CN216715956U - Film installing support and illumination lamps and lanterns - Google Patents
Film installing support and illumination lamps and lanterns Download PDFInfo
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- CN216715956U CN216715956U CN202122959359.XU CN202122959359U CN216715956U CN 216715956 U CN216715956 U CN 216715956U CN 202122959359 U CN202122959359 U CN 202122959359U CN 216715956 U CN216715956 U CN 216715956U
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Abstract
The application provides a film installing support and illumination lamps and lanterns. The film mounting bracket is provided with a slag containing space, the slag containing space is used for containing at least part of a film, and the slag containing space is also used for containing edge residues of the film; the film mounting bracket is further provided with a through hole, and the through hole is used for being arranged corresponding to the film. When the film is installed on the film installing support, the residues on the film drop in the residue containing space, namely the residues are collected by the residue containing space, so that the edge residues on the film can be collected conveniently, the probability that the residues drop out through the through holes is reduced, the influence of the residues on the film on the imaging of the lens is reduced, and the condition of image black spots is reduced.
Description
Technical Field
The utility model relates to the technical field of lamps, in particular to a film mounting bracket and an illuminating lamp.
Background
The welcome lamp (also called as a ground lamp) is used for auxiliary illumination and can be used for ground illumination or illumination of a traveling route under low ambient light. For example, a courtesy light used in an automobile is usually installed at a door or a rear view mirror, and when the door is opened, an illumination function is turned on to project an image on the ground, so that not only are unique and dazzling image light and projected image generated, but also a function of illuminating the ground can be provided when the door is opened under low ambient light at night, so that people getting on or off the automobile can notice the ground condition without mistakenly stepping on dirt, puddles or other dangerous terrains on the ground. The traditional greeting lamp is additionally provided with a film, namely, the film with a specific pattern is placed between the illuminating lens and the imaging lens, so that the greeting lamp correspondingly projects a specified image to achieve the effect of projecting advertisements.
However, traditional usher's lamp is direct with the film direct card on the support, and the film is through cutting processing, remains the cutting residue at its edge easily, in case install on the support, the residue drops on imaging lens very easily, leads to the image that shows to have the black spot, influences the display effect of image.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects in the prior art and provides a film mounting bracket and an illuminating lamp convenient for collecting residues.
The purpose of the utility model is realized by the following technical scheme:
a film mounting bracket is provided with a slag containing space, wherein the slag containing space is used for containing at least part of a film and is also used for containing edge residues of the film; the film mounting bracket is further provided with a through hole, and the through hole is used for being arranged corresponding to the film.
In one embodiment, the film mounting bracket is further provided with a avoiding groove, the avoiding groove is communicated with the slag containing space, and the avoiding groove is used for containing a vertex angle of the film sheet.
In one embodiment, the film mounting bracket comprises a bracket body and a slag containing ring which are connected with each other, wherein the middle opening of the slag containing ring is opposite to the through hole, the slag containing ring and the inner wall of the bracket body form the slag containing space, and the slag containing ring is also used for being abutted against the film sheet.
In one embodiment, the aperture of the middle opening of the slag containing ring is larger than or equal to the aperture of the through hole.
In one embodiment, the film mounting bracket further comprises a first support ring connected to the bracket body, the first support ring being configured to support an illumination lens.
In one embodiment, the film mounting bracket further includes a second support ring, the second support ring is disposed opposite to the first support ring, the second support ring is connected to the bracket body, and the second support ring is used for abutting against an imaging lens.
In one embodiment, the film mounting bracket further comprises a plurality of clamping protrusions, and the clamping protrusions are connected with the second support ring to form a plurality of grooves for receiving portions of the housing.
In one embodiment, the slag containing space is provided with a directional inclined surface, the directional inclined surface is positioned between any two inner walls of the slag containing space, and the directional inclined surface is obliquely arranged with the inner wall of the adjacent slag containing space.
In one embodiment, the diameter of the through hole is gradually increased in a direction away from the slag containing space.
A lighting lamp comprises a film and the film mounting bracket in any one of the embodiments, wherein at least part of the film is positioned in the slag containing space.
