DE102018102852B4 - Frame, frame module, module stack and camera for capturing an image - Google Patents

Abstract

A frame (2) for a first board (4), comprising: a frame housing (6) running around a frame plane, which forms a frame interior (8) which is open in an axial direction A of the frame housing (6) running perpendicular to the frame plane, at least one first spring tab (10), which extends from the frame housing (6) in the axial direction A beyond a first end-face edge (12) of the frame housing (6), and at least one first board support tab protruding from the frame housing (6) into the frame interior (8) (14), which is designed to support the first plate (4) in the axial direction A, wherein the at least one first plate support bracket (14) and the at least one first spring bracket (10) are designed to support the first plate (4) in one perpendicular to the axial direction A, to fix the first board plane, the frame (2) having at least one first recess (20) which extends from a second end-face edge (18) of the frame housing (6) in the axial direction ng A extends into the frame housing (6), and that a first recess (20) of the at least one first recess (20) is assigned to each first spring tab (10) in such a way that the respective first spring tab (10) and the assigned, first Recess (20) are aligned in axial direction A with one another.

Description

The invention relates to a frame for a first circuit board, a frame module, a module stack and a camera for capturing an image.

It is known that several circuit boards can be arranged one behind the other in parallel and at a distance from one another. Two adjacent boards can be aligned at a predetermined distance from one another by means of a spacer sleeve. These spacer sleeves are arranged in the manner of stilts between two adjacent plates. The sleeves often have internal threads at their ends, so that the boards can be screwed to the spacer sleeves. In this way, a fixed arrangement of several boards arranged one behind the other can be created. Such an arrangement is also referred to as a stack of blanks.

In practice, however, it has been found that a stack of boards can have disadvantages. If a stack of boards is used for a system, such as a camera for capturing an image, the functionality of this system or the camera can only be adapted retrospectively with difficulty. If, for example, the system or camera is to be expanded to include another board that ensures the corresponding functionality, the entire stack of boards must first be removed, the screw connections loosened and the new board placed at the end or between two previous boards. The individual boards are then screwed together again using the spacer sleeves. This procedure is very complex and requires particularly careful handling with regard to the screw connection.

But even if the functionality of the circuit board stack of a system or a camera does not have to be changed, but rather if, for example, one of the circuit boards is defective and needs to be replaced, a great deal of effort is necessary with such a circuit board stack, for example to replace a centrally arranged circuit board.

The document DE 26 38 257 C2 relates to a housing for receiving printed circuit boards.

The document US 6,201,709 B1 relates to a mounting system with a mounting frame that allows the inclusion of up to three printed circuit boards in stacked form.

The document DE 10 2011 109 594 A1 relates to a device for a motor vehicle which is designed to process image data from an image acquisition unit with a housing, at least two circuit boards with electronic components for processing the image data being arranged in parallel and spaced apart from one another in the housing.

The document US 2005/0 099 521 A1 relates to a capture device for a camera head configured to enable interchangeability of photoelectric pixel arrays for use in various applications.

The document US 2015/0 296 104 A1 relates to modular digital camera systems with several, interchangeable modules, such as B. a sensor module.

The invention is based on the object of creating a particularly simple way of arranging several boards in parallel and at a distance from one another. This arrangement should be suitable for being able to be installed in a system such as a camera in a particularly compact and / or expandable manner.

According to a first aspect of the invention, the object is achieved by a frame having the features of claim 1. A frame is therefore provided for a first circuit board. The frame has a frame housing running around in a frame plane. The frame housing forms a frame interior that is open in an axial direction of the frame housing running perpendicular to the frame plane. In addition, the frame has at least one first spring tab. The at least one first spring tab extends from the frame housing in the axial direction, specifically preferably beyond a first end-face edge of the frame housing. In addition, the frame has at least one first circuit board support bracket which protrudes from the frame housing into the frame interior and is designed to support the first circuit board in the axial direction. The at least one first circuit board support bracket and the at least one first spring bracket are designed to fix the first circuit board in a first circuit board plane arranged perpendicular to the axial direction.

By means of such a frame, it is particularly easy to fix a first circuit board. For for this purpose, the frame housing as such already has at least one first circuit board support bracket and at least one first spring bracket. These are designed together to fix the first board in the first board level. The at least one first circuit board support bracket serves to ensure that the first circuit board can rest on the at least one first circuit board support bracket so that the first circuit board is supported in the axial direction. In this case, the at least one first circuit board support bracket helps ensure that the first circuit board is perpendicular to the axial direction, specifically in the first Board level, is arranged. The first board is also fixed with the aid of the at least one first spring clip. Each first spring tab is preferably designed so that it can be deflected at least substantially elastically and / or resiliently. Each first spring tab can for example be designed in such a way that the respective spring tab can be deflected at least so far that the first board can be brought into contact with the at least one first board support bracket, so that the first board is supported in the axial direction by the at least one first board support bracket. In addition, each first spring clip can be designed in such a way that the respective spring clip is automatically deformed back in the undeflected state. As a result of the automatic back deformation of the at least one first spring tab, the first board can then be fixed in the first board plane.

By using a plurality of the same frames, these can be arranged with respect to one another in the axial direction in such a way that the frames or the associated frame housings are aligned with one another. With this arrangement, a parallel arrangement of a plurality of first circuit boards can be achieved. This arrangement can be ordered quickly and easily. Because in a particularly simple embodiment, a large number of identical frames can be used. The respectively associated first circuit board can be designed individually for each of the frames. In this way, several circuit boards can be arranged one behind the other, each ensuring a specific function associated with it.

The frame as such is discussed below. However, the explanations can apply in an analogous manner to each of the frames, even if several frames are used.

The frame is used to fix the first board in the first board level. The use of numerical words, such as “first”, “second”, etc., are at least essentially only for purposes of distinction. Thus, the first circuit board for a frame can ensure a different functionality than the first circuit board for another frame. A circuit board can also be designated and / or configured as a printed circuit card, printed circuit board or as a printed circuit. The circuit board is preferably designed as a plate-shaped carrier with electronic components fastened thereon, it also being possible for electrical connections to be provided. These electrical connections can also be referred to as conductor tracks and / or at least have conductor tracks.

The frame has a frame housing. The frame housing is preferably designed as an at least substantially dimensionally stable frame housing or housing. For example, the frame housing can be designed as a metallic frame housing. The frame housing forms a frame interior. The frame interior and / or the frame housing can be designed, for example, rectangular, in particular square, in cross section. However, other geometric shapes for the cross section of the frame housing or the frame interior are also possible. The frame housing is preferably designed to be circumferential in the shape of a ring. For example, the frame housing can be designed as a circumferential, cylindrical frame housing with a rectangular cross-section. The frame housing is designed to run around in an associated frame plane. However, this does not require that the frame housing is formed exclusively in the frame plane. Rather, a cylindrical section of the jacket wall of the frame housing can be designed in such a way that it is designed to run around at least in the plane of the frame. An axial direction of the frame housing extends perpendicular to the frame plane. The interior is designed to be open in the axial direction, at least to one of the correspondingly opposite end faces of the frame interior. For example, the frame interior can be designed to be open towards one end face in the axial direction. However, it is also possible for the frame interior of the frame housing to be designed to be open in the axial direction towards both, opposite end faces.

Each first spring clip is preferably assigned to the frame housing. For example, each first spring clip can be formed integrally with the frame housing. Each first spring tab extends in the axial direction of the frame housing. It is not absolutely necessary for each first spring tab to extend in a straight line in the axial direction. Rather, it is preferably provided that each first spring tab extends with any shape in the axial direction. It is provided according to the invention that each first spring tab extends beyond a common, first end-face edge of the frame housing. The first front edge is preferably designed to be interrupted circumferentially and / or segmented through the frame housing. For example, the first front edge is interrupted by this in the area of each first spring tab.

Each first spring tab is preferably formed by a tab which can be elastically and / or resiliently deformed in the manner of a mechanical spring or is configured to be correspondingly elastically and / or resiliently deformable. Each first spring tab can be designed in the manner of a spiral spring. The term tab as such relates preferably on a body which is wave-shaped and / or plate-shaped in cross section. The tab should therefore preferably be understood in the sense of a mechanical tab.

Each first circuit board support bracket is preferably designed as a mechanical bracket on which the first circuit board can rest. This is why this corresponding tab is also referred to as a circuit board support tab. The at least one first circuit board support bracket is also designed in such a way that the first circuit board can be supported in the axial direction by the at least one circuit board support bracket. The rigidity and / or dimensional stability of the at least one first circuit board support bracket is therefore designed in such a way as to support the first circuit board or to fix it together with the at least one spring bracket. Each first circuit board support bracket is preferably made of metal. In addition, it is preferably provided that each first circuit board support bracket of a frame is formed integrally with the associated frame housing. Thus, the frame housing of the frame can form both each first spring tab and each first circuit board support tab of the common frame integrally. Each first circuit board support bracket protrudes into the frame interior of the frame housing. It is preferably provided that each circuit board support bracket forms a support surface which is oriented perpendicular to the axial direction of the frame housing.

It is particularly preferably provided that the frame has a plurality of first spring tabs. In addition, it is preferably provided that the frame has a plurality of first circuit board support tabs. The first spring tabs can be arranged distributed in a circumferential direction of the frame housing. It has been found to be advantageous if the first spring tabs are arranged symmetrically and / or uniformly distributed in the circumferential direction of the frame housing. If a plurality of first circuit board support tabs are provided, these are preferably also arranged, in particular symmetrically and / or uniformly distributed, in a circumferential direction of the frame housing. In addition, it is preferably provided that the plurality of first circuit board support tabs, in particular the associated support surfaces and / or ends in the axial direction, are arranged in alignment with one another.

If, for example, several first circuit board support tabs and several first spring tabs are provided for the frame, a particularly robust fixing of the first circuit board in the first circuit board level can be achieved. The plurality of first circuit board support brackets can be arranged in such a way that the first top side of the first circuit board rests on the plurality of first circuit board support brackets and is supported by them in the axial direction. The multiple, first spring tabs can be designed and / or arranged in such a way that they overlap the first board over its circumferential edge and come to a respective clamping contact on a second top side of the board, which is opposite the first top side of the board. By means of the multiple, first spring tabs and the multiple, first circuit board support tab, the first circuit board can therefore be fixed in a clamping manner in the first circuit board level. This can lead to the arrangement of the first circuit board on or adjacent to the first end-face edge of the frame housing.

