WO2016113860A1

WO2016113860A1 - Component attaching mechanism

Info

Publication number: WO2016113860A1
Application number: PCT/JP2015/050783
Authority: WO
Inventors: 貴裕六門
Original assignee: 三菱電機株式会社
Priority date: 2015-01-14
Filing date: 2015-01-14
Publication date: 2016-07-21
Also published as: JP6266134B2; CN207075152U; JPWO2016113860A1

Abstract

A substrate (4) is attached to a base member 2 by being covered with a cover member (3). Spring sections (3g-1 to 3g-4) of the cover member (3) press the substrate (4) to the base member (2) side by being in contact with the substrate. Supporting sections (2b-1 to 2b-4) of the base member (2) are provided at positions facing substrate (4) portions, which are in contact with and being pressed by the spring sections (3g-1 to 3g-4), and support the portions from the base member (2) side.

Description

Parts mounting structure

The present invention relates to a component mounting structure for mounting components such as a substrate to a base member.

Conventionally, the attachment of the substrate to the base member is generally screwed to the base member.
However, in a small-sized substrate, a space for providing a screwing structure such as a screw hole cannot be provided, or the size of the screw and the screw hole needs to be reduced in accordance with the substrate. If the size of the screwing structure is different, the number of screwing steps increases accordingly. Moreover, since the number of parts also increases, the weight of the entire product cannot be denied.

Therefore, conventionally, a component mounting structure that does not use screws has been proposed.
For example, Patent Document 1 discloses a substrate fixing structure in which a substrate is sandwiched between a case and a cover by attaching the cover to the case by engagement of an engagement claw and an engagement hole.
Further, for the purpose of fixing the substrate without play, it is also described that a flexible hinge piece is formed on the cover, and the substrate is pressed to the case side with a protrusion protruding from the tip of the hinge piece. .

JP 2013-153026 A

構造 The structure for attaching the board to the base member by screwing increases the number of screwing steps and the number of parts. In particular, when the size of the substrate is small, it is not possible to secure a space for providing the screwing structure.

On the other hand, the structure described in Patent Document 1 does not require screwing because the cover is engaged and fixed to the case and the substrate is attached to the case.
Further, when the substrate is sandwiched between the cover and the case, ribs provided on the cover are brought into contact with each other so that the substrate is not entirely warped.
However, in this structure, there is no case-side member corresponding to the portion of the substrate pressed by the projection of the hinge piece. For this reason, it is inevitable that partial warping occurs in the portion pressed by the projection of the hinge piece.

When the substrate is partially warped, the stress generated by this warpage continues to be applied to the component mounted on the substrate, causing malfunction of the component and shortening of the component life and possibly damage the component. In particular, when the size of the substrate is small, the stress generated by the partial warping of the substrate is likely to be applied to the component, and there is a high possibility of causing the above-described problems.

The present invention solves the above-described problems, and an object thereof is to obtain a component mounting structure that does not require screwing and can be mounted without warping.

The component mounting structure according to the present invention includes a base member on which a component is arranged and a cover member that covers the component, and the component is sandwiched between the base member and the cover member.
The cover member includes a main body portion that covers the component, a cover-side engagement portion provided at an end portion of the main body portion, and an elastic portion that is provided in the main body portion and abuts against the component and presses against the base member side. .
The base member is provided at a position facing the base side engaging part that engages and fixes the cover side engaging part and the cover member, and the part of the part that the elastic part contacts and presses. And a support part that supports the base member from the side of the base member.

According to this invention, screwing is not required as a structure in which components such as a substrate are sandwiched between a cover member and a base member. In addition, the elastic part of the cover member engaged and fixed to the base member presses the substrate toward the base member, and the point on the substrate to which this pressing force is applied is supported from the opposite side of the substrate on the base member side. Since it is configured, the parts can be attached without warping without warping.

