JP3623264B2 - Electronic device structure storage mechanism - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to an electronic device assembly housing mechanism, and more particularly to an electronic device assembly housing mechanism that inserts and removes an electronic device assembly such as an IC memory card used in an electronic imaging apparatus or the like.
[0002]
[Prior art]
Conventionally, in an electronic imaging apparatus or the like, for example, an IC memory card or the like is generally applied as an electronic device structure in order to store captured image data or the like.
[0003]
That is, in a conventional general electronic imaging apparatus or the like, a card slot or the like for storing the IC memory card or the like is disposed in the apparatus body, and the IC memory card or the like is disposed inside the card slot or the like. Is to be inserted. At this time, by connecting the connector portion of the IC memory card or the like to the connector portion provided inside the card slot or the like, image data or the like imaged by the electronic imaging device or the like is stored in the IC memory card. Etc. are stored. Furthermore, image data stored in the IC memory card or the like can be output to a device such as a television monitor, a video camera, or a video printer via the electronic imaging device or the like. Yes.
[0004]
The connection between the connector portion of the IC memory card or the like and the connector portion in the card slot of the electronic imaging device or the like is an electronic device structure disposed inside the card slot or the like in the electronic imaging device or the like. It can be freely inserted and removed by an IC memory card ejecting device or the like which is a storage mechanism.
[0005]
Therefore, in the IC memory card ejecting device, the connection between the connector portion of the IC memory card or the like and the internal connector portion of the card slot or the like of the electronic imaging device or the like is easily inserted and removed. Various mechanisms have been proposed and put to practical use.
[0006]
For example, FIGS. 17 and 18 illustrate a schematic perspective view of the mechanism of a conventional IC memory card ejecting apparatus, and the configuration and operation thereof will be briefly described below.
[0007]
First, the attachment / detachment mechanism of the conventional IC memory card ejecting apparatus illustrated in FIG. 17, that is, the ejector main body 100 is slidable in the direction along arrow A in FIG. The support base 103 is arranged in a sliding direction and a sliding range of the support base 103 such that at least two pins 111 fixed to the base portion 102 include the support base 103. It is regulated by engaging with the guide groove 112 of 103.
[0008]
Further, in the elongated hole 109 of the support base 103, a shaft portion 108 serving as a rotation shaft of the link member 106 is fixedly disposed on the base portion 102, and the link member 106 is arranged on the shaft portion 108. It can be rotated around the center. An eject operation member 5 is pivotally supported at one end of the link member 106 via a pivot fulcrum 107, and is formed in the support base 103 at the other end. A locking claw 106A is cut and raised from the link member 106 so as to be locked to one inner wall of the hole 103A.
[0009]
Further, claw portions 104 are provided at both ends in the width direction on the rear end side of the support base 103. The claw portion 104 supports the rear end portion of the IC memory card 101 when the IC memory card 101 is stored in the ejector body 100.
[0010]
A connector portion (not shown) at the rear end of the IC memory card 101 housed in the ejector main body 100 is connected to a connector portion 110 disposed at the rearmost end inside the ejector main body 100. By being inserted, the electronic image pickup apparatus in which the IC memory card ejecting apparatus is disposed and the IC memory card 101 are connected.
[0011]
In the conventional ejector main body 100 configured as described above, when the IC memory card 101 is inserted, the IC memory card 101 is inserted in a direction along arrow A in FIG. Then, the connector portion at the rear end of the IC memory card 101 is inserted by being pushed toward the connector portion 110 of the ejector main body 100, whereby the IC memory card and the electronic imaging device and the like are inserted. It is also electrically connected.
[0012]
Further, when ejecting the IC memory card 101, the link operating member 106 is revolved around the shaft portion 108 in FIG. 17 by pushing the eject operating member 105 in the direction of arrow B in FIG. Accordingly, the locking claw 106A of the link member 106 is locked to the action portion 103B, which is the inner wall of the hole 103A, so that the support base 103 and the support table 103 are supported and stored. The IC memory card 101 is slid in the ejection direction, that is, in the direction along arrow A in FIG.
[0013]
Thereby, the connection between the connector part 110 of the ejector body 100 and the connector part of the IC memory card 101 is released, and the IC memory card 101 can be removed from the inside of the ejector body 100.
