KR101061905B1 - Sensor support bracket and its assembly - Google Patents

Abstract

According to the present invention, as a shape of a U-shaped steel having a web and a first flange and a second flange provided by bending both ends of the web, a long hole is formed in the first flange, At least one insertion hole is formed at one side of the long hole, and the second support flange is provided with a sensor support bracket having at least one fixing hole and an assembly thereof. According to this invention, since it has a simple structure with a web and a flange, it is economical to use as a sensor support bracket. In addition, the sensor support brackets can be slid in the flange direction by the long hole and the sliding member, and the axial rotation is possible by the sliding member, and the support bolts can be deflected by the adjustment bolt. You can easily change the position and angle of the sensor you are sensing.

Sensor, support bracket, web, flange, hole, insertion hole, fixing hole

Description

Sensor support bracket and assembly thereof

The present invention relates to a sensor support bracket and an assembly thereof, and more particularly, to a sensor support bracket and an assembly thereof in which a sensor for detecting an attachment attached to a vehicle body part can be disposed.

1 is a perspective view showing a conventional support bracket for fixing a vehicle body part. Referring to FIG. 1, in general, at least one body part P is manufactured in order to assemble an outer shell of an automobile, and the attachment N such as a bolt and a nut is welded to a required position on the body part P. Thereafter, the plurality of vehicle body parts P to which the attachments N such as bolts and nuts are welded are also welded to each other. Then, by performing a painting process or the like on the welded body parts P, it is possible to form a clean exterior (that is, it is advantageous that the welding process is performed before the painting process).

In this case, in order to weld the plurality of body parts P to each other, it is necessary to confirm in advance whether the attachment N is attached to each of the body parts P well. The vehicle body parts P are supported by the support B and the brackets B1 and B2. A support bracket (also referred to as a 'jig') B1 is disposed on the support B. As shown in FIG. The upper part of the support bracket B1 requires a proximity sensor S capable of detecting a corresponding position of the attachment N in order to know whether the attachment N attached to the vehicle body part P is disposed correctly. The proximity sensor S is fixed to the extension bracket B2 extending from the support bracket B1. Although only four support brackets B1 are illustrated in FIG. 1, the number and shape of the support brackets B1 may vary depending on the shape of the vehicle body part P.

The extension bracket B2 is generally coupled to one side of the support bracket B1 by fastening members such as bolts and nuts. The extension bracket B2 can loosen the nut of the fastening member and rotate slightly up and down on the support bracket B2 with respect to the support bracket B1, but the shape of the vehicle body part P and attachments such as bolts and nuts N If the position of) is changed from the original position by more than a certain range, the support bracket cannot be used again. If the original support bracket is to be used again, the support bracket B1 and the extension bracket B2 must be dismantled and reassembled by welding again, which is very disadvantageous in terms of time and cost.

It is an object of the present invention to provide a sensor support bracket and an assembly thereof which can easily change the position and angle of a sensor for detecting an attachment attached to a vehicle body part.

The sensor support bracket according to the embodiment of the present invention is a shape of a U-shaped steel having a web and a first flange and a second flange provided with both ends of the web bent and extended. The long hole is formed, at least one insertion hole is formed at one side of the long hole, and at least one fixing hole is formed in the second flange.

Here, the insertion hole, the screw thread is formed on the inner surface, the sliding member is inserted into the long hole is arranged to be slidable in the longitudinal direction of the long hole, and the adjustment bolt for screwing to the screw thread of the insertion hole may be further provided. .

In addition, a sensor fixing hole into which the sensor is inserted may be further formed in the web.

In addition, the sensor support bracket assembly according to an embodiment of the present invention is a shape of the U-shaped steel having a first web, a first flange and a second flange provided with both ends of the first web is bent and extended, the first A flange is formed with a long hole, at least one side of the long hole is formed with at least one insertion hole is formed in the thread, the second flange, at least one fixing hole formed with at least one fixing hole; A shape of a U-shaped steel having a second web and a third flange and a fourth flange provided by bending both ends of the second web, wherein the third flange is provided with a long hole, and an inner surface of one side of the long hole is provided. At least one insertion hole having a thread formed therein, and the fourth flange includes: a second sensor support bracket having at least one fixing hole formed therein; A sliding member inserted into the long hole of the first flange and the fixing hole of the fourth flange to be slidable in a longitudinal direction of the long hole of the first flange; And an adjustment bolt which protrudes while screwing to the thread of the insertion hole of the first flange, and adjusts a separation distance between the first flange and the fourth flange.