It is a perspective view which shows the inside of the electronic device to which the component attachment structure which concerns on Embodiment 1 of this invention is applied. It is a perspective view which shows the board | substrate arrange | positioned at the area | region A and the area | region A of FIG. FIG. 3 is a diagram showing a cover member in the first embodiment. It is a perspective view which shows the attachment aspect to the base member of the board | substrate using a cover member. It is the perspective view which looked at the component attachment structure which concerns on Embodiment 1 from upper direction. 1 is a side view of a component mounting structure according to Embodiment 1. FIG.

Hereinafter, in order to describe the present invention in more detail, modes for carrying out the present invention will be described with reference to the accompanying drawings.
Embodiment 1 FIG.
FIG. 1 is a perspective view showing the inside of an electronic device 1 to which the component mounting structure according to Embodiment 1 of the present invention is applied, and shows the internal structure of the electronic device 1 with the top plate removed. Further, in FIG. 1, the description of the substrate and the like disposed in the region A of the base member 2 is omitted.
An electronic device 1 having an internal structure shown in FIG. 1 is an example of the electronic device 1 to which the component mounting structure of the present invention is applied, and is an in-vehicle disk reproducing device. Note that the electronic device 1 may be, for example, an in-vehicle navigation device or an audio device with a display. Moreover, it may be a general electronic device without being limited to being mounted on a vehicle. Furthermore, the present invention may be applied to devices other than electronic devices depending on the components to be attached.

The base member 2 is a member corresponding to the base member in the present invention, and has a component placement surface surrounded by a housing frame of the electronic device 1 as shown in FIG. Components in the electronic device 1 are arranged on this component arrangement surface.
The base member 2 may be formed by, for example, sheet metal pressing, or may be formed by die casting using aluminum, magnesium, or the like.

In FIG. 1, the case where the board | substrate 100 is attached to the base member 2 is shown. The substrate 100 is a large-sized substrate that occupies most of the component placement surface of the base member 2.
If the board size is large, a board mounting space other than component mounting can be easily secured. For example, the screwing structure is provided with the four corners of the substrate 100 as spaces for mounting the substrate. Thereby, the board | substrate 100 is attached to the base member 2 using the screw 101. FIG.

On the other hand, it is difficult for a small-sized board to be attached to the region A to secure a board mounting space other than component mounting. For this reason, it is necessary to attach to a base member with the member provided separately from the board | substrate.
Therefore, in the component mounting structure according to the present invention, a cover member provided separately from the substrate is used, and the substrate is sandwiched and attached by the base member and the cover member.

FIG. 2 is a perspective view showing the region A and the substrate 4 arranged in the region A of FIG. 1, and shows a case where the component to be attached in the component attachment structure according to the present invention is the substrate 4.
FIG. 3 is a diagram showing the cover member 3 in the first embodiment. FIG. 3A is a perspective view of the front side of the cover member 3, and FIG. 3B is a perspective view of the back side of the cover member 3.

In the region A of the base member 2, as shown in FIG. 2, positioning pieces 2a-1 to 2a-5, support portions 2b-1 to 2b-5, engagement hole portion 2c, and hook portions 2d-1, 2d- 2 is formed. The positioning pieces 2a-1 to 2a-5 are pieces for positioning the mounting position of the substrate 4 in the region A of the base member 2, and are formed by cutting and raising a sheet metal constituting the base member 2, for example.

The support portions 2b-1 to 2b-4 embody the support portion in the present invention, and are provided so as to protrude from the component arrangement surface of the base member 2.
Further, the support portions 2b-1 to 2b-4 are provided at positions facing the edge of the substrate 4, and are symmetrical on both sides with respect to the center line a of the substrate 4 as shown in FIG. Has been placed.
However, the support portion may be provided asymmetrically as long as the substrate 4 can be supported without play without warping.

