DE102017202854A1 - Electric unit - Google Patents

Abstract

A housing of a unit comprising a first housing part; a second housing part; a printed circuit board which is at least partially disposed between the first housing part and the second housing part; a positioning column at least partially disposed in the circuit board; a first elastic member connected to the positioning pillar between the circuit board and the first housing part; and a second elastic member connected to the positioning pillar between the circuit board and the second housing part.

Description

REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of US Provisional Application Ser. No. 62 / 300,450, filed February 26, 2016; and US Patent Application No. 151433461 filed February 15, 2017, the disclosure of which is incorporated herein by this reference in its entirety.

TECHNICAL AREA

The present disclosure relates to circuit boards, shells, electrical units, power distribution units, electrical distribution boxes, electrical enclosures, electronic control units, gateway units and domain controllers for a body, including those that may be used in vehicles.

BACKGROUND

This background description below is for the purpose of providing the context only. Therefore, all aspects of this Background Description, unless otherwise qualified in the art, are not expressly or impliedly admitted to be prior art to the present disclosure.

In certain circumstances, assembling circuit board components with a circuit board (eg, a printed circuit board or PCB) may result in the circuit board being subjected to forces that may cause the circuit board to have at least some curvature or flexing. If the circuit board is installed in a housing, the housing may fix the circuit board in place (eg, so that the circuit board does not rattle). In some cases, fixation forces may counteract the curvature of the circuit board, which may result in damage to the circuit board and / or components associated with the circuit board, such as surface mount devices (SMDs). In some cases, enclosures may exert increased forces on a circuit board (eg, due to housing manufacturing tolerances) that could damage a circuit board and / or components associated with the circuit board.

There is therefore a desire for solutions / options that minimize or eliminate one or more of the disadvantages described above. The above discussion is intended to illustrate only examples of the present field and should not be construed as a non-recognition of the scope.

SUMMARY

In embodiments, the electrical unit may include: a first housing part, a second housing part, a printed circuit board at least partially disposed between the first housing part and the second housing part, a positioning pillar disposed at least partially in and / or through the circuit board is, and / or a first elastic element which is connected between the circuit board and the first housing part with the positioning column. An electrical unit may comprise a second elastic element which is connected between the printed circuit board and the second housing part with the positioning column. The positioning column can be arranged at least partially in the first housing part and the second elastic element can be in contact with the second housing part. The positioning column is integral with the second housing part. The positioning column may include a first portion, a second portion having a radial flange, and a third portion. The third portion may include a flared portion configured for insertion through the circuit board. At least a portion of the circuit board may be disposed between the flared portion and the radial flange. The first elastic member may have a first height, the second elastic member may have a second height, and the first height may be greater than the second height. The positioning column may include a first flared portion and / or a second flared portion. At least a portion of the circuit board may be disposed between the first expanded portion and the second expanded portion. The first flared portion and the second flared portion may be configured to be inserted through the circuit board. The first flared portion may include a first flap and a second flap, and the second flared portion may include a third flap and / or a fourth flap. The positioning column may be metal and / or hollow. The first housing part may comprise a projection arranged in the positioning column. The radial flange may include a plurality of ribs configured to engage the circuit board. The first portion may have a narrow portion and a head disposed at one end of the narrow portion. The head may have a larger diameter than the narrow portion. The first housing part may be configured to receive the head. The positioning column may be press fit with the circuit board.

In the embodiments, a circuit board assembly may include: a circuit board, a positioning column having a first portion, the is arranged above a first side of the circuit board; a central portion disposed in the circuit board; and / or a bottom portion disposed below a second side of the circuit board. The circuit board assembly may include at least one of (i) a first elastic member connected to the upper portion of the positioning column and (ii) a second elastic member connected to the bottom portion of the positioning column.