Here, a pair of insertion holes of the first flange is formed on both sides around the long hole of the first flange, a pair of insertion holes of the third flange is formed on both sides around the long hole of the third flange. Can be.

In addition, the sliding member includes a bolt and a nut, the fixing hole of the fourth flange is threaded on the inner surface, the bolt is inserted into the long hole of the first flange, and then coupled with the nut, again It may be screwed to the thread of the fixing hole of the fourth flange.

Further, the sliding member includes a bolt and a nut, the bolt is inserted into the long hole of the first flange and the fixing hole of the fourth flange, the nut is coupled to the bolt on the opposite side of the fourth flange. Can be.

In addition, sensor fixing holes into which the sensor is inserted may be further formed in the first web and the second web.

Further, a shape of a U-shaped steel having a third web, a fifth flange provided with both ends of the third web bent and a sixth flange, wherein the fifth flange is provided with a long hole, At least one insertion hole having a thread formed on an inner surface thereof is formed at one side thereof, and the sixth flange includes: a third sensor support bracket having at least one fixing hole formed therein; A sliding member inserted into and fixed to the long hole of the third flange and the fixing hole of the sixth flange to be slidable in the longitudinal direction of the long hole of the third flange; And protruding while screwing to the thread of the insertion hole of the third flange, it may further include an adjustment bolt for adjusting the separation distance between the third flange and the sixth flange.

According to the sensor support bracket and the assembly thereof according to an embodiment of the present invention,

First, it is economical to use as a sensor support bracket because it has a simple structure with a web and a flange.

Second, the sensor support brackets are slidable in the flange direction by the long hole and the sliding member, and the axial rotation is possible by the sliding member, and the sensor support brackets can be deflected by the adjustment bolts. You can easily change the position and angle of the sensor you are sensing.

Third, even if the shape of the vehicle body parts and the attachment of the bolts, nuts, etc. is changed by more than a certain range from the original position, it is easy to adjust the position between the sensor support bracket can be recycled, which is very advantageous in terms of time and cost.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors should properly explain the concept of terms in order to best explain their own invention. Based on the principle that can be defined, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiments of the present invention and do not represent all of the technical idea of the present invention, various equivalents that may be substituted for them at the time of the present application It should be understood that there may be water and variations.

Hereinafter, a sensor support bracket and an assembly thereof according to an embodiment of the present invention will be described. 2 is an exploded perspective view of a sensor support bracket according to an embodiment of the present invention.

First, referring to FIG. 2, the sensor support bracket 20 has a web 21, a first flange 22, and a second flange 23 in the shape of a U-shaped steel. The first flange 22 and the second flange 23 are provided with both ends of the web 21 bent and extended.

An elongated long hole 22a is formed in the first flange 22, and at least one insertion hole 22b is formed in one side of the long hole 22a. The longitudinal direction of the long hole (22a) can be formed in various ways as needed. In addition, at least one fixing hole 23a is formed in the second flange 23. Threads may be formed on the inner surface of the insertion hole 22b of the first flange 22. The sensor fixing hole 21a into which the sensor S is inserted may be formed in the web 21.

The sliding member 31 is inserted into the long hole (22a) is arranged to be slidable in the longitudinal direction of the long hole (22a). In addition, the adjusting bolt 32 is provided to screw to the thread of the insertion hole (32b). Thus, since the sensor support bracket 20 has a simple structure having the web 21 and the flanges 22 and 23, it is very economical to use as the support bracket.

Next, a sensor support bracket assembly AS according to an embodiment of the present invention will be described.

3 is an exploded perspective view of the first sensor support bracket according to the embodiment of the present invention, FIG. 4 is an exploded perspective view of the first and second sensor support brackets according to the embodiment of the present invention, and FIG. Partially coupled perspective views of the first and second sensor support brackets, FIGS. 6A and 6B are front views illustrating a method of coupling the sliding member shown in FIG. 4, respectively.

3 to 5, the sensor support bracket assembly AS includes a first sensor support bracket 100, a second sensor support bracket 200, a sliding member 310, and adjustment bolts 320 and 330. do.

