RU2475880C2 - Housing with structural assembly positioned therein - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: invention relates to a housing (1) with a structural assembly (2) positioned therein, the assembly containing at least one executive element (3), e.g. a potentiometer, a circuit breaker, an adjusting eccentric, an adjusting screw etc. with a control element (5) for actuation of at least one executive element (3). The executive element (3) is positioned next to the housing (1) external wall (6) while the control element (5) is positioned in the area of its butt end turned towards the external wall (6), has a slot (15) for the drive tool positioned inside the area of the cutout (14) in the external wall (6) limiting the executive element operational stroke.

EFFECT: prevention of mechanical load impacts on the executive element when the executive element is actuated.

9 cl, 7 dwg

Description

This invention relates to a housing with a structural unit located therein comprising at least one actuating element, for example, a potentiometer, a switch, an adjusting clown, an adjusting screw, etc., and a control element for actuating at least one actuating element.

In electronic circuits for regulation, potentiometers are used, that is, adjustable resistors, switches, etc., moreover, these actuators are usually soldered to the so-called circuit board. To actuate the actuating elements, control elements are used, by means of which it is possible to carry out a change in the installation positions.

High-quality and, therefore, relatively expensive actuators are designed so that their control elements are integrated into the overall design of the actuator itself.

In addition, actuators are known that have a simple and economical design and are equipped with an additional control element.

Purely mechanical actuators are also known, for example, adjusting clowns, adjusting screws, etc. Such actuators may also be designed in such a way that overloads can cause damage.

The basis of this invention is the task to offer a housing of the corresponding type, which uses at least one economical actuator, and this actuator is equipped with a control element integrated in the housing so that when the control element is actuated, mechanical loads on the actuator largely prevented.

In the claimed invention, this problem is solved due to the fact that the actuating element is located next to the outer wall of the housing, and the control element in the area of its end facing the outer wall has a groove for the power tool located in the cutout area in the outer wall, which limits the working stroke of the actuator item.

So, the control element for at least one actuating element is located between the actuating element itself and the outer wall of the housing, and it can be actuated using the appropriate tool only through a cutout in the wall of the housing.

As a result, the movement of the control element, which can be driven both by rotation and by shear, is limited by the size of the cutout in the outer wall, and since the drive tool abuts the outer edges of the cutout when the movement is complete, mechanical overstrain of the actuator itself is almost completely eliminated so that damage to the actuator during regulation is prevented even with incorrect actions.

In an improved embodiment of the claimed invention, locking recesses are provided located in the area surrounding the cutout from the inner side of the outer wall, with which the locking protrusions located on the control element engage.

Due to this, in a simple way, it is possible to regulate the fixation of the actuating element, and the number of fixation steps can be determined by the corresponding execution of the area surrounding the cutout and / or by installing on the control element a larger or smaller number of locking tabs.

In particular, it is preferable that the control element, at least in the region of its locking protrusions and / or the outer wall in the region of its locking recesses, be spring-loaded.

Since the spring properties can be set constructively, it is possible, depending on the design, to provide easy or difficult travel in the individual possible fixed positions.

The remaining features of the invention are the subject of other dependent claims.

A preferred embodiment of the claimed invention is presented in the accompanying drawings, below it is described in more detail.

The drawings show the following:

figure 1 in a perspective view partially presents the housing according to the claimed invention;

figure 2 is an exploded view of an enlarged view of the housing in comparison with figure 1 in the direction of arrow II of figure 1;

figure 3 shows an enlarged fragment of the image according to figure 1;

figure 4 presents an enlarged fragment of the image according to figure 2;

figure 5 schematically shows a section of the housing in the area of the actuating element and the control element for the actuating element;

on figa and 6b presents various views of the control element;

Fig. 7 is a perspective view of an actuator.

1-4, the reference numeral 1 denotes a housing in which - as shown in Fig. 5 - there is a structural unit 2 containing at least one actuating element 3 (shown only schematically).

In General, the node 2 contains the above at least one actuating element 3 and, for example, a mounting plate 4.

In particular, the actuating element 3 is a potentiometer, adjustable by rotation of the control element 5.

Further, as can be clearly seen in figure 5, the actuator 3 is located next to the outer wall 6 of the housing 1.

The control element 5 has a drive axis 7 with the function of the leash and is engaged with the actuator 3. The drive axis 7 passes through the through hole 8 of the circuit board 4. On the side of the circuit board 4, facing the outer wall 6, the shoulder 9 of the control element 5 is supported. At the end facing directly to the outer wall 6, the control element 5 is equipped with an adjustment disk 10. The adjustment disk 10 is adjacent to the inner side of the outer wall 6 or the bottom of the recess 11 inside the outer wall 6 and is radially supported in the edge of the recess 11, while the radial forces acting in this area can be perceived. The gap between the mounting plate 4 and the contact surface of the adjusting disk 10 to the outer wall 6 is selected so that a certain voltage occurs between the disk 10 and the outer wall 6.