If several frames are used to fix an associated, first circuit board, these frames can then be stacked on top of one another so that the circuit boards are or are arranged at a distance from one another and / or parallel to one another without direct contact.

The frame is preferably characterized in that each first spring tab has a first clamping section which is, for example, U-shaped or V-shaped in cross section. Each first clamping section of a first spring clip can be designed to grip behind the first plate. In addition, it has proven to be advantageous if each first spring tab has a plate-shaped section that extends in the axial direction of the frame housing from the first end-face edge of the frame housing in the axial direction, with the respective end of the plate-shaped section facing away from the first end-face edge first spring tab the associated first clamping portion is integrally formed. Each first clamping lug preferably protrudes inward. For example, each first clamping section can extend inwardly at right angles and / or at an angle to the axial direction. This preferably means the housing interior and / or a space which is arranged in alignment with the housing interior directly in front of the frame housing and into which each first clamping section can protrude.

Each first spring clip and / or each first clamping section can have a first end section which protrudes obliquely or perpendicularly to the axial direction of the frame housing to the outside, in particular to the outside beyond the frame housing. Each of these end sections is preferably oriented at an angle between 30 and 60 degrees to the frame plane. The alignment is preferably carried out in such a way that the at least one first end section can serve as a guide element when the first board is inserted between the at least one first board support bracket and the at least one spring bracket. The first circuit board can thus, for example, be pressed onto the first end sections of the first spring tabs from the outside and / or pressed so that the first spring tabs deflect resiliently outwards in order to bring the first board past the first clamping sections of the first spring tab up to the support on the first board support tabs, so that the first board rests flat on the first board support tabs and then here is supported in the axial direction of the frame housing. The plate-shaped sections of the first spring tabs are preferably designed in such a way that the first spring tabs each spring back elastically into an undeflected position when the first circuit board rests on the first circuit board support tabs. This results in the first clamping sections of the first spring tabs engaging behind the first board so that the first board is clampingly fixed by the first clamping sections of the first spring tabs and the first board support tabs. It is therefore preferably provided that the at least one first circuit board support tab and the at least one first spring tab are designed to secure or fix the first circuit board in a first circuit board plane arranged perpendicular to the axial direction in a form-fitting and non-positive manner. Fixing can therefore preferably be understood as a force-fitting and / or form-fitting fastening.

The frame is also preferably characterized in that each first circuit board support bracket extends in a first support plane which is at least substantially perpendicular to the axial direction. As a result, it can be achieved in a particularly simple manner that a plurality of first circuit board support tabs are arranged in alignment with one another, namely in the first support plane. Thus, a plate-shaped circuit board can come to flat support on the several first circuit board support tabs particularly easily, which results in the first board resting with a first top side on the first circuit board support tabs and thus being supported in the axial direction by the first circuit board support tabs.

As already explained above, it is preferably provided that each first spring tab has a first clamping section which is, for example, U-shaped in cross section. Each first clamping section can therefore have an associated clamping surface which preferably faces the support plane in which the circuit board support tabs extend. The clamping surfaces of the plurality of clamping sections of the first spring tabs preferably extend in a first clamping plane, which is arranged at least substantially perpendicular to the axial direction and / or at a first, predetermined distance from the first support plane. The first clamping plane can be arranged parallel to the first support plane. This advantageously ensures that the clamping surfaces of the first clamping sections extending in the first clamping plane are arranged parallel to the circuit board support tabs in the first support plane. The first, predetermined distance is preferably predetermined in such a way that the first circuit board can be clamped between the first circuit board support tabs and the first spring tabs or the associated clamping sections. Thus, the first distance can preferably be predetermined in such a way that the first distance corresponds to the thickness or the strength of the first plate or is somewhat smaller, for example by 5-15% smaller.

According to the invention, the at least one first spring tab protrudes beyond the first front edge of the frame housing. The at least one first spring clip can protrude so far beyond the front edge of the frame housing that the first plate is gripped behind at a distance by means of the at least one first spring clip or by means of the at least one first clamping section. The first clamping plane, in which the plurality of clamping sections or the at least one clamping section extends, can thus be spaced apart from the first end-face frame of the frame housing. In contrast, the first support plane, in which the at least one first circuit board support bracket extends, can be in the interior of the frame housing. By arranging the first support plane inside the frame interior and the first clamping plane outside the frame interior, the first circuit board can be fixed by the at least one first circuit board support bracket and the at least one first spring bracket in such a way that the first circuit board is partly arranged in the frame interior and partly outside the frame Frame interior is arranged. The first board can thus extend outward in the axial direction of the frame interior over the first end-face edge of the frame housing.

An advantageous embodiment of the frame is characterized in that the frame has at least one second spring tab. Every second spring tab extends from the frame housing in the axial direction, preferably beyond a second end-face edge of the frame housing. The second end-face frame of the frame housing and the first end-face edge of the frame housing are therefore preferably arranged on opposite end faces of the frame housing. In other words, a second end face can be on the opposite end face to the first end face edge of the frame housing, the first end face edge being arranged on the corresponding other end face of the frame housing. The interior of the frame housing is preferably designed to be open to one of the two end faces or to both end faces. The at least one first spring tab can be in an opposite direction to the at least one second spring tab be formed extending. This is because the at least one first spring tab according to the invention protrudes beyond the first front edge of the frame housing, whereas the at least one second spring tab preferably extends beyond the second front edge of the frame housing. If several second spring tabs are provided, it is particularly preferred that each second spring tab preferably extends from the frame housing in the axial direction over the same second end-face edge of the frame housing.

If several frames are used that each fix a first board in an associated first board level, the second spring tabs can be used for a frame with the associated second spring tabs to grip over the first board, which is already fixed by an adjacent frame. The second spring tabs of one frame and the first spring tabs of the other frame therefore grip in opposite directions over the edge of the same first board. As a result, the adjacent frames are detachably coupled to one another via the first and second spring tabs and said first plate.

With regard to the at least one second spring clip of the frame, reference is made to the advantageous explanations, preferred features, advantageous effects and / or advantages in a manner analogous to that explained for the at least one spring clip of the frame. A complete analog repetition is therefore not done at this point. The terms “first” and “first” used to differentiate can therefore be replaced by the terms “second” or “second” for the respective second spring tab. This will be explained using an example. Thus, the frame can preferably be characterized in that every second spring clip has a second clamping section. The respective second clamping section can be designed, for example, U-shaped or V-shaped in cross section. Every second clamping section can be designed to grip behind the first circuit board.

In addition, it is particularly preferably provided that every second clamping section is preferably formed integrally with the frame housing. Thus, the frame housing can be designed in one piece or in one piece, for example, wherein it forms the at least one first spring tab and the at least one second spring tab integrally. In addition, the frame housing can form the at least one first circuit board support bracket integrally. In practice it has proven to be particularly advantageous if the frame housing is made of metal. Because the frame housing can then be manufactured as a stamped and bent component.

The frame according to the invention is characterized in that the frame or the associated frame housing has at least one first recess which extends from the second end-face edge of the frame housing in the axial direction into the frame housing. Each first recess can be designed, for example, in the manner of a groove-shaped recess. The frame housing can therefore be cut out in the area of each first recess. Each first recess is preferably designed as a rectangular recess.

If, for example, a first frame and a structurally identical second frame are arranged one behind the other, the associated frame housings being designed in accordance with the aforementioned configuration of the frame, the first spring tabs of the second frame can engage in the first recesses of the first frame, especially when the frame housings of the first and second frames are arranged in alignment with one another. This offers the advantage that the two frames or frame housings can be arranged particularly compactly and / or close together.

The frame according to the invention is characterized in that a first recess of the frame is assigned to each first spring tab of the frame so that the respective first spring tab and the assigned first recess are aligned with one another in the axial direction. The number of first recesses can therefore correspond to the number of first spring tabs. Since a first recess is assigned to each first spring tab, which is also aligned with the respective first spring tab, it is possible for several identical frames or frame housings to be arranged in a particularly compact manner and / or with a particularly small spacing in the axial direction. Because the first spring tabs of a frame can fit into the first recesses of the adjacent frame. As a result, the distance between the first end-face edge of one frame and the second end-face edge of the adjacent frame can be kept particularly small.

Another advantageous embodiment of the frame is characterized in that the frame and / or the frame housing has at least one second recess which extends from the first end-face edge of the frame housing in the axial direction into the frame housing. With regard to the second recess, reference is made to the advantageous explanations, preferred features, Effects and / or advantages are referred to in an analogous manner to that which have been explained for the first recess. The frame preferably has a plurality of second recesses. Each of the recesses can be designed as a groove-shaped second recess. The frame housing can therefore be cut out in the area of every second recess. In cross section, every second recess can, for example, have a rectangular shape.

An advantageous embodiment of the frame is also characterized in that a second recess of the at least one second recess of the frame is assigned to each second spring tab of the frame such that the respective second spring tab and the assigned second recess are aligned with one another in the axial direction.

It was already explained above that a frame can have at least one second spring tab or several second spring tabs. Every second spring tab extends over the second front edge in the axial direction of the frame housing. If a first circuit board is fixed by the first spring tabs and the first circuit board support tabs of a first frame, a second frame with the associated second spring tabs can also grasp the aforementioned first circuit board, resulting in a releasable coupling of the second frame to the aforementioned first circuit board and therefore indirectly leads to the first frame. So that the second spring tabs of the second frame do not collide with the first frame, the first frame has the second recesses. The frame housings of the first and second frames are preferably designed to be identical. This therefore also leads to the fact that, when the frame housings of the first and second frames are aligned with one another, the second spring tabs of the second frame are also aligned with the second recesses of the first frame. The second spring tabs of the second frame can therefore fit into the second recesses of the first frame. This offers the advantage that the second spring tabs can overlap the board fixed by the first frame without collision.

The previously explained, releasable coupling of a second frame via a first circuit board to a first frame can be configured in a corresponding manner for a plurality of frames arranged one behind the other in an analogous manner, so that a plurality of frames, each fixing a first circuit board, in a row can be coupled to each other.

If explanations are given with regard to a first frame or a second frame, they should at least preferably be able to apply in an analogous manner to each frame. In other words, the corresponding explanations are not restricted to the respective first frame or to the respective second frame. Rather, they can apply to each frame accordingly.