The spring portions 3g-1 to 3g-4 of the cover member 3 are disposed so as to press the portion of the substrate 4 that faces the position where the support portions 2b-1 to 2b-4 are disposed. Accordingly, the portion of the substrate 4 pressed by the spring portions 3g-1 to 3g-4 is supported from the base member 2 side by the support portions 2b-1 to 2b-4.
In this way, the substrate 4 is pressed and supported by the base member 2 and the cover member 3 at symmetrical positions on both sides with the center line a as a boundary, so that the substrate 4 is appropriately attached without being inclined on the base member 2. However, as long as the base member 2 and the cover member 3 can support the substrate 4 without warping, the support portion may be provided asymmetrically, and the spring portion may be asymmetrical accordingly. .

In FIG. 2, four support portions 2b-1 to 2b-4 are provided to support the substrate 4 at four locations. However, the present invention is not limited to this.
For example, the substrate 4 may be supported at three locations by providing a total of three support portions, ie, two locations so as to be symmetrical on both sides of the center line a and the center line a. Moreover, you may comprise so that the size of a support part may be enlarged and the part of the board | substrate 4 which a some spring part presses may be supported by one support part. That is, the number of support portions in the present invention may be any number and structure that can support the portion of the substrate 4 pressed by the spring portion.

Unlike the support portions 2b-1 to 2b-4, the support portion 2b-5 supports the end portion of the substrate 4 regardless of the spring portions 3g-1 to 3g-4.
The support portions 2b-1 to 2b-5 are formed integrally with the base member 2 by, for example, sheet metal pressing.

The engagement hole portion 2c embodies the base side engagement portion in the present invention, and engages with an engagement piece portion 3b of a cover member 3 to be described later with reference to FIG. The end of the is engaged and fixed. For example, as shown in FIG. 2, the engagement hole portion 2 c swells a part of the sheet metal constituting the base member 2 from the component placement surface, and the side on which the substrate 4 is placed in the raised portion is the back side of the base member 2. It is formed to penetrate.

Although FIG. 2 shows a case where only one engagement hole 2c is provided in accordance with the engagement piece 3b of the cover member 3, the present invention is not limited to this.
For example, when there are two or more engagement piece portions 3b, two or more engagement hole portions 2c may be provided in accordance with this. Further, the engagement hole 2c may be an elongated hole along the end side of the substrate 4, and the plurality of engagement pieces 3b and one engagement hole 2c may be engaged.
That is, the base-side engagement portion may be any number or size that can be engaged with the cover-side engagement portion when the substrate 4 is attached to the base member 2 using the cover member 3.

The hook portions 2d-1 and 2d-2 are components embodying the hook engaging portion of the base side engaging portion in the present invention, and engaging claws 3c-1 and 3c- described later with reference to FIG. The other end of the main body 3a is engaged and fixed by hooking and engaging the two. For example, as shown in FIG. 2, the hook portions 2d-1 and 2d-2 are obtained by bending a piece of a sheet metal constituting the base member 2 in the direction of the back surface of the base member 2 into a key shape. .

FIG. 2 shows the case where the two hook portions 2d-1 and 2d-2 are provided in accordance with the engaging claws 3c-1 and 3c-2 of the cover member 3. However, the present invention is not limited to this. is not.
For example, only one engaging claw portion may be formed on the cover member 3 and only one hook portion may be formed on the base member 2. Conversely, three or more engaging claws may be formed on the cover member 3, and three or more hooks may be formed in accordance with this.

In addition, although the case where the base side engaging portion is embodied as the hook portions 2d-1 and 2d-2 has been shown so far, it is not limited to this structure.
For example, an engagement hole portion may be used instead of the hook portion. In this case, the engaging claws 3c-1 and 3c-2 of the cover member 3 are hooked and engaged with the opening edge of the engaging hole.
That is, the base side engaging portion may be any structure that can engage with the cover side engaging portion when the substrate 4 is attached to the base member 2 using the cover member 3.

The cover member 3 is a member corresponding to the cover member in the present invention, and is attached to the base member 2 so as to cover the substrate 4.
Further, as shown in FIG. 3A, the cover member 3 includes a main body portion 3a, engagement piece portions 3b, engagement claw portions 3c-1, 3c-2, spring portions 3g-1 to 3g-4, and protrusions. A portion 3f is provided.

