CN217820821U - Measuring device holding assembly - Google Patents

Abstract

The utility model provides a measuring device keeps subassembly can keep measuring device and conveniently and correctly measure radar installation state. The measuring device holding assembly is used for holding a measuring device which is used for measuring the installation state of a radar device for a vehicle. The measuring device holding assembly includes: a frame body having a plurality of connection holes; the positioning piece is connected with the frame body and extends towards one side of the frame body so as to abut against the radar device arranged on one side of the frame body or an adapter for fixing the radar device and perform positioning; the abutting plate is arranged on the other side, opposite to the radar device or the adapter, of the frame body and is connected with the frame body through a connecting piece connected with the connecting hole; and a holding plate that is provided on a lower end side of the frame body in the up-down direction and extends toward the other side of the frame body on which the abutting plate is provided, to hold the measuring device.

Description

Measuring device holding assembly

Technical Field

The utility model relates to a measuring device keeps subassembly.

Background

Generally, in the field of automatic driving, vehicles are often equipped with radar devices to identify surrounding environments (such as the distance between the vehicle and an adjacent vehicle, the distance between the vehicle and a surrounding building, etc.) so as to assist the vehicle in traveling on a road. However, the radar device disposed inside the vehicle sometimes deviates from the mounting position (angle) due to external force (e.g., vehicle collision) or the like, and thus there is a possibility that it is impossible to judge from the vehicle appearance whether the mounting state of the radar device is normal, that is, it is difficult to directly measure the mounting state of the radar device from the outside of the vehicle. Therefore, how to conveniently and correctly measure the installation state (i.e., installation position and angle) of the radar device is critical, thereby contributing to the improvement of the safety of the vehicle to develop a sustainable traffic transportation system.

SUMMERY OF THE UTILITY MODEL

The utility model provides a measuring device keeps subassembly can keep measuring device and conveniently and correctly measure radar installation state.

The utility model discloses a measuring device keeps the subassembly to be used for keeping measuring device, measuring device is used for measuring the radar installations's that the vehicle was used installation state. The measuring device holding assembly includes: a frame body having a plurality of connection holes; the positioning piece is connected with the frame body and extends towards one side of the frame body so as to abut against the radar device arranged on one side of the frame body or an adapter for fixing the radar device and perform positioning; the abutting plate is arranged on the other side, opposite to the radar device or the adapter, of the frame body and is connected with the frame body through a connecting piece connected with the connecting hole; and a holding plate that is provided on a lower end side of the frame body in the up-down direction and extends toward the other side of the frame body on which the abutting plate is provided, to hold the measuring device.

In an embodiment of the present invention, the positioning member is disposed at opposite sides of the frame body in the width direction, and faces the radar device or the adapter.

In an embodiment of the present invention, the positioning member is disposed on the upper end side of the frame body in the up-down direction, and faces the radar device or the adapter.

In an embodiment of the present invention, the holding plate is in a shape of a letter viewed from above.

In an embodiment of the present invention, the holding plate includes a first width portion and a second width portion, the first width portion is between the frame body and the second width portion, and a width of the first width portion in the width direction is greater than a width of the second width portion in the width direction.

In an embodiment of the present invention, the connecting member is interposed between the abutting plate and the frame body to form a gap.

In an embodiment of the invention, the butt plate is provided with a light hole.

Based on the above, the utility model discloses a measuring device keeps subassembly is through setting element butt radar installations or the adapter that extends towards one of them side of framework to the location is in near radar installations, and the measuring device that supplies to keep measures radar installations. And the abutting plate of the measuring device holding assembly is abutted by the measuring device, and the holding plate extends towards the other side to hold the measuring device so as to ensure that the position of the measuring device is fixed. Thus, the measuring device holding unit can be disposed in the vicinity of the radar device from the vehicle outside to ensure that the measuring device is as close as possible to the radar device and hold the measuring device to accurately measure the mounting state (i.e., mounting position and angle) of the radar device. Accordingly, the utility model discloses a measuring device keeps subassembly can keep measuring device and conveniently and correctly measure radar installations's mounted state.