Compared with the prior art, the utility model has at least the following advantages:
when the film is installed on the film installing support, the residues on the film drop in the residue containing space, namely the residues are collected by the residue containing space, so that the edge residues on the film can be collected conveniently, the probability that the residues drop out through the through holes is reduced, the influence of the residues on the film on the imaging of the lens is reduced, and the condition of image black spots is reduced.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.
FIG. 1 is a schematic view of a film mounting bracket according to an embodiment;
FIG. 2 is a schematic view of the film mounting bracket of FIG. 1 from another perspective;
FIG. 3 is a schematic diagram of an illumination imaging module according to an embodiment;
FIG. 4 is a cross-sectional view of the illumination and imaging module of FIG. 3 taken along the direction A-A;
FIG. 5 is a schematic view of the illumination assembly and the imaging assembly of the illuminated imaging module shown in FIG. 3; .
Detailed Description
To facilitate an understanding of the utility model, the utility model will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.
The utility model relates to a film mounting bracket. In one embodiment, the film mounting bracket is provided with a slag containing space. The slag containing space is used for containing at least part of the film, and the slag containing space is also used for containing edge residues of the film. The film mounting bracket is also provided with a through hole. The through hole is used for being arranged corresponding to the film. When the film is installed on the film installing support, the residues on the film drop in the residue containing space, namely the residues are collected by the residue containing space, so that the edge residues on the film can be collected conveniently, the probability that the residues drop out through the through holes is reduced, the influence of the residues on the film on the imaging of the lens is reduced, and the condition of image black spots is reduced.
Please refer to fig. 1, which is a schematic structural diagram of a film mounting bracket according to an embodiment of the present invention.
The film mounting bracket 230 of one embodiment is provided with a slag containing space 232. The slag containing space 232 is used for containing at least part of the film, and the slag containing space 232 is also used for containing edge residues of the film. The film mounting bracket 230 is further provided with a through hole 234. The through hole 234 is provided to correspond to the film.
In this embodiment, when the film is installed on film installing support 230, the residue on the film drops in holding sediment space 232, holds sediment space 232 promptly and collects the residue, is convenient for collect the marginal residue on the film, has reduced the residue through seeing through the probability that the through-hole 234 dropped away to the influence of the residue on the film to the formation of image of lens has been reduced, and then has reduced the condition of image black spot.
In one embodiment, please refer to fig. 1, the film mounting bracket 230 further has a avoiding groove 236, the avoiding groove 236 is communicated with the slag containing space 232, and the avoiding groove 236 is used for containing a vertex angle of the film sheet. In this embodiment, the avoiding groove 236 is an extension space of the slag containing space 232, that is, the avoiding groove 236 extends outward relative to the slag containing space 232, that is, the avoiding groove 236 is located at a position of the slag containing space 232 far from the through hole 234, so that a part of the accommodating space is further expanded outward by the avoiding groove 236 when communicating with the slag containing space 232. Like this, keep away the groove 236 with under the condition that the apex angle of film corresponds, the film is in install in when holding in the sediment space 232, the apex angle correspondence of film stretches into to keep away in the groove 236, for the apex angle of film provides keeps away a space, has reduced the apex angle of film with hold the sediment space 232 collision and the probability of damaging, moreover, still be convenient for with the film install fast in hold in the sediment space 232.
In one embodiment, referring to fig. 1, the film mounting bracket 230 includes a bracket body 238 and a slag containing ring 239 connected to each other, a middle opening of the slag containing ring 239 is disposed opposite to the through hole 234, the slag containing ring 239 and an inner wall of the bracket body 238 form the slag containing space 232, and the slag containing ring 239 is further configured to abut against the film sheet. In this embodiment, the bracket body 238 has a slag containing groove, at least a part of the film is located in the slag containing groove, the slag containing ring 239 is located at the bottom of the slag containing groove, and the slag containing ring 239 is used for supporting the film, namely, the slag containing ring 239 is located between the bottom of the slag containing groove and the film. The slag containing ring 239 protrudes from the bottom of the slag containing groove, so that the slag containing space 232 is formed between the slag containing ring 239 and the side wall of the slag containing groove. Thus, when the film is mounted on the film mounting bracket 230, the residue containing ring 239 properly jacks up the film, so that the film is far away from the bottom of the residue containing groove, that is, the film is not in contact with the bottom of the residue containing groove, and the edge residue of the film is conveniently contained in the residue containing space 232.
