JP2015185028A - Electronic equipment and fitting member - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve work ability when an implementation component is fitted to a fitting member.SOLUTION: A fitting member 20 comprises: a first fitting part 40; a second fitting part 42; and a leaf spring 44. The first fitting part 40 has a first projection 52 to be inserted into a first hole 110 which is formed on one side face 106 on an auxiliary memory 100. The second fitting part 42 has a second projection 54 to be inserted into a second hole 112 which is formed on the other side face 108 opposite to one side face 106 on the auxiliary memory 100. The leaf spring 44 is disposed independently from the first fitting part 40 and second fitting part 42, and energizes the auxiliary memory 100 from the first fitting part 40 side to the second fitting part 42 side.

Description

  The technology disclosed in the present application relates to an electronic device and a mounting member.

  Examples of the attachment member to which the mounting component is attached include the following. That is, there is an attachment member having a pair of elastic attachment portions and protrusions formed on the pair of attachment portions (see, for example, Patent Document 1). In the mounting operation of the mounting component to the mounting member, the mounting component is disposed between the pair of mounting portions in a state where the mounting portion is elastically deformed in a direction in which the pair of mounting portions expand. Thereafter, the elastic deformation of the pair of attachment portions is returned, the protrusion is inserted into the hole of the mounting component, and the mounting component is attached to the attachment member.

JP 2000-76837 A JP 2000-75958 A JP 2012-248176 A

  However, when using the above-described mounting member, it is necessary to elastically deform the mounting portion on which the protrusion is formed when mounting the mounting component to the mounting member. When the mounting portion on which the protrusion is formed is elastically deformed in this way, the position of the protrusion is displaced, so that the insertion of the protrusion into the hole formed in the mounting component, and hence the mounting work of the mounting component to the mounting member is not performed. There is a risk of difficulty.

  Then, the technique which this application discloses aims at improving workability | operativity at the time of attaching a mounting component to an attachment member as one side surface.

  In order to achieve the above object, according to the technique disclosed in the present application, an attachment member having a first attachment portion, a second attachment portion, and an urging portion is provided. The first mounting portion has a first protrusion that is inserted into a first hole formed on one side surface of the mounting component, and the second mounting portion is on the other side surface opposite to the one side surface of the mounting component. It has the 2nd processus | protrusion inserted in the formed 2nd hole. The biasing portion is provided separately from the first mounting portion and the second mounting portion, and biases the mounted component from the first mounting portion side to the second mounting portion side.

  According to the technique disclosed in the present application, it is possible to improve workability when mounting a mounting component on a mounting member.

It is a perspective view of an electronic device. It is a perspective view of an attachment member. It is a front view of a 1st attaching part and a 2nd attaching part. It is a top view of a leaf | plate spring. It is sectional drawing which looked at the attachment member from the vertical direction. It is a perspective view which shows the process in which a 2.5-inch auxiliary storage device is attached to an attachment member. It is an enlarged view of the A section of FIG. It is a perspective view which shows the process in which a 2.5-inch auxiliary storage device is attached to an attachment member. It is an enlarged view of the B section of FIG. It is a perspective view which shows the process in which a 2.5-inch auxiliary storage device is attached to an attachment member. It is F11-F11 sectional view taken on the line of FIG. It is sectional drawing which shows the process in which a 2.5-inch auxiliary | assistant storage device is attached to an attachment member. It is a perspective view which shows the state with which the 3.5-inch auxiliary storage device was attached to the attachment member. It is the front view which looked at the auxiliary storage device of 3.5 inches shown in FIG. 12, and the attachment member from the vertical direction of the attachment member.

  Hereinafter, an embodiment of the technology disclosed in the present application will be described.

  An electronic apparatus 10 shown in FIG. 1 is, for example, a desktop personal computer, and includes a circuit board 12, a plurality of devices 14 and 16, a housing 18, and an attachment member 20.

  The housing 18 is made of sheet metal and includes a main body member 22 and a rotating member 24. The main body member 22 is mounted with the circuit board 12 and a plurality of devices 14 and 16 such as a power supply device and a blower device. The rotating member 24 is supported so as to be rotatable with respect to the main body member 22. A reading device 26 that reads an optical disk is mounted on the rotating member 24. The rotating member 24 can take a state of being laid down with respect to the main body member 22 and a state of being raised. In FIG. 1, the rotating member 24 is shown in a standing state.

  The attachment member 20 is attached to the rotation member 24 as an example. As will be described later, the mounting member 20 includes a 2.5-inch auxiliary storage device 100 (see FIGS. 6 to 12) and a 3.5-inch auxiliary storage device 120 (FIGS. 13 and 14). Either is selectively attached. The 2.5-inch auxiliary storage device 100 and the 3.5-inch auxiliary storage device 120 are, for example, HDDs (Hard Disk Drives). An SSD (Solid State Drive) may be used as the 2.5-inch auxiliary storage device 100. The 2.5-inch auxiliary storage device 100 is an example of a mounted component, and the 3.5-inch auxiliary storage device 120 is an example of another mounted component.

  The attachment member 20 is made of sheet metal as an example, and includes a main body portion 30 and a pair of side wall portions 32 and 34 as shown in FIG. In the following description of the attachment member 20, for convenience, the X direction is the lateral direction of the attachment member 20, the Y direction is the longitudinal direction of the attachment member 20, and the Z direction is the height direction of the attachment member 20.

  The main body portion 30 is formed in a rectangular shape in plan view, and includes a plurality of bulging portions 36 and 38, a pair of first mounting portions 40, a pair of second mounting portions 42, a leaf spring 44, Positioning part 46.

  The plurality of bulging portions 36 and 38 are formed at the four corners of the main body 30. One bulging portion 36 and the other bulging portion 38 are spaced apart from each other in the lateral direction of the mounting member 20. Further, one and the other of the pair of bulging portions 36 are spaced apart in the longitudinal direction of the mounting member 20, and one and the other of the pair of bulging portions 38 are spaced apart in the longitudinal direction of the mounting member 20. Yes. One and the other of the pair of bulging portions 36 have substantially the same shape, and one and the other of the pair of bulging portions 38 have substantially the same shape. Also, as shown in FIG. 3, the bulging height h1 of one bulging portion 36 and the bulging height h2 of the other bulging portion 38 are substantially the same.

  As shown in FIG. 2, a first through hole 48 penetrating in the height direction of the bulging portion 36 is formed in the upper end portion 36 </ b> A in the height direction of one bulging portion 36. Similarly, a first through hole 50 penetrating in the height direction of the bulging portion 38 is formed in the upper end portion 38A of the other bulging portion 38 in the height direction.

  The first mounting portion 40 is erected from the upper end portion 36A in the height direction of one bulging portion 36, and the second mounting portion 42 is extended from the upper end portion 38A in the height direction of the other bulging portion 38. It is erected. One and the other of the pair of first mounting portions 40 are formed at substantially the same position in the lateral direction of the mounting member 20, and one and the other of the pair of second mounting portions 42 are the sides of the mounting member 20. It is formed at substantially the same position in the direction. Further, one and the other of the pair of first mounting portions 40 have substantially the same shape, and one and the other of the pair of second mounting portions 42 have substantially the same shape.