The main body 3a is a portion that covers the substrate 4 when the cover member 3 is attached to the base member 2, and is formed as a plate-like portion having a center line b as shown in FIG.
The main body 3a includes spring portions 3g-1 to 3g-4 and a protrusion 3f. The spring portions 3g-1 to 3g-4 are formed on the plate surface portion of the main body portion 3a, and the protrusion 3f is formed so as to protrude from the edge portion on the surface side that faces the substrate 4 of the main body portion 3a. .
Hereinafter, the surface that faces the substrate 4 of the main body 3a is referred to as the back surface, and the opposite surface is referred to as the front surface.

Further, for example, when the cover member 3 is attached to the base member 2 via the substrate 4, when the center line b of the main body 3 a overlaps with the center line a of the substrate 4, the center line b of the main body 3 a. Two protrusions 3f are provided on the side where the engaging piece 3b is arranged so that both sides of the engaging claw 3c-1 and 3c-2 are arranged, so that both sides are symmetrical. Two protrusions 3f are provided.

The engagement piece portion 3b is a component embodying the cover side engagement portion in the present invention, and is provided at the end portion of the main body portion 3a to engage with the base side engagement portion. In the first embodiment, the engagement piece portion 3 b engages with the engagement hole portion 2 c of the base member 2, whereby the end portion of the main body portion 3 a is engaged and fixed to the base member 2. In addition, the engagement piece part 3b is formed along the center line b of the main-body part 3a, for example.

Moreover, the engagement piece part 3b is comprised from the engagement piece 3b1 and the positioning piece 3b2.
As shown in FIG. 3A, the engagement piece 3b1 is a piece that extends outward from the end of the main body 3a. The positioning piece 3b2 is a piece erected from the engagement piece 3b1, and contacts the opening edge of the engagement hole 2c to determine the insertion position of the engagement piece 3b1. That is, the engaging piece 3b1 is inserted into the engaging hole 2c up to a position where the positioning piece 3b2 contacts the opening edge of the engaging hole 2c.
The engaging piece 3b1 can be bent in the vertical direction (front and back direction of the cover member 3) as a cantilever connected to the main body 3a.

The engaging claw portions 3c-1 and 3c-2 are components embodying the cover side engaging portion in the present invention, and are hooked and engaged with the hook portions 2d-1 and 2d-2 of the base member 2 to form the main body. The other end of the portion 3 a is engaged and fixed to the base member 2.
Note that the engaging claw portions 3c-1 and 3c-2 are formed so as to be symmetrical on both sides with respect to the center line b of the main body portion 3a, for example, so that the cover member 3 is not biased to the base member 2. Can be attached.

Further, as shown in FIG. 3A, the engaging claws 3c-1 and 3c-2 include a beam portion 3d extending outward from the other end portion of the main body portion 3a and an engaging claw 3e connected to the beam portion 3d. Consists of
The beam portion 3d can be bent in the vertical direction (front and back direction of the cover member 3) as a cantilever beam connected to the main body portion 3a. The engaging claw 3e is connected to the free end of the beam portion 3d and has a tip formed in a key shape, and moves in the vertical direction with respect to the main body portion 3a according to the bending of the beam portion 3d.

In the engagement claw portions 3c-1 and 3c-2, an engagement hole may be formed at the tip of the beam portion 3d instead of the engagement claw 3e. In this case, the hook portions 2d-1 and 2d-2 are changed to a shape that is hooked and engaged with the opening edge portion of the engagement hole. That is, according to the present invention, the cover side engaging portion and the base side engaging portion may be hooked and engaged by uneven engagement, and in that case, a convex portion or a concave portion may be provided in either case.