Further, referring to fig. 1, the aperture of the middle opening of the slag containing ring 239 is greater than or equal to the aperture of the through hole 234. In this embodiment, the slag containing ring 239 and the inner wall of the bracket body 238 form the slag containing space 232, namely, the slag containing ring 239 is used as a forming part of the slag containing space 232, namely, the slag containing ring 239 is used as a side wall of the slag containing space 232 close to the through hole 234, in order to reduce the influence on the light transmission of the through hole 234, the aperture of the middle opening of the slag containing ring 239 is set to be larger than or equal to the aperture of the through hole 234, and under the hollow structure of the middle part of the slag containing ring 239, that is, the slag containing ring 239 is a hollow ring structure, so that the overlapping area of the projection of the slag containing ring 239 on the film mounting bracket 230 and the through hole 234 is 0, so that the slag containing ring 239 does not shield the through hole 234, the aperture of the through hole 234 is made large enough to increase the light transmission area through the film.
Still further, referring to fig. 1, the film mounting bracket 230 further includes a first supporting ring 231, the first supporting ring 231 is connected to the bracket body 238, and the first supporting ring 231 is used for supporting the illumination lens. In this embodiment, the first support ring 231 is an extension of the holder body 238, that is, the first support ring 231 is a protruding part of the holder body 238. First support ring 231 deviates from one side of support body 238 be used for with the illumination lens butt, when equipment lens, first support ring 231 is located between support body 238 and the illumination lens, first support ring 231 will illumination lens and film are separated, have reduced the collision between illumination lens and the film, have ensured the normal use of illumination lens and film.
Further, referring to fig. 2, the film mounting bracket 230 further includes a second supporting ring 233, the second supporting ring 233 is disposed opposite to the first supporting ring 231, the second supporting ring 233 is connected to the bracket body 238, and the second supporting ring 233 is used for abutting against an imaging lens. In this embodiment, the second support ring 233 and the first support ring 231 are both connected to the holder body 238, and the second support ring 233 and the first support ring 231 are symmetrically disposed, that is, the second support ring 233 and the first support ring 231 are symmetrically disposed with respect to the holder body 238, that is, the second support ring 233 is located on a side of the holder body 238 away from the first support ring 231. The both sides of support body 238 are provided with illuminating lens and imaging lens respectively, first support ring 231 is used for with the illuminating lens butt, and second support ring 233 be used for with the imaging lens butt, be convenient for keep away from illuminating lens and imaging lens support body 238 sets up, when supporting illuminating lens and imaging lens, still will illuminating lens and imaging lens separate with the film, have reduced the rigidity extrusion between film and illuminating lens and the imaging lens to reduce the damage probability of film, illuminating lens and imaging lens, further ensured the normal use of film, illuminating lens and imaging lens.
Still further, referring to fig. 2, the film mounting bracket 230 further includes a plurality of clamping protrusions 235, and the clamping protrusions 235 are connected to the second support ring 233 to form a plurality of grooves for receiving portions of the housing. In this embodiment, each of the clamping protrusions 235 is connected to the second support ring 233, a gap between two adjacent clamping protrusions 235 forms the groove with the second support ring 233, and the groove is used as an installation notch of the second support ring 233, so that a part of the housing is clamped in the groove, and the film mounting bracket 230 is fixed on the housing. Wherein the housing is an external protection component of the film mounting bracket 230, that is, the film mounting bracket 230 mounts the film in the housing.
In one embodiment, referring to fig. 1, the slag containing space 232 has an orientation inclined surface 2322, the orientation inclined surface 2322 is located between any two inner walls of the slag containing space 232, and the orientation inclined surface 2322 is disposed obliquely to the adjacent inner wall of the slag containing space 232. In this embodiment, the orientation inclined surface 2322 is a part of the inner wall of the slag containing space 232, that is, the orientation inclined surface 2322 serves as an inner wall of the slag containing space 232, and the orientation inclined surface 2322 and the other inner walls of the slag containing space 232 are arranged in an inclined manner, for example, an included angle formed between the orientation inclined surface 2322 and the inner wall of the adjacent slag containing space 232 is not 90 degrees, and the other adjacent side walls of the slag containing space 232 are perpendicular to each other. Therefore, when the film is installed, the front and the back of the film in the slag containing space 232 can be determined conveniently according to the inclination direction of the orientation inclined plane 2322, so that the film can be installed on the film installation bracket 230 correctly.
