its edge is preferably ten degrees. In this case, the directional extension (6.1) is passed through the hole (3.1.3) and the inclined surface (6.1.1) and the fixed body (3) are connected to each other. axis passing through the center of the locking extension (6.2) when the surface contacts the surface a certain angle between the axis passing through the center of the fixed body (3) and is formed. In this embodiment of the invention, depending on the angle of the inclined surface (6.1.1) This angle, which changes to , is preferably ten degrees. Direction in locator (6) There is also a locking extension (6.2) apart from the identifying extension (6.1). Direction The angle between the determining extension (6.1) and the locking extension (6.2) is preferably ninety degrees. The locking extension (6.2) extends from one end of the directional extension (6.1). It extends at a certain distance, preferably ninety degrees, starting from

On the opposite side of the locking extension (6.2) without the directional extension (6.1) there is a locking protrusion (6.3) and a support protrusion (6.4). Location with the center axis of the support protrusion (6.4) located in the determinant (6) and the directional determinant the central axis of the extension (6.1) is coincidence. Support overhang (6.4), it is at a certain height from the respective surface of the locking extension (6.2). Support The protrusion (6.4) is preferably formed in a circular form. In the lock extension In addition to the support protrusion (6.4) (6.2), there is also a locking protrusion (6.3).

The said locking protrusion (6.3) becomes in contact with the blocker (2.1.4). and in this case, it prevents the movement of the movable body (2). find this The locking protrusion (6.3) in the application is preferably square geometry. at the other end of the locking extension (6.2) without the support protrusion (6.4) is positioned and its height is the same as the support ledge (6.4).

The assembly and operation of the motion control mechanism (1) is as follows: is carried out. First of all, the movable body (2), the fixed body (3), the flexible element (4), the grip element (5) and the locator (6) move as a whole. in the fixed body (3) to form the control mechanism (1). The flexible element (4) is passed through the element space (3.1.1), and then the other end of the flexible element (4) that is not inserted into the flexible element cavity (3.1.1). it is placed on the flexible element protrusion (2.2.3) in the movable body (2). Additional From the locator extension (6.1) to the hole (3.1.3) in the locator (6) is seated. The placement of the locator (6) and the flexible element (4) Afterwards, the movable body (2) is parallel to the fixed body (3) center axis and it is subjected to a force in the direction that the flexible element (4) will be compressed and this guide extension (3.2.1) located on the fixed body (3) as a result of the force It sits on the guide opening (2.1.1) on the body (2) and moves in this position. control mechanism (1) is in free position (D). motion control In the continuation of making the mechanism (1) whole, it is in the fixed body (3). device shaft (A) to be operated through the connection gap (3.2.3) and thus the motion control mechanism (1) is connected to the control panel (B). is connecting. Then, from the connection area (2.2) of the movable body (2). on the other hand, the button (C) is passed, and thus the motion control is performed with the button (C). mechanism (l) is connected to each other. From now on, motion control mechanism (1) becomes fully functional and is hidden from the free position (D). be able to switch from position (E) or from hidden position (E) to free position (D) are available. While the motion control mechanism (1) is in this state, press the button (C). movable body (2) and button (C) in case of applying a pressing force Since they are connected to each other, together with the button (C), the movable body (2) is also the fixed body. (3) movement along the center axis in the direction of compression of the flexible element (4) is doing. In this movement process, the blocker (2.1.4) is also connected with the moving body (2). together with the locator (6). First from a moment contact and position relative to the geometry of the guide surface (2.1.4.4) in question. around the axis passing the determinant (6) through the center of the directional extension (6.1). (Figure 18). This movement continues until the end of the guide surface (2.1.4.4). continues (Figure 19). At the end of the guide surface (2.1 .4.4), the direction indicator The locator (6), due to the inclined surface (6.1.1) in the extension (6.1), (2.1.4.8) tends to turn correctly and in this case the locking protrusion it advances and fully adheres to the grip surface (2.1.4.5) and the seat surface (2.1.4.6). sitting (Figure 20). The pressing force applied to the button (C) at this moment even when lifted, the movable body (2) remains locked in the locator (6). due to not being able to move. This is the case when the button (C) is released from the free position (D). It is defined as the transition to the hidden mode (E). Moving body (2) in this way only flexible on the movable body (2) when in the hidden position (E) the pushing force applied by the element (4). If the thrust force is being neutralized due to the locking protrusion (6.3) getting caught in the holding barrier (2.1.4.3). and in this case, the movable body (2) cannot move. from this moment It is preferable to switch the button (C) from the hidden position (E) to the free position (D). When it is done, a pressure force is applied on the button (C) again. This In this case, the locking protrusion (6.3) is first replaced by the grip surface (2.1.4.5) and the seat. it gets rid of the surface (2.1.4.6) and goes blank at interval (2.1.4.8). Location the determinant (6) at this moment turns the trapping obstacle (2.1.4.3) due to the inclined surface (6.1.1). surface (2.1.4.7) tends to rotate in the direction of (2.1.4.7) and the range is (2.1.4.8) It moves through the interval (2.1.4.8) after a while. is saved (Fig. 21). Inside the gap (2.1.4.8) of the locking protrusion (6.3) the flexible element (4) of the movable body (2) along the fixed body (3) when it is released is the maximum distance it can travel in the compression direction. In other words, moving the body (2) cannot move any further on the fixed body (3). from this moment the flexible element (4) when the pressure force on the button (C) is removed from it engages and moves the movable body (2) from the hidden position (E) to the free position (D). forcing it to move forward. Due to this strain of the flexible element (4) The movable body (2) and thus the blocker (2.1.4) also move in a similar direction. and the locking protrusion (6.3) contacts the turning surface (2.1.4.7). (Fig. 22). After a while, the locator (6) and the blocker (2.1.4) contact is completely cut off and then the movement of the moving body (2) continues until the stroke of the guide opening (2.1.1). In the last case button (C) moves from hidden position (E) to free position (D).

