CZ34906U1 - Projector - Google Patents

Description

Field of technology

This technical solution concerns a projection system, especially in the automotive sector, which is located under vehicle doors or under mirrors, increases trademark recognition and provides lighting when lighting conditions are inadequate.

Prior art

With the development of technology, various improvements have also recently been made to projectors operating with the principle of light filtering using electronic and optical equipment via video signals from an external source (computer, television, etc.) or image generation by changing the polarization via a lamp (light source). contained in it. The quality of the projected image was improved by the lenses used.

Projectors can be used for advertising and lighting by projecting only light or visual items using a light source and lenses (lenses), while they are also used to project images through signals from an external source.

U.S. Patent Application No. 2017329210 discloses a logo projector that is formed by projecting light from a light source through a passage through a lens having apertures designed to form various portions of the logo and project it onto a surface.

Chinese Patent Application No. CN 203211185 discloses a logo projector which includes three lenses with different rendering inputs allowing the size of the image to be formed to be changed.

German Patent No. DE 202011000429 describes a projector with a laser system which is designed using a light source and a lens.

As can be seen in the above patents, there are various patent applications in the prior art describing the projection of a logo and the provision of lighting. However, the ease of changing the projected logo is not mentioned.

The essence of the technical solution

The aim of the technical solution is to ensure the recognition of the trade mark with the components of symbols, marks, patterns and texts, to project on the ground a logo allowing notification or a visual message to be provided, to increase the quality of the projected image through lens shapes and by calculating the distances between them and to allow driver and passenger sensibility to be achieved.

One of the advantages of the projector according to this technical solution is that the ground can be seen when the vehicle door is open, the vehicle cab can be easily found by the driver and passengers, and the driver can notice the open vehicle door in a stationary position.

Another advantage of the projector according to this technical solution is that the content and size of the image can be changed based on the needs and requirements by allowing the logo to be changed.

Another advantage of the projector according to this technical solution is that the heat from the light source selected to increase the illumination level to the desired level will be eliminated without damaging the optical, mechanical and electronic system.

CZ 34906 UI

The images will be used to better understand the projector according to the presented technical solution.

Explanation of drawings

Giant. 1 shows a perspective view of a projector according to this technical solution from below.

Giant. 2 shows a perspective view of a projector according to this technical solution from above.

Giant. 3 shows a perspective cross-sectional view of a projector according to this technical solution.

Giant. 4 shows a projection view of light reflection from a projector lens according to this technical solution.

Giant. 5 shows a perspective view of an electronic projector card according to this technical solution.

Giant. 6 shows a perspective view of a hollow body of a projector according to this technical solution.

Giant. 7 shows a perspective view of the inner part of the cooling part on the top of the projector according to this technical solution.

Giant. 8 shows a perspective view of the outer part of the cooling part in the lower part of the projector according to this technical solution.

Giant. 9 shows a perspective view of a cylindrical inner body of a projector according to this technical solution.

Giant. 10 shows a perspective view of a half cylindrical inner body of a projector according to this technical solution.

Giant. 11 shows a perspective view of a half cylindrical inner body of a projector according to this technical solution.

Giant. 12 shows a cross-sectional projection view of a cylindrical inner body of a projector according to this technical solution.

Giant. 13 shows a perspective view of a convex lens of a projector according to this technical solution.

Giant. 14 shows a perspective view of two projector lenses according to this technical solution.

Giant. 15 shows a perspective view of the arrangement of the whole projector insert according to this technical solution.

Giant. 16 shows a perspective view of a projector according to this technical solution with sequential lenses.

Giant. 17 shows a perspective view of the upper part of a projector insert arrangement according to this technical solution.

CZ 34906 UI

Giant. 18 shows a perspective view of the lower part of the projector insert arrangement according to this technical solution.

Giant. 19 shows a perspective view of a part of a projector according to this technical solution having a logo.

Examples of technical solution

As can be seen in the perspective views of Fig. 1, Fig. 2 and Fig. 9, the projector 1 according to this technical solution comprises a body Id, a cylindrical inner body 3 housed in said body Id, an insert 4 having a replaceable film 4g. housed in the middle of said cylindrical inner body 3, and at least four lenses including at least one convex lens 5 at the top of the insert, at least one convex lens 6 below the insert, at least one combined upper concave lens 7, and at least one combined lower convex lens 8.