In the embodiments, an electrical unit may include: a first housing part, a second housing part, a printed circuit board at least partially disposed between the first housing part and the second housing part, and a positioning column having an elastic material. The resilient positioning column may include a tapered first portion disposed above a first side of the printed circuit board, a second portion at least partially disposed in the printed circuit board, and / or a substantially spherical third portion underlying a second side of the printed circuit Printed circuit board is arranged. The central portion may include a recess that may be configured to receive at least a portion of the circuit board. The first housing part may have a conical recess configured to receive the tapered first portion of the positioning column. The second housing member may include a spherical cap-shaped recess configured to receive at least a portion of the substantially spherical third portion.

The foregoing and other aspects, features, details, capabilities and advantages of the present disclosure will become apparent upon reading the following specification and upon consideration of the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS

1 is a perspective view of an interior of a housing and a printed circuit board

2 FIG. 3 is an exploded perspective view of one embodiment of an electrical unit having a first housing part, a second housing part, a circuit board, and a plurality of positioning pillars in accordance with the teachings of the present disclosure.

3 FIG. 13 is a perspective view of one embodiment of a circuit board and a plurality of positioning posts in accordance with the teachings of the present disclosure. FIG.

4 FIG. 4 is a cross-sectional view of one embodiment of an electrical unit having a first housing part, a second housing part, a circuit board, a positioning pillar, a first elastic element, and a second elastic element according to the teachings of the present disclosure.

5 FIG. 4 is a cross-sectional view of one embodiment of an electrical unit having a first housing part, a second housing part, a circuit board, a positioning pillar, a first elastic element, and a second elastic element according to the teachings of the present disclosure.

6A FIG. 12 is a perspective view of one embodiment of a printed circuit board and a positioning pillar in accordance with the teachings of the present disclosure. FIG.

6B FIG. 12 is a perspective view of one embodiment of a printed circuit board, a positioning pillar, and a first elastic member according to the teachings of the present disclosure. FIG.

6C FIG. 12 is a perspective view of one embodiment of a printed circuit board, a positioning pillar, a first elastic member, and a first housing member according to the teachings of the present disclosure. FIG.

6D FIG. 12 is a perspective view of one embodiment of a printed circuit board, a positioning pillar, a first elastic member, a first housing member, and a second elastic member according to the teachings of the present disclosure. FIG.

6E and 6F 13 are perspective views of one embodiment of a printed circuit board, a positioning pillar, a first elastic member, a first housing member, a second elastic member, and a second housing member according to the teachings of the present disclosure.

6G FIG. 3 is a cross-sectional view of one embodiment of a printed circuit board, a positioning pillar, a first elastic member, a first housing member, a second elastic member, and a second housing member according to the teachings of the present disclosure.

7A FIG. 3 is a cross-sectional view of one embodiment of a printed circuit board, a positioning pillar, a first elastic member, a first housing member, a second elastic member, and a second housing member according to the teachings of the present disclosure.

7B FIG. 4 is a perspective view of one embodiment of a positioning column in accordance with the teachings of the present disclosure. FIG.

7C FIG. 3 is a perspective view of one embodiment of a circuit board, a positioning pillar covered by a first resilient member, a first housing member, a second resilient member, and a second housing member, in accordance with the teachings of the present disclosure.

8A FIG. 3 is a cross-sectional view of one embodiment of a printed circuit board, a positioning pillar, a first elastic member, a first housing member, a second elastic member, and a second housing member according to the teachings of the present disclosure.

8B FIG. 4 is a perspective view of one embodiment of a positioning column in accordance with the teachings of the present disclosure. FIG.

8C FIG. 3 is a perspective view of one embodiment of a circuit board, a positioning pillar covered by a first resilient member, a first housing member, a second resilient member, and a second housing member, in accordance with the teachings of the present disclosure.

9A FIG. 12 is a cross-sectional view of one embodiment of a printed circuit board, a positioning pillar, a first housing part, and a second housing part according to the teachings of the present disclosure. FIG.

9B FIG. 12 is a perspective view of one embodiment of a circuit board and a positioning pillar in accordance with the teachings of the present disclosure. FIG.

9C FIG. 12 is a perspective view of one embodiment of a printed circuit board, a positioning pillar, a first housing part, and a second housing part according to the teachings of the present disclosure. FIG.