In one embodiment, referring to fig. 1, the diameter of the through hole 234 is gradually increased in a direction away from the slag containing space 232. In this embodiment, the through hole 234 corresponds to the film sheet, and the through hole 234 is used for transmitting light, so as to project the pattern on the film sheet. And to the aperture that sees through-hole 234 carries out increase formula design, be convenient for pass more light see through-hole 234 to the size of the image of being convenient for out projecting is adjusted, with the formation of image size demand that satisfies different projection images, has improved the suitability to the projection image.
In one embodiment, the application further provides a lighting lamp, which comprises a film and the film mounting bracket in any one of the embodiments, wherein at least part of the film is located in the slag containing space. In this embodiment, the film mounting bracket is provided with a slag containing space. The slag containing space is used for containing at least part of the film, and the slag containing space is also used for containing edge residues of the film. The film mounting bracket is also provided with a through hole. The through hole is used for being arranged corresponding to the film. When the film is arranged on the film mounting support, residues on the film drop into the residue containing space, namely the residues are collected by the residue containing space, so that edge residues on the film can be collected conveniently, the probability that the residues drop out through the through holes is reduced, the influence of the residues on the film on the imaging of the lens is reduced, and the condition of image black spots is reduced.
In one embodiment, the present application further provides an illumination imaging module, please refer to fig. 3, which is a schematic structural diagram of the illumination imaging module according to an embodiment of the present invention.
The illuminated imaging module 10 of one embodiment includes a housing 100. Referring to fig. 4, the illumination imaging module 10 further includes an illumination element 200 and an imaging element 300. The housing 100 has an accommodating space 101, and the housing 100 further has a light inlet 106 and a light outlet 108 communicated with the accommodating space 101. The light inlet hole 106 and the light outlet hole 108 are respectively located at two ends of the housing 100, the light inlet hole 106 is configured to correspond to a light source, and the light outlet hole 108 is configured to transmit light for imaging. The imaging component 300 is located in the accommodating space 101, and the imaging component 300 is disposed near the light exit 108. The lighting assembly 200 is located in the accommodating space 101, and the lighting assembly 200 includes a lighting lens 210, a film 220 and a film mounting bracket 230. The illumination lens 210 is disposed near the light inlet 106, and the illumination lens 210 is connected to the housing 100. Referring to fig. 1, the film mounting bracket 230 is located at a side of the illumination lens 210 close to the imaging assembly 300, the film mounting bracket 230 is connected to the housing 100, and the film mounting bracket 230 is provided with a first receiving groove 232 and a second receiving groove 236 that are mutually communicated. At least a part of the film 220 is accommodated in the first accommodating groove 232. The second accommodating groove 236 is used for accommodating a first connecting colloid so as to seal a gap between the film sheet 220 and the film mounting bracket 230.
In this embodiment, by injecting the first connection colloid into the second containing groove 236, on the one hand, the connection stability between the film 220 and the film mounting bracket 230 is enhanced, on the other hand, the gap between the film 220 and the film mounting bracket 230 is reduced, the air passing through the gap between the film 220 and the film mounting bracket 230 is reduced, the imaging assembly 300 is separated from the illumination lens 210, thereby reducing the water mist formed on the imaging assembly 300 and the illumination lens 210, and improving the overall sealing performance of the illumination imaging assembly 10. In another embodiment, the film mounting bracket 230 is further formed with a through hole 234. The through hole 234 is used for corresponding arrangement with the film 220, and the first connecting colloid can also reduce the probability that air passes through the gap between the film 220 and the film mounting bracket 230 and contacts the lighting lens 210 through the through hole 234.