As shown in FIG. 3, the first sensor support bracket 100 has a shape of a U-shaped steel, and includes a first flange 120 and a first web 110 and both ends of the first web 110 are bent and extended. 2 flange 130 is provided. A long hole 121 is formed in the first flange 120, and at least one insertion hole 122 and 123 in which threads 122a and 123a are formed on an inner surface of one side of the long hole 121 is formed. A fixing hole 131 is formed in the second flange 130.

Similarly, as shown in FIG. 4, the second sensor support bracket 200 has a shape of a U-shaped steel, and a third flange 220 in which both ends of the second web 210 and the second web 210 are bent and extended. And a fourth flange 230. A long hole 221 is formed in the third flange 220, and at least one insertion hole 222, 223 having threads 222a and 223a formed on an inner surface thereof is formed at one side of the long hole 221. A fixing hole 231 is formed in the fourth flange 230.

The shape and dimensions of the first web 110, the first flange 120, and the second flange 130 of the first sensor support bracket 100 may include the first web 210 of the second sensor support bracket 200, The shape and dimensions of the first flange 220 and the second flange 230 may be the same as or different from each other. In addition, the longitudinal directions of the long holes 121 and 221 may also be formed in various directions as necessary.

Sensor fixing holes 110a and 210a into which the sensor S is inserted may be formed in the first web 110 and the second web 210, respectively. The sensor fixing holes 110a and 210a may be formed in the first web 110 and the second web 210 itself, and the first web 110 and the second web 210 as shown in FIG. 5 as necessary. It may also be formed in the extension (111, 211) extending from).

Here, for example, the insertion holes 122 and 123 of the first flange 120 have a pair formed on both sides of the long hole 121 of the first flange 120. Similarly, a pair of insertion holes 222 and 223 of the third flange 220 are also formed on both sides around the long hole 221 of the third flange 220. Of course, the number of insertion holes 122, 123, 222, 223 can be added or subtracted as needed. In addition, if necessary, the fixing hole 131 of the second flange 130 and the fixing hole 231 of the fourth flange 230 may also have a long hole shape.

As shown in FIG. 5, the sliding member 310 is inserted into and fixed in the fixing hole 231 of the long hole 121 and the fourth flange 230 of the first flange 120, so that the long hole 121 of the first flange 120 is fixed. Is arranged to be slidable in the longitudinal direction.

In this case, the sliding member 310 may include a bolt 310a and a nut 310b. In this case, as shown in FIG. 6A, the fixing hole 231 of the fourth flange 230 is formed with a thread 231a on the inner surface thereof, and the bolt 310a is inserted into the long hole 121 of the first flange 120. After that, the nut 310b is coupled to the nut 310b and screwed to the thread 231a of the fixing hole 231 of the fourth flange 230. If the nut 130b is to be hidden from view, a groove may be formed in the first flange 120 or / and the fourth flange 230 so that the nut is inserted into the nut 130b.

Alternatively, the sliding member 310 may include a bolt 310c and a nut 310d. In this case, as shown in FIG. 6B, the bolt 310c is inserted into the long hole 121 of the first flange 120 and the fixing hole 231 of the fourth flange 230, and the nut 310d is inserted into the fourth flange. On the opposite side of the 230 is coupled to the bolt 310c.

That is, the sliding member 310 allows the first sensor support bracket 100 and the second sensor support bracket 200 to slide together, and at the same time, the first sensor support bracket 100 and the second sensor support bracket 200. It also serves to fix them together.

In addition, the adjusting bolts 320 and 330 protrude while screwing into the threads 122a and 123a of the insertion holes 122 and 123 of the first flange 120, and thus the first flange 120 and the fourth flange 230. It controls the separation distance from).

Hereinafter, the operation principle of the first sensor support bracket 100, the second sensor support bracket 200, the sliding member 310, and the adjustment bolts 320 and 330 will be described.

7 is a front view illustrating a sliding and rotating concept of the first and second sensor support brackets illustrated in FIG. 4, and FIG. 8 is a front view illustrating a refractive concept of the first and second sensor support brackets illustrated in FIG. 4.

Referring to FIG. 7, the sensor support brackets 100 and 200 are in the planar direction A of the flanges 120 and 230 by the long holes 121 and the sliding member 310 of the first flange 120 described above. Sliding is possible, and the axial rotation R1 is relatively possible by the sliding member 310.