  More specifically, the first mounting portion 40 is erected from an edge portion on the opposite side to the other bulging portion 38 in the upper end portion 36A in the height direction of the one bulging portion 36. On the other hand, more specifically, the second mounting portion 42 is erected from an edge portion on the opposite side to the one bulging portion 36 in the upper end portion 38A in the height direction of the other bulging portion 38. The first attachment portion 40 and the second attachment portion 42 are formed in a wall shape in which the lateral direction of the attachment member 20 is the plate thickness direction.

  A first protrusion 52 that protrudes toward the second attachment portion 42 is formed at the upper end of the first attachment portion 40 in the height direction. On the other hand, a second projection 54 that protrudes toward the first mounting portion 40 is formed at the upper end of the second mounting portion 42 in the height direction.

  As shown in FIG. 3, the first protrusion 52 is formed in a pin shape extending toward the second attachment portion 42, and the second protrusion 54 is stretched toward the first attachment portion 40. It is formed in a dome shape. The height h3 from the upper end portion 36A in the height direction of one bulging portion 36 to the central axis of the first protrusion 52 is the center of the second protrusion 54 from the upper end portion 38A in the height direction of the other bulging portion 38. It is substantially the same as the height h4 to the shaft. That is, both the first protrusion 52 and the second protrusion 54 are formed at substantially the same height in the height direction of the mounting member 20. Further, the protruding length A1 of the first protrusion 52 with respect to the first mounting portion 40 is longer than the protruding length A2 of the second protrusion 54 with respect to the second mounting portion 42.

  A bent portion 56 that is bent to the opposite side of the first mounting portion 40 is formed on the upper portion of the second mounting portion 42 in the height direction. The bent portion 56 is inclined with respect to the height direction of the mounting member 20 so as to go from the lower end side in the height direction of the second mounting portion 42 toward the upper end side toward the opposite side of the first mounting portion 40. Has been.

  As shown in FIG. 2, the leaf spring 44 is provided separately from the first attachment portion 40 and the second attachment portion 42. The leaf spring 44 is an example of an urging portion, and is provided between the pair of first attachment portions 40 as an example. The leaf spring 44 is formed in a long plate shape in which the longitudinal direction of the attachment member 20 is the length direction and the height direction of the attachment member 20 is the width direction.

  The leaf spring 44 has an end located on one first attachment portion 40 side (back side) as a fixed end 44A and an end located on the other first attachment portion 40 side (front side). The free end 44B is used. The arm portion 44C between the fixed end 44A and the free end 44B of the leaf spring 44 has a longitudinal direction of the mounting member 20 so as to go toward the second mounting portion 42 from the fixed end 44A toward the free end 44B. It is inclined with respect to. On the other hand, the fixed end 44 </ b> A and the free end 44 </ b> B of the leaf spring 44 are bent with respect to the arm portion 44 </ b> C and extend linearly along the longitudinal direction of the mounting member 20.

  The leaf spring 44 is elastically deformed in the lateral direction of the mounting member 20 when a load in the lateral direction of the mounting member 20 acts on the free end 44B. The free end 44B of the leaf spring 44 is positioned closer to the second attachment portion 42 than the first attachment portion 40 when the leaf spring 44 is in a free state.

  Further, the length of the plate spring 44 in the length direction, the length of the first mounting portion 40 in the height direction, and the length of the second mounting portion 42 in the height direction are set as follows. ing. That is, as shown in FIG. 3, when the upper end portion 36A of the bulging portion 36 and the upper end portion 38A of the bulging portion 38 are used as a reference, the length in the height direction of the first mounting portion 40 is the length L1. The length of the second mounting portion 42 in the height direction is the length L2. Further, as shown in FIG. 4, the length of the leaf spring 44 in the length direction is a length L3. When the lengths L1 to L3 are defined in this way, the length L3 is longer than the lengths L1 and L2. Note that the length L1 and the length L2 are substantially the same.

  As shown in FIG. 2, the positioning portion 46 is formed in a wall shape extending along the lateral direction of the mounting member 20 that is the opposing direction of the first mounting portion 40 and the second mounting portion 42, and the main body portion 30. It is erected from. The positioning portion 46 is located between the first attachment portion 40 and the second attachment portion 42 in the lateral direction of the attachment member 20. Further, the positioning portion 46 is positioned on one side (back side) in the vertical direction of the mounting member 20 with respect to the pair of first mounting portions 40 and the pair of second mounting portions 42.

  The pair of side wall portions 32 and 34 are formed to face the mounting member 20 in the lateral direction, similarly to the first mounting portion 40 and the second mounting portion 42. The pair of side wall portions 32 and 34 are formed in a rectangular wall shape in which the horizontal direction of the mounting member 20 is the plate thickness direction and extends along the vertical direction of the mounting member 20. It is erected from the department.

  A pair of support portions 58 (see also FIG. 8) extending toward the other side wall portion 34 side is formed on one side wall portion 32, and the other side wall portion 34 is formed on the one side wall portion 32 side. A pair of support portions 60 extending toward the surface are formed. The plurality of support portions 58 and 60 are each formed in a tongue shape having the height direction of the mounting member 20 as the plate thickness direction, and have substantially the same shape. The plurality of support portions 58 and 60 are all formed at substantially the same height in the height direction of the mounting member 20.

  Moreover, the position of the height direction of the attachment member 20 in the above-mentioned several support parts 58 and 60, the 1st attachment part 40, and the 2nd attachment part 42 is set as follows. That is, as shown in FIG. 5, the height from the upper end portion 36A in the height direction of one bulging portion 36 to the upper end portion of the first mounting portion 40 is H1, and the height of the other bulging portion 38 is high. The height from the upper end 38A in the vertical direction to the upper end of the second mounting portion 42 is H2. Further, the height from the upper end portion 36A in the height direction of one bulging portion 36 to the upper surface of the support portion 58 is H3, and the upper end portion 38A in the height direction of the other bulging portion 38 to the height of the support portion 60. The height to the upper surface is H4. When the heights H1 to H4 are thus defined, the heights H3 and H4 are higher than the heights H1 and H2. As described above, the plurality of support portions 58 and 60 are formed at positions where the height from the main body portion 30 (the plurality of bulging portions 36 and 38) is higher than that of the first attachment portion 40 and the second attachment portion 42. Yes.

  As shown in FIG. 2, a pair of second through holes 62 are formed in one side wall portion 32, and a pair of second through holes 64 are formed in the other side wall portion 34. The pair of second through holes 62 are spaced apart in the vertical direction of the mounting member 20. Similarly, the pair of second through holes 64 are spaced apart in the vertical direction of the mounting member 20. The plurality of second through holes 62 and 64 are all formed at substantially the same height in the height direction of the mounting member 20. An elastic piece 66 is formed on the other side wall 34. The elastic piece 66 has a fixed end on the upper side in the height direction of the side wall portion 34 and has a free end on the lower side in the height direction of the side wall portion 34. More specifically, the other second through hole 64 is formed in a portion on the free end side of the elastic piece 66.