The spring portions 3g-1 to 3g-4 are components embodying the elastic portion in the present invention. When the cover member 3 is attached to the base member 2, the spring portions 3g-1 to 3g-4 are brought into contact with the base plate 4 to the base member 2 side. Press. For example, when the cover member 3 is attached to the base member 2 via the substrate 4, if the center line b of the main body 3a overlaps the center line a of the substrate 4, the spring portions 3g-1, 3g-2 The spring portions 3g-3 and 3g-4 may be formed symmetrically on both sides with respect to the center line b of the main body portion 3a as shown in FIG. 3 (a). Thereby, the board | substrate 4 can be pressed to the base member 2 side without bias.

As shown in FIG. 3B, the spring portions 3g-1 to 3g-4 are configured to include a base portion 3h, a beam portion 3i, and a protrusion 3j. The base 3h is formed in the main body 3a, and beam portions 3i are connected to both sides. That is, each of the spring part 3g-1, the spring part 3g-2, the spring part 3g-3, and the spring part 3g-4 has a cantilever structure in which the beam part 3i is connected to both sides of the base part 3h. The beam portion 3i can be bent in the vertical direction (front and back direction of the cover member 3) with the base portion 3h as a fulcrum. The protrusion 3j is provided to protrude from the free end of the beam portion 3i in the back surface direction.

When the cover member 3 is attached to the base member 2, the spring portions 3g-1 to 3g-4 are pressed against the base member 2 by the protrusions 3j coming into contact with the substrate 4. As described above with reference to FIG. 2, the support portions 2 b-1 to 2 b-4 are disposed on the base member 2 at positions facing the portion where the protrusion 3 j contacts the substrate 4. With this configuration, the pressing force from the spring portions 3g-1 to 3g-4 is received by the support portions 2b-1 to 2b-4, and partial warping of the substrate 4 is prevented.

Although FIG. 3 shows a configuration in which the cover member 3 has four spring portions 3g-1 to 3g-4, the present invention is not limited to this.
For example, a total of three spring portions may be provided at two locations so as to be symmetrical on one side through which the center line b passes and on both sides of the center line b, and the substrate 4 may be pressed at three locations.
That is, the elastic part in this invention should just be the number and structure which can press the part of the board | substrate 4 which opposes the support part.

Next, attachment of the substrate 4 to the base member 2 using the cover member 3 will be described.
FIG. 4 is a view showing a manner of attaching the substrate 4 to the base member 2 using the cover member 3.
FIG. 5 is a perspective view of the component mounting structure according to the first embodiment as viewed from above. FIG. 6 is a side view of the component mounting structure according to the first embodiment.
First, the substrate 4 is placed on the base member 2 as shown in FIG.
Next, as shown in FIG. 4, the engagement piece 3 b of the cover member 3 is engaged with the engagement hole 2 c of the base member 2. At this time, the engaging piece 3b1 of the engaging piece 3b is inserted to a position where the positioning piece 3b2 contacts the opening edge of the engaging hole 2c.

Next, with the portion where the engagement piece 3b1 inserted into the engagement hole 2c is in contact with the opening edge of the engagement hole 2c as a rotation fulcrum, the cover member 3 is used as the hook portion 2d of the base member 2. -1 and 2d-2 are rotated in the B direction, and the engaging claws 3c-1 and 3c-2 are hooked and engaged with the hooks 2d-1 and 2d-2. Thereby, as shown in FIG. 5, the substrate 4 is attached to the base member 2 while being covered with the cover member 3.
Thus, the component mounting structure according to Embodiment 1 does not require screwing, and the substrate 4 can be mounted on the base member 2 by a simple operation of rotating the cover member 3.

In the state shown in FIG. 5, the spring portions 3g-1 to 3g-4 of the cover member 3 press the substrate 4 via the projections 3j, and the support portions 2b-1 to 2b-4 are spring portions 3g- The portions of the substrate 4 pressed by 1 to 3g-4 are respectively supported. Thereby, the board | substrate 4 can be attached on the base member 2 without backlash | curvature without warping.