In one embodiment, referring to fig. 3, the aperture of the light inlet 106 is larger than that of the accommodating space 101. In this embodiment, the light inlet hole 106 is used as a light inlet window of the housing 100, and light from an external light source enters the housing 100 through the light inlet hole 106 and is focused by the illumination lens 210 and the optical processing of the film 220. Moreover, the light inlet hole 106 is used as an installation opening of the housing 100, and the imaging module 300 and the illumination module 200 are installed in the housing 100 through the light inlet hole 106, that is, the imaging module 300 and the illumination module 200 respectively enter the accommodating space 101 through the light inlet hole 106 in sequence. The aperture of the light inlet hole 106 is set to be larger than that of the accommodating space 101, so that the imaging assembly 300 and the lighting assembly 200 can conveniently penetrate through the light inlet hole 106, and the installation convenience of the imaging assembly 300 and the lighting assembly 200 is improved.
Further, referring to fig. 3, the housing 100 has an illumination dispensing surface 140, the illumination dispensing surface 140 is located at a position where the aperture of the light inlet 106 and the aperture of the accommodating space 101 change, and the illumination dispensing surface 140 is used for bearing a second connecting glue to seal a gap between the illumination lens 210 and the housing 100. In this embodiment, the illumination dispensing surface 140 is located in the accommodating space 101, and is located at a position where the aperture of the light inlet 106 changes with respect to the accommodating space 101, that is, at a boundary between the light inlet 106 and the accommodating space 101, because the aperture of the light inlet 106 is larger than the aperture of the accommodating space 101, a step structure is formed at this position, and the illumination dispensing surface 140 is located on the step at this position. Thus, when the illumination lens 210 is installed in the accommodating space 101, for example, the illumination lens 210 is disposed adjacent to the illumination dispensing surface 140, and at this time, the second connection paste is disposed on the illumination dispensing surface 140, under the action of the fluid of the second connection colloid, the illumination lens 210 is connected with the illumination dispensing surface 140, so that the illumination lens 210 is fixed to the housing 100 by the second connection paste, furthermore, the second connection gel seals the analysis between the illumination lens 210 and the housing 100, so as to reduce the gap between the illumination lens 210 and the housing 100, effectively reduce the probability that the outside air contacts the film 220 through the light inlet hole 106 and the gap between the illumination lens 210 and the housing 100, and further improve the sealing performance of the illumination imaging module 10.
In one embodiment, referring to fig. 3, the aperture of the light-emitting hole 108 is smaller than the aperture of the accommodating space 101. In this embodiment, the light exit hole 108 serves as a light exit window of the housing 100, the light exit hole 108 corresponds to the imaging component 300, the imaging component 300 is disposed at a position where the accommodating space 101 is close to the light exit hole 108, and the aperture of the light exit hole 108 is set to be smaller than that of the accommodating space 101, so that the imaging component 300 is prevented from falling off from the housing 100 on one hand, and on the other hand, the light exit hole 108 is blocked by the imaging component 300, thereby improving the sealing performance of the illumination imaging module 10.
Further, referring to fig. 3, the housing 100 has an imaging dispensing surface 150, the imaging dispensing surface 150 is located at a position where the aperture of the light exit hole 108 and the aperture of the accommodating space 101 change, and the imaging dispensing surface 150 is used for bearing a third connecting colloid so as to seal a gap between the imaging assembly 300 and the housing 100. In this embodiment, the imaging dispensing surface 150 is located in the accommodating space 101, and is located at a position where the aperture of the light exit hole 108 changes with the aperture of the accommodating space 101, that is, at a boundary between the light exit hole 108 and the accommodating space 101, since the aperture of the light exit hole 108 is smaller than the aperture of the accommodating space 101, a step structure is formed at this position, and the imaging dispensing surface 150 is located on the step at this position. Thus, when the imaging assembly 300 is installed in the accommodating space 101, for example, the imaging assembly 300 is positioned adjacent to the imaging dispensing surface 150, with the third connecting gel positioned on the imaging dispensing surface 150, connecting the imaging assembly 300 to the imaging dispensing surface 150 under the fluid action of the third connecting gel, such that the imaging assembly 300 is fixed to the housing 100 by the third connection gel, furthermore, the third connection gel seals the analysis between the imaging assembly 300 and the housing 100, so as to reduce the gap between the imaging assembly 300 and the housing 100, effectively reduce the probability that the outside air contacts the film 220 through the light exit hole 108 and the gap between the imaging assembly 300 and the housing 100, and further improve the sealing performance of the illumination imaging module 10. The first connecting colloid, the second connecting colloid and the third connecting colloid are curing adhesives, so that the connecting strength and the sealing property among the connecting components are enhanced.
