CN118233731A - Camera for a motor vehicle and method for producing a camera - Google Patents

Abstract

The invention relates to a camera for a motor vehicle, comprising: an optical unit, the optical unit having a camera objective, the camera objective having an objective barrel and at least one optical lens; and an electronic unit, the electronic unit having a carrier element, wherein an image sensor is arranged on the side of the carrier element facing the camera objective, wherein at least one electrical plug is arranged on the side of the carrier element facing away from the camera objective; wherein the optical unit and the electronic unit are configured to be connected to each other in a connection region by means of a connection element. In this case, the connection region also includes an injection molded element, which surrounds the optical unit and the electronic unit in a form-fitting manner in the connection region.

Description

Camera for a motor vehicle and method for producing a camera

Technical Field

The invention relates to a camera for a motor vehicle and a method for producing a camera.

Background technique

DE 10 2019 200 061A1 discloses a lens element group for image detection device, and this image detection device comprises lens element group and sensor carrier.Here, lens element group has lens barrel, and described lens barrel is shaped for accommodating at least one lens.Lens barrel has flange with lens barrel bonding area at this, wherein, lens barrel bonding area is arranged on the side of flange away from sensor carrier under the assembled state of image detection device.In addition, lens element group has holding device, so that lens barrel is remained on sensor carrier.Here, holding device has first holding bonding area at first free end, and this first holding bonding area is arranged on the side facing sensor carrier of holding device in the assembled state of image detection device.At the second free end of holding device, this holding device has second holding bonding area, and this second holding adhesive area is arranged on the side facing lens barrel bonding area in the assembled state.

Summary of the invention

The invention relates to a camera for a motor vehicle, comprising an optical unit with a camera objective and an electronic unit with a carrier element, wherein the camera objective has an objective barrel and at least one optical lens, wherein an image sensor is arranged on a side of the carrier element facing the camera objective, wherein at least one electrical plug is arranged on a side of the carrier element facing away from the camera objective, wherein the optical unit and the electronic unit are designed to be connected to each other in a connecting area by means of a connecting element.

According to the invention, the connection region further comprises an injection-molded element which surrounds the optical unit and the electronic unit in the connection region in a form-fitting manner.

The camera described here can be used, in particular, to detect the surroundings of a vehicle.

The camera objective can have one or more optical lenses arranged inside the objective tube. The camera objective is in particular arranged in a position oriented toward the image sensor. In addition to the camera objective, the optical unit can also include further optical elements, such as filters, optical lenses, etc. The optical unit can also additionally include electrical elements, such as electrical connections, electrical heating elements, etc.

The electronic unit may also include further electrical components in addition to the image sensor. The electronic unit may also additionally include optical elements, such as one or more optical filters, one or more optical lenses, etc. The carrier element is in particular designed as a printed circuit board. The electrical connector may be designed as a rigid coaxial connector.

The connection element can be formed, for example, from solder or from an adhesive. The connection between the optical unit and the electronic unit can be designed as a soldered connection or an adhesive connection.

The advantage of the present invention is that the optical unit and the electronic unit are protected from external influences in the connection area by means of injection molding elements. A camera is provided, in which a housing shell, such as that used in known cameras, can be omitted. A rigid, separate lower shell (in other words, a "cover") can be omitted. An upper shell, which includes, for example, a carrier element, can be omitted. This significantly saves costs. In addition, the camera is constructed to be significantly smaller. In particular, the width of the camera is smaller. This creates more possibilities, and the camera can also be installed in narrow areas in a vehicle, for example. In addition, since the camera can be used normally without screws, no material reserves for screws are required. Sealing is achieved by means of injection molding elements. Therefore, axial sealing at the plug can be achieved without the need for additional sealing. In addition, the necessity for tolerance compensation at the plug is avoided. The plug does not have to be constructed to be movable. Flexible sealing rings can be omitted in rigid plugs.

The injection molded element is particularly configured so that it surrounds the side of the carrier element facing away from the camera objective lens in a form-locking manner. The injection molded element is particularly configured so that it surrounds the area of the outer surface of the optical unit in a form-locking manner. The injection molded element is particularly configured so that it surrounds the plug in a form-locking manner on the first end pointing to the carrier plate. The injection molded element is particularly configured to be square. The injection molded element has a square surface in particular. This advantageously consumes very little injection molding material. Particularly preferably, the corners and edges of the square surface are rounded in this configuration. As a result, the camera can be advantageously well operated. The injection molded element can alternatively have other shapes or surfaces. Depending on the requirements for the camera, for example due to the installation position in the vehicle, the shape of the injection molded element can be individually configured. Therefore, the camera can advantageously be configured very flexibly.