In the state shown in FIG. 5, as shown in FIG. 6, the engaging piece 3b1 is bent toward the base member 2, and the engaging piece 3b is engaged with the engaging hole 2c. In the beam portion 3d, the engaging claw portions 3c-1 and 3c-2 are hooked and engaged with the hook portions 2d-1 and 2d-2 while being bent toward the base member 2. At this time, the reaction force of the engagement hole 2c with respect to the force for returning the bending of the engagement piece 3b1 acts as a pressing force for the base member 2 via the protrusion 3f. In other words, the protrusion 3f on the engagement piece 3b side serves as the fulcrum 1 and the cover member 3 is held in a bent state, whereby the base member 2 is pressed by the protrusion 3f. Similarly, the reaction force of the hook portions 2d-1 and 2d-2 against the force for returning the deflection of the beam portion 3d acts as a pressing force on the base member 2 via the protrusion 3f. That is, the protrusion 3f on the side of the engaging claws 3c-1 and 3c-2 serves as the fulcrum 2 and the cover member 3 is held in a bent state, whereby the base member 2 is pressed by the protrusion 3f. . Thus, since the cover member 3 is elastically attached to the base member 2 as a whole, the cover member 3 can be firmly attached to the base member 2.

In the description so far, the case where the component mounting structure according to the present invention is applied to the mounting of the substrate 4 has been described. However, it may be applied to the mounting of the substrate 100 shown in FIG. . That is, the present invention can be applied regardless of the size of the substrate.

In addition, although the case where the component to be attached has been the substrate so far, it may be a component other than the substrate. That is, the component to be attached may be a component having a flat plate shape that can be covered with a cover member, and may be a card connector for inserting and removing a card-shaped recording medium such as an SD card, for example.

As described above, the component mounting structure according to the first embodiment includes the base member 2 on which the substrate 4 is disposed and the cover member 3 that covers the substrate 4, and the substrate 4 is sandwiched between the base member 2 and the cover member 3. To do. The base member 2 includes a base side engaging portion and support portions 2b-1 to 2b-4. The support portions 2b-1 to 2b-4 are provided at positions facing the portion of the substrate 4 to which the spring portions 3g-1 to 3g-4 come into contact and press, and support the portions from the base member 2 side. . The cover member 3 includes a main body portion 3a, a cover side engaging portion, and spring portions 3g-1 to 3g-4.
Thus, since the cover member 3 is engaged and fixed to the base member 2 with the base member 2 and the cover member 3 sandwiching the substrate 4, screwing is unnecessary, and the substrate 4 is attached to the base member 2. Can be attached. Further, in a state where the base member 2 and the cover member 3 are engaged and fixed, the spring portions 3g-1 to 3g-4 of the cover member 3 press the substrate 4 by elastic force, and the pressing force is applied to the support portion 2b- Since it is configured to be supported by 1 to 2b-4, the substrate 4 can be attached without warping.

In the first embodiment, the cover side engaging portion includes an engaging piece portion 3b and engaging claw portions 3c-1 and 3c-2. The engaging piece portion 3b includes an engaging piece 3b1 extending outward from the end of the main body portion 3a and a positioning piece 3b2 provided on the engaging piece 3b1. The engaging claw portions 3c-1 and 3c-2 are engaging claw portions 3c-1 and 3c including a beam portion 3d extending outward from the other end of the main body portion 3a and an engaging claw 3e connected to the beam portion 3d. -2.
The base side engaging portion includes an engaging hole portion 2c and hook portions 2d-1, 2d-2. The engaging hole 2c engages and fixes the end of the main body 3a by inserting the engaging piece 3b1 to a position determined by the positioning piece 3b2 and engaging with the engaging piece 3b. The hook portions 2d-1 and 2d-2 engage and fix the other end portion of the main body portion 3a when the engaging claws 3c-1 and 3c-2 are hooked and engaged.
Thus, the cover member 3 can be easily attached to the base member 2 by engaging and fixing the cover side engaging portion and the base side engaging portion.