DETAILED DESCRIPTION

Reference will now be made in detail to embodiments of the present disclosure, examples of which are described herein and illustrated in the accompanying drawings. Although the disclosure will be described in conjunction with embodiments, it will be understood that they are not intended to limit the disclosure to those embodiments. On the contrary, the disclosure is intended to cover alternatives, modifications, and equivalents, which may be included within the spirit and scope of the disclosure.

As generally in 1 shown can be a case 10 a first housing part 12 , a second housing part 14 and a circuit board 16 exhibit. During assembly of the circuit board 16 with the first housing part 12 and the second housing part 14 , the first housing part 12 and / or the second housing part 14 unwanted forces on the circuit board 16 exercise what the circuit board 16 and / or can damage the components attached thereto.

In embodiments, as generally in 2 can be shown, an electrical unit 18 a first housing part 20 , a second housing part 30 , a circuit board 40 and one or more positioning columns 50 include. The electrical unit 18 For example, it may include an electrical enclosure, an electrical junction box, and / or an energy distribution box.

As generally in the 2 and 3 can be shown, in the embodiments, a plurality of positioning columns 50 with the circuit board 40 be connected. For example, but not by way of limitation, a positioning column (eg, the columns 50 ₁ , 50 ₂ , 50 ₃ , 50 ₄ ) at or near each corner of the circuit board 40 (see eg 3 ) can be arranged. The positioning columns 50 can be configured to connect and / or fix the PCB 40 relative to the first housing part 20 and / or the second housing part 30 facilitate.

In embodiments, positioning columns 50 in conjunction with one or more elastic elements 62 . 64 be used. Elastic members may include one or more shapes, sizes, configurations, and / or materials. For example, but not by way of limitation, elastic members may include an elastic material, such as rubber, and / or a generally annular configuration (eg, rubber rings). In embodiments, a first elastic element 62 with an upper section 52 a positioning column 50 connected and / or at least partially around with an upper section 52 a positioning column 50 be arranged and may be configured to connect with the first housing element 20 engages and / or comes into contact. The first elastic element 62 Can be configured to have forces from the first housing part 20 and / or the second housing part 30 absorb and / or compensate, such. B. forces, otherwise on the circuit board 40 issue. A second elastic element 64 can with a bottom section 54 a positioning column 50 connected and / or at least partially around with a bottom portion 54 a positioning column 50 be arranged and can be configured to connect with the second housing part 30 20 engages and / or comes into contact. The second elastic element 64 Can be configured to have forces from the first housing part 20 and / or the second housing part 30 absorb and / or compensate, such. B. forces, otherwise on the circuit board 40 issue.

In embodiments, the strength of the first elastic element 62 and / or the second elastic element 64 according to an average shape (eg, over manufacturing cycles) of the circuit board 40 , the first housing part 20 and / or the second housing. The strengths of the first elastic element 62 and the second elastic member 64 can be the same or not. In the embodiments, the heights 62A . 64A of the first elastic element 62 and the second elastic member 64 be the same or not. For example, but not limiting, the height may be 62A of the first elastic element 62 greater than the height 64A of the second elastic element 64 be. In embodiments, the strengths of each set of first and second elastic members 62 . 64 by the position of the elastic elements 62 . 64 relative to the circuit board 40 vary (eg, according to the average board and package shape) and may or may not be the same. For example, but not limiting, may be a first elastic element 62 ₁ at or near a first corner 40A the circuit board 40 can be arranged and can be stronger than a first elastic element 62 ₂ be that at or near a second corner 40B the circuit board 40 may be arranged and / or the first elastic element 62 ₁ can be about as strong as a first elastic element 62 ₃ , at or near a third corner 40C the circuit board 40 can be arranged (see, for example, 3 ). A second elastic element 62 ₄ can be at a fourth corner 40D the circuit board 40 be arranged. Second elastic elements 64 (eg the second elastic elements 64 ₁ , 64 ₂ , 64 ₄ and another second elastic element, which in 3 is not visible) can correspondingly with positioning columns 50 ₁ , 50 ₂ , 50 ₃ , 50 _{4 are} connected / associated. In the embodiments, positioning columns 50 and first elastic elements 62 and / or a second elastic element 64 that with positioning columns 50 may be associated at different positions relative to the printed circuit board 40 be arranged, which include at or near corners of the circuit board 40 and / or other positions relative to the circuit board 40 , For example, but not by way of limitation, a printed circuit board assembly may have at least three positioning columns 50 with a first and a second elastic element 62 . 64 include, which are connected to which at or near the corners of the circuit board 40 are arranged or not.