[0014]
On the other hand, the attaching / detaching mechanism of another conventional IC memory card ejecting apparatus illustrated in FIG. 18, that is, the ejector body 100A is basically configured similarly to the ejector body 100 illustrated in FIG. Since only the arrangement of the base 103A, the eject operation member 105A, the link member 106A, and the like is slightly different, members different from the above-described conventional example will be described below, and similar members are denoted by the same reference numerals. Description is omitted. FIG. 18 shows a state in which the IC memory card 101 is inserted into the IC memory card ejecting apparatus.
[0015]
As shown in FIG. 18, in a state where the IC memory card 101 is inserted, sliding the eject operation member 105A in the direction of arrow B in FIG. 18 causes the link member 106A to center on the rotation fulcrum 107. As shown in FIG. As a result, the support base 103A slides in the same direction as the eject operation member 105A, that is, the B direction, so that the IC memory card 101 is pushed out by the claw portion 104 at the rear end of the support base 103A. It is supposed to be.
[0016]
Accordingly, the connection between the connector portion of the IC memory card 101 and the connector portion 110 of the ejector body 100A is released, and the IC memory card 101 can be removed from the ejector body 100. ing.
[0017]
By the way, in an electronic imaging device or the like, an IC memory card or the like that stores the captured image data or the like is an IC that is the electronic device structure storage mechanism for storing the IC memory card or the like that is the electronic device structure or the like inside the device body. A device that includes a memory card ejecting device and the like and is provided with a plurality of card slots and the like can be considered.
[0018]
For example, FIG. 19 assumes a case where the plurality of card slots and the like are arranged inside a housing 120 such as an electronic imaging device. That is, the plurality of card slots and the like are arranged inside the casing 120 of the electronic imaging apparatus or the like, and the insertion opening 121 such as the card slot is formed on the side surface or the back surface of the casing 120. It is intended to be provided. Then, by providing a connector portion or the like suitable for the connector portion of the IC memory card or the like inside the card slot or the like, when the IC memory card or the like is inserted into the card slot or the like, the connector The parts are fitted together.
[0019]
FIG. 20 shows another example in which the electronic imaging apparatus shown in FIG. This is an example of the case where the lid 122 is disposed at one end of the housing 120A so as to cover the insertion opening 121 such as the card slot. By providing the lid 122, By blocking the inside of the housing 120A from the outside, for example, dust or the like can be prevented from entering the inside of the apparatus.
[0020]
[Problems to be solved by the invention]
However, according to the conventional means illustrated in FIG. 17, when a large stroke amount of the eject operation member 105, that is, an operation range amount for ejecting the IC memory card 101 is required, the eject operation member 105 Since the protruding amount of the operating member 105 from the outer surface of the apparatus increases and the pressing amount of the eject operating member 105 increases, there is a problem that the operability is not good.
[0021]
Further, according to the conventional means illustrated in FIG. 18, the operation locus of the link member 106A has an arc shape with respect to the plane of the IC memory card 101 to be inserted. There is a problem that.
[0022]
Then, according to the example illustrated in FIG. 19, the insertion opening 121 such as a card slot for storing the IC memory card or the like in the housing 120 of the electronic imaging device or the like is opened to the outside. Therefore, for example, there is a problem in that dust or the like is likely to enter, which adversely affects a connector portion or the like disposed inside the card slot or the like.
[0023]
Further, according to the example illustrated in FIG. 20, since the lid body 122 is disposed so as to cover the insertion opening 121 such as the card slot, dust or the like enters the inside of the housing 120A. Although the anxiety is alleviated, the lid 122 covers all the insertion openings 121 such as the plurality of card slots. Therefore, each time the IC memory card or the like is inserted / removed, for example, The lid 122 must be opened and closed to open the insertion openings 121 for all the card slots and the like, and when this is opened, dust or the like may enter the unused card slots. The problem of being unsolved has not been resolved.
[0024]
Further, in the example illustrated in FIGS. 19 and 20, since there is only one insertion opening 121 provided for the plurality of card slots and the like, for example, as shown in FIG. When the IC memory card 101 or the like is inserted into an empty slot or the like, both ends of the IC memory card 101 or the like to be inserted are guide portions 123 formed of ribs or the like provided in adjacent card slots or the like. There is a possibility that an erroneous insertion such as insertion into the terminal will occur.
[0025]
In addition, when the electronic imaging device or the like is provided with a dedicated card slot or the like for connecting an IC memory card or an I / O card which is an example of an electronic device structure, for example. However, there is also a problem that an electronic device structure such as an incorrect card or device may be inserted into the dedicated card slot or the like.