As can be clearly seen in figure 2 and 4, the bottom of the recess 11 on the periphery is equipped with locking recesses 12.

At the end of its adjusting disk 10, facing the outer wall 6, the control element 5 has a locking protrusions 13, which, depending on the angular position of the control element 5, are engaged with the locking recesses 12 in the outer wall 6.

In the presented embodiment, there is a sector cutout 14 in the outer wall 6.

The adjusting disk 10 has a groove 15 for a power tool not shown, and the recess 15 is located in the region of the cutout 14 in the outer wall 6. In particular, this is very clearly seen in Fig.3.

The adjustment disk 10 and / or the area around the cutout 14 in the outer wall 6 are spring-loaded in the direction of the drive axis 7 of the control element 5.

This can be achieved in a simple way, for example, due to the fact that both the housing 1 and the control element 5 as a whole are made of suitable plastic with corresponding elastic properties. Since the adjusting disk 10, as mentioned above, is adjacent to a section near the cutout 14 in the outer wall 6 with a certain bias voltage, due to this prestressing, the locking protrusions 13 engage with the locking recesses 12, while fixing the installation position is achieved due to the spring tension displacement.

The adjustment disk 10 is actuated by introducing a driving tool, such as a screwdriver, into the recess 15, followed by turning the disk 10 around the center of the drive axis 7. In this case, the driving tool passes through the outer wall 6 of the housing 1 in the region of the cutout 14, so that the rotation of the disk 10 is possible only until the tool abuts against the corresponding front bounding edge of the notch 14. Even if this is carried out with a relatively large force, the actuating element 3 itself is not mechanically loaded due to this, and finally the same applies to the possible applied axial forces, since these forces are mainly perceived by the shoulder 9 of the control element 5 adjacent to the circuit board 4.

Thanks to the locking recesses 12 and the locking protrusions 13 during regulation, stepwise intermediate positions can be set, which can be visually displayed thanks to the marks 16 applied to the outer wall 6.

Nevertheless, as an alternative to the exemplary embodiment presented, instead of a rotary control element 5, a sliding control element 5 can be provided, in particular when a circuit breaker is to be activated as an actuating element 3. And in this case, the control element 5 may have a support recess into which the tool is inserted, by means of which the control element 5 can be moved within the cutout 14 in the outer wall 6. In this solution, the tool also abuts the end edges of the cutout 14, so that and in this case, overloads of the actuator 3 itself are prevented.

The control element 5, in this case, in particular, its part located in the area of the cutout 14, can be illuminated by an LED on the inside of the housing 1, so that either the groove 15 in the control element 5 or the entire area of the cutout 14 in the outer can be clearly recognized visually wall 6. Of course, any other suitable lighting means may be used.

The mounting plate 4 and at least one actuating element 3 can preferably be used to control the electric drive of a drawer or similar furniture piece.

In any case, the advantage of the invention lies in the fact that it is possible to use actuators manufactured at relatively low cost and without special requirements for mechanical strength, since due to the described construction, mechanical damage to the actuators is practically excluded.

This also applies when purely mechanical parts or precision mechanical parts are provided as actuating elements 3.

Claims (9)

1. The housing (1) with the structural unit (2) located therein, containing at least one actuating element (3), for example, a potentiometer, a switch, an adjusting clown, an adjusting screw, etc., and a control element (5) for actuating at least one actuating element (3), characterized in that the actuating element (3) is located next to the outer wall (6) of the housing (1), and the control element (5) in the area of its end face facing the outer wall (6), has a groove (15) for the power tool, located in the recess (14) in the outer wall (6) limiting the stroke of the actuator. 2. The housing according to claim 1, characterized in that the locking recesses (12) are provided, located in the area around the cutout (14) on the inner side of the outer wall (6), made with the possibility of engagement with those located on the control element (5) locking tabs (13). 3. The housing according to claim 2, characterized in that the locking protrusions (13) are configured to elastically engage with the locking recesses (12). 4. The housing according to claim 3, characterized in that the control element (5) and / or the outer wall (6) in the region around the cutout (14) is made so that they are able to spring in the direction of the axis of the control element (5). 5. The housing according to any one of claims 1 to 3, characterized in that the actuating element (3) is a potentiometer mounted on the circuit board (4), with which the drive axis (7) engages with the function of the leash. 6. The housing according to claim 5, characterized in that the drive axis (7) passes through the through hole (8) of the mounting plate (4), and the control element (5) on its side facing the outer wall (6) has a shoulder (9), supported by a mounting plate (4), and an adjustment disk (10) adjacent to the outer wall (6). 7. The housing according to any one of claims 1 to 4, 6, characterized in that the housing (1) and the control element (5) are made of plastic. 8. The housing according to any one of claims 1 to 4, 6, characterized in that the cut-out region (14) is configured to be illuminated by at least one lighting means installed in the housing (1), for example, an LED. 9. A housing according to any one of claims 1 to 4, 6, characterized in that the mounting plate (4) and at least one actuating element (3) are provided for controlling the electric drive of a drawer or similar furniture piece.

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