An advantageous embodiment of the frame is characterized in that an extent of the amount of each first spring tab in the axial direction is smaller than an extent of the amount of the associated, first recess in the axial direction. The extent of a first spring clip in terms of amount relates, for example, to the distance in terms of amount in the axial direction between the first front edge of the frame housing and an end of the respective first spring clip facing away from the first front edge. The extent of a first recess in terms of amount preferably relates to the distance in the axial direction between the second front edge of the frame housing and the edge or the end of the first recess which faces away from the second front edge and / or faces the first front edge. Since the amount of the extent of a first spring tab in the axial direction is smaller than the amount of the associated first recess in the axial direction, several identical frames can be arranged one inside the other in such a way that the first spring tab of a frame can fit into the first recess of an adjacent frame without collision. This can apply accordingly to each first spring tab or to the respective first recess into which the respective first spring tab can engage. In this way, two frames or frame housings can be arranged in a particularly compact manner and / or with a particularly small spacing one behind the other. Because the first spring tabs of a frame can fit into the first recesses of the other frame. In other words, the two frames can be plugged into one another and / or “interlocked” stacked with one another.

The explanations, features and / or effects as described in relation to the first spring tab and the first recess can apply in an analogous manner to every second spring tab or to each of the second recesses. A preferred embodiment of the frame is distinguished by the fact that an extension in terms of amount of every second spring tab in the axial direction is smaller than an extension in terms of amount of the associated, second recess in the axial direction. Thus, each of the second spring tabs can fit into an assigned, second recess without collision when two frames are arranged one behind the other or be stacked. Analogous reference is made to the preceding explanations.

A further advantageous embodiment of the frame is characterized by at least one second circuit board support bracket projecting from the frame housing into the frame interior, which is designed to support a second circuit board in the axial direction, the at least one second circuit board support bracket and the at least one second spring bracket being formed, in order to fix the second circuit board in a second circuit board plane which is arranged at least substantially perpendicular to the axial direction. The previous, preferred explanations, advantageous features, effects and / or advantages that have been explained in connection with the fixing of the first board in the first board level by means of the at least one first board support bracket and the at least one first spring bracket are used for the last-mentioned Design of the frame is preferably referred to in an analogous manner.

With the aid of the at least one second circuit board support bracket and the at least one second spring bracket, a further, namely the second, circuit board can be fixed by means of the frame. The second board is fixed in the second board level. The frame and / or the frame housing are preferably designed such that the first board plane and the second board plane are spaced apart from one another in the axial direction. The first board level can thus be arranged on the first end face or on the first end face edge of the housing frame. The second board level can be arranged on the opposite end face or on the second end face edge of the frame housing. The first board plane and the second board plane are preferably arranged at least substantially parallel to one another. This offers the advantage that two circuit boards, namely the first circuit board and the second circuit board, can be held fixed by the frame housing at least essentially in parallel.

The frame preferably has a plurality of second circuit board support tabs. Each of the at least one second circuit board support bracket can be designed analogously to a first circuit board support bracket. Every second circuit board support bracket can thus be formed integrally from the frame housing, for example. However, the at least one second circuit board support bracket is arranged offset in the axial direction relative to the at least one first circuit board support bracket. It is preferably provided that every second circuit board support bracket extends in a second support plane which is at least substantially perpendicular to the axial direction. The second support plane is preferably at a distance from the first support plane, in which each first circuit board support bracket preferably extends. In addition, it can be provided that the second support plane is aligned parallel to the first support plane.

In order to fix the second circuit board in the second circuit board level, the second circuit board comes into flat contact with the second circuit board support tabs, so that the second circuit board is supported on the second circuit board support tabs. The second spring tabs extend in the axial direction beyond the second front edge of the frame housing and can thus grip behind the second plate. As a result, the second circuit board can be held in a non-positive and form-fitting manner between the second circuit board support tabs and the second spring tabs, which can ensure the desired fixing of the second circuit board in the second circuit board level.

It has already been explained above that every second spring clip can have an associated second clamping section which is, for example, U-shaped or V-shaped in cross section. Preferably, every second spring tab is designed by means of the associated second clamping section for engaging behind the second plate. In addition, the frame is preferably characterized in that a clamping surface of a second clamping section of every second spring clip is formed at least essentially in a second clamping plane and / or extends in this. The second clamping plane is preferably aligned and / or arranged parallel to the second support plane in which the second circuit board support tabs extend. It can be provided that the second clamping plane is arranged perpendicular to the axial direction and / or at a predetermined, second distance from the second support plane. The second distance can be selected and / or predetermined in such a way that the second circuit board can be clamped in by the second circuit board support tabs and the second spring tabs. The second distance can therefore correspond to a thickness of the second plate and / or be designed to be smaller, in particular, for example, 5-15% smaller.

Another advantageous embodiment of the frame is characterized in that each first spring tab and / or each second spring tab and / or each first circuit board support tab and / or each second circuit board support tab is or are integrally formed with the frame housing. The corresponding tabs can therefore be formed in one piece and / or in one piece together with the rest of the frame housing. The frame housing can be designed as a stamped and bent component, the at least one and / or second recess being produced by stamping and the at least one tab being produced by plastic deformation, in particular bending. It has proven to be particularly advantageous when the frame housing with the associated tabs is designed as a metallic frame housing.

An advantageous embodiment of the frame is characterized in that the frame housing of the frame is designed as an electrically conductive frame housing. For example, the frame housing can be made from an electrically conductive material. If tabs, in particular the first spring tabs and / or the second spring tabs, are formed integrally with the frame housing, the same applies to these. The frame housing is preferably designed as a metallic frame housing. The frame housing can also be made of or with an electrically conductive plastic. The conductivity of the frame housing can also be ensured by a conductive coating that is applied to the outside or inside of the casing on the frame housing and thus forms part of the frame housing. The frame housing can therefore have an electrically conductive coating that is assigned to the frame housing.

Since the frame housing is preferably designed as an electrically conductive frame housing, the frame housing can be designed to shield electromagnetic waves. The frame housing can be designed for damping and / or for blocking electromagnetic waves, in particular in a predetermined wavelength range. For example, the frame housing can be designed to dampen and / or block electromagnetic waves with a wavelength of less than 6 GHz. The frame housing can therefore also be referred to as an EMC frame housing or be designed as an EMC frame housing.

An advantageous embodiment of the frame is characterized in that the frame housing is designed to be closed at least 70%, preferably at least 80%, on the jacket side. This therefore preferably relates to the circumferential jacket wall of the frame housing. The jacket wall of the frame housing can be formed, for example, from perforated sections and / or elements. These sections can be plate-shaped. This is particularly advantageous when the frame housing has an at least substantially rectangular basic shape in cross section. Since the frame housing can be designed to be at least 70% closed on the jacket side, particularly good shielding from electromagnetic waves can be ensured in this case. On the one hand, this prevents electromagnetic waves from being transmitted unhindered from the first circuit board to the environment. On the other hand, the good shielding also prevents the first board from being able to reach the first board unhindered by electromagnetic waves which strike the frame housing from outside. Rather, this is effectively prevented or significantly reduced by the frame housing with a corresponding preferred configuration.

Another advantageous embodiment of the frame is characterized in that the frame housing is formed on the shell side by a grid. The grid can be a fine-meshed and / or uniformly designed grid. It can be provided that the frame housing, preferably except for the tabs, is completely formed by the grille, or that the frame housing is formed at least in sections by the grille. In the latter case, for example, the at least one first spring clip and / or the at least one second spring clip may not be designed in a grid-like manner, whereas the rest of the frame housing is designed in the manner of a grid. A mesh size of the grating of the frame housing is preferably designed such that electromagnetic waves with a wavelength between 30 MHz and 6 GHz are attenuated, in particular with an attenuation between 20 dB and 80 dB, or blocked.

Another advantageous embodiment of the frame is characterized in that the frame housing is designed to be closed at least 20%, preferably at least 30%, on the jacket side. This is particularly the case when the frame housing is formed completely or at least in sections by a grid. The preceding explanations are therefore preferred and reference is made analogously.

An advantageous embodiment of the frame is characterized by at least one retaining tab which protrudes from the frame housing transversely or obliquely to the axial direction of the frame housing to the outside beyond the frame housing. The at least one retaining tab preferably protrudes in the transverse direction, that is to say in a direction transverse or perpendicular to the axial direction, over a jacket-side outer side of the frame housing to the outside. The retaining tab can be materially connected to the frame housing, in particular to a jacket-side section of the frame housing. However, it is also possible that the at least one retaining tab is formed integrally from the frame housing. In practice, it has been found to be advantageous if the at least one retaining tab protrudes outward beyond the frame housing, for example at an angle to the axial direction. This is because the at least one retaining tab is preferably designed to fasten and / or support the frame or the frame housing. So can the at least one retaining tab serve, for example, to support and / or hold the frame or the frame housing on a camera housing if, for example, the frame is used to fix a circuit board of a camera. In this case, the at least one retaining tab can be supported on an inside of the camera housing. Each retaining tab is preferably designed to be resilient. This offers the advantage, in particular with regard to the aforementioned example, that the frame or the frame housing can rest resiliently against the inside of the camera housing by means of the at least one retaining tab.

The at least one retaining tab can be designed to be electrically conductive and / or thermally conductive. In this way, each retaining tab can be designed to transfer electricity or heat from the frame housing, for example to the camera housing and / or another object. The transfer of heat ensures cooling of the frame and / or further components, here for example the first board and / or second board fixed by the associated frame housing.

Another advantageous embodiment of the frame is characterized by at least one contact tab, which extends from the frame housing in the axial direction of the frame housing over the first or second end edge of the frame housing, each contact tab having a contact tab section which is perpendicular or inclined to the axial direction of the frame housing protrudes outward beyond the frame housing, and wherein for each contact tab a contact section is formed on the respective other end-face edge of the frame housing without a recess, and each contact tab and the respective associated contact section are axially aligned with one another. Each contact tab and each contact section is preferably designed to be electrically conductive and / or thermally conductive. If several, in particular structurally identical, frames are arranged one behind the other, the contact tab of one frame can grip the contact section of the adjacent frame, so that a non-positive connection is created between the contact tab of one frame and the contact section of the other frame. As a result, an electrically conductive connection between the frame housings of the two frames and / or a thermally conductive connection between the frame housings of the two frames can be established. The design of each contact tab is particularly advantageous if its end, which is spaced apart from the associated front edge, protrudes obliquely to the axial direction outward beyond the frame housing. In this case, two frame housings can be arranged one behind the other in such a way that the inclined configuration of the end section of the respective contact tab ensures that each contact tab slides up onto the first contact section of the other frame housing and remains in positive contact there. Each contact tab can be designed as a spring contact tab which is resiliently deflectable in order to slide onto a contact section. Thus, when two frames are arranged one behind the other and / or when two frames are plugged together, the contact tabs of a first frame can grip the contact section of the other frame. As a result, the preferably desired electrical and / or thermal connection is established at the same time.

