RU229063U1 - Machine vision camera - Google Patents

Abstract

The utility model relates to devices for obtaining video images, in particular to the components of technical vision cameras - lenses, housings and others. The purpose of the claimed utility model is to increase reliability. The stated goal is achieved as follows: a technical vision camera containing a housing, a photoreceiving element unit, a video lens, a light source, a protective glass of the video lens, a power module, a data transmission module and an information processing unit, wherein the photoreceiving element unit is fixed in the housing, a video lens is located above the photoreceiving element unit, fixed on a printed circuit board and surrounded by a cascade of light sources, a protective glass is fixed on top of the video lens; also, an information processing unit is fixed in the housing, connected to the photoreceiving element unit, the information processing unit is connected to the data transmission module and the power supply module, while the housing contains power supply and data transmission connectors, characterized in that the video lens, surrounded by a cascade of light sources, is fixed above the photoreceiving element unit using a support in the form of brackets with fasteners, while the brackets are made with internal threads and fixed along the edges, vertically to the printed circuit board. The technical vision camera can be produced at electronics industry enterprises and used in a wide range of economic needs.

Description

The utility model relates to devices for obtaining video images, in particular to the components of technical vision cameras - lenses, housings, and others.

A universal mounting box for video cameras is known (patent RU 2701183, published on September 25, 2019), which includes a box body with an opening on the top for inserting cable connectors. It also contains a box cover, a box insert and a box bottom, wherein the box insert is part of the side sector of the body, on the inside of which there are latches designed for secure fixation in the box body in order to organize access to cable connectors during installation and maintenance of the camera, without disturbing its focus.

However, the known design has low reliability.

The closest known is a camera for industrial image processing (patent US 11223753, published 03/22/2018), containing a housing and a video lens detachably connected to it, having an optical system with at least one lens. It also contains an image sensor and a camera control unit. In this case, the interacting units are connected to each other using a wireless information transmission channel.

However, the known design also has low reliability.

The purpose of the claimed utility model is to achieve a technical result: increased reliability.

The stated objective is achieved as follows: a technical vision camera comprising a housing, a photoreceiving element unit, a video lens, a light source, a protective glass of the video lens, a power supply module, a data transmission module, and an information processing unit, wherein the photoreceiving element unit is secured in the housing, a video lens is located above the photoreceiving element unit, secured to a printed circuit board and surrounded by a cascade of light sources, a protective glass is secured on top of the video lens; an information processing unit connected to the photoreceiving element unit is also secured in the housing, the information processing unit is connected to the data transmission module and the power supply module, wherein power supply and data transmission connectors are located in the housing, characterized in that the video lens, surrounded by a cascade of light sources, is secured above the photoreceiving element unit using a support in the form of brackets with fasteners, wherein the brackets are made with internal threads and are secured along the edges, vertically to the printed circuit board.

The camera, in particular, may be characterized by the fact that the photoreceiving element block is fixed in the housing using brackets.

The camera, in particular, may be characterized by the fact that the power module is secured using brackets.

The camera, in particular, may be characterized by the fact that the data transmission module is secured using brackets.

The camera, in particular, may be characterized by the fact that the information processing unit is secured using brackets.

The camera, in particular, may be characterized by the fact that the brackets are shaped like a prism.

The camera, in particular, can be characterized by the fact that the power module has additional contact with the body using a thermal interface.

Fig. 1 schematically shows a technical vision camera, general view, Fig. 2 schematically shows a technical vision camera, general view, where the numbers indicate:

1. Body;

2. Video lens;

3. Light source;

4. Connectors;

5. Protective glass of video lens;

6. Brackets;

7. Fasteners.

The technical vision camera is designed as follows.

The following are fixed in the housing (1) of the machine vision camera: a photoreceiving element unit, a video lens (2) surrounded by a cascade of light sources (3), an information processing unit, a data transmission module and a power supply module. Connections between the components are made using standard high-speed physical level communication protocols. Power supply and data exchange between the machine vision camera and external data storage and/or information processing devices (e.g., personal computers) are carried out using power supply and data transmission connectors (4) fixed in the housing. To increase the reliability of the design, a protective glass (5) is fixed on top of the video lens.

The presented technical vision camera operates as follows.