In the embodiments as generally in the 4 and 5 may be a positioning column (eg, the columns 150 . 250 ) may be a separate component or may be integral with a housing part 20 . 30 be. For example, but not limiting, may be a positioning column 150 be formed and / or with the second housing part 30 may be formed integrally and may be the same material as a housing part 20 . 30 (eg, a plastic), and / or may comprise another material (eg, metal), and a housing part 20 . 30 can be around the positioning column 150 be trained around. In embodiments, the positioning column may be 150 vertically upwards from a second housing part 30 through the circuit board 40 and in the first housing part 20 extend (see eg 4 ). A first elastic element 62 can with the upper section 160 the positioning column 150 be connected and / or at least partially arranged around it and can at least partially between the first housing part 20 and the circuit board 40 be arranged. A second elastic element 64 can with a bottom section 170 the positioning column 150 connected and / or at least partially arranged around it, and at least partially between the second housing part 30 and the circuit board 40 be arranged. The positioning column 150 may in embodiments have a generally cylindrical shape and may be the same material as the second housing part 30 (eg plastic).

In the embodiments as generally in the 5 . 6A . 6B . 6C . 6D . 6E . 6F and 6G can be shown, a positioning column 250 a first section 260 , a second section 270 and / or a third section 280 include. The first paragraph 260 may be an upper portion of the positioning column 250 correspond, the second section 270 may be a middle section of the positioning column 250 match that between the first section 260 and the third section 280 may be arranged and / or the third section 280 may be a bottom portion of the positioning column 250 correspond. The first paragraph 260 may have a generally cylindrical configuration. The first elastic element 62 can be configured to be at least part of the first section 260 It can, for example, have a cylindrical opening 62B to record the first section 260 be included). The second section 270 can a flange 272 include, which may extend radially outward. The flange 272 can be configured to be adjacent to the PCB 40 is arranged and / or the insertion depth of the positioning column 250 through the circuit board 40 limited. At least part of the second section 270 can in the circuit board 40 be arranged (for example, in and / or through an opening 42 ). The third section 280 For example, it can be a generally flat and rectangular body 282 include. A first tab 284 may be from a first side of the body 282 extend and / or a second tab 286 can be from a second side of the body 282 extend and / or the second tab 286 can be configured to deflect. For example, but not limiting, the third section 280 the positioning column 250 into the circuit board 40 be inserted, and the first tab 284 and / or the second tab 286 can bend in during insertion. Once the positioning column 250 through the circuit board 40 is introduced, so that the tabs 284 . 286 on a floor 46 the circuit board 40 or beyond (eg, when the tabs 284 . 286 not in the opening 42 are arranged), the first tab 284 and / or the second tab 286 bending back outward, reflecting the movement of the positioning column 250 back from the circuit board 40 can restrict. The tabs 284 . 286 can generally move towards the first section 260 extend and / or may be aligned circumferentially. The second elastic element 64 can be configured to be at least part of the third section 280 receives. For example, but not limiting, the second elastic element 64 an opening 64B which may have a generally cylindrical configuration or a rectangular configuration which may include angled portions associated with the first and second tabs 282 . 284 are aligned. The third section 280 may be referred to as a flared portion and / or as a tab portion.

As generally in the 6C - 6G shown, the first housing part 20 be configured to at least a portion of the first elastic element 62 and / or the first section 260 the positioning column 250 take. By way of example, but not limitation, in an assembled configuration (see, e.g. 5 . 6E - 6G ) at least a bit of the first elastic element 62 and the first section 260 the positioning column in a fitting part 22 of the first housing part 22 be arranged. The second housing part 30 may be configured to include at least a portion of the second elastic member 64 and / or the third section 280 the positioning column 250 receives. For example, but not by way of limitation, in an assembled configuration, at least a bit of the second elastic member may be used 64 and the third section 280 the positioning column in a fitting part 32 of the second housing part 30 be arranged.