Another advantageous embodiment of the frame is characterized by at least one cooling tab that protrudes from the frame housing into the associated frame interior, the at least one cooling tab being designed and / or arranged to transfer heat, in particular to the frame housing. Each cooling tab can therefore transfer heat. Each cooling tab extends from the frame housing into the frame interior. Heat can therefore be transferred from the interior of the frame to the frame housing by means of each cooling tab. Each cooling tab preferably has direct, in particular non-positive, positive and / or material contact with the frame housing. Each cooling tab can be formed integrally with the frame housing. Each cooling tab is preferably designed as a metallic cooling tab. Each cooling tab preferably protrudes into the frame interior in the transverse direction, that is to say in a direction transverse to the axial direction of the frame housing. Each cooling tab is preferably arranged in such a way that it does not directly touch the first circuit board and / or the second circuit board. Thus, each cooling tab can extend into the frame interior in such a way that it is arranged at a distance from the first plate and / or from every second plate in the axial direction.

Another advantageous embodiment of the frame is characterized by at least one opening, in particular a shell-side opening, in the frame housing, through which one of the cooling tabs, preferably transversely to the axial direction of the frame housing, fits into the interior of the frame housing, so that the respective cooling tab by means of the opening is held on the frame housing. Thus, each cooling tab can be pushed laterally through one of the openings in the frame housing into the frame interior at least partially. Each opening is preferably designed as a slot-shaped opening, in particular on the jacket wall in the frame housing. Furthermore, it has proven to be advantageous if each cooling flap is designed as a plate-shaped cooling flap. One of the plate-shaped openings can therefore pass through each slot-shaped opening Cooling tabs are pushed into the frame interior. Alternatively or in addition, a cooling tab can be attached to the frame housing by means of at least one snap connection and / or at least one clip connection. The frame housing can, for example, have two, preferably opposite, arranged openings. The cooling tab can be connected to the frame housing through these openings, in particular using one of the aforementioned connection options. Each opening is preferably arranged centrally between the front edges of the frame housing, so that each opening is delimited circumferentially by the frame housing. These openings therefore do not form any end openings in the frame housing. Preferably, the frame housing with the at least one opening and the at least one cooling tab can be designed with respect to one another in such a way that a form-fitting and / or force-fitting connection is created when a cooling tab is arranged protruding through one of the openings into the interior. As a result, an advantageous heat transfer can take place by means of a cooling tab from the interior to the frame housing. If the frame housing preferably has at least one holding bracket, the heat can then be transferred to a further component, such as a camera housing, by means of the at least one holding bracket. This configuration makes it possible to transfer heat that was previously given off to the interior of the frame housing, for example by the fixed, first circuit board, from the interior of the frame housing to the frame housing and then, for example, to the camera housing. In particular, the camera housing can then give off the heat to the environment. In this way, cooling of the first circuit board can be achieved. The same can apply to the second board.

A further advantageous embodiment of the frame is characterized by a cover which is connected to the frame housing in such a way that the frame interior is at least substantially closed in the axial direction to an end face of the cover. The cover preferably adjoins the second end-side edge of the frame housing, so that the corresponding, second end-side of the frame can be designed to be closed by the cover. If several frames are now arranged one behind the other, the last frame in this arrangement can, for example, be formed by a frame, as this was explained by the aforementioned configuration. The remaining frames of this arrangement can be designed without the aforementioned cover.

According to a second aspect of the invention, the object mentioned at the beginning is achieved by a frame module with the features of claim 13. A frame module is therefore provided which has a frame and a first board. The frame can be designed according to a frame according to the first aspect of the invention and / or one of the advantageous configurations and / or with at least one of the advantageous features explained in this regard. The frame is designed to fix the first board. This should be implemented in the framework module. The frame module is thus characterized in that the first board is fixed by the at least one board support bracket of the frame and the at least one first spring bracket of the frame. It is thereby achieved that the first board is fixed in the first board plane which is arranged perpendicular to the axial direction of the frame.

With regard to the frame, reference is made analogously to the preceding, advantageous explanations, preferred features, effects and / or advantages, as they have already been explained in connection with the frame.

It was previously pointed out that multiple frames can be arranged one behind the other. This should be able to be provided in a corresponding manner for several, in particular structurally identical, frame modules and / or for several frame modules with structurally identical frames. In particular with regard to the last-mentioned alternative, it should be pointed out that not every frame module has to have the structurally identical, first circuit board. Rather, it can be provided that each frame module has an associated, specific first board. This first board is fixed in each case by the associated frame of the frame module. Nevertheless, the advantageous explanations, more preferred features, effects and / or advantages that are described in connection with the arrangement of several frames can apply in an analogous manner to the arrangement of several frame modules.

An advantageous embodiment of the frame module is characterized in that the first board rests on the at least one first board support bracket of the frame and the at least one first spring bracket of the frame engages behind it, so that the first board between the at least one first board support bracket and the at least one first Spring clip is held clamped. In this context, too, reference is made at least in an analogous manner to the preceding, advantageous explanations, preferred features, effects and / or advantages, as have already been described for the possible fixing of a first circuit board by a frame.

Another advantageous embodiment of the frame module is characterized in that thermally conductive filling material and / or a heat-conducting mat is introduced into the interior space of the frame in such a way that heat can be conducted from the first board to the frame housing of the frame by means of the filling material or the heat-conducting mat. The thermally conductive filler material is designed to conduct heat. The heat-conducting mat is also designed to conduct or transfer heat. The heat-conducting mat can be, for example, a fiber mat, the fibers of which are designed to conduct or transfer heat. The thermally conductive filling material or the heat-conducting mat are preferably arranged in the interior space of the frame in such a way that there is direct contact between the filling material or the heat-conducting mats and the frame housing. As a result of this direct contact, heat can therefore be transferred directly from the filler material or the heat-conducting mat to the frame housing. The heat can be transferred to the surroundings and / or a further component arranged on the outside through the frame housing of the frame. For example, it can be provided that the frame has a retaining tab which is designed to transfer heat or to conduct heat. Alternatively, in particular largely flat contact between the frame and the surroundings is also possible. A frame module with such a frame can then be introduced into a camera housing, for example, so that the retaining tab is in direct contact with the associated camera housing, which ensures the transfer of heat from the frame housing to the camera housing. As a result, cooling of the frame housing and then cooling of the first circuit board can be ensured.

According to a third aspect of the invention, the above-mentioned object is achieved by a module stack with the features of claim 16. A module stack is therefore provided which has a first frame module and a second frame module. Each of the two frame modules can be designed in accordance with a frame module, as has been explained above. The first frame module and the second frame module can have differently designed boards, which are, however, each assigned to the respective frame module as the first board. The module stack is characterized in that the first board of the second frame module forms a second board for the first frame module, the second board formed for the first frame module also from the at least one second board support bracket of the first frame module and the at least one second spring bracket of the first Frame module is fixed, so that the first frame module and the second frame module, preferably releasably, are connected via the common fixed board. This jointly fixed board is therefore the first board of the second frame module and at the same time the second board of the first frame module. The second board of the first frame module can be understood as a second board, as has been advantageously discussed in connection with the frame according to the first aspect of the invention or the associated advantageous configurations and / or preferred features.

In order to produce a module stack, it can be provided, for example, that the first frame module and the second frame module are provided first. A first circuit board is fixed by the frame housing of the first frame module. This board is also referred to as the first board of the first frame module. In addition, a (further) first circuit board is fixed by the frame housing of the second frame module. This board is referred to as the first board of the second frame module. In addition, it is preferably provided that the frame housing of the first frame module is designed to be identical or structurally identical to the frame housing of the second frame module. The same frame housings can therefore be used for the first frame module and the second frame module.

In order to releasably connect the first frame module to the second frame module, the first frame module and the second frame module are arranged one behind the other in such a way that the second front edge of the first frame module faces the first front edge of the second frame module. In addition, it is provided that the frame housings of the first and second frame modules are arranged in alignment with one another. This arrangement ensures that the second spring tabs of the frame housing of the first frame module can grip over the first circuit board of the second frame module when the frame housing of the first frame module is pressed in the direction of the second frame module. The second spring tabs of the frame housing of the first frame module are initially deflected when they hit the first board of the second frame module. Then, when the first frame module is pushed further in the direction of the second frame module, the second spring tabs of the frame housing of the first frame module snap behind the first board of the second frame module. As a result, the second circuit board support tabs of the frame housing of the first frame module come into surface contact with an upper side of the first circuit board of the second frame module, said upper side being the opposite upper side to the (further) upper side of the first circuit board of the second frame module, which is in surface contact with the first board support tabs of the frame housing of the second frame module. In other words there is the The first board of the second frame module is now directly between the second board support tabs of the frame housing of the first frame module and the first board support tabs of the frame housing of the second frame module, the first spring tabs of the frame of the second frame module and the second spring tabs of the frame of the first frame module forming the first board of the second frame module overlap in the opposite direction or reach behind said first plate on opposite, associated upper sides. As a result, the first board of the second frame module is clamped both by the first spring tabs of the frame of the second frame module against the first board support tabs of the frame of the second frame module and by the second spring tabs of the frame of the first frame module against the second circuit board support tabs of the frame of the first Frame module held clamped. The first board of the second frame module thus also forms the second board of the first frame module at the same time. The frame of the first frame module is therefore detachably coupled to the frame of the second frame module via this common circuit board that is created as a result. The same applies to the respective associated frame housing. The releasable coupling can also be referred to as a releasable connection.

The module stack, as explained above, has a first frame module and a second frame module. In principle, however, the module stack can also have further frame modules. For example, the module stack can have a first frame module, a second frame module and a third frame module. The connection between the second frame module and the third frame module is designed in an analogous manner to the connection between the first frame module and the second frame module. If further frame modules are provided, the connection to the respective further frame module can be designed in a correspondingly analogous manner. The preceding explanations are therefore referred to in an analogous manner.