In the projector 1 according to this technical solution, as can be seen in Fig. 1, Fig. 3, Fig. 4 and Fig. 5, the body Id includes a removable cooling cover 1a and a bottom cover kb. The light source 2c and the electronic card 2 having the controller 2b are located under said cooling cover 1a. The cooling cover 1a comprises at least one, preferably ten transverse cooling flaps Ik and preferably at least one longitudinal cooling flap 11 on top in order to prevent heat damage to the electronic card 2 during the operation of the circuit. Optionally, it may comprise only a transverse cooling flap Ik or only a longitudinal cooling flap 11. Said cooling cover 1a may be removably mounted in order to ensure easy access to the body. The inner corrugated structure of said body Id and the shape of the peripheral shell of said cooling cover 1a prevent harmful elements such as liquid and dust from entering the inner part of the projector 1 after the mounting process. As can be seen in Fig. 7 and Fig. 8, the cooling cover 1a comprises at least two upper cover locks 1e, the upper cover lock 1e being compatible with the body lock If 1d and allowing the locking process by engaging the exit and recessing method. The projector also comprises a mounting eye 1c for the vehicle, in the form of an eye, and at least two projections Ij of the body to prevent movement inside the housing in which it is mounted on the side of the vehicle. The lower cover 1b includes a lens gap Ig for allowing light to leave the light source 2c. The energy required for the operation of the electronic card 2 is supplied from a source where the projector 1 is provided, and as shown in Fig. 6, the body Id comprises a power input Ihpro power transmission to the electronic card 2. The electronic card 2 comprises a power input 2a for power transmission supplied to the supply input Ih to the electronic card 2. Said electronic card 2 comprises a regulator 2b for adjusting the value of voltage and current density required for the light from the light source to have an intensity in the desired range, and thus to maintain the temperature emanating from the light source. to a certain level.

In the projector 1 according to this technical solution, as can be seen in Fig. 10, Fig. 11 and Fig. 12, the cylindrical inner body 3 located in the body section 1d has two removable body halves 3a. Said body halves 3a are symmetrical and comprise locking sleeves 3c and locking projections 3d which are compatible with each other. The cylindrical inner body 3 acquires its cylindrical shape by pressing the locking projections 3d into said locking sleeves 3c. Said locking lugs 3d and locking sleeves 3c have a locking (locking) geometry on the basis of their shear bearing property. Said cylindrical inner body 3 comprises at least one half body protrusion 3g having an elliptical bulge structure to prevent slippage after placement in the body section Id of the projector 1. Said cylindrical inner body 3 comprises at least one lens housing 3b carrying at least one convex lens 5 on top inserts, at least one convex lens 6 below the insert, at least one combined upper concave lens 7 and at least one combined lower convex lens 8, and an insert housing 3e carrying the insert. Said lens housings 3b, at least one insert housing 3e and light source 2c are coaxially aligned. In said projector 1, the process of projecting light leaving the light source 2c is enabled by at least one convex lens 5 on top of the insert, at least one convex lens 6 below the insert, at least one combined upper concave lens 7 and at least one combined lower

The convex lens 8. Said projector 1 comprises a film 4g aligned with the convex lens 5 on the top of the insert, the convex lens 6 under the insert, the combined upper concave lens 7 and the combined lower convex lens 8, in order to project any visual element such as text , logo, brand, etc., through the light. Said film 4g is housed in a film case 4d in the middle part of the insert 4 consisting of the upper part 4a of the insert and the lower part 4 of the insert, as shown in Fig. 17 and Fig. 18, and located in the insert case 3e which is located in the cylindrical inner body 3. Said upper part 4a of the insert comprises a locking protrusion 4b of the insert and said lower part 4e of the insert comprises a locking sleeve 4f of the insert; and wherein said insert locking protrusion 4b and said insert locking housing 4f have a compatible interlocking structure. Film 4g. which is shown in Fig. 19, can be made of glass, plexiglass (plastic glass), polycarbonate, or optionally of any type of plastic. In order to easily and quickly replace the visual element projected on the surface, the insert 4 comprises a handling protrusion 4c for removing it from the insert housing 3e. The upper part 4a of the insert and the lower part 4e of the insert at the insert 4, which is removed by gripping said handling protrusion 4c, and the film 4g, which is placed in the film case 4d, are replaced.