In one embodiment, referring to fig. 5, the film mounting bracket 230 has a first stability-increasing plane 237, the first stability-increasing plane 237 is located at a side edge of the film mounting bracket 230, and the first stability-increasing plane 237 is flush with and abuts against an inner wall of the accommodating space 101. In this embodiment, the side of the film mounting bracket 230 abuts against the inner wall of the receiving hole, that is, the inner wall of the receiving space 101 clamps the film mounting bracket 230 in the radial direction, the first stability enhancing plane 237 is used as the edge plane of the film mounting bracket 230, and the first stability enhancing plane 237 is parallel to the tangential plane of the edge of the film mounting bracket 230. Thus, when the film mounting bracket 230 abuts against the inner wall of the accommodating space 101, the first stability increasing plane 237 is flush with the inner wall of the accommodating space 101, so that the rotation tendency of the film mounting bracket 230 in the accommodating space 101 is reduced, the film mounting bracket 230 is installed stably in the housing 100, and the film sheet 220 is prevented from rotating randomly.
In one embodiment, referring to fig. 5, the illumination lens 210 has a second stability enhancing plane 212, the second stability enhancing plane 212 is located at a side of the illumination lens 210, and the second stability enhancing plane 212 is flush with and abuts against an inner wall of the accommodating space 101. In this embodiment, the side of the illumination lens 210 abuts against the inner wall of the accommodating hole, that is, the inner wall of the accommodating space 101 holds the illumination lens 210 in the radial direction, the second stability enhancing plane 212 serves as the edge plane of the illumination lens 210, and the second stability enhancing plane 212 is parallel to the tangential plane of the edge of the illumination lens 210. In this way, when the illumination lens 210 abuts against the inner wall of the accommodating space 101, the second stability enhancing plane 212 is flush with the inner wall of the accommodating space 101, so that the rotation tendency of the illumination lens 210 in the accommodating space 101 is reduced, and the installation stability of the illumination lens 210 in the housing 100 is ensured.
In one embodiment, referring to fig. 5, the lighting assembly 200 further includes a stabilizing protrusion 240 connected to the lighting lens 210, the stabilizing protrusion 240 is located on a side of the lighting lens 210, and the stabilizing protrusion 240 abuts against an inner wall of the accommodating space 101. In this embodiment, the stability enhancing protrusion 240 is located in the accommodating space 101, and the stability enhancing protrusion 240 is connected to the side of the illumination lens 210, when the illumination lens 210 is installed in the housing 100, the stability enhancing protrusion 240 is located between the illumination lens 210 and the inner wall of the housing 100, that is, the stability enhancing protrusion 240 is respectively abutted to the side of the illumination lens 210 and the inner wall of the housing 100, that is, the stability enhancing protrusion 240 is filled between the side of the illumination lens 210 and the inner wall of the housing 100, so that the illumination lens 210 is stably fixed in the accommodating space 101, and the installation stability of the illumination lens 210 in the housing 100 is improved.
In one embodiment, the illumination assembly further comprises an illumination spacer, the illumination spacer is located between the film mounting bracket and the illumination lens, and the illumination spacer is abutted to the film mounting bracket and the illumination lens respectively. In this embodiment, the illumination space ring is used as a separator between the film mounting bracket and the illumination lens, and the illumination space ring is used for separating the film mounting bracket from the illumination lens, so that the contact area between the illumination lens and the film mounting bracket is reduced, and the probability of damaging the illumination lens, that is, the probability of scratching the surface of the illumination lens by the film mounting bracket is reduced.