An advantageous embodiment of the module stack is characterized in that the first front edge of the frame housing of the second frame module, preferably directly, rests against the second front edge of the first frame housing of the first frame module. This is particularly advantageous when the frame housings of the first and second frame modules are structurally identical. With such an arrangement, a particularly compact module stack can be provided, of which two circuit boards are arranged, preferably parallel to one another. In addition, the last-mentioned configuration of the module stack offers the advantage that, in particular, a circuit board arranged between the two frame housings is protected. In addition, the direct contact between the frame housings can serve to ensure an electrical connection between the frame housings and / or to ensure a thermally conductive connection between the frame housings. The electrical connection can serve to achieve a particularly good electromagnetic damping effect by means of the frame housing. If a thermally conductive connection is also provided between the frame housings through their direct direct contact, a particularly good distribution of thermal energy can also be ensured. For example, if a particularly large amount of heat is emitted from the first circuit board of the first frame module to the frame housing of the first frame module, at least part of the heat can be transferred to the frame housing of the second frame module through direct contact between the frame housing of the first frame module. As a result, efficient cooling of the first circuit board of the first frame module can be supported and / or guaranteed.

As already explained above, it is preferably provided that the frame housings of the first and second frame modules are preferably structurally identical. It is therefore preferably provided that the frame housings are designed such that the first end-face edge of the frame housing of the second frame module is arranged at least in sections directly opposite the second end-face edge of the frame housing of the first frame module. The preferably direct contact between the frame housing can therefore arise at the corresponding sections.

However, it can also preferably be provided that the frame housings of the first and second frame modules do not have any direct contact with one another via the frontal edges. An advantageous embodiment of the module stack is characterized in that the first end edge of the frame housing of the second frame module is arranged separated from the second end edge of the frame housing of the first frame module by a preferably circumferential gap. Tolerance compensation can be ensured through the gap. This applies in particular to tolerances with regard to the precise design of the spring tabs and / or the thickness of the first plate of the second frame module. The particularly circumferential gap therefore makes it particularly easy to ensure that the first plate of the second frame module is supported both by the first spring tabs of the second frame module and by the second spring tabs of the first Frame module can be gripped or gripped from behind in order to ensure mutual fixation.

Another advantageous embodiment of the module stack is characterized in that the frame housings of the first and second frame modules are of identical construction and are aligned with one another. The shell-side outer surface of the frame housing of the first frame module can thus be arranged in alignment with the shell-side outer surface of the frame housing of the second frame module. With this configuration, a common, at least essentially aligned and / or crack-free, shell-side outer surface of the module stack can therefore be provided. A module stack of this type can be integrated or built into an installation space of a further device and / or component in a particularly space-saving manner.

Another advantageous embodiment of the module stack is characterized in that each first spring tab of the frame of the second frame module fits into a first recess in the frame of the first frame module. As a result, the frame housings of the first and second frame modules can be arranged particularly close to one another in the axial direction.

Another advantageous embodiment of the module stack is characterized in that every second spring clip of the frame of the first frame module fits into a second recess in the frame of the second frame module. This configuration of the module stack also ensures that the frame housings of the first and second frame modules can be arranged particularly close to one another in the axial direction.

Another advantageous embodiment of the module stack is characterized in that the contact tab of the frame of the second frame module rests on the contact section of the frame of the first frame module, and / or that the contact tab of the frame of the first frame module rests on the contact section of the frame of the second frame module. The fact that the respective contact tab rests on the respective contact section creates a non-positive connection. This connection can be designed to be electrically conductive and / or thermally conductive, for example. The frame housings of the first and second frame modules can thus be electrically connected, so that a particularly good damping effect of electromagnetic waves can be achieved. If the aforementioned connection is to be designed as an alternative or in addition to the transmission of thermal energy, the particularly advantageous distribution of heat or thermal energy can also be achieved thereby. This allows particularly effective cooling, in particular of areas and / or boards that are exposed to a particularly high thermal load.

A further advantageous embodiment of the module stack is characterized in that the first circuit board of the first frame module has an electrical connection terminal on a side facing the second frame module, the first circuit board of the second frame module has an electrical counter connection on a side facing the first frame module, and the Connection port is arranged opposite the connection mating connection in such a way that the connection of the first frame module to the second frame module creates a releasable electrical coupling between the connection connection and the connection mating connection. The connection terminal and the mating connection terminal are preferably designed as corresponding electrical plug connectors. If, for example, the first frame module is connected to the second frame module in a mechanically releasable manner via the first board of the second frame module, the releasable electrical connection between the connection terminal and the mating connection terminal is created at the same time. The electrical connection is also referred to as an electrical coupling between the connection terminal and the mating connection terminal. This can be a connection for the exchange of electrical signals. The electrical connection can therefore be designed to transmit signals and / or data. As an alternative or in addition, the electrical connection can be designed to transmit electrical energy. Thus, for example, the first circuit board of the first frame module can supply the first circuit board of the second frame module with electrical energy via the electrical connection. The supply of electrical energy can, however, also take place in the opposite way. If the module stack has at least one further frame module in addition to the first frame module and the second frame module, an analog electrical connection can be formed between each two adjacent frame modules. For this purpose, the first boards of the respectively adjacent frame modules can be designed accordingly.

According to a fourth aspect of the invention, the aforementioned object is achieved by a camera with the features of claim 20. A camera for capturing an image is therefore provided. The camera has an outer camera housing that forms a camera interior. The camera also has a sensor board arranged in the interior of the camera with an image sensor for optical image acquisition. It also has the camera has a first frame module which is arranged in the interior of the camera. The first frame module is designed according to a frame module according to the second aspect of the invention, an associated, advantageous embodiment and / or with features as they have already been explained. The advantageous explanations, preferred features, effects and / or advantages, as already explained in connection with the frame module, are therefore referred to at least in an analogous manner and preferably for the first frame module of the camera. The sensor board of the camera forms the first board of the first frame module. The outer frame housing can have an opening, in particular protected by a transparent pane, through which the image sensor can optically capture a predetermined area. The sensor board with the image sensor is fixed by the at least one first board support bracket of the frame of the first frame module and the at least one first spring bracket of the frame of the first frame module. The sensor board can also be attached to the camera outer housing, for example by means of screws and / or by means of adhesive. Particularly preferably, the sensor board is fastened to the camera outer housing by means of screws in such a way that the image sensor can optically capture a predetermined area of the surroundings of the camera outer housing through the aforementioned opening in the camera outer housing. Since the frame of the first frame module, as explained above, is coupled to the sensor board, the first frame housing can be arranged in a fixed manner relative to the sensor board. The frame of the first frame module can therefore be detachably fastened to the sensor circuit board by means of the at least one circuit board support bracket and the at least one first spring bracket.

The camera preferably has an adapter frame which is assigned to the outer camera housing. The sensor board can be held and / or fastened by means of the adapter frame. This attachment can be detachable. In addition, the adapter frame can form the opening in the camera housing through which the image sensor is designed for optical detection of the aforementioned surroundings. The corresponding opening of the adapter frame can therefore be arranged opposite the image sensor of the sensor board.

An advantageous embodiment of the camera is characterized by a second frame module arranged in the interior of the camera. The frame module can be designed according to a frame module according to the second aspect of the invention and / or one of the associated advantageous configurations, in particular with the advantageous features. The corresponding, advantageous explanations, preferred features, effects and / or advantages, as they have been explained in connection with the frame module according to the second aspect of the invention, are preferably referred to for the second frame module of the camera, at least in an analogous manner. For the camera, it is also preferably provided that the first frame module and the second frame module form a module stack. The module stack is preferably designed according to the third aspect of the invention. With regard to the module stack of the camera, reference is therefore preferably made to the advantageous explanations, preferred features, effects and / or advantages in a manner analogous to how they were explained for the module stack according to the third aspect of the invention.

Thus, a module stack with a first and second frame module can be formed and / or arranged in the camera interior of the camera, the first circuit board of the first frame module being formed by the sensor circuit board, and wherein the first circuit board of the second frame module serves at the same time to the frame housing of the To releasably connect the frame of the first and second frame module to one another. Such a camera offers the advantage that the circuit boards can be arranged in a particularly compact manner within the interior of the camera. At the same time, the use of a stack of modules offers the advantage that the camera can be repaired particularly quickly and easily. The same applies to the manufacture of such a camera. This is because the module stack can be achieved by simply plugging the first frame module together with the second frame module.

An advantageous embodiment of the camera is characterized in that the at least one frame module is arranged in the camera interior of the camera outer housing in such a way that each retaining tab of the frame of the respective frame module extends to an inside of the camera outer housing and rests against the inside in such a way that an electrical and / or or a thermally conductive connection is formed between the camera outer housing and the at least one retaining tab. The outer camera housing is preferably formed at least partially or completely from metal. Provision is also preferably made for the at least one retaining tab and the frame housing of the at least one frame module that these are at least partially or completely made of metal. It is preferably provided that the metallic design of the aforementioned objects forms an electrical and / or thermally conductive connection from the at least one frame housing to the camera outer housing via the at least one retaining strap. As a result, for example, heat from a first board or the sensor board via the at least one frame housing and the at least one retaining tab are transferred to the camera outer housing, so that the heat can at least partially be dissipated from the camera outer housing to the environment. As a result, effective cooling of the at least one first circuit board and / or the sensor circuit board can be achieved.

• 1 zeigt eine vorteilhafte Ausgestaltung eines Rahmens in einer schematischen Perspektivansicht.
• 2 zeigt eine vorteilhafte Ausgestaltung eines Rahmenmoduls in einer schematischen Perspektivansicht.
• 3 zeigt eine weitere vorteilhafte Ausgestaltung des Rahmens in einer schematischen Perspektivansicht.
• 4 zeigt eine vorteilhafte Ausgestaltung eines Modulstapels in einer schematischen Perspektivansicht.
• 5 zeigt eine vorteilhafte Ausgestaltung eines Ausschnitts des Modulstapels in einer schematischen Seitenansicht.
• 6 zeigt einen Teil einer vorteilhaften Ausgestaltung einer Kamera in einer schematischen Perspektivansicht.

Further features, advantages and / or possible applications of the present invention emerge from the following description of the exemplary embodiments and / or the figures. In the figures, the same numerical reference symbols continue to stand for the same or similar objects, even if these are supplemented by appended letters. This applies, for example, to the reference symbols 6, 6a and 6b.

