CN217705691U - Adhesive seamless integrated laser radar automobile decoration - Google Patents

Abstract

The utility model provides a seamless integrated laser radar's of adhesive formula car gadget belongs to car gadget technical field, include: a decoration body; the light filter plate is connected with the inner side face of the ornament body through gluing, the light filter plate is provided with a connecting part, a first structural adhesive is arranged between the connecting part and the inner side face of the ornament body, and the connecting part is fixedly connected with the inner side face of the ornament body through the first structural adhesive; laser radar, its integration is in the inboard of gadget body, laser radar and filter plate fixed connection, and laser radar is provided with the opening, and the opening is covered to the filter plate. The utility model has the advantages that: integrate lidar and filter plate in the inboard of gadget body, so do not have clearance and face poor to sticky mode is very nimble, and can not influence lidar's result of use, thereby improves lidar and gadget's combination effect.

Description

Seamless integrated laser radar's of adhesive formula car gadget

Technical Field

The utility model belongs to the technical field of the automobile ornaments, a seamless integrated laser radar's of adhesive formula automobile ornaments is related to.

Background

At present, some automobiles are provided with laser radars, and the application of the laser radars on the automobiles as important parts of an intelligent driving system is increasing day by day, for example, an invention patent with the application number of CN202110794687.0 discloses a laser radar mounting structure for automobiles, which comprises a laser radar body, a cover plate and a driving piece; the laser radar body is fixed inside the vehicle covering part; an opening is formed in a preset position of the vehicle covering part; a cover plate movably mounted to the vehicle cover and for covering the opening; the cover plate has an open state and a closed state; the driving piece is arranged in the vehicle covering part and is used for driving the cover plate to switch states; the inside surface of the cover plate can reflect laser outside the vehicle panel to the laser radar body when the cover plate is in the open state.

Now, the demand of laser radar is higher and higher, and the trend of explosion is on the rise. The existing automobile laser radar is generally integrated on an automobile ornament, the integration of the existing laser radar adopts a scheme of via hole assembly, so that gaps and poor surfaces exist between the laser radar and a peripheral matched ornament, the appearance of a product is influenced, and the combination effect of the laser radar and the ornament is poor.

Disclosure of Invention

The utility model aims at the above-mentioned problem that prior art exists, provide an automobile ornament of seamless integrated laser radar of adhesive formula.

The purpose of the utility model can be realized by the following technical proposal: an automobile ornament of an adhesive seamless integrated laser radar comprises:

a decoration body;

the filter plate can filter laser in a preset waveband and light in other wavebands and is connected with the inner side surface of the ornament body through gluing, wherein the filter plate is provided with a connecting part, a first structural adhesive is arranged between the connecting part and the inner side surface of the ornament body, and the connecting part is fixedly connected with the inner side surface of the ornament body through the first structural adhesive;

laser radar, it is integrated the inboard of gadget body, laser radar with filter plate fixed connection, laser radar is provided with the opening, the filter plate covers the opening.

Preferably, the light filter plate further has a light transmitting portion, the light transmitting portion is aligned with the opening, and an optical adhesive is disposed between the light transmitting portion and the inner side surface of the ornament body.

Preferably, the filter plate is provided with a hardening layer and an AR coating layer from inside to outside in sequence corresponding to one side surface and/or the other side surface of the opening.

Preferably, an ITO coating layer is arranged between the hardening layer and the AR coating layer.

Preferably, a sealing ring is arranged at the contact position of the filter plate and the laser radar.

Preferably, the laser radar device further comprises a first screw, and the end of the laser radar is fixedly connected with the filter plate through the first screw.

Preferably, the fixture further comprises a framework, the framework is connected with the inner side face of the ornament body, and the laser radar is fixedly connected with the framework so that the laser radar is fixed on the inner side face of the ornament body.

Preferably, a second structural adhesive is arranged between the framework and the inner side face of the ornament body, and the framework is fixedly connected with the side face of the ornament body through the second structural adhesive.

Preferably, the laser radar support device further comprises a support frame connected with the vehicle body, the support frame is supported below the framework, and the support frame provides upward support force for the laser radar.

The connecting portion surrounds the light-transmitting portion, the connecting portion is provided with a box dam used for blocking the first structural adhesive, and a glue injection opening is reserved in the box dam.

Compared with the prior art, the beneficial effects of the utility model are that:

1. integrate lidar and filter plate in the inboard of gadget body, so do not have clearance and face poor to sticky mode is very nimble, and can not influence lidar's result of use, thereby improves lidar and gadget's combination effect.