In order to make the aforementioned and other features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a schematic view of an application of a measuring device holding assembly according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of the measuring device holding assembly of FIG. 1;

fig. 3 is a perspective view of a measuring device holding assembly according to another embodiment of the present invention.

Description of the reference numerals

30: a measuring device;

40: a flag member;

50: a front grille;

50a: an opening;

60: a radar device;

70: an adapter;

100. 100': a measuring device holding assembly;

110: a frame body;

112: connecting holes;

120. 120': a positioning member;

122: an upper half part;

124: a lower half;

130: abutting against the plate;

140: a holding plate;

142: a first width portion;

144: a second width section;

150. 150': a convex portion;

160: a reference part;

c: a connecting member;

g: a gap;

h: a light weight orifice;

w1, W2: a width;

x: a front-back direction;

y: a width direction;

z: and (4) in the up-and-down direction.

Detailed Description

Fig. 1 is a schematic view of an application of a measuring device holding assembly according to an embodiment of the present invention. Fig. 2 is a perspective schematic view of the measuring device holding assembly of fig. 1. Fig. 3 is a schematic perspective view of a measuring device holding assembly according to another embodiment of the present invention. In the present embodiment, the measuring device holding assembly 100 is an assembly for holding the measuring device 30 on the outer side of the marker 40 (the front side of the marker 40 in the front-rear direction X) mounted on the front grille 50 of the vehicle front portion, and the measuring device 30 is an assembly for measuring the installation state of the radar device 60 for the vehicle mounted on the inner side of the marker 40 (the rear side of the marker 40 in the front-rear direction X). However, the measuring device holding assembly 100 may be installed inside the marker 40 (for example, the marker 40 is disassembled to install the measuring device holding assembly 100 in the opening 50a of the front grill 50), or other suitable occasions for holding the measuring device 30 to measure the radar device 60, and the invention is not limited thereto. Although the radar device 60 is shown as being positioned outside the front grille 50 (on the front side of the front grille 50 in the front-rear direction X) in the exploded state of fig. 1, the radar device 60 is preferably provided in the opening 50a of the front grille 50 so as to be shielded by the marker 40, and may be provided inside the front grille 50 (on the rear side of the front grille 50 in the front-rear direction X). Accordingly, the adapter 70 is provided on the inner side of the front grille 50 and on the rear side of the radar device 60 in the front-rear direction X. The present embodiment explains the relative positional relationship between the respective members in the front-rear direction X, the width direction Y, and the up-down direction Z. It should be noted that, unless otherwise specified, the front and upper sides used below are the directions indicated by the arrows in the front-back direction X and the up-down direction Z in the drawings; the rear and lower directions used below are opposite to the above-mentioned directions. The specific structure of the measuring device holding assembly 100 of the present embodiment will be described below with reference to fig. 1 to 3.

Referring to fig. 1 and fig. 2, in the present embodiment, the measuring device holding assembly 100 includes a frame 110, a positioning member 120, an abutting plate 130, and a holding plate 140. The frame 110 is a hollow rectangle. The frame body 110 has a plurality of connection holes 112 (shown in fig. 2). The connecting element C is connected to the connecting hole 112 to fix a part of the components on the frame body 110, for example, the positioning element 120 can be connected to the frame body 110 through the connecting element C connected to the connecting hole 112, but not limited thereto. The positioning member 120 extends toward one side of the frame body 110 (for example, the rear side of the frame body 110 in the front-rear direction X), and can pass through a gap between the marker 40 and the front grill 50, so as to abut against the radar device 60 provided on one side of the frame body 110 or the adapter 70 to which the radar device 60 is fixed, and perform positioning. That is, the measuring device holding assembly 100 is positioned near the radar device 60 by the positioning member 120, for the measuring device 30 to measure the radar device 60. The abutment plate 130 is provided on the other side of the frame 110 opposite to the radar device 60 or the adapter 70 (for example, the front side of the frame 110 in the front-rear direction X). The abutting plate 130 is connected to the frame 110 by a connecting member C. The holding plate 140 is provided on the lower end side of the frame 110 in the vertical direction Z. The holding plate 140 extends toward the other side of the frame body 110 where the abutting plate 130 is provided to hold the measuring device 30. That is, the measurement device 30 holds the measurement device 30 in such a manner as to be placed on the holding plate 140 and abut on the abutting plate 130. In other embodiments, not shown, the retaining plate 140 may also be provided with a snap, etc. to fix the measuring device 30 more firmly, which is not limited by the present invention.