In the embodiments as generally in the 7A . 7B and 7C can be shown, a positioning column 350 have a generally cylindrical configuration and / or may be hollow. The positioning column 350 can be a first section 360 , a second section 370 and / or a third section 380 include. The first paragraph 360 may be an upper portion of the positioning column 350 correspond, the second section 370 may be a middle section of the positioning column 350 match that between the first section 360 and the third section 380 may be arranged, and / or the third section 380 can, can a bottom section of the positioning column 350 correspond. The positioning column 350 may include, for example, metal. In the embodiments, the positioning column 350 have one or more tabs. By way of example, but not limitation, the positioning column may be a first tab 390 , a second tab 392 , a third tab 394 and / or a fourth tab 396 include. The first tab 390 and / or the second tab 392 can be different from the first section 360 extend and / or may be configured to connect with a first page 44 the circuit board 40 engaged. The third tab 394 and / or the fourth tab 396 can differ from the third section 380 extend and / or be configured to connect with a second page 46 the circuit board 40 engaged. The first tab 390 , the second tab 392 , the third tab 394 and / or the fourth tab 396 may be configured to deflect, for example, during insertion of the positioning column 350 in the circuit board 40 , For example, but not limiting, if the positioning column 350 The third and fourth tabs are introduced from the front 394 . 396 be deflected radially inward when the circuit board 40 pass and can return to the outside as soon as they reach the second page 46 to reach. The first and the second flap 390 . 392 can be a insertion depth of the positioning column 350 through the circuit board 40 limit. When the positioning column 350 from the second page 46 the circuit board 40 is introduced, the first and second tabs can 390 . 392 bend radially inward when passing through the circuit board 40 go through and return to the outside as soon as they reach the first page 46 to reach. The third and the fourth tab 394 . 396 can the insertion depth of the positioning column 350 through the circuit board 40 limit. Once the insertion process is complete, the first tab 390 , the second tab 392 , the third tab 394 and / or the fourth tab 396 the movement of the positioning column 350 relative to the circuit board 40 restrict (eg vertical moment). In the embodiments, the first tab 390 (eg along a direction perpendicular to the PCB 40 ) axially aligned with the second tab 392 be and / or circumferentially to the third tab 394 aligned (eg approximately in same distance from the circuit board 40 ). The fourth tab 396 can be axially aligned with the third tab 394 be and / or in the circumferential direction to the second tab 392 aligned. The first tab 390 may be in the direction of the third tab 394 extend and / or the third tab 394 may be in the direction of the first tab 390 extend. The second tab 392 may be in the direction of the fourth tab 396 and / or the fourth tab 396 may be in the direction of the second tab 392 extend. The first elastic element 62 can be configured to be at least part of the first section 360 absorbs and / or with the first section 360 is connected, and / or at least partially arranged around this, which at least a part of the first tab 390 and / or the second tab 392 which may be within the first elastic member 62 is arranged. The second elastic element 64 can be configured to have at least part of the third section 380 receives and / or with the third section 380 is connected, and / or at least partially arranged around this, which at least a part of the third tab 394 and / or the fourth tab 396 which may be within the second elastic member 64 is arranged. The first paragraph 360 and / or the third section 380 may be referred to as a flared or tab section.

As generally in 7A and 7C is shown, the first housing part 20 be formed so that there is at least a part of the first elastic element 62 and / or the first section 360 the positioning column 350 receives. For example, but not by way of limitation, in an assembled configuration, at least a portion of the first elastic member may 62 and the first section 360 the positioning column in a fitting part 22 of the first housing part 20 be arranged. The passport part 22 of the first housing part 20 can take a lead 22A include, for insertion into the positioning column 350 can be configured. For example, but not limiting, in an assembled configuration, the protrusion may be 22A up to at least about half way between a top 352 the positioning column 350 and the circuit board 40 extend. The lead 22A may for example have a cylindrical configuration. The second housing part 30 may be configured to be at least part of the second elastic element 64 and / or the third section 380 the positioning column 350 receives. By way of example, but not limitation, in an assembled configuration, at least a portion of the second elastic member may 64 and the third section 380 the positioning column in a fitting part 32 of the second housing part 30 be arranged. The fitting part 32 of the second housing part 30 can take a lead 32A include, similar to the projection 22A of the first housing part 20 may be formed, for insertion into the positioning column 350 be configured.