2. The first structural adhesive plays a role in bonding and sealing, the connecting part is bonded on the inner side surface of the ornament body through the first structural adhesive, the region covered by the optical adhesive can penetrate through the laser of a preset waveband, and the optical adhesive plays a role in reducing the reflection of the inner side surface of the ornament body and the outer side surface of the filter plate facing the laser, so that the effect of interface fusion after the optical adhesive is bonded is achieved.

3. The surface of filter plate has sclerosis layer and AR coating film layer, and the sclerosis layer is handled by Hard cladding sclerosis, and the filter plate forms the sclerosis layer through Hard cladding and can prevent that the coating film back coating from breaking, and AR coating film layer can increase laser radar's transmissivity.

4. Have the ITO coating film layer between sclerosis layer and the AR coating film layer, ITO coating film layer can heat the defrosting to the filter plate surface.

5. The automobile ornament further comprises a framework, and the framework plays a role in assisting in installing the laser radar and supporting the laser radar.

Drawings

Fig. 1 is the structure diagram of the adhesive seamless integrated laser radar automobile ornament.

Fig. 2 is the utility model discloses a structural exploded view of adhesive formula seamless integrated laser radar's automobile ornaments.

Fig. 3 is the utility model discloses an effect schematic diagram of adhesive formula seamless integrated laser radar's automobile ornaments.

Fig. 4 is a schematic structural view of the filter plate of the present invention when a hardened layer and an AR coating layer are disposed on one side of the filter plate, the hardened layer, the ITO coating layer and the AR coating layer are disposed on the other side of the filter plate.

Fig. 5 is a schematic structural view of the filter plate of the present invention when both sides of the filter plate are provided with the hardened layer and the AR coating layer.

Fig. 6 is a schematic structural view of the filter plate of the present invention when a hardened layer and an AR coating layer are disposed on the inner side surface of the filter plate.

Fig. 7 is a schematic structural view of the filter plate of the present invention when a hardened layer and an AR coating layer are disposed on the outer side surface.

Fig. 8 is a schematic structural view of the filter plate of the present invention when a hardened layer, an ITO coating layer, and an AR coating layer are disposed on the outer side surface of the filter plate.

Fig. 9 is a schematic structural view of the box dam and the glue injection port of the present invention.

In the figure, 100, a trim body; 200. a light filter plate; 210. a hardened layer; 220. an ITO film coating layer; 230. an AR coating layer; 240. a connecting site; 250. a first structural adhesive; 260. a light-transmitting portion; 270. optical cement; 280. a box dam; 290. a glue injection port; 300. a laser radar; 310. an opening; 320. a first screw; 330. a second screw; 400. a framework; 410. a second structural adhesive; 500. and (5) sealing rings.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1-3, an automotive trim for an adhesive seamless integrated lidar includes: the decoration body 100, the filter plate 200 and the laser radar 300; the ornament body 100 can be but not limited to a transparent part on a grid or a bumper or other vehicle bodies, the material of the ornament body 100 can be but not limited to PC or PMMA or plastic material, the outer side surface of the ornament body 100 can be set to be a smooth surface, and the inner side surface of the ornament body 100 is used for installing the filter plate 200 and the laser radar 300, so that the ornament body 100 is shielded outside the filter plate 200 and the laser radar 300, the ornament body 100 can play the role of a housing of the laser radar 300, and the requirement of a fully-closed seamless ornament of the automobile is met.

The filter plate 200 is connected with the inner side surface of the ornament body 100 by gluing, wherein the filter plate 200 is provided with a connecting part 240, the connecting part 240 is attached to the inner side surface of the ornament body 100, a first structural adhesive 250 is arranged between the connecting part 240 and the inner side surface of the ornament body 100, and the connecting part 240 is fixedly connected with the inner side surface of the ornament body 100 by the first structural adhesive 250; the laser radar 300 is integrated on the inner side of the fixture body 100, the laser radar 300 is fixedly connected with the filter plate 200, the laser radar 300 is provided with an opening 310, and the filter plate 200 covers the opening 310.

Preferably, the filter plate 200 further has a light-transmitting portion 260, the light-transmitting portion 260 is aligned with the opening 310, and an optical adhesive 270 is disposed between the light-transmitting portion 260 and the inner side surface of the decoration body 100.