  Among the structures formed on the mounting member 20 described above, a plurality of bulging portions 36 and 38, first through holes 48 and 50, a first mounting portion 40, a second mounting portion 42, a first protrusion 52, And the 2nd protrusion 54 is for attaching the auxiliary storage device 100 of 2.5 inches mentioned later. On the other hand, among each structure formed in the mounting member 20 described above, the pair of side wall portions 32 and 34, the plurality of support portions 58 and 60, and the plurality of second through holes 62 and 64 are 3.5 described later. This is for attaching an auxiliary storage device 120 of inches.

  Next, a method for attaching the 2.5-inch auxiliary storage device 100 to the attachment member 20 and details of the structure of the attachment member 20 in relation to the 2.5-inch auxiliary storage device 100 will be described.

  As an example, the 2.5-inch auxiliary storage device 100 shown in FIGS. 6 to 12 is attached to the attachment member 20 by a manual operation by an operator. In the operation of attaching the auxiliary storage device 100 to the attachment member 20, first, as shown in FIG. 6, the first attachment portion 40 and the second attachment portion 42 are erected from the main body portion 30 upward in the vertical direction. The mounting member 20 is placed on the work table in a state. When the worker is right-handed and works with the auxiliary storage device 100 with the right hand, the mounting member 20 is arranged so that the leaf spring 44 is positioned on the left side as seen from the worker as shown in FIG. It is preferred that

  Then, the 2.5-inch auxiliary storage device 100 is inserted inside the mounting member 20. At this time, the bottom surface 104 side of the top surface 102 and the bottom surface 104 of the auxiliary storage device 100 is the main body 30 side, and the side where the connector 105 of the auxiliary storage device 100 is located is the front side (operator side). Further, the side end 104A on one side of the bottom surface 104 of the auxiliary storage device 100 is in a state where the auxiliary storage device 100 is tilted so that the one side 106 side is positioned vertically lower than the other side 108 side. It is placed on the upper end portion 36A of one bulging portion 36 (see also FIG. 7).

  Subsequently, the auxiliary storage device 100 slides toward the first mounting portion 40 while sliding the side end portion 104A on one side of the bottom surface 104 of the auxiliary storage device 100 on the upper end portion 36A of the one bulging portion 36. Is done. As described above, the free end 44B of the leaf spring 44 is positioned closer to the second attachment portion 42 than the first attachment portion 40 when the leaf spring 44 is in the free state. Therefore, when the auxiliary storage device 100 is slid toward the first mounting portion 40, one side surface 106 of the auxiliary storage device 100 contacts the free end 44 </ b> B of the leaf spring 44 before the first mounting portion 40. The auxiliary storage device 100 is further slid toward the first mounting portion 40 against the elastic force of the leaf spring 44 in a state where the one side surface 106 is in contact with the free end 44 </ b> B of the leaf spring 44.

  Here, the pair of first protrusions 52 are formed at positions corresponding to the pair of first holes 110 formed on one side surface 106, respectively. That is, the distance between the central axes of the pair of first protrusions 52 is substantially the same as the distance between the central axes of the pair of first holes 110. Further, the height from the upper end portion 36A in the height direction of one bulging portion 36 to the central axis of the first protrusion 52 is substantially the same as the height from the bottom surface 104 of the auxiliary storage device 100 to the central axis of the first hole 110. Are the same. Moreover, each first protrusion 52 is formed thinner than the inner diameter of the first hole 110. For this reason, when the auxiliary storage device 100 is slid toward the first mounting portion 40, the first protrusion 52 is loosely inserted into the first hole 110. The first hole 110 is a screw hole, and its position is defined by the standard of the auxiliary storage device 100.

  Further, when the first protrusion 52 is loosely inserted into the first hole 110 in this way, the side surface 107 (surface opposite to the connector 105) connecting the one side surface 106 and the other side surface 108 in the auxiliary storage device 100. ) Is brought into contact with the positioning portion 46. The positioning portion 46 has the vertical position of the mounting member 20 such that the pair of first protrusions 52 are aligned with the pair of first holes 110 in a state where the side surface 107 of the auxiliary storage device 100 is in contact with the positioning portion 46. Is set. Then, the side surface 107 is brought into contact with the positioning portion 46 and the auxiliary storage device 100 is positioned in the vertical direction of the mounting member 20, whereby the pair of first protrusions 52 are aligned with the pair of first holes 110, and the first The one protrusion 52 is smoothly inserted into the first hole 110.

  Subsequently, when the auxiliary storage device 100 is further slid toward the first attachment portion 40, one side surface 106 comes into contact with the first attachment portion 40 as shown in FIG. 8. Further, since the first protrusion 52 is loosely inserted into the first hole 110 (see FIG. 7) as described above, a gap is formed between the first protrusion 52 and the inner peripheral surface of the first hole 110. Therefore, as shown in the state of FIG. 6 to the state of FIG. 8, the auxiliary storage device 100 can be rotated from the inclined position to the horizontal position with the side end 104A on one side of the bottom surface 104 as a fulcrum. . Then, when the auxiliary storage device 100 is rotated from the tilt position to the horizontal position, the other side end portion 104B of the bottom surface 104 of the auxiliary storage device 100 is placed on the upper end portion 38A of the other bulging portion 38. (See also FIG. 9).

  At this time, a bent portion 56 that is bent on the side opposite to the first mounting portion 40 is formed at the upper portion of the second mounting portion 42 in the height direction. For this reason, even when the auxiliary storage device 100 is rotated from the inclined position to the horizontal position with the side end portion 104A on one side as a fulcrum, the other side end portion 104B of the bottom surface 104 of the auxiliary storage device 100 is attached to the second attachment. Interference with the upper part of the height direction of the part 42 is suppressed.

  Furthermore, the 2nd protrusion 54 is made into the dome shape protruding from the 2nd attaching part 42 as mentioned above. For this reason, when the auxiliary storage device 100 is rotated from the inclined position to the horizontal position using the one side end 104A of the bottom surface 104 as a fulcrum, the other side end 104B contacts the second protrusion 54. However, the other side end 104B can easily get over the second protrusion 54. In this way, the bent portion 56 is formed in the second mounting portion 42 and the second protrusion 54 is formed in a dome shape, whereby the auxiliary storage device 100 is smoothly rotated, and the other side end portion. 104B is smoothly placed on the upper end portion 38A of the other bulging portion 38.