[0026]
An object of the present invention is to solve the above-mentioned conventional problems, and in an electronic device assembly housing mechanism such as an electronic imaging device for inserting and removing an electronic device assembly such as an IC memory card, an electronic device having better operability A structure storage mechanism is provided.
[0028]
[Means for Solving the Problems]
The electronic device assembly housing mechanism according to the present invention has a fitting connector portion of the other type for fitting a plate-shaped electronic device assembly having a fitting connector portion of one type in the back of the opening for inserting the electronic device assembly. In the electronic device assembly housing mechanism, the applied electronic device assembly is extended in a direction substantially perpendicular to the insertion / removal direction of the electronic device assembly to / from the connector portion.,A guide member disposed in the vicinity of the opening for inserting the electronic device structure,An operation unit is disposed on the same surface as the surface on which the opening for inserting the electronic device structure is formed.An eject operation member guided by the guide member and slidably displaced along the extension direction of the guide member;A support base that is supported so as to be movable along the insertion / removal direction of the electronic device assembly, and that abuts and pushes against the rear end of the electronic device assembly;In conjunction with the sliding displacement of the eject operation memberAbove support stand aboveElectronic device structureButEscape from the connectorBe donedirectionTo be displaced toAnd a displacement conversion member.
[0029]
The eject operation member is guided by the guide member so as to be slidable along the longitudinal direction of the rectangular electronic device assembly insertion opening, and the displacement conversion member is connected to the support base at the other end. It is a link member in which a part is pivotally supported and the one end part is pivotally supported by the above-mentioned eject operation member.
[0033]
[Operation]
In the above configurationAnd a guide member disposed in the vicinity of the opening for inserting the electronic device structure so as to extend in a direction substantially orthogonal to the insertion / removal direction of the applied electronic device structure to the connector portion.Eject operation memberGuide and slide and displace along the extending direction of the guide member. In conjunction with the sliding displacement of the eject operation member, the displacement conversion memberDisplaces the support stand that abuts and pushes against the rear end of the electronic device assembly in a direction in which the electronic device assembly is withdrawn from the connector.
[0034]
The displacement converting member is formed of a link member whose one end is pivotally supported by the eject operation member and whose other end is pivotally supported by the support base. Displaces in conjunction with sliding displacement.
[0035]
【Example】
Hereinafter, the present invention will be described with reference to the illustrated embodiments.
FIG. 1 is an external perspective view showing an outline of an electronic device assembly housing mechanism according to a first embodiment of the present invention, in which an electronic device assembly such as an IC memory card is not accommodated in the electronic device assembly housing mechanism. Indicates the state.
[0036]
As shown in FIG. 1, the ejector main body 0 forming the attachment / detachment mechanism of the IC memory card ejecting apparatus which is the electronic device assembly housing mechanism in the first embodiment is the IC memory which is the electronic device assembly inserted therein. A base portion 2 that also serves as a guide member for guiding a card and the like, and a base 3 that is slidable in the direction along arrow A in FIG. It is configured.
[0037]
At least two pins 11 are fixed to the inner wall surface of the base portion 2 toward the inside, and the two pins 11 are formed in the flat portion of the support base 3 respectively. The two guide grooves 12 are engaged. When the support base 3 slides in the direction along arrow A in FIG. 1, the two pins 11 slide along the guide groove 12, so that the support base 3 slides. In addition, the sliding direction and the sliding range of the support base 3 are regulated.
[0038]
Further, an action pin 8 is fixedly planted at a substantially central portion on the front side of the support base 3, and one end portion of the link member 6 forming the displacement converting member is freely rotatable on the action pin 8. The other end of the link member 6 is pivotally supported by one end of an eject operation member 5 (described later).
[0039]
Then, one end portion of a biasing spring 13 that is biasing means is engaged at a position near the middle front side of the link member 6, and the other end portion of the biasing spring 13 is The base member 2 is engaged with a fixing member. The link member 6 is always urged by the urging spring 13 in a direction orthogonal to the insertion direction when the IC memory card or the like is inserted.