Claims (3)

REQUESTS . In its most basic form, it is built to move the control buttons (C) located on the control panel (B) of household appliances to the free position (D) and/or hidden position (E), which enables the use of the household appliance according to the preferred purpose, in its most basic form, mounted on the button (C). At least one movable body (2), which is movable and moves together with the button (C), is mounted on the shaft (A) of the device to be operated and brought to the stationary position and guides the movement of the movable body (2) in the process of concealing or revealing the button (C). At least one fixed body (3), located between the movable body (2) and the fixed body (3), and in case the button (C) comes to the hidden position (E), pushes the button (C) to its free position (D) by applying a thrust to the movable body (2). The central axis of the fixed body (3), which is in contact with the flexible element (4) so that that flexible element (4) exerts pressure, and which includes at least one flexible element (4) that forces it to saber in an angle with When the first pressure force is applied in order for the button (C) in the free position (D) to come to the hidden position (E), which is positioned on the body (3) and is oriented according to the geometric structure of the blocker (2.1.4) in the movable body (2), 0 movable body ( 2) the fixed body (3) becomes in contact with the blocker (2.1.4) in a position where it advances along its central axis, restricting the movement of the movable body (2). .4) motion control mechanism (l) characterized by at least one locator (6) that escapes and enables the moving body (2) to return to the free position (D). . Consisting of two different zones, a main zone (2.1) with a flat floor (2.1.2) on one side and a connecting zone (2.2) forming the button-mounted part, the main zone (2.1) and the connecting zone (2.2) are a cylindrical motion control mechanism (1) as in claim 1, characterized by a movable body (2) in geometry and hollow inside. . As in the request, it is characterized by the movable body (2), which is located in the main region (2.1) and contains a guide opening (2.1.1) that is opened from the length in the main region (2.1) in order to be able to move along the central axis of the fixed body (3) without any deviation. motion control mechanism (1). . Movable body consisting of a guide protrusion (2.1.3) which is formed along the main region (2.1) in the inner part of the main region (2.1) parallel to the center axis of the main region (2.1) and prevents the deviation that may occur in the back and forth movement along the fixed body (3) center axis. The motion control mechanism (1) as in the claim, characterized by (2). . Motion control mechanism (1 ) as in the request, characterized by a blocker (2.1.4) that provides restriction of the movement of the movable body (2) when it is in contact with the locator (6) located inside the movable body (2) and mounted on the fixed body (3). ). . Motion control mechanism (1) as in the request, which has a motion-restricting design and is characterized by a blocker (2.1.4) consisting of a guiding obstacle (2.1 .4.1) and a restraining obstacle (2.1.4.3). . Motion control mechanism (1) as in claim 11, characterized by more than one orientation designed to direct the movement of the locator (6) and thus positioned inside the moving body (2). . A guide surface (2.1.4.4) that guides the locator (6) in the advancing movement of the movable body (2) from the free position (D) to the hidden position (E), with the holding surface (2.1.4.5) that supports the locator (6) at the moment of locking. blocker (2.1.4.3) comprising a swivel surface (2.1.4.6) as well as a turning surface (2.1.4.7) that guides the locator (6) in the process of moving the movable body (2) from the hidden position (E) to the free position (D). Motion control mechanism as in claim 1, characterized by the interval (2.1) opened for the advancement of the locking protrusion (6.3) located in the locator (6) and formed between the guiding obstacle (2.1.4.1) and the restraining obstacle (2.1.4.3). Claim characterized by a barrier (2.1.4) containing .4.8) 1 motion control mechanism as in (1). In the part of the connection area (2.2) that comes into contact with the button (C), a vertical seating channel (2.2.1) and the said vertical seating channel (2.2. 1) The motion control mechanism (1) as in the request, characterized by the movable body (2), which includes a connection region (2.2) that cuts vertically and has more than one horizontal seating channel (2.2.2) parallel to the central axis of the movable body (2). The connection region (2.2.3) formed within the connection region (2.2) to restrict the movement of one end of the flexible element (4) and which has the flexible element protrusion (2.2.3) where the flexible element (4) sits and restricts the movement of the flexible element (4) within the connection region (2.2). 