  Further, as shown in FIG. 8, in the state where the auxiliary storage device 100 is slid toward the first mounting portion 40 and the one side surface 106 is in contact with the first mounting portion 40 as described above, the leaf spring 44. Is deformed by being pressed by the auxiliary storage device 100. At this time, the leaf spring 44 is elastically deformed (not plastically deformed) while being deformed by being pressed by the auxiliary storage device 100 until the free end 44B is aligned with the first attachment portion 40 in the lateral direction of the attachment member 20. The thickness, length, material, etc. are set. As a result, the deformation state of the leaf spring 44 when the auxiliary storage device 100 is slid toward the first mounting portion 40 until the one side surface 106 contacts the first mounting portion 40 is the elastic deformation. It is said.

  Further, the distance between the first mounting portion 40 and the second mounting portion 42 is set slightly longer than the lateral length of the auxiliary storage device 100. In the state where the auxiliary storage device 100 is slid toward the first mounting portion 40 and the one side surface 106 is in contact with the first mounting portion 40, the second protrusion 54 and the other side surface as shown in FIG. A gap 70 is formed between the two. The second mounting portion 42 and other side surfaces in a state where the auxiliary storage device 100 is slid toward the first mounting portion 40 and the one side surface 106 is in contact with the first mounting portion 40 (see FIG. 8). The width of the gap 72 between the first protrusion 108 and the gap 108 is set shorter than the protruding length of the first protrusion 52 shown in FIG.

  When the load on the auxiliary storage device 100 by the operator is released from the state in which the one side surface 106 is in contact with the first mounting portion 40, the auxiliary storage device 100 is changed to the first state by the leaf spring 44 shown in FIG. It is urged from the one attachment portion 40 side to the second attachment portion 42 side. Further, the auxiliary storage device 100 is urged by the leaf spring 44 from the first mounting portion 40 side to the second mounting portion 42 side, so that the auxiliary storage device 100 is moved to the second mounting portion 42 as shown in FIG. Slide to the side.

  Here, the pair of second protrusions 54 shown in FIG. 8 are formed at positions corresponding to the pair of second holes 112 formed on the other side surface 108. That is, the distance between the central axes of the pair of second protrusions 54 is substantially the same as the distance between the central axes of the pair of second holes 112. Further, the height from the upper end 38A in the height direction of the other bulging portion 38 to the central axis of the second protrusion 54 is substantially the same as the height from the bottom surface 104 of the auxiliary storage device 100 to the central axis of the second hole 112. Are the same. For this reason, when the auxiliary storage device 100 is slid toward the second mounting portion 42, each second protrusion 54 is inserted into the second hole 112. The second hole 112 is a screw hole like the first hole 110, and its position is defined by the standard of the auxiliary storage device 100.

  When the auxiliary storage device 100 is slid toward the second mounting portion 42 as described above, the other side surface 108 comes into contact with the second mounting portion 42 as shown in FIG. Further, the sliding amount of the auxiliary storage device 100 at this time is such that the gap 72 (between the second mounting portion 42 and the other side surface 108 in a state where the one side surface 106 is in contact with the first mounting portion 40 ( This corresponds to the width of FIG.

  Here, the width of the gap 72 is set to be shorter than the protruding length of the first protrusion 52. In other words, the protruding length of the first protrusion 52 is longer than the width of the gap 72 corresponding to the sliding amount of the auxiliary storage device 100 described above. For this reason, even if the auxiliary storage device 100 is slid toward the second mounting portion 42 by the gap 72 described above, the first protrusion 52 is kept inserted in the first hole 110 as shown in FIG. Is done.

  In the state where the auxiliary storage device 100 is attached to the attachment member 20 (temporarily assembled) as described above, the main body 30 faces the bottom surface 104 of the auxiliary storage device 100. Further, the first attachment portion 40 and the second attachment portion 42 are located on both sides of the auxiliary storage device 100. Further, the plurality of bulging portions 36 are positioned at the four corners of the auxiliary storage device 100 formed in a rectangular parallelepiped shape, and bulge toward the auxiliary storage device 100 to support the bottom surface 104 of the auxiliary storage device 100.

  The plurality of first through holes 48 and 50 formed in the main body 30 are aligned with the plurality of screw holes 114 formed in the bottom surface 104 of the auxiliary storage device 100. Then, as shown in FIG. 12, the attachment member 20 is turned over so that the main body 30 is positioned above the auxiliary storage device 100 in the vertical direction. In this state, the screws 116 are inserted into the first through holes 48 and 50 from the opposite side of the auxiliary storage device 100 with respect to the main body 30, and the screws 116 are screwed into the respective screw holes 114. 30 is fixed to the auxiliary storage device 100.

  As described above, the 2.5-inch auxiliary storage device 100 is attached to the attachment member 20. The attachment member 20 to which the auxiliary storage device 100 is attached is attached to the housing 18 (the rotation member 24) provided in the electronic device 10 shown in FIG.

  Next, a method of attaching the 3.5-inch auxiliary storage device 120 to the attachment member 20 and details of the structure of the attachment member 20 in relation to the 3.5-inch auxiliary storage device 120 will be described.

  The auxiliary storage device 120 of 3.5 inches shown in FIGS. 13 and 14 is different in outer size from the above-described auxiliary storage device 100 of 2.5 inches (see FIGS. 6 to 12). The distance between the pair of side wall portions 32 and 34 is substantially the same as the lateral length of the auxiliary storage device 120 of 3.5 inches. A 3.5-inch auxiliary storage device 120 is inserted between the pair of side wall portions 32 and 34. At this time, the bottom surface 124 side of the top surface 122 and the bottom surface 124 of the auxiliary storage device 120 is the main body 30 side. When the auxiliary storage device 120 is inserted between the pair of side wall portions 32, 34, as shown in FIG. 14, the plurality of support portions 58 projecting from the pair of side wall portions 32, 34 toward the auxiliary storage device 120 side. , 60 (see also FIG. 2) supports the bottom surface 124 of the auxiliary storage device 120.

  In the state where the auxiliary storage device 120 is attached to the attachment member 20 (temporarily assembled state) as described above, the main body 30 faces the bottom surface 124 of the auxiliary storage device 120. In addition, the pair of side wall portions 32 and 34 are positioned on both sides of the auxiliary storage device 120. Further, the plurality of support portions 58 and 60 are located at the four corners of the auxiliary storage device 120 formed in a rectangular parallelepiped shape. The plurality of support portions 58 and 60 are formed at positions where the height from the main body portion 30 is higher than that of the first attachment portion 40 and the second attachment portion 42 as described above. Further, the plurality of support portions 58 and 60 are formed at positions where the height from the main body portion 30 is higher than the positioning portion 46. Therefore, even when the bottom surface 124 of the auxiliary storage device 120 is supported by the plurality of support portions 58 and 60, the bottom surface 124 of the auxiliary storage device 120, the first attachment portion 40, the second attachment portion 42, and the positioning portion 46 A gap is secured between them.

  A plurality of screw holes 126 and 128 are formed on both side surfaces of the auxiliary storage device 120. When the auxiliary storage device 120 is positioned at a normal position in the vertical direction of the mounting member 20 with the bottom surface 124 supported by the plurality of support portions 58 and 60, the plurality of second through holes 62 and 64 are plural. Are aligned with the screw holes 126, 128.