[0040]
On the other hand, claw portions 4 are provided at both end portions in the width direction on the rear end side of the support base 3. The claw portion 4 is a support member provided to support a rear end portion of the IC memory card or the like when the IC memory card or the like is accommodated in the ejector body 0, and the IC When ejecting a memory card or the like, the claw portion 4 comes into contact with a rear end portion of the IC memory card or the like and pushes it out.
[0041]
A connector portion (not shown) disposed at the rear end of the IC memory card or the like housed in the ejector body 0 is disposed in the back of the electronic device assembly insertion opening of the ejector body 0. By fitting with the connector portion 10 provided, an electric circuit (not shown) such as an electronic imaging device in which the ejector body 0 is disposed is connected to the IC memory card or the like. It has become.
[0042]
On the other hand, the ejection operation member 5 is disposed on the front side of the base portion 2, that is, on the guide portion 14 which is a guide member in the vicinity of an insertion opening for an IC memory card or the like. It is designed to be slid. Further, as described above, since the eject operation member 5 is pivotally supported on the other end portion of the link member 6, the above-described urging spring 13 for urging the link member 6 is used to Is always biased in the direction opposite to the arrow B direction.
[0043]
The eject operation member 5 is regulated by the stopper member (not shown) of the base portion 2 to be slid in the reverse direction of the arrow B by the biasing spring 13. The eject operation member 5 does not slide over a predetermined amount.
[0044]
The operation of the IC memory card ejecting apparatus attaching / detaching mechanism of the first embodiment configured as described above will be described below.
[0045]
FIG. 2 shows the state of the attachment / detachment mechanism when an IC memory card or the like is inserted into the ejector body 0. FIG. 3 shows the attachment / detachment mechanism when the IC memory card or the like is ejected from the ejector body 0. Shows the state. In FIGS. 2 and 3, in order to prevent the drawings from becoming complicated, an IC memory card or the like is illustrated by a two-dot chain line, and members not directly related to the description of the operation are omitted.
[0046]
First, the operation when the IC memory card 1 or the like is ejected from the ejector body 0 will be briefly described. In the state shown in FIG. 2, the eject operation member 5 is slid along the guide portion 14 in the direction of arrow B. By moving, the support base 3 slides in the direction along the arrow A, which is substantially perpendicular to the arrow B direction, via the link member 6, and shifts to the state shown in FIG. As a result, the IC memory card 1 and the like housed in the ejector body 0 are ejected.
[0047]
Further, the operation of the IC memory card ejecting device attaching / detaching mechanism will be described in detail. First, as shown in FIGS. 1 and 2, when the IC memory card 1 or the like is inserted into the IC memory card ejecting device, The IC memory card 1 or the like is inserted by sliding in the direction along arrow A in FIGS. Then, the rear end portion of the IC memory card 1 or the like comes into contact with the claw portion 4 and is supported by this so as to be stored in the IC memory card ejecting device together with the support base 3. Then, the connector portion at the rear end of the IC memory card 1 or the like is inserted into the connector portion 10 of the ejector body 0 to be fitted.
[0048]
When ejecting the IC memory card 1 or the like, as shown in FIGS. 1 and 3, the eject operating member 5 is moved in the direction of arrow B in FIG. 1 against the biasing force of the biasing spring 13. By slidably moving the link member 6, the link member 6 rotates counterclockwise in FIG. Along with this, the support base 3 slides in the ejecting direction, that is, the direction along the arrow A in FIG. 1, so that the claw portion 4 of the support base 3 is at the rear end of the IC memory card 1 or the like. It abuts and pushes it out.
[0049]
Thus, the fitting between the connector portion 10 of the ejector body 0 and the connector portion of the IC memory card 1 or the like is released, and the IC memory card 1 or the like is detached from the inside of the ejector body 0.
[0050]
At this time, when the IC memory card 1 or the like is completely ejected to the outside of the ejector body 0, the eject operation member 5 is inserted into the eject operation member 5 by the biasing force of the biasing spring 13. Will return to the initial position.
[0051]
FIG. 4 is a graph showing the relationship between the amount of operation of the eject operation member (5, 105) and the amount of operation force during the eject operation of the IC memory card eject device.
[0052]
That is, in FIG. 4, the vertical axis indicates the amount of operation force with respect to the eject operation member (5, 105), the connector portion in the IC memory card eject device such as the electronic imaging device, and the connector portion such as the IC memory card. The horizontal axis represents the amount of operation of the eject operation member (5, 105) during the eject operation of the IC memory card eject device, and the relationship It represents. In addition, in this FIG. 4, the case where the fitting length in the said connector part is 5 mm is illustrated.