The machine vision camera is located on production lines and allows searching and decoding the code on the image. It verifies according to GOST. The marking can be read from a variety of surfaces in large volumes in a short period of time. Before starting work, the machine vision camera is adjusted to the shooting conditions (lighting is adjusted, focus is set, etc.), and the resulting image is calibrated. During operation, the camera checks the code content (structure, product group, etc.). If the code quality does not match the specified value, or content, or other selected criteria, the camera is capable of transmitting signals about defects. After reading and analysis is completed, information about the recognized codes is transmitted via the local network to upper levels.

The video lens is a system of lenses that focus light on the photoreceiving element block. The video lens is surrounded by a cascade of light sources in case the external light is insufficient to form a detailed image. The signal from the photoreceiving element block is transmitted to the information processing unit, where the primary processing of data from the photoreceiving element block occurs. For subsequent data processing and/or storage, transmission occurs using the data transmission module and then the data transmission connector to external computing devices or information storage systems (servers, cloud services, etc.). Power supply of the electronic components of the machine vision camera is carried out when power is supplied through the power supply connector and then the power module, which forms the power parameters most favorable for the operation of the machine vision camera. Undoubtedly, the formation of optimal parameters for powering the electronic units ensures their durability and reliability, and therefore the reliability of the entire structure.

To increase the reliability of the claimed design, determined by maintainability (according to GOST R 27.102-2021, Reliability in Engineering), a video lens surrounded by a cascade of light sources is mounted above the photodetector block using a support in the form of brackets (6) with fasteners (7). Mounting the lens surrounded by a cascade of light sources on separate brackets ensures simplified replacement of a failed video lens, video lens type, as well as backlight board options. The technical solution consisting in the use of quick-release brackets ensures prompt restoration of the working condition after failure or damage. Maintenance is possible to prevent failure of the video lens during operation. In this case, the brackets are made with internal threads and are fixed at the edges, vertically to the printed circuit board. Such fastening ensures a rigid fit of the video lens, eliminating its shift, thereby increasing the reliability of the design.

In order to increase reliability, determined by maintainability, the photoreceiving element unit, power supply module, data transmission module, and information processing unit can be secured using brackets. Thus, if any of the components fails, the process of its replacement is significantly simplified and, thus, the maintainability and, therefore, the reliability of the design are increased. When replacing one of the components, it may be necessary to rework only the board on which this component is located, and, given that many components are standardized, it is possible to replace them with an analog without changing the design.

The brackets can have a prism shape, which is also intended to increase maintainability, since due to this shape, it is possible to select keys for mounting/dismounting the brackets.

Part of the case is made with radiator fins for better heat dissipation, and the most loaded components (for example, the power module) contact the case through a thermal interface. Overheating of highly loaded components can lead to a decrease in their efficiency, a reduction in their service life, and even complete failure. Ineffective heat dissipation can also lead to damage to other nearby electronic components. High temperatures cause degradation of the case plastic, which leads to its destruction. Thus, effective heat dissipation significantly increases the durability of the structure and improves its reliability.

Thus, the use of brackets for fastening in the claimed utility model allows achieving the specified technical result, namely, increased reliability.

The technical vision camera can be produced at enterprises of the electronics industry and used for a wide range of economic needs.

Claims (7)

1. A machine vision camera comprising a housing, a photoreceiving element unit, a video lens, a light source, a protective glass of the video lens, a power supply module, a data transmission module and an information processing unit, wherein the photoreceiving element unit is secured in the housing, a video lens is located above the photoreceiving element unit, secured to a printed circuit board and surrounded by a cascade of light sources, a protective glass is secured on top of the video lens; an information processing unit connected to the photoreceiving element unit is also secured in the housing, the information processing unit is connected to the data transmission module and the power supply module, wherein power supply and data transmission connectors are located in the housing, characterized in that the video lens, surrounded by a cascade of light sources, is secured above the photoreceiving element unit using a support in the form of brackets with fasteners, wherein the brackets are made with internal threads and are secured along the edges, vertically to the printed circuit board. 2. The camera according to item 1, characterized in that the photoreceiving element unit is secured in the housing using brackets. 3. The camera according to item 1, characterized in that the power module is secured using brackets. 4. The camera according to item 1, characterized in that the data transmission module is secured using brackets. 5. The camera according to item 1, characterized in that the information processing unit is secured using brackets. 6. The camera according to item 1, characterized in that the brackets have the shape of a prism. 7. The camera according to item 1, characterized in that the power module has additional contact with the housing using a thermal interface.