  That is, the distance between the central axes of the pair of second through holes 62 formed in the one side wall 32 is substantially the same as the distance between the central axes of the pair of screw holes 126 formed in one side surface of the auxiliary storage device 120. It is. Similarly, the distance between the center axes of the pair of second through holes 64 formed in the other side wall 34 is substantially the same as the distance between the center axes of the pair of screw holes 128 formed in the other side surface of the auxiliary storage device 120. Are the same. The height from the upper surface of the support portion 58 formed on one side wall portion 32 to the central axis of the second through hole 62 is substantially the same as the height from the bottom surface 124 of the auxiliary storage device 120 to the central axis of the screw hole 126. Are the same. Similarly, the height from the upper surface of the support portion 60 formed on the other side wall portion 34 to the central axis of the second through hole 64 is the height from the bottom surface 124 of the auxiliary storage device 120 to the central axis of the screw hole 128. It is almost the same.

  As described above, the second through holes 62 and 64 are aligned with the screw holes 126 and 128 from the opposite side of the auxiliary storage device 120 to the side walls 32 and 34, respectively. A screw 130 is inserted through 62 and 64. Further, the screw 130 is screwed into the screw holes 126 and 128, whereby the pair of side wall portions 32 and 34 are fixed to the auxiliary storage device 120.

  As described above, the 3.5-inch auxiliary storage device 120 is attached to the attachment member 20. The attachment member 20 to which the auxiliary storage device 120 is attached is attached to the housing 18 (the rotation member 24) provided in the electronic device 10 shown in FIG.

  As described above, the mounting member 20 is selectively selected from the 2.5-inch auxiliary storage device 100 and the 3.5-inch auxiliary storage device 120 having a different external size from the auxiliary storage device 120. It is possible to attach to. The electronic device 10 may include any one of the 2.5-inch auxiliary storage device 100 and the 3.5-inch auxiliary storage device 120 as standard equipment. In the electronic device 10, the 2.5-inch auxiliary storage device 100 and the 3.5-inch auxiliary storage device 120 may be optional items.

  Next, the operation and effect of this embodiment will be described.

  As described above in detail, the attachment member 20 includes a structure for attaching the 2.5-inch auxiliary storage device 100 and a 3.5-inch auxiliary storage device 120 having a different external size from the auxiliary storage device 120. And a structure for mounting. That is, as shown in FIG. 2, the attachment member 20 has a plurality of bulging portions 36 and 38, first through holes 48 and 50, and a first structure as a structure for attaching the 2.5-inch auxiliary storage device 100. The mounting portion 40, the second mounting portion 42, the first protrusion 52, and the second protrusion 54 are provided. The mounting member 20 has a structure for mounting the 3.5-inch auxiliary storage device 120 as a pair of side wall portions 32, 34, a plurality of support portions 58, 60, and a plurality of second through holes 62, 64. Have

  With these structures, it is possible to selectively attach either the 2.5 inch auxiliary storage device 100 or the 3.5 inch auxiliary storage device 120 to the attachment member 20. Accordingly, for example, even when the 2.5-inch auxiliary storage device 100 is replaced and mounted on the electronic device 10 on which the 3.5-inch auxiliary storage device 120 is mounted, the 2.5-inch auxiliary storage device 100 is attached to the mounting member 20. Conversion bracket for mounting can be eliminated. Further, a screw for attaching the conversion bracket to the attachment member 20 can be eliminated. Thereby, since the number of parts can be reduced, the cost can be reduced and the number of assembling steps can be reduced.

  Moreover, the attachment member 20 has the 1st protrusion 52 and the 2nd protrusion 54 which protrude from the 1st attachment part 40 and the 2nd attachment part 42 as a structure for attaching the auxiliary storage device 100 of 2.5 inches. The first protrusion 52 and the second protrusion 54 are inserted into the first hole 110 and the second hole 112 formed in the side surfaces 106 and 108 of the auxiliary storage device 100, respectively (see FIG. 11). In addition, a leaf spring 44 is formed on the attachment member 20, and this leaf spring 44 biases the auxiliary storage device 100 from the first attachment portion 40 side to the second attachment portion 42 side. Accordingly, the auxiliary storage device 100 can be biased toward the second mounting portion 42 by the urging force of the leaf spring 44, so that the first protrusion 52 and the second protrusion 54 are placed in the first hole 110 and the second hole 112, respectively. The inserted state can be maintained.

  Thus, even when the mounting member 20 is turned over as shown in FIG. 12 when the screws 116 are screwed into the plurality of screw holes 114 formed in the bottom surface 104 of the auxiliary storage device 100, the auxiliary storage device 100 has a Omission from the attachment member 20 can be suppressed. For this reason, in order to prevent the auxiliary storage device 100 from falling off the mounting member 20, it is unnecessary to manually hold the top surface 102 of the auxiliary storage device 100. Further, a spacer disposed between the work table and the auxiliary storage device 100 in order to prevent the auxiliary storage device 100 from falling off the mounting member 20 can be eliminated. As a result, the mass productivity and maintainability of the electronic device 10 can be improved.

  In addition, as a structure for preventing the auxiliary storage device 100 from falling off the attachment member 20 even when the attachment member 20 is turned upside down, the first protrusion 52 and the structure for pressing the top surface 102 of the auxiliary storage device 100 are used. A second protrusion 54 is used. The first protrusion 52 and the second protrusion 54 protrude from the first attachment portion 40 and the second attachment portion 42 toward the auxiliary storage device 100, and the first holes formed in the side surfaces 106 and 108 of the auxiliary storage device 100. 110 and the second hole 112. Therefore, as compared with the case where the mounting member 20 is provided with a structure for pressing the top surface 102 of the auxiliary storage device 100, it is possible to prevent the 2.5-inch auxiliary storage device 100 from being limited in thickness. Accordingly, the 2.5-inch auxiliary storage device 100 having various thicknesses can be attached to the attachment member 20.

  Further, when the auxiliary storage device 100 is attached to the attachment member 20, the first protrusion 52 is inserted into the first hole 110 and the auxiliary storage device 100 resists the elastic force of the leaf spring 44. The side surface 106 is brought into contact with the first mounting portion 40 (see FIG. 8). Further, when the load on the auxiliary storage device 100 by the operator is released from this state, the auxiliary storage device 100 is slid toward the second mounting portion 42 by the urging force of the leaf spring 44, and the second protrusion 54 is It is inserted into the two holes 112 (see FIG. 11).

  Here, the leaf spring 44 is provided separately from the first attachment portion 40 and the second attachment portion 42. Therefore, since the positions of the first protrusion 52 and the second protrusion 54 do not change compared to the case where the first attachment part 40 and the second attachment part 42 have a function as a leaf spring, the first protrusion 52 and the second protrusion 54 can be easily inserted into the first hole 110 and the second hole 112. Thereby, workability | operativity at the time of attaching the auxiliary storage device 100 to the attachment member 20 can be improved.