[0053]
Further, in FIG. 4, for example, the data of the conventional ejecting apparatus illustrated in FIG. 17 described above is indicated by a curve indicated by a broken line, and the data of the ejecting apparatus according to the first embodiment is indicated by a curve indicated by a solid line. ing.
[0054]
As shown in FIG. 4, in the conventional ejecting apparatus, when the operation amount of the eject operation member (105) is, for example, 10 mm, the operation force amount with respect to the eject operation member (105) is the connector portion. However, according to the ejection device of the first embodiment, when the operation amount of the ejection operation member (5) is set to 10 mm, the ejection operation member (5 ) Is 0.4 times the connector fitting force, and this data is about 80% lower than the data obtained by the conventional ejecting device.
[0055]
FIG. 5 is a graph showing a change in the operation force amount of the eject operation member (5, 105) at the time of the eject operation of the IC memory card ejecting apparatus, and the vertical axis shows the operation force amount F. The amount of operation is shown on the horizontal axis. It is assumed that the connector fitting force F0 and the connector fitting length δ.
[0056]
In FIG. 5, for example, the data of the conventional ejection device illustrated in FIG. 17 is shown by a straight line shown by a broken line, and the data of the ejection device of the first embodiment is shown by four curves by solid lines. ing.
[0057]
As shown in FIG. 5, in the above-described conventional ejecting apparatus, when the ejecting operation by the ejecting operation member (105) is performed with an operation amount 2δ that is twice the connector fitting length δ, the connector fitting force F0 is On the other hand, an operating force amount 0.5F0 of 1/2 (0.5 times) is required. On the other hand, in the ejecting device of the first embodiment, when the operating amount is 2δ, the connector fitting force amount F0 is reduced. The IC memory card 1 and the like can be ejected with an operating force amount of 0.39F0 which is 0.39 times.
[0058]
Similarly, when the operation amount 3δ is three times the connector fitting length δ, the conventional ejecting device requires an operation force amount 0.33F0 which is about 1/3 of the connector fitting force amount F0. On the other hand, according to the ejecting apparatus of the first embodiment, the IC memory card 1 and the like can be ejected with an operation force amount 0.26F0 which is about 0.26 times the connector fitting force amount F0.
[0059]
That is, according to the conventional ejecting device, for example, when the operation amount is 2δ, the change in the operation force amount F is first applied with the operation force amount 0.5F0 that is ½ of the connector fitting force F0. As 1 etc. is pulled out, the operating force F decreases, and when the IC memory card 1 etc. is completely ejected, a straight line is drawn so that the operating force amount F0 = 0, while the ejecting device of the first embodiment is used. Similarly, the change in the operation force amount in the case of the operation amount 2δ is first gradually increased from the operation force amount F = 0 to the operation force amount of the maximum value (max) 0.39F0 at a point of about 1.34δ. Thereafter, the curve gradually decreases, and finally a curve is drawn so that the operation force amount F = 0.
[0060]
That is, as described above, for example, the peak point (maximum value; max) of the operation force amount F in the case of the operation amount 2δ is 0.5 F0 according to the conventional eject device, whereas According to the ejecting apparatus of the first embodiment, the peak point moves and becomes 0.39F0.
[0061]
As described above, according to the first embodiment, the operation direction of the ejection operation member 5 is substantially perpendicular to the insertion direction of the IC memory card 1 or the like, that is, the operation surface of the IC memory card ejection device. Since the eject operation member 5 can be arranged without protruding from the operation surface of the IC memory card ejecting device, the IC memory card or the like can be ejected with a smaller operation amount. Can be made. At the same time, since the operation can be performed while observing the ejected state of the IC memory card or the like, it is possible to contribute to improvement in operability.
[0062]
FIG. 6 is an external perspective view showing an outline of the electronic device assembly housing mechanism of the second embodiment of the present invention. The second embodiment has basically the same configuration as that of the first embodiment described above, and differs from the first embodiment described above only in the arrangement of eject operation members and the like. Therefore, the same members as those in the first embodiment are denoted by the same reference numerals and the description thereof is omitted.