In embodiments, as generally in the 8A . 8B and 8C can be shown, a positioning column 450 have a generally cylindrical configuration and / or may be solid. The positioning column 450 can be a first section 460 , a second section 470 and / or a third section 480 include. The first paragraph 460 may be an upper portion of the positioning column 450 correspond, the second section 470 may be a middle section of the positioning column 450 match that between the first section 460 and the third section 480 is provided, and / or the third section 480 may be a bottom portion of the positioning column 450 correspond. The positioning column 450 may include metal and / or metallic materials. The first paragraph 460 can be a base 462 , a narrow section 464 and / or a head 466 include. The narrow section 464 may have a smaller diameter than other sections of the first section 460 and / or the positioning column 450 exhibit. The base 462 may be adjacent to the second section 470 be provided, the narrow section 464 can be different from the base 466 extend, and / or the head 466 can be different from the narrow section 464 extend (eg, at one end of the first section 460 can be arranged). The head 466 Can be a larger diameter than the narrow section 464 have. The second section 470 the positioning column 450 may be a radially extending flange 472 include, for insertion into the circuit board 40 can be configured. By way of example, but not limitation, one or more radially extending ribs may be used 474 from the flange 472 protrude and can be aligned with the axial direction (eg, perpendicular to the PCB 40 ) be aligned. Ribs 474 They can be configured to fit in the opening 42 the circuit board 40 intervention. In the embodiments, the flange 472 with the circuit board 40 be press-fit / positively connected. The third section 480 the positioning column 450 may have a generally cylindrical configuration and / or may be referred to as a post.

As generally in 8A and 8C is shown, in the embodiments, the first housing part 20 Be configured with the first elastic element 62 and / or the first section 460 the positioning column 450 is in communication, cooperates with and / or at least a portion of the first elastic element 62 and the first section 460 the positioning column 450 receives. For example, but not limiting, can be in one assembled configuration at least a bit of the first elastic element 62 and the first section 460 the positioning column in a fitting part 22 of the first housing part 20 be arranged, and / or the housing part 20 can be the first elastic element 62 compress to a certain extent. The fitting part 22 of the first housing part 20 can an opening 22B that can be configured to head it 466 receives. For example, but not limiting, the head can be configured in an assembled configuration 466 in a chamber 22C of the fitting part 22 be arranged and / or held, and / or at least a part of the narrow section 464 can in the opening 22B be arranged. The second housing part 30 Can be configured to have at least a bit of the second elastic element 64 and / or the third section 480 the positioning column 450 receives. By way of example, but not limitation, in an assembled configuration, at least a portion of the second elastic member may 64 and / or the third section 480 the positioning column 450 in a fitting part 32 of the second housing part 30 be arranged. In the embodiments, the third section may 480 the positioning column 450 not over the second elastic element 64 extend beyond and / or not in the second housing part 30 extend.