In one embodiment, the application further provides a vehicle-mounted floor-illuminating lamp which comprises the illumination imaging module in any one of the above embodiments. In this embodiment, the illumination imaging module includes a housing, an imaging component, and an illumination component. The shell is provided with an accommodating space and is also provided with a light inlet hole and a light outlet hole which are communicated with the accommodating space. The light inlet hole and the light outlet hole are respectively located at two ends of the shell, the light inlet hole is used for being arranged corresponding to the light source, and the light outlet hole is used for light-transmitting imaging. The imaging assembly is located in the accommodating space and is close to the light outlet. The lighting assembly is located in the accommodating space and comprises a lighting lens, a film and a film mounting bracket. The lighting lens is arranged close to the light inlet hole and connected with the shell. The film mounting bracket is positioned on one side of the illuminating lens close to the imaging assembly, the film mounting bracket is connected with the shell, and a first accommodating groove and a second accommodating groove which are communicated with each other are formed in the film mounting bracket. At least part of the film is accommodated in the first accommodating groove. The second accommodating groove is used for accommodating a first connecting colloid so as to seal a gap between the film sheet and the film mounting bracket. Through pouring into first connection colloid into in the second storage tank, strengthened the stability of being connected between film and the film installing support on the one hand, on the other hand has reduced the clearance between film and the film installing support, has reduced the air and has passed through the gap between film and the film installing support, separates imaging component and illumination lens to the condition that forms water smoke on imaging component and illumination lens has been reduced, has improved the whole leakproofness of illumination imaging module.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
Claims (10)
1. A film mounting bracket is characterized in that the film mounting bracket is provided with a slag containing space, the slag containing space is used for containing at least part of a film, and the slag containing space is also used for containing edge residues of the film; the film mounting bracket is further provided with a through hole, and the through hole is used for being arranged corresponding to the film.
2. A film mounting bracket according to claim 1, further provided with a clearance groove, the clearance groove being communicated with the slag containing space, the clearance groove being used for containing a vertex angle of the film.
3. The film mounting bracket of claim 1, comprising a bracket body and a slag containing ring which are connected with each other, wherein the middle opening of the slag containing ring is arranged opposite to the through hole, the slag containing ring and the inner wall of the bracket body form the slag containing space, and the slag containing ring is also used for abutting against the film sheet.
4. A film mounting bracket according to claim 3, wherein the aperture of the central opening of the slag containing ring is greater than or equal to the aperture of the through hole.
5. A film mounting bracket in accordance with claim 3 further comprising a first support ring connected to the bracket body, the first support ring for supporting a lighting lens.
6. A film mounting bracket according to claim 5 further comprising a second support ring disposed opposite the first support ring, the second support ring being connected to the bracket body, the second support ring being adapted to abut an imaging lens.
7. The film mounting bracket of claim 6 further comprising a plurality of snap tabs, each snap tab connected to the second support ring to form a plurality of recesses for receiving portions of the housing.
8. The film mounting bracket of claim 1, wherein the slag containing space has a directional bevel between any two inner walls of the slag containing space, and the directional bevel is disposed obliquely to the inner wall of the adjacent slag containing space.
9. A film mounting bracket according to claim 1, wherein the diameter of the through-going through-hole increases gradually in a direction away from the slag receiving space.
10. A lighting fixture comprising a film and a film mounting bracket as defined in any one of claims 1 to 9, at least part of the film being located within the slag containing space.
Priority Applications (1)
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CN202122959359.XU CN216715956U (en) | 2021-11-26 | 2021-11-26 | Film installing support and illumination lamps and lanterns |
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CN202122959359.XU CN216715956U (en) | 2021-11-26 | 2021-11-26 | Film installing support and illumination lamps and lanterns |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114283713A (en) * | 2021-11-26 | 2022-04-05 | 惠州星聚宇智能科技有限公司 | Illumination projection device and usher lamp |
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2021
- 2021-11-26 CN CN202122959359.XU patent/CN216715956U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114283713A (en) * | 2021-11-26 | 2022-04-05 | 惠州星聚宇智能科技有限公司 | Illumination projection device and usher lamp |
CN114283713B (en) * | 2021-11-26 | 2024-06-28 | 惠州星聚宇智能科技有限公司 | Illumination projection device and welcome lamp |
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