Furthermore, in the present embodiment, the connection holes 112 are at least disposed on the left and right sides of the frame 110 in the width direction Y, so that the positioning member 120 and/or the abutting plate 130 can be fixed at a desired position according to the requirement (for example, the installation position and size of the radar device 60 corresponding to different vehicle models). For example, the positioning member 120 can be disposed at different levels by inserting the connecting member C into the connecting holes 112 at different levels, but not limited thereto. Furthermore, the connecting members C used by the positioning member 120 to connect the frame 110 and the connecting members C used by the abutting plate 130 to connect the frame 110 may be the same connecting members C or different connecting members C. For example, a portion of the connecting member C may pass through the connecting hole 112 to connect the positioning member 120 and the abutting plate 130 at the same time, a portion of the connecting member C may connect only the positioning member 120, and a portion of the connecting member C may connect only the abutting plate 130. In addition, each connecting member C may be a single member (e.g., a bolt) or a combined member (e.g., a stud and a bolt). The specific structure, number and position of the connecting members C used for the positioning member 120 and the abutting member 130 (e.g. which connecting hole 112 of the frame 110 is connected) can be adjusted according to the requirement.

As can be seen, in the present embodiment, the measuring device holding assembly 100 abuts the radar device 60 or the adapter 70 through the positioning member 120 extending toward one side of the frame body 110 to be positioned near the radar device 60, so that the held measuring device 30 can measure the radar device 60. Furthermore, the abutting plate 130 of the measuring device holding assembly 100 is abutted by the measuring device 30, and the holding plate 140 extends towards the other side to hold the measuring device 30, so as to ensure that the position of the measuring device 30 is fixed. Thus, the measuring device holding assembly 100 can be disposed in the vicinity of the radar device 60 from the vehicle outside to ensure that the measuring device 30 is as close as possible to the radar device 60, and to hold the measuring device 30 to accurately measure the mounting state (i.e., the mounting position and angle) of the radar device 60. Accordingly, the measuring device holding assembly 100 can hold the measuring device 30 to conveniently and accurately measure the mounting state of the radar device 60.

Referring to fig. 2, in the present embodiment, the positioning elements 120 are disposed at two opposite ends of the frame 110 in the width direction Y and extend toward the radar device 60 or the adapter 70 (e.g., extend toward the rear side of the front-rear direction X). The positioning member 120 includes an upper half 122 and a lower half 124. The length of the upper half portion 122 in the front-rear direction X is longer than the length of the lower half portion 124 in the front-rear direction X. Accordingly, the upper half 122 is adapted to be inserted into the gap between the flag 40 and the front grill 50 to position the measuring device holding assembly 100. The lower half 124 is inserted behind the front grill 50 to abut the radar device 60 or the adapter 70. Specifically, when the measuring device holding member 100 is installed, the positioning member 120 on one end side is inserted into the front grill 50, and the positioning member 120 on the other end side is inserted, so that the measuring device holding member 100 is fixed. The positioning member 120 is formed of, for example, a plate spring, and gives a positioning force by elastic deformation and torque after insertion, thereby fixing the measuring device holding unit 100 to the radar device 60 or the adapter 70. In other embodiments, not shown, the positioning member 120 may be positioned in other suitable manners, and the invention is not limited thereto.