In an advantageous embodiment of the invention, at least one further electrical component is arranged on the side of the carrier element facing away from the camera objective. Such a further component can be, for example, a power supply unit, a serializer, etc. The injection molded element is particularly designed so that it also surrounds the further electrical component in a form-fitting manner. As a result, the further electrical component is also advantageously sealed.

In another advantageous configuration of the present invention, it is provided that the optical unit also has an objective lens holder fixed on the carrier element, which objective lens holder is configured to hold the camera objective lens. The objective lens holder is especially made of metal. The objective lens holder is especially fixed to the carrier element by means of a soldering connection. Alternatively, the objective lens holder can also be fixed to the carrier element by means of a welding connection. The objective lens holder and the camera objective lens can be connected to each other by means of an adhesive connection. The advantage of this configuration is that in the manufacturing method of the camera, the objective lens holder is first connected to the electronic unit and can be surrounded by the injection molding element in a form-locking manner. The camera objective lens can then be oriented toward the image sensor and fixed on the objective lens holder. Therefore, the orientation and fixation of the camera objective lens can be the last step in the manufacturing process. The orientation of the camera objective lens toward the image sensor is not adversely affected by subsequent steps.

The present invention also relates to a method for manufacturing a camera, the method comprising the following steps: providing an optical unit, the optical unit having a camera objective, the camera objective having an objective barrel and at least one optical lens; equipping a carrier element with an image sensor on a first side and with at least one electrical plug on a second side for constructing an electronic unit; arranging the optical unit and the electronic unit with each other so that the first side of the carrier element faces the optical unit; orienting the camera objective toward the image sensor; and connecting the optical unit and the electronic unit in a connecting area by means of a connecting element.

According to the invention, the method comprises the further step of forming an injection-molded element, wherein the injection-molded element surrounds the optical unit and the electronic unit in a form-fitting manner in the connecting region.

In particular, the above-mentioned camera is manufactured with the aid of the method. Furthermore, the sequence of the steps described here does not necessarily correspond to the sequence in the actual manufacturing process. For example, the step of aligning the camera lens with respect to the image sensor can be carried out after the step of connecting the optical unit and the electronic unit. The step of aligning the camera lens with respect to the image sensor can also be carried out after the injection-molded element is formed. The alignment can be carried out along five axes, for example in the form of a so-called five-axis active alignment.

In an advantageous embodiment of the method, the optical unit also has an objective lens holder, which is designed to hold a camera objective, wherein in the connecting step, the objective lens holder of the optical unit is fixed to a carrier element of the electronic unit. The objective lens holder is fixed to the carrier element in particular by means of a solder connection.

In another advantageous embodiment of the method, it is provided that the step of orientation is carried out after the step of connecting and the step of forming the injection-molded element; wherein the method comprises the further step of fixing the camera objective to the objective holder. The camera objective is fixed to the objective holder in particular by means of an adhesive connection. This embodiment has the advantage that the orientation and fixing of the camera objective can be the last step in the production method. The orientation of the camera objective with respect to the image sensor is not adversely affected by subsequent steps.

It is to be understood that the features mentioned above and those yet to be explained below can be used not only in the respectively stated combination but also in other combinations or alone, without departing from the scope of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS

The following is a detailed description of an embodiment of the present invention with reference to the accompanying drawings. The same reference numerals in the accompanying drawings represent the same or the same functional elements. The accompanying drawings show:

FIG1 shows a first embodiment of a camera in side section;

FIG2 shows a second embodiment of a camera in side section;

FIG3 shows a second embodiment in a 3D view from the rear;

FIG4 shows a second embodiment in a 3D view from the front;

FIG. 5 shows an exemplary embodiment of a method for manufacturing a camera.

Detailed ways

FIG. 1 shows a first embodiment of a camera 100 in a side section by way of example. The camera 100 comprises an optical unit 110 with a camera objective 101, which has an objective barrel 102 and at least one optical lens 103, and an electronic unit 111 with a carrier element 104, wherein an image sensor 105 is arranged on the side of the carrier element 104 facing the camera objective 101, wherein an electrical plug 107 is arranged on the side of the carrier element 104 facing away from the camera objective 101. The optical unit 110 and the electronic unit 111 are designed to be connected to each other in a connection region 112 by means of a connection element 108. The connection element 108 is in particular composed of an adhesive. The connection element 108 is in particular designed as an adhesive connection. The connection region 112 further comprises an injection molded element 109, which surrounds the optical unit 110 and the electronic unit 111 in a form-fitting manner in the connection region 112. Further electrical components 106 - 1 and 106 - 2 are arranged on the side of the carrier element 104 facing away from the camera objective 101 .

2 shows, by way of example, a side section through a second exemplary embodiment of a camera 200 . The camera 200 is designed similarly to the camera 100 in FIG. 1 , so that only the differences from the camera 100 will be discussed in detail below.