  In addition, since the leaf spring 44 is provided separately from the first attachment portion 40 and the second attachment portion 42, the length of the leaf spring 44 can be easily increased. Therefore, by increasing the length of the leaf spring 44, it is possible to reduce the load when the auxiliary storage device 100 is slid toward the first mounting portion 40 against the elastic force of the leaf spring 44. Thereby, workability | operativity at the time of attaching the auxiliary storage device 100 to the attachment member 20 can be improved more.

  As shown in FIG. 2, the attachment member 20 has a pair of first attachment portions 40, and the leaf spring 44 is provided between the pair of first attachment portions 40. Therefore, for example, compared to the case where the leaf spring 44 is provided outside the pair of first mounting portions 40 instead of between the pair of first mounting portions 40, the mounting member in the direction in which the pair of first mounting portions 40 are arranged (the vertical direction of the mounting member 20). It is possible to ensure a long length of the leaf spring 44 while downsizing 20. In addition, the leaf spring 44 has a length direction in which the pair of first attachment portions 40 are arranged. Therefore, for example, as compared with the case where the plate spring 44 has the height direction of the mounting member 20 as the length direction, the mounting member 20 is downsized in the height direction while ensuring the length of the plate spring 44 is long. be able to.

  Further, the length of the leaf spring 44 in the length direction is longer than the length of the first mounting portion 40 in the height direction and the length of the second mounting portion 42 in the height direction. Therefore, the length of the leaf spring 44 can be reduced while miniaturizing the mounting member 20 in the height direction by suppressing the length in the height direction of the first mounting portion 40 and the length in the height direction of the second mounting portion 42. By securing a long period of time, the urging force for the auxiliary storage device 100 can be secured.

  Further, when attaching the 2.5-inch auxiliary storage device 100 to the mounting member 20, it is assumed that the worker is right-handed and works with the auxiliary storage device 100 with the right hand. Are arranged as follows. That is, as shown in FIG. 6, the side on which the connector 105 of the mounting component is located is the front side in a state where the first mounting portion 40 and the second mounting portion 42 are erected vertically upward from the main body portion 30. When the mounting member 20 is viewed, the leaf spring 44 is located on the left side of the mounting member 20. Therefore, when the worker is right-handed and works with the auxiliary storage device 100 with the right hand, the leaf spring 44 can be suppressed from being hidden with the right hand. This also allows the auxiliary storage device 100 to be attached to the mounting member 20. Workability at the time of attaching to can be improved.

  Further, as shown in FIG. 14, the attachment member 20 has a pair of side wall portions 32, 34, and the pair of side wall portions 32, 34 has a 3.5-inch auxiliary storage device 120. A plurality of support portions 58 and 60 for supporting the bottom surface 124 are formed (see also FIG. 2). The plurality of support portions 58 and 60 are formed at positions where the height from the main body portion 30 is higher than the first attachment portion 40 and the second attachment portion 42 for attaching the 2.5-inch auxiliary storage device 100. Yes. Therefore, even when the auxiliary storage device 120 is supported by the plurality of support portions 58 and 60 and attached to the attachment member 20, the auxiliary storage device 120 is interposed between the bottom surface 124 of the auxiliary storage device 120 and the first attachment portion 40 and the second attachment portion 42. A gap can be secured. Thereby, interference between the bottom surface 124 of the auxiliary storage device 120 and the first attachment portion 40 and the second attachment portion 42 can be suppressed.

  Next, a modification of this embodiment will be described.

  In the present embodiment, an HDD (Hard Disk Drive) or an SSD (Solid State Drive) is preferably used as the 2.5-inch auxiliary storage device 100 and the 3.5-inch auxiliary storage device 120. However, a mounting component other than the HDD or SSD may be attached to the attachment member 20. In addition, a mounting component having a different external size and another mounting component may have different functions, types, and the like.

  In the present embodiment, as a preferred example, the electronic device 10 is a desktop personal computer, but the electronic device 10 may be other than a desktop personal computer.

  In the present embodiment, the leaf spring 44 is used as an example of the urging unit, but a structure or member other than the leaf spring 44 may be used. In this embodiment, one leaf spring 44 is used, but the number of leaf springs 44 may be two or more. Further, the position of the leaf spring 44 may be anywhere on the attachment member 20.

  As mentioned above, although one embodiment of the technique disclosed in the present application has been described, the technique disclosed in the present application is not limited to the above, and various modifications may be made without departing from the spirit of the present invention. Of course, it is possible.

  In addition, the following additional remarks are disclosed regarding the one aspect | mode of the technique which the above-mentioned this application discloses.