In the embodiments as generally in the 9A . 9B and 9C can be shown, a positioning column 550 have a generally cylindrical configuration and / or may be solid. The positioning column 550 can be a first section 560 , a second section 570 and / or a third section 580 include. The first paragraph 560 may be an upper portion of the positioning column 550 correspond, the second section 560 may be a middle section of the positioning column 550 match that between the first section 560 and the third section 580 may be arranged, and / or the third section 580 may be a bottom portion of the positioning column 550 correspond. The positioning column 550 For example, it may include rubber and / or one or more other elastic materials. In the embodiments, the first section 560 have a generally tapered and / or conical configuration. For example, but not by way of limitation, a diameter of the first section may be 560 near the second section 570 be the biggest and can come to an end 562 of the first section 560 decrease. The end 562 of the first section 560 For example, it may be generally planar and / or may be parallel to the circuit board 40 be educated. The second section 570 may have a circumferential recess / groove 572 and / or a ring section 574 include. The recess 572 Can be configured to cover at least part of the PCB 40 can be received and / or configured to have a relative movement between the positioning column 550 and the circuit board 40 limited after the positioning column 550 in the circuit board 40 has been introduced. The ring section 574 can be adjacent to the recess 572 be arranged and / or have a diameter which is greater than that of the recess 572 and / or the first section 560 , The diameter of the ring section 572 can be larger than an opening 42 the circuit board 40 , and / or the ring portion 572 can be configured to have a depth of insertion of the positioning column 550 through the circuit board 40 limited. The third section 580 may be adjacent to the ring portion 574 and / or may be generally rounded and / or spherical. The first paragraph 560 and the third section 580 may include one or more of a variety of configurations. For example, but not limiting, both the first section 560 as well as the third section 580 generally have a tapered shapes, which are designed so that they from the housing parts 20 . 30 may be included and / or have a generally cylindrical shapes which is configured so that they from the housing part 20 . 30 can be accommodated (eg conical / bevelled recesses / openings).

As generally in 9A and 9C is shown, the first housing part 20 be configured to at least part of the first section 560 the positioning column 550 take. By way of example, but not limitation, in an assembled configuration, at least a bit (eg, about half) of the first section may be 560 the positioning column in a tapered recess 22D a fitting part 22 of the first housing part 20 be arranged. The second housing part 30 can be configured to be at least a bit of the third section 580 the positioning column 550 receives. For example, but not limiting, a passport part 32 of the second housing part 30 a recess 32B which may have a generally hemispherical or spherical cap shape. in an assembled configuration, at least a bit (eg, about a quarter) of the third section may be 580 the positioning column in the recess 32B be arranged. The positioning column 550 can be configured for a ring padding effect.

In embodiments, a positioning column (eg, columns 50 . 250 . 350 . 450 . 550 ) may be a single, unitary component and / or comprise a single material (eg, a metal, an alloy, a polymer, etc.).

In some figures, parts of certain elements (eg, the first housing part 20 , the second housing part 30 , the circuit board 40 etc.) may not be shown and / or hidden to make it easier to illustrate other elements.

Here, various embodiments for various devices, systems and / or methods will be described. Numerous specific details are set forth in order to provide a thorough understanding of the overall structure, function, manufacture, and use of the embodiments as described in the specification and illustrated in the accompanying drawings. However, it will be understood by those skilled in the art that the embodiments may be practiced without specific details. in other instances, known processes, components and elements have not been described in detail so as not to obscure the embodiments described in the specification. It will be understood by those skilled in the art that the embodiments described and illustrated herein are non-limiting examples, and it is therefore to be understood that the specific structural and functional details disclosed herein may be representative and do not necessarily limit the scope of the embodiments.

The reference in the specification to "various embodiments", "having embodiments", "in embodiments" or "an embodiment" or the like means that a particular feature, structure or characteristic described in connection with the embodiment is disclosed in US Pat at least one embodiment is included. Thus, the appearances of the phrases "in various embodiments", "having embodiments", "in embodiments" or "an embodiment" or the like at locations throughout the specification do not necessarily all refer to the same embodiment. Furthermore, the particular features, structures, or properties may be combined in any suitable manner in one or more embodiments. Thus, the particular features, structures, or features illustrated or described in connection with one embodiment may be wholly or partially combined with the features, structures, or characteristics of one or more other embodiments without limitation, as long as that combination is not illogical or malfunctioning ,

It is understood that references to a single element are not limiting and may include one or more such elements. All directional references (eg, plus, minus, top, bottom, up, down, left, right, left, right, top, bottom, top, bottom, vertical, horizontal, right, and left) are used for identification purposes only To assist in understanding the reader of the present disclosure and not to impose any limitations, particularly as to the location, orientation, or use of embodiments.