In the camera 200, the optical unit 110 also has an objective lens holder 201 fixed to the carrier element 104, which is designed to hold the camera objective 101. The optical unit 110 and the electronic unit 111 are designed to be connected to each other by means of a connecting element, which is shown as a connecting element 202 in FIG. 2. The connecting element 202 is especially made of solder. The connecting element 202 is especially designed as a soldering connection. An adhesive connection 203 is arranged between the camera objective 101 and the objective lens holder 201, which is designed to fix the camera objective 101 on the objective lens holder 201.

FIG. 3 and FIG. 4 each show the second embodiment, i.e. the camera 200 in FIG. 2, in a 3D view by way of example. FIG. 3 shows a view from the front. In this view, only the other electrical components 106 can be seen. FIG. 4 shows the second embodiment by way of example in a 3D view from the rear. It can be seen that in this embodiment, the injection molded element 109 is designed in a square shape. The corners and edges of the square surface are designed to be rounded.

FIG. 5 shows an exemplary embodiment of a method 500 for manufacturing a camera. This may involve the camera described in FIGS. 1 to 4 . In step 501 of method 500 , an optical unit having a camera objective lens is provided, the camera objective lens having an objective lens barrel and at least one optical lens. In step 502 , a carrier element is provided with an image sensor on a first side and with at least one electrical plug on a second side for constructing an electronic unit. In step 503 , the optical unit and the electronic unit are arranged with each other so that the first side of the carrier element faces the optical unit. In one step, the camera objective lens is oriented toward the image sensor. In step 505 , the optical unit and the electronic unit are connected in a connection region by means of a connection element. In step 506 , an injection molded element is constructed, wherein the injection molded element surrounds the optical unit and the electronic unit in a form-fitting manner in the connection region.

Optionally, the optical unit of the camera to be manufactured can also have an objective lens holder, which is configured to hold the camera objective. In this case, in the step 505 of connecting, the objective lens holder of the optical unit is fixed on the carrier element of the electronic unit.

Furthermore, the order of steps 501 to 506 described here is not necessarily the order in the actual manufacturing process. This is illustrated in FIG. 5 by means of the method steps shown in dashed lines. Thus, in a variant of method 500, step 504 of orientation can be carried out temporally after step 505 of connecting and step 506 of forming the injection-molded element. In this case, as shown here by way of example, method 500 includes a further step 507 of fixing the camera objective on the objective holder.

Claims (6)

1. A camera (100, 200) for a motor vehicle, comprising:

-an optical unit (110) having a camera objective (101) with an objective tube (102) and at least one optical lens (103); and

-An electronic unit (111) having a carrier element (104), wherein an image sensor (105) is arranged on a side of the carrier element (104) facing the camera objective (101), wherein at least one electrical plug (107) is arranged on a side of the carrier element (104) facing away from the camera objective (101); and

Wherein the optical unit (110) and the electronic unit (111) are configured to be connected to each other in a connection region (112) by means of connection elements (108, 202);

It is characterized in that the method comprises the steps of,

The connection region (112) further comprises an injection molding element (109), which in the connection region (112) encloses the optical unit (110) and the electronic unit (111) in a form-fitting manner.

2. Camera (100, 200) according to claim 1, wherein at least one further electrical component (106, 106-1, 106-2) is arranged on a side of the carrier element (104) facing away from the camera objective (101).

3. Camera (100, 200) according to claim 1 or 2, wherein the optical unit (110) further has an objective holder (201) fixed on the carrier element (104), the objective holder being configured for holding the camera objective (101).

4. A method (500) for manufacturing a camera, comprising the steps of:

-providing (501) an optical unit having a camera objective with an objective tube and at least one optical lens;

-providing (502) the carrier element with an image sensor on a first side and with at least one electrical plug on a second side for constructing the electronic unit;

-the optical unit and the electronic unit are arranged (503) with each other such that the first side of the carrier element faces the optical unit;

-orienting (504) the camera objective towards the image sensor; and

-Connecting (505) the optical unit and the electronic unit in a connection area by means of a connecting element;

It is characterized in that the method comprises the steps of,

The method comprises a further step of forming (506) an injection-molded component, wherein the injection-molded component positively encloses the optical unit and the electronic unit in the connection region.

5. The method (500) of claim 4, wherein the optical unit further comprises an objective holder configured for holding the camera objective, wherein in the step of connecting (505) the objective holder of the optical unit is fixed on a carrier element of the electronic unit.

6. The method (500) of claim 5, wherein the step of orienting (504) occurs temporally after the step of connecting (505) and the step of constructing (506) the injection molded element; wherein the method comprises the further step of fixing (507) the camera objective lens on the objective lens holder.