(Appendix 1)
A mounting member to which the mounting component is attached is provided,
The mounting member is
A first mounting portion having a first protrusion inserted into a first hole formed on one side surface of the mounting component;
A second mounting portion having a second protrusion inserted into a second hole formed on the other side surface opposite to the one side surface in the mounting component;
A biasing portion that is provided separately from the first mounting portion and the second mounting portion, and biases the mounting component from the first mounting portion side to the second mounting portion side;
Having
Electronics.
(Appendix 2)
The mounting member has a pair of the first mounting portions,
The urging portion is provided between the pair of first mounting portions.
The electronic device according to attachment 1.
(Appendix 3)
The biasing portion is a leaf spring whose length direction is the direction in which the pair of first mounting portions are arranged.
The electronic device according to attachment 2.
(Appendix 4)
The leaf spring has a fixed end at one end of the pair of first mounting portions located on the first mounting portion side, and is positioned on the other first mounting portion side of the pair of first mounting portions. The end to be the free end,
The electronic device according to attachment 3.
(Appendix 5)
The free end of the leaf spring is positioned closer to the second attachment portion than the first attachment portion when the leaf spring is in a free state.
The electronic device according to attachment 4.
(Appendix 6)
The length in the length direction of the leaf spring is longer than the length in the height direction of the first mounting portion and the length in the height direction of the second mounting portion,
The electronic device according to any one of appendix 1 to appendix 5.
(Appendix 7)
The first mounting portion and the second mounting portion are located on the sides of the mounting component,
The deformation state of the biasing portion in a state where the mounting component is slid to the first attachment portion and the one side surface is in contact with the first attachment portion is elastic deformation.
The electronic device according to any one of appendix 1 to appendix 6.
(Appendix 8)
The mounting member is opposed to the bottom surface of the mounting component, and has a main body portion in which the first mounting portion and the second mounting portion are erected,
When the mounting member is viewed with the side where the connector of the mounting component is positioned in the front side in a state where the first mounting portion and the second mounting portion are erected vertically upward from the main body portion, The biasing portion is located on the left side of the mounting member.
The electronic device according to any one of appendix 1 to appendix 7.
(Appendix 9)
The first mounting portion and the second mounting portion are located on the sides of the mounting component,
In a state where the mounting component is slid to the first mounting portion and the one side surface is in contact with the first mounting portion, a gap is formed between the second protrusion and the other side surface. The
The electronic device according to any one of appendix 1 to appendix 8.
(Appendix 10)
In a state where the mounting component is slid toward the second attachment portion by being urged by the urging portion, the first protrusion is maintained in a state inserted in the first hole.
The electronic device according to any one of appendix 1 to appendix 9.
(Appendix 11)
The protruding length of the first protrusion is such that the mounting component is slid toward the first mounting portion and the one side surface is in contact with the first mounting portion and the other mounting portion. Longer than the width of the gap between the sides of the
The electronic device according to any one of Supplementary Note 1 to Supplementary Note 10.
(Appendix 12)
The first protrusion has a longer protrusion length than the second protrusion,
The electronic device according to any one of appendix 1 to appendix 11.
(Appendix 13)
The first protrusion is loosely inserted into the first hole;
The electronic device according to any one of appendix 1 to appendix 12.
(Appendix 14)
The second protrusion has a dome shape protruding from the second attachment portion.
The electronic device according to any one of appendices 1 to 13.
(Appendix 15)
On the upper part in the height direction of the second mounting part, a bent part that is bent on the opposite side to the first mounting part is formed,
The electronic device according to any one of Supplementary Note 1 to Supplementary Note 14.
(Appendix 16)
The mounting member is opposed to the bottom surface of the mounting component, and has a main body portion in which the first mounting portion and the second mounting portion are erected,
In the main body portion, a through hole that is aligned with a screw hole formed in the bottom surface of the mounting component is formed,
The main body is fixed to the mounting component by screwing a screw inserted into the through hole into the screw hole.
The electronic device according to any one of supplementary notes 1 to 15.
(Appendix 17)
The main body is formed with a plurality of bulges that bulge toward the mounting component.
The first mounting portion and the second mounting portion are erected on each of the plurality of bulging portions,
The electronic device according to appendix 16.
(Appendix 18)
The plurality of bulging portions are located at four corners of the mounting component formed in a rectangular parallelepiped shape,
The electronic device according to appendix 17.
(Appendix 19)
The through holes are respectively formed in the plurality of bulged portions.
The electronic device according to appendix 17 or appendix 18.
(Appendix 20)
The main body has a positioning portion that comes into contact with a side surface connecting the one side surface and the other side surface of the mounting component.
The electronic device according to any one of appendix 1 to appendix 19.
(Appendix 21)
The mounting member is selectively mounted with any of the mounting component and another mounting component having a different size from the mounting component.
The mounting member is
Opposite to the bottom surface of the other mounting component, the main body portion in which the first mounting portion and the second mounting portion are erected,
A pair of side wall portions that are erected from the main body portion and fixed to the other mounting components;
Having
The electronic device according to any one of appendix 1 to appendix 20.
(Appendix 22)
The pair of side wall portions are located on both sides of the other mounting component,
The electronic device according to appendix 21.
(Appendix 23)
The mounting member protrudes from the pair of side wall portions toward the other mounting component, and is formed at a position where the height from the main body portion is higher than the first mounting portion and the second mounting portion, A support portion for supporting the bottom surface of the other mounting component;
The electronic device according to Supplementary Note 21 or Supplementary Note 22.
(Appendix 24)
In the main body portion, a first through hole that is aligned with a screw hole formed on the bottom surface of the mounting component is formed,
A second through hole is formed in the pair of side wall portions to match a screw hole formed on a side surface of the other mounting component.
The pair of side wall portions is fixed to the other mounting component by screwing the screw inserted into the second through hole into the screw hole of the other mounting component.
The electronic device according to any one of appendix 21 to appendix 23.
(Appendix 25)
Any one of the mounting component and the other mounting component is provided.
25. The electronic device according to any one of appendices 21 to 24.
(Appendix 26)
The mounting component is a 2.5-inch auxiliary storage device.
The electronic device according to attachment 25.
(Appendix 27)
The other mounting component is a 3.5-inch auxiliary storage device.
The electronic device according to appendix 25 or appendix 26.
(Appendix 28)
A housing to which the mounting member is mounted;
The electronic device according to any one of appendix 1 to appendix 27.
(Appendix 29)
A personal computer,
The electronic device according to any one of appendix 1 to appendix 28.
(Appendix 30)
A first mounting portion having a first protrusion inserted into a first hole formed on one side surface of the mounting component;
A second mounting portion having a second protrusion inserted into a second hole formed on the other side surface opposite to the one side surface in the mounting component;
A biasing portion that is provided separately from the first mounting portion and the second mounting portion, and biases the mounting component from the first mounting portion side to the second mounting portion side;
A mounting member.
(Appendix 31)
The mounting member has a pair of the first mounting portions,
The urging portion is provided between the pair of first mounting portions.
The attachment member according to attachment 30.
(Appendix 32)
The biasing portion is a leaf spring whose length direction is the direction in which the pair of first mounting portions are arranged.
The attachment member according to attachment 31.
(Appendix 33)
The leaf spring has a fixed end at one end of the pair of first mounting portions located on the first mounting portion side, and is positioned on the other first mounting portion side of the pair of first mounting portions. The end to be the free end,
The attachment member according to attachment 32.
(Appendix 34)
The free end of the leaf spring is positioned closer to the second attachment portion than the first attachment portion when the leaf spring is in a free state.
The attachment member according to attachment 33.
(Appendix 35)
The length in the length direction of the leaf spring is longer than the length in the height direction of the first mounting portion and the length in the height direction of the second mounting portion,
The attachment member according to any one of appendix 30 to appendix 34.
(Appendix 36)
The first mounting portion and the second mounting portion are located on the sides of the mounting component,
The deformation state of the biasing portion in a state where the mounting component is slid to the first attachment portion and the one side surface is in contact with the first attachment portion is elastic deformation.
The attachment member according to any one of supplementary notes 30 to 35.
(Appendix 37)
The mounting member is opposed to the bottom surface of the mounting component, and has a main body portion in which the first mounting portion and the second mounting portion are erected,
When the mounting member is viewed with the side where the connector of the mounting component is positioned in the front side in a state where the first mounting portion and the second mounting portion are erected vertically upward from the main body portion, The biasing portion is located on the left side of the mounting member.
The attachment member according to any one of appendix 30 to appendix 36.
(Appendix 38)
The first mounting portion and the second mounting portion are located on the sides of the mounting component,
In a state where the mounting component is slid to the first mounting portion and the one side surface is in contact with the first mounting portion, a gap is formed between the second protrusion and the other side surface. The
The attachment member according to any one of Supplementary Note 30 to Supplementary Note 37.
(Appendix 39)
In a state where the mounting component is slid toward the second attachment portion by being urged by the urging portion, the first protrusion is maintained in a state inserted in the first hole.
The attachment member according to any one of appendix 30 to appendix 38.
(Appendix 40)
The protruding length of the first protrusion is such that the mounting component is slid toward the first mounting portion and the one side surface is in contact with the first mounting portion and the other mounting portion. Longer than the width of the gap between the sides of the
The attachment member according to any one of Supplementary Note 30 to Supplementary Note 39.
(Appendix 41)
The first protrusion has a longer protrusion length than the second protrusion,
The attachment member according to any one of appendix 30 to appendix 40.
(Appendix 42)
The first protrusion is loosely inserted into the first hole;
The attachment member according to any one of appendix 30 to appendix 41.
(Appendix 43)
The second protrusion has a dome shape protruding from the second attachment portion.
The attachment member according to any one of appendix 30 to appendix 42.
(Appendix 44)
On the upper part in the height direction of the second mounting part, a bent part that is bent on the opposite side to the first mounting part is formed,
The attachment member according to any one of appendix 30 to appendix 43.
(Appendix 45)
The mounting member is opposed to the bottom surface of the mounting component, and has a main body portion in which the first mounting portion and the second mounting portion are erected,
In the main body portion, a through hole that is aligned with a screw hole formed in the bottom surface of the mounting component is formed,
The main body is fixed to the mounting component by screwing a screw inserted into the through hole into the screw hole.
45. The attachment member according to any one of supplementary notes 30 to 44.
(Appendix 46)
The main body is formed with a plurality of bulges that bulge toward the mounting component.
The first mounting portion and the second mounting portion are erected on each of the plurality of bulging portions,
The attachment member according to attachment 45.
(Appendix 47)
The plurality of bulging portions are located at four corners of the mounting component formed in a rectangular parallelepiped shape,
47. The attachment member according to appendix 46.
(Appendix 48)
The through holes are respectively formed in the plurality of bulged portions.
48. The attachment member according to appendix 46 or appendix 47.
(Appendix 49)
The main body has a positioning portion that comes into contact with a side surface connecting the one side surface and the other side surface of the mounting component.
50. The attachment member according to any one of appendix 30 to appendix 48.
(Appendix 50)
The mounting component, and the mounting component is an attachment member to which any one of the other mounting components having different outer sizes is selectively attached,
Opposite to the bottom surface of the other mounting component, the main body portion in which the first mounting portion and the second mounting portion are erected,
A pair of side wall portions that are erected from the main body portion and fixed to the other mounting components;
Having
The attachment member according to any one of Supplementary Note 30 to Supplementary Note 49.
(Appendix 51)
The pair of side wall portions are located on both sides of the other mounting component,
The attachment member according to attachment 50.
(Appendix 52)
The mounting member protrudes from the pair of side wall portions toward the other mounting component, and is formed at a position where the height from the main body portion is higher than the first mounting portion and the second mounting portion, A support portion for supporting the bottom surface of the other mounting component;
The attachment member according to attachment 50 or attachment 51.
(Appendix 53)
In the main body portion, a first through hole that is aligned with a screw hole formed on the bottom surface of the mounting component is formed,
A second through hole is formed in the pair of side wall portions to match a screw hole formed on a side surface of the other mounting component.
The pair of side wall portions is fixed to the other mounting component by screwing the screw inserted into the second through hole into the screw hole of the other mounting component.
The attachment member according to any one of appendix 50 to appendix 52.
(Appendix 54)
The mounting component which is a 2.5-inch auxiliary storage device is attached.
54. The attachment member according to any one of appendix 50 to appendix 53.
(Appendix 55)
The other mounting component which is a 3.5 inch auxiliary storage device is attached.
54. The attachment member according to any one of appendix 50 to appendix 53.
(Appendix 56)
Attached to the housing of the electronic equipment,
The attachment member according to any one of appendix 30 to appendix 55.
(Appendix 57)
Attached to the casing of the electronic device which is a personal computer,
The attachment member according to any one of supplementary notes 30 to 56.