Specifically, the entire filter plate 200 is attached to the inner side surface of the fixture body 100, the filter plate 200 may be divided into a light-transmitting portion 260 and a connecting portion 240, wherein the light-transmitting portion 260 corresponds to the opening 310, and the connecting portion 240 may be configured to be a peripheral structure surrounding the light-transmitting portion 260, wherein the filter plate 200 performs Hard coating, then performs ITO coating (if heating is required), and then performs AR coating, and then coats the connecting portion 240 with glue for bonding to form a first structural adhesive 250, the first structural adhesive 250 performs bonding and sealing functions, and the connecting portion 240 is bonded to the inner side surface of the fixture body 100 through the first structural adhesive 250.

Optical cement 270 is coated on the light-transmitting portion 260, the optical cement 270 covers the light-transmitting portion of the filter plate 200, the region covered by the optical cement 270 can transmit laser with a preset wavelength band, the optical cement 270 serves to reduce reflection of the inner side surface of the ornament body 100 and the outer side surface of the filter plate 200, which faces the laser, and therefore the effect of interface fusion after the optical cement 270 is bonded is achieved.

As shown in fig. 1, 2, and 9, the connection portion 240 surrounds the light-transmitting portion 260, a dam 280 for blocking the first structural adhesive 250 is disposed on the connection portion 240, a glue injection opening 290 is reserved in the dam 280, and after the filter plate 200 is glued to the decoration body 100 by the first structural adhesive 250, the optical adhesive 270 can be injected between the light-transmitting portion 260 and the decoration body 100 through the glue injection opening 290, and then the glue is injected into the glue injection opening 290 to seal the glue injection opening 290.

It should be noted that, when the adhesion scheme is adopted, there are many problems when the filter plate 200 and the decoration body 100 are adhered, and a common means cannot adhere the filter plate 200 to the decoration body 100 without affecting the use effect thereof, because the filter plate 200 is adhered to the decoration body 100 through the first structural adhesive 250 when adhered, if the optical adhesive 270 is poured between the filter plate 200 and the decoration body 100, the optical adhesive 270 cannot be kept on the light-transmitting portion 260, but flows toward the connection portion 240, so that the first structural adhesive 250 cannot be coated on the connection portion 240, and the optical adhesive 270 is affected when the first structural adhesive 250 is coated; if the first structural adhesive 250 is applied first, the first structural adhesive 250 seals the peripheral position of the filter plate 200, so that the optical adhesive 270 cannot be filled into the light-transmitting position 260.

In order to solve the problem of gluing, a dam 280 is specially arranged at the connecting part 240, when the first structural adhesive 250 is coated on the connecting part 240, the dam 280 is blocked between the connecting part 240 and the light-transmitting part 260 to prevent the first structural adhesive 250 from flowing to the light-transmitting part 260, when the connecting part 240 is adhered to the ornament body 100 through the first structural adhesive 250, due to the existence of the glue injection port 290, the optical adhesive 270 can be injected between the light-transmitting part 260 and the ornament body 100 through the glue injection port 290, and then the first structural adhesive 250 is injected towards the glue injection port 290 to seal the glue injection port 290 (i.e. finally, the glue injection port 290 is sealed).

The laser radar 300 is provided with the first screw 320, the first screw 320 is connected with the filter plate 200, so that the laser radar 300 and the filter plate 200 are fixed together, and the filter plate 200 and the decoration body 100 are bonded together, so that the laser radar 300 can be directly fixed on the filter plate 200 (in an actual structure, the laser radar 300 can be supported by the framework 400 in an auxiliary manner).

Preferably, the end of the laser radar 300 contacts with the filter 200, a sealing ring 500 is disposed at a contact position between the filter 200 and the laser radar 300, and the sealing ring 500 can seal a gap between the laser radar 300 and the filter 200, thereby playing a role in sealing, preventing water and dust.

It should be added that one side of the trim body 100 corresponding to the filter plate 200 is an inner side, the other side is an outer side, and the outer side of the trim body 100 represents the appearance of the whole trim, and the inner side and the outer side mentioned later correspond to the above directions.

Filter plate 200 can filter the reflected laser and/or transmit laser, opening 310 is aimed at with the receiver to the transmitter of lidar 300, lidar 300 can receive the laser that reflects back through opening 310, and can also transmit laser through opening 310, filter plate 200 closing cap is on opening 310, the laser that reflects back can be received by lidar 300's receiver behind filter plate 200, filter plate 200 accessible preset wave band laser and filter the material of other wave band light and make, for example, filter plate 200 can receive the laser of 905nm and/or 1030nm wave band, make the laser of preset wave band can see through filter plate 200, so lidar 300 can not influenced by the light of other wave bands when receiving the reflection laser.