In the projector 1 according to this technical solution, the visual element to be projected on the surface is processed by a sensitive process using the steps of printing or coating on the film 4g. seen in Fig. 15 and Fig. 19. The light emitted in the X-direction, which is defined in Fig. 4 as the direction of light or illumination, first enters the convex lens 5 at the top of the insert. The bulging direction of said convex lens 5 on the top of the insert is in the x-direction, which is the direction of light or illumination. Here, the captured light impinges on the film 4g inside the insert 4 and is then captured on the convex lens 6 below the insert in the middle part by passing through a visual element which is formed in a sensitive manner using printing or coating steps on the film 4g. The bulge direction of the convex lens 6 under the insert is double-sided and the shapes of the lower and upper bulges are asymmetric. The mounting direction of the asymmetrical bulges is determined by the distance to be used by the projector. The shapes of the lower and upper bulges of the combined upper concave lens 7, on which the light falls as the third, are concave. The shape of the lower bulge of the combined lower convex lens 8 is flat, while the shape of the upper bulge is convex. The light is reflected from the lower convex lens 8 to the surface with magnification. Because the cylindrical inner body 3 has two removable body halves 3a, the convex lens 5 at the top of the insert, the convex lens 6 below the insert, the combined upper concave lens 7 and the combined lower convex lens 8 shown in Fig. 16 can be easily attached to and detached from The lens housings 3b shown in Fig. 10. Formulations are formed here to prevent the convex lens 5 at the top of the insert, the convex lens 6 below the insert, the combined upper concave lens 7 and the combined lower convex lens 8 from being inversely attached to the housings. for lenses on the body halves 3a of the cylindrical inner body 3. The cylindrical inner body 3 located on the projector 1 comprises a light passage 3h allowing light to pass through the lower part. Said light passage 3h has a cylindrical shape with a proportional diameter y height. Light emerges from said light passage 3h and is reflected to the surface.

In the projector 1 according to this technical solution, a cylindrical inner body is inserted into a body Id which is integral with the lower cover 1b, and an electronic card 2 in which the light source 2c is located is placed thereon. Then the cooling cover is stored. Stabilization of said body Id of the projector 1, the cylindrical inner body 3 and the cooling cover is made possible by seating at least two inner body locking tabs 3f located on the upper part of the cylindrical inner body 3, first in the locking case 2d on the electronic card 2 and then in the locking case. on the cooling cover J_a.

Industrial applicability

Projector 1 according to this technical solution, which is located in the lower part or any other suitable place of cars, motorcycles, bicycles, buses, trucks

CZ 34906 UI of cars and commercial or commercial vehicles, is usable for lighting and visual presentations when the vehicle door is open.

Claims (15)

CLAIMS FOR PROTECTION A projector, characterized in that it comprises a cylindrical inner body (3) located in the body (Id), at least one replaceable convex lens (5) on top of an insert located in said cylindrical inner body (3), at least one convex lens ( 6) under the insert, at least one combined upper concave lens (7) and at least one combined lower convex lens (8), and at least one replaceable insert (4). Projector according to claim 1, characterized in that the body (Id) comprises a removable cooling cover (1a) and a bottom cover (1b). Projector according to claim 2, characterized in that it further comprises an electronic card (2) having a light source (2c) which is located in the lower part of the cooling cover (1a) inside the body (Id). Projector according to claim 3, characterized in that at least one light source (2c), at least one insert (4), at least one convex lens (5) on the top of the insert, at least one convex lens (6) below the insert, at least one the combined upper concave lens (7) and the at least one combined lower convex lens (8) are coaxially aligned. Projector according to claim 1, characterized in that it further comprises a film housing (4d) between the upper part (4a) of the insert and the lower part (4e) of the insert at the insert (4) and a replaceable film (4g) housed in said housing ( 4d) for the insert. Projector according to claim 1, characterized in that the distances between at least one convex lens (5) at the top of the insert, at least one convex lens (6) below the insert, at least one combined upper concave lens (7) and at least one combined lower convex lens (7) lens (8), which are placed in the cylindrical inner body (3), are changeable. Projector according to claim 3, characterized in that the electronic card (2) can be replaced to increase or decrease the illumination intensity of the light source (2c). Projector according to claim 2, characterized in that the cooling cover (1a) is in the form of a circumferential shell and the body (Id) has an inner corrugated shape. The projector according to claim 1, characterized in that it further comprises at least one mounting eye (1c) for the vehicle, which is located on the body (Id) of the projector (1). Projector according to claim 2, characterized in that the cooling cover (1a) of the projector (1) preferably comprises at least one transverse cooling flap (Ik) and preferably at least one longitudinal cooling flap (11). Projector according to claim 2, characterized in that the cooling cover (1a) of the projector (1) comprises at least one transverse cooling flap (Ik) or at least one longitudinal cooling flap (11). Projector according to claim 1, characterized in that the body half (3a) of the cylindrical inner body (3) comprises at least one half-body projection (3g), at least one locking projection (3d), and at least one locking sleeve (3c) . Projector according to claim 12, characterized in that the body halves (3a) of the cylindrical inner body (3) of the projector (1) have a locking geometry based on the shear bearing structure of the locking lug (3d) and the locking sleeve (3c). -6CZ 34906 UI Projector according to claim 12, characterized in that the body halves (3a) of the cylindrical inner body (3) of the projector (1) comprise a cylindrical passage (3h) for the passage of light. Projector according to claim 1, characterized in that the body half (3a) of the inner body (3) 5 of the projector (1) comprises at least one outer protrusion having an elliptical bulge structure.