In addition, the adjustment bolts 320 and 330 can be deflected between the sensor support brackets 100 and 200. That is, referring to FIG. 8, when the exposure length d ₁ of the adjustment bolt 320 is longer than the exposure length d ₂ of the other adjustment bolt 330, the first sensor support bracket 100 and the second sensor The support bracket 200 may be refracted by the angle θ. On the contrary, when the exposure length d ₁ of the adjustment bolt 320 is shorter than the exposure length d ₂ of the other adjustment bolt 330, the first sensor support bracket 100 and the second sensor support bracket 200 are Refraction in the opposite direction.

9 is an exploded perspective view of the second and third sensor support brackets according to an embodiment of the present invention. Referring to FIG. 9, the sensor support bracket assembly AS may further include a third sensor support bracket 300 in addition to the first sensor support bracket 100 and the second sensor support bracket 200 (FIG. 9). Only the second and third sensor support brackets are shown for convenience). That is, the sensor support bracket assembly AS may further reduce the number of sensor support brackets as necessary.

Similar to the first sensor support bracket 100 and the second sensor support bracket 200, the third sensor support bracket 300 has a C-shaped steel shape, and both ends of the third web 310 and the third web 310 are formed. A fifth flange 320 and a sixth flange 330 are provided to be bent and extended.

A long hole 321 is formed in the fifth flange 320, and insertion holes 322 and 323 having threads 322a and 323a formed on an inner surface of one side of the long hole 321, and a sixth flange 330. The fixing hole 331 is formed.

Here, the sliding member 410 and the adjusting bolts 420 and 430 connecting the second sensor support bracket 200 and the third sensor support bracket 300 are provided.

The sliding member 410 is inserted into and fixed in the long hole 221 of the third flange 220 and the fixing hole 331 of the sixth flange 330 to slide in the longitudinal direction of the long hole 221 of the third flange 220. It is arranged to be possible.

In addition, the adjusting bolts 420 and 430 protrude while screwing into the threads 222a and 223a of the insertion holes 222 and 223 of the third flange 220, and thus the third flange 220 and the sixth flange 330. To control the separation distance from Since the sliding member 410 and the adjusting bolts 420 and 430 are similar to the sliding member 310 and the adjusting bolts 320 and 330 described above, repeated descriptions thereof will be omitted.

Hereinafter, the first sensor support bracket 100, the second sensor support bracket 200, the third sensor support bracket 300, the sliding members 310 and 410, and the adjustment bolts 320, 330, 420 and 430 will be described. Explain how it works.

FIG. 10 is a front view illustrating a sliding and rotating concept of the first, second and third sensor support brackets illustrated in FIGS. 4 and 9, and FIG. 11 is a first, second, and third illustrated in FIGS. 4 and 9. 3 is a front view showing the concept of refraction of the sensor support bracket.

Referring to FIG. 10, the first and second sensor support brackets 100 and 200 are planar directions of the flanges 120 and 230 by the long holes 121 and the sliding member 310 of the first flange 120 described above. It is possible to slide to (A), the axial rotation (R1) is possible by the sliding member 310.

Similarly, the second and third sensor support brackets 200 and 300 are in the plane direction B of the flanges 220 and 330 by the long holes 221 and the sliding member 410 of the third flange 220 described above. Sliding is possible, and the axial rotation R2 is relatively possible by the sliding member 410.

In addition, the adjustment bolts 320, 330, 420, and 430 may be deflected between the sensor support brackets 100, 200, and 300. That is, referring to FIG. 11, when the exposure length of the adjustment bolt 330 is longer than the exposure length of the other adjustment bolt 320, the first sensor support bracket 100 and the second sensor support bracket 200 are angle θ1. Can be refracted as much as possible. On the contrary, when the exposure length of the adjustment bolt 330 is shorter than the exposure length of the other adjustment bolt 320, the first sensor support bracket 100 and the second sensor support bracket 200 are deflected in opposite directions.

Similarly, if the exposure length of the adjustment bolt 420 is longer than the exposure length of the other adjustment bolt 430, the second sensor support bracket 200 and the third sensor support bracket 300 can be refracted by an angle θ2. On the contrary, when the exposure length of the adjustment bolt 420 is shorter than the exposure length of the other adjustment bolts, the second sensor support bracket 200 and the third sensor support bracket 300 are refracted in opposite directions.