Through the structure, the laser radar 300 and the filter plate 200 are integrated on the inner side of the ornament body 100, so that no gap or surface difference exists, the gluing mode is very flexible, the use effect of the laser radar 300 cannot be influenced, and the combination effect of the laser radar 300 and the ornament is improved.

As shown in fig. 1 and 2, a hardened layer 210 and an AR coating layer 230 are sequentially disposed on one side and/or the other side of the filter plate 200 corresponding to the opening 310 from inside to outside, and optionally, an ITO coating layer 220 is disposed between the hardened layer 210 and the AR coating layer 230.

The hardened layer 210 is hardened by Hard coating, and the hardened layer 210 formed by Hard coating on the filter plate 200 can prevent the film from cracking after coating.

If the filter 200 requires heating and defrosting, an ITO coating layer 220 (conductive film) may be coated on the hardened layer 210, and the ITO coating layer 220 may heat and defrost the surface of the filter 200, and then an AR film may be coated on the ITO coating layer 220 to increase the transmittance of the laser radar 300.

If the filter 200 does not need heating function, an AR film may be directly coated on the hardened layer 210 to increase the transmittance of the lidar 300.

As shown in fig. 4 to 8, optionally, the filter plate 200 further has several embodiments, wherein (1) the hardened layer 210 and the AR coating layer 230 or the hardened layer 210, the ITO coating layer 220 and the AR coating layer 230 are sequentially disposed on the inner side surface of the filter plate 200 corresponding to the opening 310 from inside to outside; (2) The outer side surface of the filter plate 200 is sequentially provided with a hardening layer 210 and an AR coating layer 230 or the hardening layer 210, an ITO coating layer 220 and the AR coating layer 230; (3) The inner side surface and the outer side surface of the filter plate 200 are both provided with a hardened layer 210 and an AR coating layer 230 or the hardened layer 210, an ITO coating layer 220 and the AR coating layer 230; (4) One side of the filter 200 is provided with a hardening layer 210 and an AR coating layer 230, and the other side of the filter 200 is provided with a hardening layer 210, an ITO coating layer 220 and an AR coating layer 230.

As shown in fig. 1 and 2, on the basis of the above embodiment, the automobile trim further includes a frame 400, the frame 400 plays a role in assisting installation of the lidar 300 and supporting the lidar 300, the frame 400 is connected to the inner side surface of the trim body 100, and the lidar 300 is fixedly connected to the frame 400 so that the lidar 300 is fixed to the inner side surface of the trim body 100.

Specifically, the skeleton 400 is of a frame structure, the front end of the skeleton 400 is connected with the inner side surface of the trim body 100, and the laser radar 300 is arranged in the skeleton 400 and is fixedly connected with the skeleton 400; in a practical configuration, the material of backbone 400 may be, but is not limited to, PC/ABS, PC/PBT, and lidar 300 has second screw 330, second screw 330 being coupled to backbone 400 to secure lidar 300 to backbone 400.

The skeleton 400 is connected with the ornament body 100 in an adhesive manner, a second structural adhesive 410 is arranged between the skeleton 400 and the inner side surface of the ornament body 100, and the skeleton 400 is fixedly connected with the side surface of the ornament body 100 through the second structural adhesive 410. Specifically, a ring of adhesive is coated on the edge of the end of the skeleton 400 to form a second structural adhesive 410, and then the second structural adhesive 410 is adhered to the side of the ornament body 100.

On the basis of the above embodiment, the automobile trim further comprises a support frame (not shown in the drawings) for connecting with an automobile body, the support frame is supported below the framework 400, and the support frame provides upward supporting force for the laser radar 300, after the laser radar 300 is integrated on the trim body 100, the trim body 100 can bear the weight of the laser radar 300, as the laser radar 300 is heavier, when the automobile runs, once the automobile is vibrated, the laser radar 300 can pull the trim body 100 to cause deformation of the trim body 100, and once the trim body 100 is deformed, the wave-transmitting effect of laser can be affected, so that the support frame is specially arranged, and the automobile body can support the framework 400 and the laser radar 300 through the support frame, so that the laser radar 300 can obtain more stable and firmer support, and deformation of the trim body 100 is avoided.

When the automobile ornament is assembled, the filter plate 200 may be processed, the hardened layer 210, the ITO coating layer 220 (which is not needed to be heated or defrosted) and the AR coating layer 230 are sequentially disposed on the side surface of the filter plate 200 from inside to outside, the filter plate 200 is bonded to the inner side surface of the ornament body 100 through the first structural adhesive 250, and then the optical adhesive 270 is injected.