In the present embodiment, the contact plate 130 and the frame 110 are separated by a gap G via a connector C. In this manner, the measuring device 30 placed on the measuring device holding assembly 100 is not too close to the front grill 50, resulting in poor recognition of the measuring device 30 and poor visibility of the measuring device 30. The distance between the contact plate 130 and the frame 110 helps to maintain the balance of the center of gravity, and prevents the positioning member 120 from being difficult to hold due to the torque. In addition, the abutment plate 130 is provided with a light-weight hole H for reducing the overall weight of the abutment plate 130. The light weight holes H may be a plurality of holes, or a single hole with a larger hole, or the abutting plate 130 may be made of a light weight metal material instead of a hole with a light weight design, which is not limited by the present invention.

In the present embodiment, the holding plate 140 is convex in a top view (i.e., in the vertical direction Z from top to bottom). In detail, the holding plate 140 includes a first width portion 142 and a second width portion 142, wherein the first width portion 142 is located between the frame 110 and the second width portion 144, and a width W1 of the first width portion 142 in the width direction Y is greater than a width W2 of the second width portion 144 in the width direction Y. Thereby, the measuring device 30 can be placed on the holding plate 140 in both longitudinal and transverse directions. For example, as shown in fig. 1, when the measuring device 30 is longitudinally disposed on the holding plate 140, the measuring device 30 spans the first width portion 142 and the second width portion 142. When the measuring device 30 is placed laterally on the holding plate 140 (not shown), the measuring device 30 only has to be placed on the first width portion 142. Further, the measuring device 30 can measure the mounting state in different directions. In other embodiments, not shown, the holding plate 140 may be a rectangle with equal width or other shape suitable for receiving the measuring device 30, and the present invention does not limit the holding plate 140 to be provided with more than two widths.

Further, in the present embodiment, the measuring device holding assembly 100 further includes a convex portion 150 and a reference portion 160. The convex portion 150 is provided on the lower end side of the frame body 110 in the vertical direction Z, and is located substantially at the center of the frame body 110 in the width direction Y. The projection 150 is, for example, a pin, and extends toward the adapter 70 (for example, extends toward the rear side in the front-rear direction X) to abut against the adapter 70 for positioning, but may have another shape suitable for positioning, and the present invention is not limited thereto. The reference portion 160 is provided on an upper end side of the frame body 110 in the vertical direction Z, and is provided on opposite end sides of the frame body 110 in the width direction Y. The reference portion 160 extends toward the adapter 70 (e.g., extends toward the rear side in the front-rear direction X). After the measuring device holding assembly 100 is inserted into the front grill 50, the reference portion 160 comes into contact with a protrusion (not shown) of the adapter 70 to measure the angle of offset of the radar device 60 fixed by the adapter 70.

Further, since the radar device 60 of the present embodiment is provided between the measuring device holding unit 100 and the adapter 70, it is preferable that the measuring device holding unit 100 is positioned near the radar device 60 by abutting against the adapter 70 via the positioning member 120, the convex portion 150, the reference portion 160, and the like, but the measuring device holding unit 100 may be positioned near the radar device 60 by abutting against the radar device 60 itself via the positioning member 120, the convex portion 150, the reference portion 160, and the like, and the present invention is not limited to which of the radar device 60 and the adapter 70 these members abut. In addition, the present invention does not limit the installation of the protruding portion 150 and the reference portion 160, and can be adjusted according to the requirement.