DESCRIPTION OF SYMBOLS 10 Electronic device 20 Attachment member 30 Main-body part 32,34 A pair of side wall part 36,38 Swelling part 40 First attachment part 42 Second attachment part 44 Leaf spring (an example of a biasing part)
44A Fixed end 44B Free end 46 Positioning part 48, 50 First through hole 52 First protrusion 54 Second protrusion 56 Bent part 58, 60 Support part 62, 64 Second through hole 66 Elastic piece 100 2.5 inch auxiliary Storage device 110 First hole 112 Second hole 114 Screw hole 116 Screw 120 Auxiliary storage device 126, 128 Screw hole 130 Screw

Claims (9)

A mounting member to which the mounting component is attached is provided,
The mounting member is
A first mounting portion having a first protrusion inserted into a first hole formed on one side surface of the mounting component;
A second mounting portion having a second protrusion inserted into a second hole formed on the other side surface opposite to the one side surface in the mounting component;
A biasing portion that is provided separately from the first mounting portion and the second mounting portion, and biases the mounting component from the first mounting portion side to the second mounting portion side;
Having
Electronics. The mounting member has a pair of the first mounting portions,
The urging portion is provided between the pair of first mounting portions.
The electronic device according to claim 1. The biasing portion is a leaf spring whose length direction is the direction in which the pair of first mounting portions are arranged.
The electronic device according to claim 2. The length in the length direction of the leaf spring is longer than the length in the height direction of the first mounting portion and the length in the height direction of the second mounting portion,
The electronic device according to claim 3. The mounting member is opposed to the bottom surface of the mounting component, and has a main body portion in which the first mounting portion and the second mounting portion are erected,
In the main body portion, a through hole that is aligned with a screw hole formed in the bottom surface of the mounting component is formed,
The main body is fixed to the mounting component by screwing a screw inserted into the through hole into the screw hole.
The electronic device as described in any one of Claims 1-4. The mounting member is selectively mounted with any of the mounting component and another mounting component having a different size from the mounting component.
The mounting member is
Opposite to the bottom surface of the other mounting component, the main body portion in which the first mounting portion and the second mounting portion are erected,
A pair of side wall portions that are erected from the main body portion and fixed to the other mounting components;
Having
The electronic device as described in any one of Claims 1-5. The mounting member protrudes from the pair of side wall portions toward the other mounting component, and is formed at a position where the height from the main body portion is higher than the first mounting portion and the second mounting portion, A support portion for supporting the bottom surface of the other mounting component;
The electronic device according to claim 6. In the main body portion, a first through hole that is aligned with a screw hole formed on the bottom surface of the mounting component is formed,
A second through hole is formed in the pair of side wall portions to match a screw hole formed on a side surface of the other mounting component.
The pair of side wall portions is fixed to the other mounting component by screwing the screw inserted into the second through hole into the screw hole of the other mounting component.
The electronic device according to claim 6 or 7. A first mounting portion having a first protrusion inserted into a first hole formed on one side surface of the mounting component;
A second mounting portion having a second protrusion inserted into a second hole formed on the other side surface opposite to the one side surface in the mounting component;
A biasing portion that is provided separately from the first mounting portion and the second mounting portion, and biases the mounting component from the first mounting portion side to the second mounting portion side;
A mounting member.

Images