Then, the opening 310 of the laser radar 300 is aligned with the filter 200, the seal ring 500 is installed between the laser radar 300 and the filter 200, the laser radar 300 and the filter 200 are fixed together by the first screw 320, the framework 400 is adhered to the inner side surface of the fixture body 100 by the second structural adhesive 410, and the framework 400 and the laser radar 300 are fixed together by the second screw 330.

It should be pointed out that in the prior art, set up a reserved mounting position on the gadget usually, then install lidar 300 in this position, so lidar 300 has the clearance with the gadget of peripheral complex poor, and can't satisfy totally closed seamless requirement, also it is pleasing to the eye in appearance, through the scheme of this application, ingenious with lidar 300 seamless integration in the inboard of gadget body 100, so it is a monoblock smooth gadget body 100 to see from the outward appearance, can not have the clearance with poor, more pleasing to the eye higher-end in appearance, and can also satisfy the requirement of totally closed seamless gadget.

It should be noted that all the directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

Furthermore, the descriptions of the embodiments as "first," "second," "a," etc. in this disclosure are for descriptive purposes only and are not to be construed as indicating or implying relative importance or to imply that the number of the indicated features is indicative. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless explicitly defined otherwise.

In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be interconnected within two elements or in a relationship where two elements interact with each other unless otherwise specifically limited. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

In addition, the technical solutions of the embodiments of the present invention can be combined with each other, but it is necessary to use a person skilled in the art to realize the basis, and when the technical solutions are combined and contradictory to each other or cannot be realized, the combination of the technical solutions should not exist, and is not within the protection scope of the present invention.

Claims (10)

1. The utility model provides a seamless integrated laser radar's of adhesive formula automotive trim which characterized in that includes:

a decoration body;

the light filter plate can pass through laser of a preset waveband and filter light of other wavebands, and is connected with the inner side face of the ornament body through gluing, wherein the light filter plate is provided with a connecting part, a first structural adhesive is arranged between the connecting part and the inner side face of the ornament body, and the connecting part is fixedly connected with the inner side face of the ornament body through the first structural adhesive;

the laser radar is integrated on the inner side of the ornament body and fixedly connected with the filter plate, the laser radar is provided with an opening, and the filter plate covers the opening.

2. The automotive trim of claim 1, wherein the adhesive seamless integrated lidar further comprises: the light filter plate is also provided with a light-transmitting part, the light-transmitting part is aligned to the opening, and optical cement is arranged between the light-transmitting part and the inner side surface of the ornament body.

3. The automotive trim of claim 2, wherein the adhesive seamless integrated lidar further comprises: the filter plate is provided with a hardening layer and an AR coating layer from inside to outside in sequence corresponding to one side surface and/or the other side surface of the opening.

4. The automotive trim of claim 3, wherein the adhesive seamless integration lidar further comprises: an ITO (indium tin oxide) coating layer is arranged between the hardening layer and the AR coating layer.

5. The automotive trim for an adhesively seamless integrated lidar of claim 1, wherein: and a sealing ring is arranged at the contact position of the filter plate and the laser radar.

6. The automotive trim of claim 5, wherein the adhesive seamless integration lidar further comprises: the laser radar filter plate is characterized by further comprising a first screw, and the end part of the laser radar is fixedly connected with the filter plate through the first screw.

7. The automotive trim for an adhesively seamless integrated lidar of claim 1, wherein: still include the skeleton, the skeleton with the medial surface of gadget body is connected, thereby lidar with thereby skeleton fixed connection makes lidar is fixed in the medial surface of gadget body.

8. The automotive trim of claim 7, wherein the adhesive seamless integration lidar further comprises: and a second structural adhesive is arranged between the framework and the inner side surface of the ornament body, and the framework is fixedly connected with the side surface of the ornament body through the second structural adhesive.

9. The automotive trim of claim 8, wherein the adhesive seamless integrated lidar further comprises: the laser radar support frame is characterized by further comprising a support frame used for being connected with a vehicle body, the support frame is supported below the framework, and the support frame provides upward supporting force for the laser radar.

10. The automotive trim of claim 2, wherein the adhesive seamless integrated lidar further comprises: the connecting portion surrounds the light-transmitting portion, the connecting portion is provided with a box dam used for blocking the first structural adhesive, and a glue injection opening is reserved in the box dam.

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