Further, the cover member 3 in the first embodiment includes a protrusion 3f that protrudes from the main body 3a and contacts the base member 2. The engagement piece 3b1 of the engagement piece 3b engages with the engagement hole 2c in a state of being bent toward the base member 2 with the protrusion 3f as a fulcrum. Further, the beam portions 3d of the engaging claws 3c-1 and 3c-2 are hooked and engaged with the hook portions 2d-1 and 2d-2 while being bent toward the base member 2. Thereby, the cover member 3 is elastically fixed to the base member 2. Thereby, the cover member 3 can be firmly attached to the base member 2.

Further, the engaging claw portions 3c-1 and 3c-2 in the first embodiment rotate the cover member 3 with the portion where the engaging piece 3b1 and the opening edge of the engaging hole portion 2c are in contact with each other as a rotation fulcrum. By being moved, the hook portions 2d-1 and 2d-2 are hooked and engaged. Thus, the board | substrate 4 can be attached on the base member 2 by the easy operation | work which rotates the cover member 3. FIG.

In the present invention, any component of the embodiment can be modified or any component of the embodiment can be omitted within the scope of the invention.

Since the component mounting structure according to the present invention does not require screwing and can be mounted without warping components such as a board without warping, there is a possibility that vibration caused by traveling of the vehicle may be transmitted, for example. It is suitable for electronic equipment.

1 Electronic device, 2 base member, 2a-1 to 2a-5, 3b2, positioning piece, 2b-1 to 2b-5 support part, 2c engagement hole part, 2d-1, 2d-2 hook part, 3 cover member, 3a body part, 3b engagement piece part, 3b1 engagement piece, 3c-1, 3c-2 engagement claw part, 3d, 3i beam part, 3e engagement claw, 3f protrusion, 3g-1 to 3g-4 spring Part, 3h base, 3j protrusion, 4 substrate.

Claims

A component mounting structure comprising a base member on which a component is disposed and a cover member covering the component, wherein the component is sandwiched between the base member and the cover member,
The cover member is
A main body covering the component;
A cover side engaging portion provided in the main body portion;
An elastic part that is provided on the main body part and abuts against the component and presses against the base member;
The base member is
A base side engaging portion that engages and fixes the cover member by engaging with the cover side engaging portion;
A component mounting structure comprising: a support portion that is provided at a position facing the portion of the component that contacts and presses the elastic portion and supports the portion from the side of the base member.
The cover side engaging portion is
An engagement piece portion comprising an engagement piece extending outward from an end of the main body and a positioning piece provided on the engagement piece;
A beam portion extending outward from the other end portion facing the end portion of the main body portion and an engagement claw portion including an engagement claw connected to the beam portion;
The base side engaging portion is
An engagement hole for engaging and fixing an end of the main body by inserting the engagement piece to a position determined by the positioning piece and engaging the engagement piece;
The component mounting structure according to claim 1, further comprising a hook engaging portion that is hooked and engaged with the engaging claw portion and engages and fixes the other end portion of the main body portion.
The cover member is
A protrusion that protrudes from the main body and contacts the base member;
The engaging piece is bent toward the base member by using the protrusion as a fulcrum and engaged with the engaging hole, and the beam is bent toward the base member by using the protrusion as a fulcrum. The component mounting structure according to claim 2, wherein the component mounting structure is elastically fixed to the base member by being hooked and engaged with a hook engaging portion.
4. The component mounting structure according to claim 3, wherein the main body portion includes the protrusion serving as a fulcrum for each of the engagement piece and the beam portion.
The engagement claw portion rotates the cover member with a portion where the engagement piece inserted into the engagement hole portion is in contact with an opening edge portion of the engagement hole portion as a rotation fulcrum, The component mounting structure according to claim 2, wherein the component mounting structure is hooked and engaged with the hook engaging portion.
2. The component mounting structure according to claim 1, wherein the component is a substrate.