Thus, according to the embodiment of the present invention, the sensor support brackets (100, 200, 300) by the long holes (121, 221) and the sliding member (310, 410) is capable of sliding in the flange direction, the sliding member (310, 410 can be rotated in the axial direction, and the adjustment bolts 320, 330, 420, 430 can be deflected between the sensor support brackets (100, 200, 300), so the sensor to detect the attachment attached to the body parts The position and angle of the can be changed easily. In addition, even if the shape of the body parts and the attachments such as bolts and nuts are changed by more than a certain range from the original position, the position adjustment between the sensor support brackets 100, 200, and 300 is easy, and can be recycled, which is very advantageous in terms of time and cost. Do.

1 is a perspective view showing a conventional support bracket for fixing a vehicle body part.

2 is an exploded perspective view of a sensor support bracket according to an embodiment of the present invention.

3 is an exploded perspective view of the first sensor support bracket according to the embodiment of the present invention.

4 is an exploded perspective view of the first and second sensor support brackets according to an embodiment of the present invention.

FIG. 5 is a partially coupled perspective view of the first and second sensor support brackets shown in FIG. 4.

6A and 6B are front views illustrating a coupling method of the sliding member illustrated in FIG. 4, respectively.

FIG. 7 is a front view illustrating a sliding and rotating concept of the first and second sensor support brackets illustrated in FIG. 4.

FIG. 8 is a front view illustrating a concept of refraction of the first and second sensor support brackets illustrated in FIG. 4.

9 is an exploded perspective view of the second and third sensor support brackets according to an embodiment of the present invention.

FIG. 10 is a front view illustrating a sliding and rotating concept of the first, second and third sensor support brackets illustrated in FIGS. 4 and 9.

FIG. 11 is a front view illustrating a refraction concept of the first, second and third sensor support brackets illustrated in FIGS. 4 and 9.

<Brief description of symbols for the main parts of the drawings>

AS ... Sensor Support Bracket Assembly

100, 200, 300 ... First, second, third sensor support bracket

110, 210, 310 ... First, Second, Third Web

120, 220, 320 ... first, third, fifth flange

130, 230, 330 ... 2nd, 4th, 6th flange

310, 410 ... Sliding member

320, 330, 420, 430 ... Adjustment bolt

Claims (9)

delete delete delete A shape of a U-shaped steel having a first web and a first flange and a second flange provided by bending both ends of the first web, wherein the first flange has a long hole, and an inner surface of one side of the long hole is formed. At least one insertion hole having a thread formed therein, and the second flange includes: a first sensor support bracket having a fixing hole; A shape of a U-shaped steel having a second web and a third flange and a fourth flange provided by bending both ends of the second web, wherein the third flange is provided with a long hole, and an inner surface of one side of the long hole is provided. At least one insertion hole having a thread formed therein, and the fourth flange includes: a second sensor support bracket having a fixing hole; A sliding member inserted into the long hole of the first flange and the fixing hole of the fourth flange to be slidable in a longitudinal direction of the long hole of the first flange; And Protruding while screwing to the thread of the insertion hole of the first flange, the sensor support bracket assembly comprising a control bolt for adjusting the separation distance between the first flange and the fourth flange. The method according to claim 4, Insertion hole of the first flange, A pair is formed on both sides around the long hole of the first flange, Insertion hole of the third flange, Sensor support bracket assembly, characterized in that a pair is formed on both sides around the long hole of the third flange. The method according to claim 4 or 5, The sliding member includes a bolt and a nut, The fixing hole of the fourth flange is threaded on the inner surface, And the bolt is inserted into the long hole of the first flange, and then engages with the nut and is screwed into the thread of the fixing hole of the fourth flange. The method according to claim 4 or 5, The sliding member includes a bolt and a nut, And the bolt is inserted into the fixing hole of the fourth flange and the long hole of the first flange, and the nut is coupled to the bolt on the opposite side of the fourth flange. The method according to claim 4 or 5, The first web and the second web, Sensor support bracket assembly, characterized in that the sensor fixing hole is further formed is inserted into the sensor. The method according to claim 4, A shape of a U-shaped steel having a third web and a fifth flange and a sixth flange provided by bending both ends of the third web, wherein the fifth flange is provided with a long hole, and an inner surface of one side of the long hole is formed. At least one insertion hole having a thread formed therein is formed, and the sixth flange includes: a third sensor support bracket having a fixing hole; A sliding member inserted into and fixed to the long hole of the third flange and the fixing hole of the sixth flange to be slidable in the longitudinal direction of the long hole of the third flange; And Protruding while screwing to the thread of the insertion hole of the third flange, the sensor support bracket assembly further comprising an adjustment bolt for adjusting the separation distance between the third flange and the sixth flange.

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