RU118786U1 - START-UP INDICATION SYSTEM - Google Patents

Abstract

The helmet-mounted display system relates to optical display systems configured to transmit a display signal superimposed on an image of the surrounding space through an optical device into the eye of the observer.

Such an optical imaging system can be used in military affairs, medicine, or other areas of the national economy.

The claimed helmet-mounted display system comprises a combiner equipped with an adaptive filter, a display device, a collimator, an ambient light measurement sensor, an automatic control unit for the transmittance of the combiner adaptive filter associated with a threshold device, an additional adaptive filter that is installed in front of the ambient light measurement sensor and connected to the unit automatic control of transmittance of adaptive combiner filter.

The technical result of the claimed device lies in the possibility of smoothly and accurately adjusting the transmittance of the adaptive combiner filter without screening the field of view of the helmet-mounted system.

Description

The claimed utility model relates to personal display systems, and more particularly to optical display systems, configured to transmit a display signal (eg, flight information) superimposed on an image of the surrounding space through an optical device into the eye of the observer. Such optical imaging systems can be used in military affairs, medicine, or other areas of the national economy, including in the field of personal entertainment. These personal display systems allow the user to receive information while driving.

Known "Helmet display system", protected by patent RU 2091837, cl. G02B 23/10, publ. 09/27/97, which contains a helmet-mounted collimator sight that includes a collimator lens that is optically paired with an imager and a translucent plate (combiner) that combines the image from the imager with a visible external space, as well as an adaptive filter with a transmission control unit installed in front of the combiner , and a unit for specifying the form of the generated image of the external space connected to the adaptive filter control unit.

The disadvantage of this technical solution is that it does not provide a smooth adjustment of the illumination of the observed external space, because in accordance with the specified set of essential features, the adaptive filter operates in the optical shutter mode.

Also known is the invention described in US 7893890, cl. G09G 05/00, publ. 02/22/2011, which is selected as a prototype. This is an optical system with electrically controlled transmittance related to helmet-mounted display systems. The device comprises a combiner equipped with an adaptive filter connected to an automatic transmittance control unit of a display device, a collimator, an ambient light measuring sensor located between the combiner and the operator, which detects the attenuated external illumination of the adaptive combiner filter. In addition, the automatic control unit is connected to a threshold device, a second ambient light sensor and a manual combiner transmittance control system, and a projector.

The disadvantages of the known technical solution include the shielding of the field of view of the operator by the second background radiation sensor installed between the adaptive filter and the eye of the operator, and the impossibility of practical implementation of such a device at the modern technical level without screening the field of view of the operator.

The objective of the claimed utility model is to create a helmet-mounted display system that provides automatic control of the level of illumination of the operator’s eye to perceive visual information without voltage.

The technical effect achieved during the implementation of the device is expressed in the possibility of smoothly and accurately adjusting the transmittance of the adaptive combiner filter with one sensor for measuring background radiation.

To solve the problem and achieve the specified technical result, a helmet-mounted display system containing a combiner equipped with an adaptive filter, a display device, a collimator, an ambient light measuring sensor and an automatic control unit for the transmittance of the combiner adaptive filter associated with a threshold device is additionally equipped with a second adaptive filter which is installed in front of the ambient light measuring sensor and connected to the coefficient automatic control unit transmittance adaptive filter combiner.

The specified technical solution due to the introduction, installation and connection of the second adaptive filter made it possible to smoothly adjust the transmittance of the adaptive combiner filter without screening the field of view.

To explain the essence of the utility model, the drawings are presented. Figure 1 shows a functional block diagram of the claimed device.

Figure 2 shows a variant of the display system having two identical working channels for the operator to view information simultaneously with both eyes.

Figure 1 presents the means to create an electrically controlled optical combiner for helmet-mounted display in accordance with the claimed utility model. The helmet-mounted display system includes a combiner 1, equipped with an adaptive filter 2, which is installed in front of the windshield 3 of the cockpit, a display device 4, optically connected through a collimator lens 5 with a combiner 1, an ambient light measurement sensor 6, located behind the optional adaptive filter 7 , automatic control unit 8 of the transmittance of the adaptive combiner filter, connected to a threshold device 9 that sets the level of illumination of the operator’s eye and interacts with manual control. In addition, the automatic control unit 8 with a transmittance of the adaptive combiner filter is connected to an ambient light measuring sensor 6 and two adaptive filters 2 and 7. Also, Fig. 1 shows the operator 10 (observer's eye), and Fig. 2 shows the possibility of binocular observation operator 10 'and 10 ″.

The claimed device operates as follows.

The pilot or operator reviews the external space through the transparent combiner 1 and the windshield 3. At the same time, the image formed by the display device 4 is focused on the surface of the combiner 1 by the display device 4. Taking into account the optical properties of the combiner 1, the operator 10 (observer's eye) senses flight information and image of the surrounding space. The ability to control the transmittance of the combiner 1 using an adaptive filter 2 allows the observer to see the image with constant background radiation, regardless of changes in external background radiation up to 22300 cd / m ² . In this case, the ambient light measuring sensor 6 through the adaptive filter 7 registers the attenuated intensity of the external radiation and transmits the corresponding information to the automatic control unit 8, which automatically supports adjustment of the transparency of the combiner 1 until the system with a closed control cycle ensures the achievement of a predetermined threshold ( minimum permissible) value (device 9). If the measurement result is below the set threshold, the adaptive filter control system 2 of the combiner 1 adjusts (increases) the transmittance of the combiner 1 and the adaptive filter 7 of the ambient light measurement sensor 6 until the signal from the sensor exceeds the set threshold. Block 8 can periodically or continuously evaluate the measurement results from the sensor 6, and adjust the transmittance of the combiner 1.

When implementing the system, the combiner can be made of glass or plastic, which allows you to observe through it changes in the external environment.

The adaptive filter can be implemented on the basis of a glass transparent plate or using an electrochromic coating, which when connected to an electric energy source changes the transmittance of light or in accordance with patents SU No. 2002/0196518, 2005/0200933, 2005/020034, 2005/0200937.

Thus, the claimed technical solution with adjustable brightness:

- allows the operator to observe the visual information and keep unobstructed observation of the external space under conditions of constant illumination, for example 50 lux when changing background radiation up to 22,300 cd / m ^2;

- provides a smooth adjustment of the transparency of the combiner manually and automatically;

- provides the simultaneous receipt of information by the pilot and operator, or is implemented with binocular vision (figure 2);

- creates comfortable working conditions.

Claims (1)

A helmet-mounted display system comprising a combiner equipped with an adaptive filter, a display device, a collimator, an ambient light measuring sensor and an automatic control unit for the transmittance of the combiner adaptive filter associated with a threshold device, characterized in that an adaptive filter is installed therein, which is installed in front of the sensor measuring ambient light and is connected to the automatic control unit transmittance of the adaptive combiner filter.