• 1 shows an advantageous embodiment of a frame in a schematic perspective view.
• 2 shows an advantageous embodiment of a frame module in a schematic perspective view.
• 3 shows a further advantageous embodiment of the frame in a schematic perspective view.
• 4th shows an advantageous embodiment of a module stack in a schematic perspective view.
• 5 shows an advantageous embodiment of a section of the module stack in a schematic side view.
• 6th shows part of an advantageous embodiment of a camera in a schematic perspective view.

In the 1 is an advantageous embodiment of a frame 2 shown schematically. The frame 2 has a frame housing 6th on. From the frame housing 6th becomes a frame interior 8th formed because the frame housing 6th is as a surrounding frame housing 6th educated. The frame interior 8th is on the shell side of the frame housing 6th limited. Preferably the frame housing is 6th designed as a stamped and bent part. In addition, the frame housing 6th as a metallic frame case 6th be trained. The cross section of the frame housing 6th is preferably rectangular. To such a frame housing 6th To produce, the metal stamping part can be bent into a rectangular shape and at a seam 54 be non-positively, cohesively and / or positively connected to one another. In addition, it is preferably provided that the frame housing 6th is formed circumferentially in a frame plane, that is to say in a plane of the xy coordinates. However, this only means that the frame housing 6th extends circumferentially in this plane, but not that the frame housing 6th is formed exclusively in this frame level. As from the 1 can be seen, the frame housing extends 6th namely also in the z-direction.

The frame housing 6th is designed such that the frame interior 8th in an axial direction A of the frame housing 6th is open. Thus, the frame interior 8th to one end of the frame housing 6th or to both opposite end faces of the frame housing 6th be open. The axial direction A is preferably aligned perpendicular to the frame plane. The axial direction A can thus extend in the direction of the z coordinate.

The frame 2 has at least one first spring tab 10 on. Like it from the 2 can be seen schematically, however, it is preferably provided that the frame 2 several first spring tabs 10 having. Every first spring tab 10 is preferably integral with the frame housing 6th educated. Each of the spring tabs 10 extends from the frame housing 6th over a first front edge 12th of the frame housing 6th out.

Every first spring tab 10 can have a wave-shaped, u-shaped and / or v-shaped cross-section. Every first spring tab 10 does not have to extend in a straight line in the axial direction A.

The frame 2 also has at least one first circuit board support bracket 14th on. As exemplified by the 1 can be seen, however, it is preferably provided that the frame 2 several first board support tabs 14th having. Each first circuit board support tab protrudes from the frame housing 6th in the frame interior 8th . In addition, the first board support lugs are 14th designed to be the first board 4th in axial direction A.

In the 2 is an exemplary embodiment of the frame 2 shown of a first board 4th and a second board 29 holds fixed. In the 2 is the first board 4th shown arranged on the back. The first board 4th lies on the first several circuit board support tabs 14th on. As from the synopsis of the 1 and 2 can be seen, it is preferably provided that the plurality of first circuit board support tabs 14th in the circumferential direction of the frame housing 6th are arranged distributed. From the first several circuit board support brackets 14th can therefore provide a stable support for the first board 4th be educated. This is especially the case when each of the first board support tabs 14th integral with the frame housing 6th is or are formed.

To the first board 4th with the several first board support tabs 14th to bring it into surface contact is the first circuit board 4th in the axial direction A initially against the end sections 56 of the first spring tabs 10 pressed. Every first spring tab 10 thus has a first end section 56 on. Every first end section 56 is preferably aligned at an angle between 30 and 60 degrees to the frame plane. Thus, each end section 56 as a guide element for inserting the first board 4th serve and / or be designed accordingly. Will be the first board 4th so now towards the end sections 56 of the first spring tabs 10 pressed, the first spring tabs steer 10 in a transverse direction, that is, a direction perpendicular to the axial direction A. This ensures that the first board 4th can be pushed further until the first board 4th on the first board support tabs 14th meets. Every first spring tab 10 has a first clamping portion 58 on, which is U-shaped or V-shaped in cross section.

As from the 2 can be seen, every first spring clip is 10 designed for this purpose, with the respectively associated clamping section 58 behind the first board 4th to grab when the first board 4th on the first board support tabs 14th is applied. The first several spring tabs 10 are preferably in a circumferential direction of the frame housing 6th arranged distributed. This is an example from the 1 refer to.

The at least one first circuit board support bracket 14th and the at least one first spring tab 10 are designed to be the first board 4th to be fixed in a first plate plane arranged perpendicular to the axial direction A. Fixing can mean, for example, holding or fastening. This is the first board 4th between the first board support tabs 14th and the first spring tabs 10 releasably clamped. The first board support brackets 14th and the first spring tabs 10 are therefore arranged and / or designed around the first board 4th to be fixed positively and / or positively. The attachment is detachable. Because the board 4th can be removed from the first board support tabs in reverse order 14th be released so that the first spring tabs 10 deflect until the first board 4th is again completely separated from the frame housing.

The frame housing 6th or the frame 2 therefore offers the advantage that by means of the frame 2 a first board 4th can be fixed easily and precisely at the same time.

A circuit board usually has a plate-like shape with a predetermined thickness, at least on the circumferential edge. The first spring tabs 10 and the first board support tabs 14th are therefore designed and / or arranged around the first board 4th to hold or fix on the associated, circumferential edge non-positively and / or positively. It is preferably provided that each first plate support tab 14th extends in a first support plane, which is preferably perpendicular to the axial direction A. The first board support brackets 14th are therefore arranged in the first support level. In addition, it is preferably provided that each first clamping section 58 with an associated clamping surface on the first board 4th is applied. The corresponding clamping surfaces lie in a common first clamping plane. The first clamping plane is preferably arranged parallel to the first support plane. The same applies accordingly to the clamping section 58 in relation to the circuit board support tabs 14th . They can be arranged parallel to one another. In addition, it is preferably provided that the first clamping plane and the first support plane are arranged at a predetermined, first distance K from one another. The first distance K can be in relation to the thickness of the first board 4th be predetermined. Thus, the first distance K is preferably predetermined in such a way that the first board 4th between the first board support tabs 14th and the first spring tabs 10 , in particular with regard to the associated first clamping section 58 , can be clamped to the first board 4th to fix. Thus it is preferably provided that the first distance K is predetermined in such a way that the first distance K is at least essentially the same as the thickness of the first plate 4th corresponds to and / or, for example, between 5 and 15% smaller than the thickness of the first plate 4th is.

As seen from the synopsis of the 1 and 2 it can be seen, it is for the frame 2 preferably provided that the associated frame housing 6th is also designed to have a second circuit board 29 to fix releasably. In an advantageous embodiment, the frame 2 therefore at least a second spring clip 16 on. However, it is particularly preferred that the frame 2 several second spring tabs 16 having. The second spring tabs 16 can in the circumferential direction of the frame housing 6th be arranged distributed. In addition, it is preferably provided that each of the second spring tabs 16 integral with the frame housing 6th is trained. Each of the second spring tabs extend from the frame housing 6th in the axial direction A over a second front edge 18th of the frame housing 6th out. The second frontal edge 18th is in the axial direction A opposite to the first end-face edge 12th of the frame housing 6th arranged. The first spring tabs 10 and the second spring tabs 16 thus extend in opposite directions. Otherwise the second spring tabs 16 in each case at least essentially in an analogous manner to the first spring tabs 10 be trained. Reference is therefore made in an analogous manner to the corresponding, advantageous explanations, preferred features, effects and / or advantages.

Plus, it's for the frame 2 preferably provided that the frame 2 at least one second circuit board support bracket 28 having. As can be seen from the 1 can be seen, the frame 2 several second circuit board support tabs 28 exhibit. The circuit board support tabs 28 can in the circumferential direction of the frame housing 6th be arranged distributed. In addition, it is preferably provided that every second circuit board support bracket 28 from the frame housing 6th is integrally formed and in the frame interior 8th protrudes. In addition, the second board support tabs are 28 designed to have a second circuit board 29 in axial direction A. Each of the second board support tabs 28 can be analogous to a first circuit board support bracket 14th be trained. For each of the second board support brackets 28 reference is therefore preferably made to the preceding explanations, preferred features, effects and / or advantages in a manner analogous to that used for the first circuit board support tabs 14th have been explained. However, the second board support tabs are 28 like this to the second spring tabs 16 arranged so that the second board 29 from the several, second circuit board support brackets 28 and the second spring tabs 16 can be releasably fixed, in particular by the second board 29 through the second circuit board support tabs 28 and the second spring tabs 16 is held positively and / or non-positively or by clamping. This is exemplified in the 2 shown.

From the 2 it can be seen schematically that the second board 29 on the second board support tabs 28 rests. Every second circuit board support bracket 28 extends in a second support plane, which is preferably perpendicular to the axial direction A. Thus, the second board 29 flat on the second circuit board support tabs 28 rest. Every second spring clip 16 is preferably U-shaped and / or V-shaped in cross section. This shape can also be referred to as a waveform. This means that every second spring clip 16 an associated second clamping portion 60 exhibit. Every second clamping section lies with an associated clamping surface on the second circuit board 29 on. The clamping surfaces of the second clamping sections 60 thus extend in a second clamping plane. The second clamping plane is preferably aligned parallel to the second support plane. This results in the second spring tabs 16 such as in the 2 are shown schematically behind the second board 29 can grip so that the clamping sections 60 a counter-bearing to the one of the second circuit board support tabs 28 formed requirements for the second board 29 form. In other words, the second board can 29 between the clamping sections 60 of the second spring tabs 16 and the second board support tabs 28 be arranged clamped. The second distance M between the second support plane and the second clamping plane is preferably predetermined. In addition, the second distance M can be predetermined in such a way that the second circuit board 29 from the second board support tabs 28 and the second spring tabs 16 can be pinched. For example, the second distance M can be predetermined in such a way that it is approximately the thickness of the second plate 29 corresponds to and / or is, for example, between 5 and 15% smaller.