Link references (eg, attached, coupled, connected, and the like) are to be construed broadly and may include links between a connection of elements and a relative movement between elements. Thus, connection references do not necessarily mean that two elements are directly connected / coupled and in fixed relation to one another. The use of "z. Throughout the description, and is used to provide non-limiting examples of embodiments of the disclosure, and the disclosure is not limited to such examples. It is intended that all matter contained in the above description or illustrated in the accompanying drawings shall be interpreted as illustrative and not restrictive. Changes in detail or structure may be made without departing from the present disclosure.

Moreover, the blending and matching of features, elements, and / or functions between various examples is expressly contemplated herein, so that one of ordinary skill in the art will recognize from this disclosure that features. Elements and / or functions of one example, unless otherwise described, can be included in another example. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the present disclosure without departing from the essential scope thereof. Therefore, it is intended that the present teachings not be limited to the specific examples represented by the drawings and described in the specification, but that the scope of the present disclosure encompass all embodiments falling within the above description and the appended claims.

Claims (20)

An electrical unit comprising: a first housing part; a second housing part; a printed circuit board which is at least partially disposed between the first housing part and the second housing part; a positioning column at least partially disposed in the circuit board; and a first elastic member connected to the positioning pillar between the circuit board and the first housing part. An electrical unit according to claim 1, comprising a second elastic element connected between the printed circuit board and the second housing part with the positioning column. Electrical unit according to claim 2, wherein the positioning column is at least partially disposed in the first housing part and the second elastic element is in contact with the second housing part. The electrical unit of claim 2, wherein the positioning column is integral with the second housing part. The electrical unit of claim 1, wherein the positioning column comprises a first portion, a second portion having a radial flange, and a third portion. The electrical unit of claim 5, wherein the third portion has a flared portion configured for insertion through the circuit board, and wherein at least a portion of the circuit board is disposed between the flared portion and the radial flange. The electrical unit of claim 1, wherein the first elastic member has a first height, the second elastic member has a second height, and the first height is greater than the second height. The electrical unit of claim 1, wherein the positioning column comprises a first flared portion and a second flared portion. The electrical unit of claim 8, wherein at least a portion of the circuit board is disposed between the first flared portion and the second flared portion. The electrical unit of claim 8, wherein the first flared portion and the second flared portion are configured to be inserted through the circuit board. The electrical unit of claim 10, wherein the first flared portion comprises a first tab and a second tab and the second flared portion comprises a third tab and a fourth tab. The electrical unit of claim 11, wherein the positioning column is metal. The electrical unit of claim 12, wherein the positioning column is hollow. The electrical unit of claim 13, wherein the first housing part comprises a projection located in the positioning column. The electrical unit of claim 5, wherein the radial flange has a plurality of ribs configured to engage the circuit board. The electrical unit of claim 5, wherein the first portion has a narrow portion and a head disposed at one end of the narrow portion, wherein the head has a larger diameter than the narrow portion, wherein the first housing part is configured to receive the head , The electrical unit of claim 5, wherein the positioning column is press-fitted to the circuit board. Circuit board assembly comprising: a circuit board; a positioning column with: a first portion disposed above a first side of the circuit board; a central portion disposed in the circuit board; and a bottom portion disposed below a second side of the circuit board; at least one of (i) a first elastic member connected to the upper portion of the positioning column, and (ii) a second elastic member connected to the bottom portion of the positioning column. Electrical unit comprising: a first housing part; a second housing part; a printed circuit board which is at least partially disposed between the first housing part and the second housing part; and a positioning column with an elastic material, wherein the positioning column is at least partially disposed in the first housing part and at least partially in the second housing part. The electrical unit of claim 19, wherein the positioning column comprising the resilient material comprises: a tapered first portion disposed above a first side of the circuit board; a second portion at least partially disposed in the circuit board; and a substantially spherical third portion disposed below a second side of the circuit board; the central portion having a recess configured to receive at least a portion of the circuit board; the first Housing part has a conical recess which is configured to receive the tapered first portion of the positioning column; and the second housing part has a spherical cap-shaped recess configured to receive at least a portion of the substantially spherical third section.

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