2.2) motion control mechanism (1) as in the claim, characterized by the movable body (2) containing it. In the process of the button (C) moving from the free position (D) to the hidden position (E) and also from the hidden position (E) to the free position (D), which supports the movable body (2) and moves the movable body (2) in one direction and in the direction in question. motion control mechanism (l) as in the request, characterized by a fixed body (3) that allows it to move in the opposite direction. With a fixed body (3), which has a D-geometry structure and a seating area (3.1) with a flexible element gap (3.1.1) in which a flexible element (4) located between the movable body (2) and the fixed body (3) in the middle part. motion control mechanism (1) as in claim 1, characterized. At the end of the flexible element space (3.1.1) that is close to the guide area (3.2), the locator (6) is in contact with the flexible element (4) and is equidistant from the center axis of the flexible element space (3.1.1) and that the locator (6) is in contact with the flexible element (4). (6) Motion control mechanism (l) as in claim 1, characterized by a fixed body (3) containing a barrier extension (3.1.2) that supports it to stay in the preferred position. Motion control mechanism (1 ) ). In the process of sliding the movable body (2) on the fixed body (3) by sitting on the guide opening (2.1.1) formed on the side of the guide area (3.2) that is close to the seating area (3.1) and located in the movable body (2), it is attached to the movable body. (2) Motion control mechanism (1) as in claim 1, characterized by a fixed body (3) containing a guide extension (3.2.1) that guides and prevents the moving body (2) from deviating from its route. The guide protrusion (2.1.3) on the movable body (2), which is opened along the guide area (3.2) in a way that is parallel to the central axis of the fixed body (3), is seated, and it also causes the movable body (2) to deviate from the course during the sliding process on the fixed body (3). Motion control mechanism, characterized by a fixed body (3) containing a guide channel (3.2.2) that prevents Motion control mechanism (1) as in claim 1, characterized by a fixed body (3) containing a connection space (3.2.3) placed on the shaft (A). The coupling element (5), which has a spring geometry on one side and is a stretchable metal, also places the high middle part facing the connection space (3.2.3) side, into the coupling space (3.2.3) with a coupling element space (3.2.3). ) motion control mechanism (1) as in claim li, characterized by a fixed body (3). It is characterized by the grip element (5), which flexes during the placement of the fixed body (3) into the joint gap (3.2.3) and prevents the fixed body (3) from coming out of its position by applying a friction force continuously to the device shaft (A) to be operated, as in the request. mechanism (1). Claim 1°, characterized by a locator (6) consisting of a direction determining extension (6.1) and a locking extension (6.2), which controls the movement of the movable body (2) during its movement on the fixed body (3) and stops it at preferred stages. motion control mechanism as in (1). It has a fixed body (3) on one side and blocker extensions (3.1.2) on two opposite sides when placed between the barrier extensions (3.1.2), which is passed through the hole (3.1.3) and placed between the blocking extensions (3.1.2), also A motion control mechanism (1) as in claim 1, characterized by a locator (6) containing a directional extension (6. 1) in connection with the flexible element (4) from its other end edge. In the case of the flexible element (4) located in the direction-determining extension (6.1) and in the part of the direction-determining extension (6.1) in contact with the fixed body (3), in case of contact with the direction-determining extension (6.1) and applying pressure, the fixed body (3) and the surface motion control mechanism (1) as in claim 1, characterized by a locator (6) containing an inclined surface (6.1.1) in contact with the surface. There is a ten degree angle between the axis passing through the center of the locking extension (6.2) and the axis passing through the center of the fixed body (3), the angle between the locking protrusion (6.2) and a proximal edge of ten degrees, and when the directional extension (6.1) is passed through the hole (3.1.3). Motion control mechanism (1) as in claim 11, characterized by a locator (6) containing an inclined surface (6.1.1) forming an angle. With a locator (6) with a locking extension (6.2) with a locking protrusion (6.3) and a support protrusion (6.4) on the opposite face without the directional extension (6.1), the angle between it and the directional protrusion (6.1) is ninety degrees A motion control mechanism (1) as in claim 11, characterized. A locking protrusion (which has a square geometry and is positioned at the other end of the locking extension (6.2) without a support protrusion (6.4) and is at the same height as the support protrusion (6.4), but also prevents the movement of the movable body (2) by becoming in contact with the blocker (2.1.4). 6.3) motion control mechanism (1) as in claim 1, characterized by a locator (6) containing it. After the locator (6) and flexible element (4) are placed, the guide extension (3.2) is subjected to a force parallel to the central axis of the fixed body (3) and in the direction that the flexible element (4) will be compressed, and as a result of this pre-force, it is located on the fixed body (3). .1) motion control mechanism (l) as in claim 1, characterized by the movable body (2) moving along the guide opening (2.1.1). Locking protrusion (6.1) that touches the guide surface (2.1.4.4) located in the holding barrier (2.1.4.3) and rotates the locator (6) around the axis passing through the center of the directional extension (6.1) according to the geometry of the guide surface (2.1.4.4). 3) motion control mechanism (1) as in claim, characterized by a locator (6) containing it.