Another advantageous embodiment of the frame 2 is in the 3 reproduced in a schematic perspective view. From the 3 it can be seen that the frame 2 a lid 42 may have. The lid 42 can be integral with the frame housing 6th be trained. Here is the lid 42 preferably in such a way with the frame housing 6th connected so that the frame interior 8th in the axial direction A only to one end face of the cover 42 is at least substantially closed. The lid can 42 have at least one opening for an electrical connection and / or at least one opening for the passage of an electrical cable. The frame interior is open to the opposite end face. Such a framework 2 can for example be used as a finishing frame 2 be designated. Because, as will be shown in the following, a framework 2 together with a first board 4th a frame module 44 form, with several such frame modules 44 can be arranged one behind the other so that they are detachably coupled to one another. At the end of this arrangement, the in 3 shown frame 2 be arranged so as to form a frontal closure. In the following, however, the advantageous features of the frame 2 as this in 1 is shown.

For the frame 2 it is provided according to the invention that the associated frame housing 6th at least one first recess 20th having. In the 1 is the frame housing 6th with several first recesses 20th shown. Every first recess 20th extends from the second end edge 18th in the axial direction A into the frame housing 6th . Every first recess 20th is therefore to the second front edge 18th trained to be open. It is also provided that each first spring tab 10 one of the first recesses 20th is assigned in such a way that the respective first spring tab 10 and the associated, first recess 20th are aligned in the axial direction A centrally aligned with one another.

Plus, it's for the frame 2 preferably provided that the frame 2 and / or the frame housing 6th at least one second recess 22nd having. However, it is preferably provided that the frame 2 or the frame housing 6th several second recesses 22nd exhibit. Every other recess 22nd extends from the first end edge 12th of the frame housing 6th in the axial direction A into the frame housing 6th . Every other recess 22nd is therefore preferably to the first front edge 12th openly trained. In addition, it is preferably provided that every second spring tab 16 one of the second recesses 22nd is assigned in such a way that the respective second spring tab 16 and the associated, second recess 22nd are aligned centrally in the axial direction in alignment with one another.

Through the first recesses 20th and the second recesses 22nd several identical frames can be used 2 be arranged one behind the other. This is especially the case when the frame housing 6th the identical frame 2 are arranged in alignment one behind the other. Because in this case the first spring tabs 10 of the one frame 2 in the first recesses 20th of the other frame 2 intervention. This can result in a particularly compact arrangement of the two frame housings 6th the frame 2 come. The frames 2 can offer yet another benefit related to the 4th should be explained.

First, however, the basic structure of a framework module 44 explained in the 4th is also shown as an example. A frame module 44 has a frame 2 and a first board 4th on. The first board is from the first board support tabs 14th and from the first spring tabs 10 releasably fixed, namely in an associated first board level. On the previous explanations with regard to the attachment of the first board 4th by means of the first spring tabs 10 and the first board support tabs 14th is therefore used at this point for the frame module 44 referred to in an analogous manner. Several such frame modules 44 each with an identical frame 2 can be used to build a module stack 46 to manufacture. Every frame module 44 can do a first board 4th fix. The functional design of the first boards 4th can be different.

In the 4th are several frame modules 44 shown, which are arranged one behind the other in the axial direction A. One of the frame modules 44 is the first frame module 48 designated. Another frame module 44 is used as a second frame module 50 designated. As the frame 2 of the first frame module 48 and the second frame module 50 are constructed identically, the reference number is the letter "a" for features of the frame 2a of the first frame module 48 added, while the letter "b" to the reference numerals for the features of the frame 2 B of the second frame module 50 is appended. These additional letters are therefore primarily used for differentiation purposes and for better understanding. However, these reference drawings are not intended to represent limitations on the general concept of the invention.

The first frame module 48 has a frame 2a and a first board 4a on. The first board 4a is from the first spring tabs 10a and the first board support tabs 12a of the frame 2a releasably fixed. The frame housing 6a of the frame 2a of the first frame module 48 is preferably formed essentially closed on the shell side. The frame 2a of the first frame module 48 also has several second spring tabs 16a on. Finally, the frame housing 6a first recesses 20a on, which are centrally aligned with the first spring tabs 10a are formed and / or arranged. In addition, the frame housing 6a several second recesses 22a on that to the second spring tabs 16a are aligned in the center and / or formed. The frame 2a of the first frame module 48 is therefore preferably according to a framework 2 formed, as this was explained above, in particular with reference to 1 .

The second frame module 50 is analogous to the first frame module 48 educated. However, the reference symbols here have the letter “b” instead of “a”. It can also use the functions of the first board 4a , 4b differentiate.

As from the 4th can be seen schematically, are the first frame module 48 and the second frame module 50 arranged one behind the other in such a way that the first board 4b of the second frame module 50 a second board 29a for the first frame module 48 forms. This board 4b , 29a thus has a double function. Because the one for the first frame module 48 formed second board 29a is also from the second board support tabs 28a of the first frame module 48 and the second spring tabs 16a of the first frame module 48 fixed. Here is the second board 29a on the second circuit board support tabs 28a and is held by the second spring tabs 16b attacked. The second board 29a but is also the first board at the same time 4b of the second frame module 50 . So it is also from the first spring tabs 10b of the second frame module 50 and from the first board support tabs 14b of the second frame module 50 fixed. So there is a double fixation. This is the first frame module 48 and the second frame module 50 solvable over the joint fixed board 4b , 29a that is from the first board 4b of the second frame module 50 or from the second board 29a of the first frame module 48 is formed, connected. To establish this connection, the first frame module 48 and the second frame module 50 provided. Then the second frame module 50 to the second face of the frame 2a of the first frame module 48 arranged such that the second board 4b of the second frame module 50 on the second spring tabs 16a of the frame 2a of the first frame module 48 meets. Then the distance between the first frame module 48 and the second frame module 50 further reduced so that the second spring tabs 16a of the frame 2a of the first frame module 48 deflect. Then comes the first board 4b of the second frame module 50 flat with the second circuit board support tabs 28 of the frame 2a of the first frame module 48 in contact and the second spring tabs 16a of the frame 2a of the first frame module 48 reach behind the first board 4b of the second frame module 50 . Then form the first board 4b of the second frame module 50 also the second board at the same time 29a of the first frame module 48 . In addition, this results in a releasable, form-fitting and / or force-fitting coupling between the first frame module 48 and the second frame module 50 instead of. This coupling then creates the module stack 46 , like this one in the 4th is shown.

As from the 4th can be seen schematically or by way of example, a module stack 46 even more frame modules 44 have, one after the other in an analogous manner to the first and second frame modules 48 , 50 , can be releasably connected to each other.

So that the frame housing 6a of the frame 2a of the first frame module 48 particularly close to the frame housing 6b of the frame 2 B of the second frame module 50 can be arranged, it is preferably provided that the frame 2a , 2 B or the frame housing 6a , 6b first recesses in each case 20a or. 20b and second recesses 22a or. 22b exhibit. In this context, reference is made in an analogous manner to the explanations as they are for the frame 2 have been explained previously.

From the 4th shows schematically that the second spring tabs 16a of the frame 2a of the first frame module 48 in the second recesses 22b of the frame 2 B of the second frame module 50 grasp. This prevents a collision between the aforementioned second spring tabs 16a and the frame housing 6b comes. In addition, the first spring tabs grasp 10b of the frame 2 B of the second frame module 50 in the first recesses 20a of the frame 20a of the first frame module 48 . Here, too, there is a corresponding collision between the aforementioned first spring tabs 10b and the frame housing 6th or frame housing 6a , 6b of the first frame module 48 effectively prevented. Overall, the frame 2a , 2 B the frame modules 48 , 50 can thus be arranged particularly close to one another in the axial direction. This therefore also allows a particularly dense and compact arrangement of several boards 4a , 4b behind each other. In addition, the arrangement is particularly easy to produce by simply plugging it together.

In order to prevent the aforementioned collision in a particularly simple manner, it is preferably provided that an extent N in terms of amount, as shown, for example, in FIG 1 is shown schematically, of each first spring tab 10 in the axial direction A is smaller than an extent P in terms of amount of the associated, first recess 20th in the axial direction A. The same can be done for each of the second spring tabs 16 and the respectively associated, second recesses 22nd be valid.

Each of the boards 4th , 4a , 29a can be equipped with electronic components. When using these components, thermal energy can therefore be released into the environment. It can also happen that the components emit electromagnetic waves and / or that the components have to be protected from electromagnetic waves.

It has therefore been found to be advantageous if the frame housing 6th is formed from metal. Because in this case the frame housing 6th be designed to dampen and / or block electromagnetic waves. Electromagnetic waves that hit the frame housing from the outside 6th meet, are therefore dampened and / or blocked, and can thus the function of the components on a circuit board 4th not adversely affect. The same can also apply in the opposite direction. Are from the components on one of the circuit boards 4th , 4a , 29a If electromagnetic waves are emitted which, however, should not be transmitted into the environment, the metallic design of the frame housing 6th , 6a , 6b serve to prevent these electromagnetic waves from spreading further. In order to achieve the best possible damping and / or blocking of electromagnetic waves, the multiple frame housings 6th , 6a , 6b be coupled together when these are used to create a module stack 6th to build. The electrical coupling between two adjacent frame housings 6a , 6b can be achieved by making the frame housing 6a , 6b from neighboring frame modules 48 , 50 in direct, face-to-face contact are to each other. For example, the first front edge 12b of the frame housing 6b of the second frame module 50 directly on the second front edge 18a of the frame housing 6a of the first frame module 48 issue. This enables an electrical connection to be established. Alternatively or in addition, it can be provided that, for example, the frame housing 6a of the first frame module 48 a contact tab 32a having on a contact area 36b of the frame housing 6b of the second frame module 50 rests. This also enables an electrical connection between the two frames 2a , 2 B or frame housings 6a , 6b guaranteed. Through the electrical connection between the frames 2a , 2 B can particularly effectively prevent electromagnetic waves from falling off the circuit boards 4th , 4a , 4b are passed on to the environment and / or vice versa electromagnetic waves on the components of the circuit boards 4th , 4a , 4b can act.

The frame housing 6th , 6a , 6b can also ensure a cooling function, especially if the frame housing 6th , 6a , 6b are made of metal. Through the aforementioned connection between the frame housings 6th , 6a , 6b can also heat from a frame case 6a to the adjacent frame housing 6b or vice versa. This allows a particularly effective distribution of heat and thus the result of this is that the circuit boards 4th , 4a , 4b can be cooled particularly efficiently.