Referring to fig. 3, in another embodiment of the present invention, the measuring device holding assembly 100' has substantially the same structure and function as the measuring device holding assembly 100, so the same reference numerals are used for the same components, and the description thereof is not repeated. The main difference between the measuring device holding unit 100' and the measuring device holding unit 100 described above is that the positioning member 120' of the measuring device holding unit 100' is provided on the upper end side of the frame 110 in the vertical direction Z and is located substantially at the center of the frame 110 in the width direction Y. The positioning member 120' extends in the direction of the radar device 60 or the adapter 70 (e.g., extends rearward in the front-rear direction X). The positioning member 120 'is adapted to be inserted into a slit between the marker 40 and the front grill 50 at the upper end side in the up-down direction Z to position the measuring device holding assembly 100'. Furthermore, measuring device holding assembly 100 'further includes a boss 150'. The convex portion 150' is provided on the lower end side of the frame body 110 in the vertical direction Z, and is provided on opposite end sides (only one side is shown in fig. 3) of the frame body 110 in the width direction Y. The projection 150' is, for example, a pin, and extends toward the adapter 70 (for example, extends toward the rear side in the front-rear direction X) to abut against the adapter 70 for positioning, but may have another shape suitable for positioning, and the present invention is not limited thereto. In addition, the measuring device holding assembly 100 'may be provided with the reference portion 160 as shown in fig. 2 to measure the offset angle of the radar device 60 fixed to the adapter 70, but the present invention is not limited to the arrangement of the convex portion 150' and the reference portion 160, and may be adjusted as needed.

To sum up, the utility model discloses a measuring device keeps subassembly through the setting element butt radar installations or the adapter that extends towards one of them side of framework to the location is in near radar installations, and the measuring device that supplies to keep measures radar installations. And the abutting plate of the measuring device holding assembly is abutted by the measuring device, and the holding plate extends towards the other side to hold the measuring device so as to ensure that the position of the measuring device is fixed. Thus, the measuring device holding unit can be disposed in the vicinity of the radar device from the vehicle outside to ensure that the measuring device is as close as possible to the radar device and hold the measuring device to accurately measure the mounting state (i.e., mounting position and angle) of the radar device. Preferably, a gap is formed between the abutting plate and the frame body through a connecting piece, so that poor recognition of the measuring device caused by too close of the measuring device and the front grating can be avoided. Further, the distance of the abutment plate from the frame helps to maintain the balance of the center of gravity, and further prevents the positioning member from being difficult to hold due to the torque. Therefore, the utility model discloses a measuring device keeps the subassembly and can keep measuring device and conveniently and correctly measure radar installations's mounted state.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (7)

1. A measuring device holding assembly for holding a measuring device for measuring a mounted state of a radar apparatus for a vehicle, comprising:

a frame body having a plurality of connection holes;

the positioning piece is connected with the frame body and extends towards one side of the frame body so as to abut against the radar device arranged on one side of the frame body or an adapter for fixing the radar device and perform positioning;

the abutting plate is arranged on the other side, opposite to the radar device or the adapter, of the frame body and is connected with the frame body through a connecting piece connected with the connecting hole; and

a holding plate provided on a lower end side of the frame in the up-down direction and extending toward the other side of the frame where the abutting plate is provided to hold the measuring device.

2. The measuring device holding assembly according to claim 1,

the positioning piece is arranged on the opposite end sides of the frame body in the width direction and extends towards the radar device or the adapter.

3. The measuring device holding assembly according to claim 1,

the positioning piece is arranged on the upper end side of the frame body in the up-down direction and extends towards the radar device or the adapter.

4. The measuring device holding assembly according to any one of claims 1 to 3,

the holding plate is in a convex shape in a viewing angle from above.

5. The measuring device holding assembly of claim 4,

the retention plate includes a first width portion and a second width portion,

the first width part is arranged between the frame body and the second width part, and

the width of the first width portion in the width direction is larger than the width of the second width portion in the width direction.

6. The measuring device holding assembly according to any one of claims 1 to 3,

the connecting piece is arranged between the abutting plate and the frame body to form a gap.

7. The measuring device holding assembly according to any one of claims 1 to 3,

the abutting plate is provided with a light hole.

Images