In the 5 is a section of the top of the module stack 46 from the 4th shown schematically. The frame points 2a of the first frame module 48 also a retaining tab 30a on. The retaining tab 30a extends at least partially transversely and / or obliquely to the axial direction A outwards over the frame housing 6a of the frame 2a of the frame module 48 . The retaining tab 30a serves to place oneself directly against another component and / or to support oneself there. Will the module stack 46 For example, used in a further housing, such as a camera housing, and has at least one frame 2a a corresponding retaining tab 30a on, so can over the retaining tab 30th electrical and / or thermal contact to the housing, in particular the camera housing, can be established. Via the retaining tab 30a can therefore be ensured that, for example, heat from the at least one frame 2a can be transferred to the further housing, in particular the camera housing.

Unless one of the boards 4th , 4a , 4b emits a particularly large amount of heat, it can be provided that the frame housing 6th , 6a or. 6b at least one of the frames 2 , 2a , 2 B an opening 4th having. In the 1 is a frame housing 6th with a corresponding opening 40 shown as an example. The opening 40 can be designed in the shape of a slot. Through the opening 40 a cooling flap (not shown) can be inserted transversely to the axial direction A into the frame interior 8th be arranged enclosing so that the cooling tab by means of the opening 40 on the frame housing 6th is held. The cooling tab is preferably designed to transfer heat. For example, the cooling flap can be made of metal. Also the frame housing 6th is preferably made of metal. This means that heat can escape from the interior of the frame 8th via the cooling flap to the frame housing 6th can be transmitted particularly efficiently. Alternatively or additionally, in the frame interior 8th other materials can also be attached, such as thermal mats, to remove heat from the interior of the frame 8th to the frame housing 6th transferred to.

In the 6th is a part, especially an inner part, of a camera 52 shown in a schematic perspective view. This in 6th The inner part shown can, for example, be in a camera interior of a camera outer housing of the camera 52 be used. The camera has a sensor board 62 on. The sensor board 62 has an image sensor (not shown) for optical image acquisition. The sensor board 62 is for example directly on a housing component 64 arranged that an opening 66 to the environment, so that light through the opening 66 can hit the image sensor. For the camera 52 it is also provided that this is a first frame module 48 having. The sensor board forms 62 the first boards 4a of the first frame module 48 . However, it is particularly preferred that the camera 52 a module stack 46 has, as this has been exemplarily explained above. The housing component 64 can have the same external dimensions as the frame housing 6a , 6b the frame modules 48 , 50 of the module stack 46 exhibit. It can also be provided that the housing component 64 in alignment with the frame housing 6a , 6b the frame modules 48 , 50 is arranged. This enables a particularly compact design to be achieved.

A camera with at least one frame module 48 , 50 has the advantage that the function of the camera 52 can be adapted particularly easily during manufacture and / or afterwards. Because by selecting and / or exchanging a frame module 48 , 50 it is particularly easy to create a new board with the remaining boards 4th , 4a , 4b can be related to the overall functionality of the camera 52 advantageous to adjust. In addition, in practice it can happen that one of the circuit boards 4th , 4a , 4b becomes defective during operation. The repair or replacement of one of the circuit boards 4th , 4a , 4b is by means of the at least one frame module 48 , 50 or with the module stack 46 particularly easy and quick.

Reference signs in the claims are not to be regarded as a restriction.

Claims (22)

A frame (2) for a first board (4), comprising: a frame housing (6) running around a frame plane, which forms a frame interior (8) which is open in an axial direction A of the frame housing (6) running perpendicular to the frame plane, at least one first spring tab (10), which extends from the frame housing (6) in the axial direction A beyond a first end-face edge (12) of the frame housing (6), and at least one first board support tab protruding from the frame housing (6) into the frame interior (8) (14), which is designed to support the first plate (4) in the axial direction A, wherein the at least one first plate support bracket (14) and the at least one first spring bracket (10) are designed to support the first plate (4) in one perpendicular to the axial direction A, to fix the first board plane, the frame (2) having at least one first recess (20) which extends from a second front edge (18) of the frame housing (6) in the axial direction ng A extends into the frame housing (6), and that a first recess (20) of the at least one first recess (20) is assigned to each first spring tab (10) in such a way that the respective first spring tab (10) and the assigned, first Recess (20) are aligned in the axial direction A in alignment with one another. Frame (2) according to the preceding claim, characterized in that the frame (2) has at least one second spring tab (16) which extends from the frame housing (6) in the axial direction A, preferably over the second end-face edge (18) of the frame housing (6) also extends. Frame (2) according to one of the preceding claims, characterized in that the frame (2) has at least one second recess (22) which extends from the first front edge (12) of the frame housing (6) in the axial direction A into the frame housing ( 6) and / or that a second recess (22) of the at least one second recess (22) is assigned to each second spring tab (16) in such a way that the respective second spring tab (16) and the assigned second recess (22) in Axial direction A are aligned with one another. Frame (2) according to one of the preceding claims, characterized in that an extension N of each first spring tab (10) in the axial direction A is smaller than an extension P of the associated, first recess (20) in the axial direction A. Frame (2) according to one of the preceding Claims 2 until 4th , characterized by at least one second board support bracket (28) which protrudes from the frame housing (6) into the frame interior (8) and is designed to support a second board (29) in the axial direction A, the at least one second board support bracket (28) and the at least one second spring clip (16) are designed to fix the second plate (29) in a second plate plane arranged perpendicular to the axial direction A. Frame (2) according to one of the preceding claims, characterized in that each first spring tab (10) and / or each second spring tab (16) and / or each first circuit board support tab (14) and / or each second circuit board support tab (28) is integral with the Frame housing (6) is or are formed. Frame (2) according to one of the preceding claims, characterized in that the frame housing (6) is designed as an electrically conductive frame housing (6). Frame (2) according to one of the preceding claims, characterized by at least one retaining tab 30a which protrudes from the frame housing (6) transversely or obliquely to the axial direction A to the outside beyond the frame housing (6). Frame (2) according to one of the preceding claims, characterized by at least one contact tab (32) which extends from the frame housing (6) in the axial direction A beyond the first or second end edge (12, 18) of the frame housing (6), wherein each contact tab (32) has a contact tab end section (34) which protrudes perpendicularly or at an angle to the axial direction A outwards beyond the frame housing (6), and wherein for each contact tab (32) a contact section (36) on the respective other end edge ( 18, 12) of the frame housing (6) is designed without a recess, each contact tab (32) and the respective associated contact section (36) being designed to be aligned with one another in the axial direction A. Frame (2) according to one of the preceding claims, characterized by at least one cooling tab which protrudes from the frame housing (6) into the frame interior (8), wherein the at least one cooling tab is designed to transfer heat, in particular to the frame housing (6) and / or is arranged. Frame (2) according to the preceding claim, characterized by at least one opening (40) in the frame housing (6), through which one of the cooling tabs, preferably transversely to the axial direction A, engages into the frame interior (8), so that the respective cooling tab by means of the opening (40) is held on the frame housing (6). Frame (2) according to one of the preceding claims, characterized by a cover (42) which is connected to the frame housing (6) in such a way that the frame interior (8) in the axial direction A to an end face of the cover (42) at least in Is essentially closed. Frame module (44), comprising: a frame (2) according to one of the preceding claims, a first board (4), which is supported by the at least one first board support bracket (14) of the frame (2) and the at least one first spring bracket (10) of the Frame (2) is fixed. Frame module (44) according to the preceding claim, characterized in that the first board (4) rests on the at least one first board support bracket (14) of the frame (2) and engages behind the at least one first spring bracket (10) of the frame (2) is, so that the first board (4) between the at least one first board support bracket (14) and the at least one first spring bracket (10) is clamped. Frame module (44) according to one of the preceding Claims 13 until 14th , characterized in that thermally conductive filler material and / or a heat-conducting mat is introduced into the frame interior (8) in such a way that heat is transferred from the first and / or second circuit board (4, 29) to the frame housing (6) of the frame (2) can be conducted by means of the filler material or the heat-conducting mat. A module stack (46) comprising: a first frame module (48) according to one of the preceding Claims 13 until 15th , a second frame module (50) according to one of the preceding Claims 13 until 15th , wherein the first board (4b) of the second frame module (50) forms a second board (29a) for the first frame module (48), wherein the second board (29a) formed for the first frame module (48) also from the at least one second Board support bracket (28) of the first frame module (48) and the at least one second spring bracket (16a) of the first frame module (48) is fixed, so that the first frame module (48) and the second frame module (50), preferably detachable, via the joint fixed board (4b, 29a) are connected. Module stack (46) according to the preceding claim, characterized in that each first spring tab (10b) of the frame (2b) of the second frame module (50) fits into a first recess (20a) of the frame (2a) of the first frame module (48), and / or that every second spring tab (16a) of the frame (2a) of the first frame module (48) fits into a second recess (22a) of the frame (2a) of the first frame module (48). Module stack (46) according to one of the preceding Claims 16 until 17th , characterized in that the contact tab (32b) of the frame (2b) of the second frame module (50) rests on the contact section (36a) of the frame (2a) of the first frame module (48) and / or that the contact tab (32a) of the frame (2a) of the first frame module (48) rests on the contact section (36b) of the frame (2b) of the second frame module (50). Module stack (46) according to one of the preceding Claims 16 until 18th , characterized in that the first board (4a) of the first frame module (48) has an electrical connection terminal on a side facing the second frame module (50), the first board (4b) of the second frame module (50) on a side facing the first frame module ( 48) has an electrical mating connection terminal, and the connection connection is arranged opposite the mating connection connection in such a way that the connection of the first frame module (48) to the second frame module (50) creates a releasable electrical coupling between the connection connection and the mating connection connection. A camera (52) for capturing an image, comprising: an outer camera housing which forms a camera interior, a sensor board (62) arranged in the camera interior with an image sensor for optical image capture, and a first frame module (48) arranged in the camera interior according to one of the preceding Claims 13 until 15th , wherein the sensor board (62) forms the first board (4a) of the first frame module (48). Camera (52) according to the preceding claim, characterized by a second frame module (50) according to one of the preceding claims, which is arranged in the interior of the camera Claims 13 until 15th , wherein the first frame module (48) and second frame module (50) a module stack (46) according to one of the preceding Claims 16 until 19th form. Camera (52) according to one of the preceding Claims 20 until 21 , characterized in that the at least one frame module (48, 50) is arranged in the camera interior of the camera outer housing that each retaining tab (30a) extends to an inside of the camera outer housing and rests against the inside in such a way that an electrically and / or thermally conductive Connection between the camera outer housing and the at least one retaining tab (30a) is formed.

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