[0063]
As shown in FIG. 6, the ejector body 0A that forms the attaching / detaching mechanism of the IC memory card ejecting apparatus that is the electronic device structure housing mechanism of the second embodiment is similar to the ejector body 0 of the first embodiment described above. A base portion 2A that also serves as a guide member for guiding an IC memory card or the like inserted therein, and a support base that is slidable in the direction along arrow A in FIG. 3A or the like.
[0064]
When the support base 3A is slid in the direction along arrow A in FIG. 6, the two pins 11 provided on the base portion 2A slide along the guide grooves 12 of the support base 3A. Thus, the sliding operation of the support table 3 is guided, and the sliding direction and the sliding range of the support table 3A are regulated.
[0065]
Further, one end of the link member 6A is pivotally supported by the action pin 8 fixedly planted at the substantially central portion on the front side of the support base 3A, while the other end of the link member 6A is The eject operation member 5A is pivotally supported at one end of the eject operation member 5A.
[0066]
The eject operation member 5A is slidably disposed in a direction perpendicular to the insertion direction of the IC memory card or the like on the front side of the ejector body 0A, that is, on the opening side of the IC memory card. ing. And between the one end part of this ejection operation member 5A and the inner wall surface of the said base part 2A, the both ends of the urging | biasing spring 13A which is an urging means are each engaged in the direction along the said ejection operation member 5A. Arranged.
[0067]
The eject operation member 5A is constantly urged by the urging spring 13A in a direction orthogonal to the insertion direction of the IC memory card or the like, that is, in the direction of arrow C in FIG. The eject operation member 5A is configured such that a sliding operation in the direction of arrow C by the biasing spring 13A is restricted by a stopper member (not shown) of the base portion 2A. The operation member 5A does not protrude beyond a predetermined amount.
[0068]
The operation of the attaching / detaching mechanism of the IC memory card ejecting apparatus of the second embodiment configured as described above will be described below.
[0069]
When an IC memory card or the like is housed in the ejector body 0A, when the eject operation member 5A is pushed in the direction along the arrow B in FIG. 6 against the biasing force of the biasing spring 13A, As the eject operation member 5A slides, the link member 6A rotates clockwise in FIG. 6, and the support base 3A moves in the direction along the arrow A in FIG. 6, ie, the ejector body 0A. Slide toward the front.
[0070]
Therefore, the rear end portion of the IC memory card or the like housed in the ejector body 0A abuts on the claw portion 4 of the support base 3 and is pushed out to the connector portion of the IC memory card or the like. However, the IC memory card or the like is ejected from the connector 10 of the ejector body 0A.
[0071]
As in the first embodiment, when the IC memory card or the like is completely removed from the ejector body 0A, the eject operation member 5A is moved by the biasing force of the biasing spring 13A. Return to the initial position when an IC memory card or the like is inserted.
[0072]
As described above, according to the second embodiment, the same effect as that of the first embodiment can be obtained.
[0073]
FIG. 7 is an external perspective view illustrating the case where the IC memory card ejecting device of the first embodiment is applied to, for example, a portable electronic imaging device. In FIG. 7, in order to avoid complication of the drawing, only the state in which the IC memory card ejecting device is arranged in the housing of the electronic imaging device or the like is illustrated, and other components are omitted. Are shown.
[0074]
As shown in FIG. 7, the IC memory card or the like is inserted on the same surface on the back side of the housing 20 provided with a finder 21 such as an electronic imaging device. The IC memory card accommodated in the IC memory card ejecting device is formed by sliding the eject operation member 5 disposed on the same surface as the surface into which the card or the like is inserted in the direction of arrow B in FIG. Etc. are ejected in the direction along arrow A in FIG.
[0075]
As described above, when the IC memory card ejecting device of the first embodiment is applied to, for example, a portable electronic imaging device or the like, the ejection operation member 5 is shaped like a housing surface of the electronic imaging device or the like. For example, even if the eject operation member 5 is disposed below the finder 21, when looking into the finder 21 during photographing, the photographer's face or the like is ejected from the finder 21. It does not get in the way of hitting the operation member 5, and better operability can be obtained particularly in a small portable electronic imaging device or the like.
[0076]
FIG. 7 shows an example in which the above-described ejecting apparatus of the first embodiment is applied to an electronic image pickup apparatus or the like, but the ejecting apparatus of the above-described second embodiment is similarly applied. Even so, it is exactly the same. In this case, an opening for inserting an IC memory card or the like of the ejecting device is disposed on a side surface of a housing of the electronic imaging device or the like, and the eject operating member 5A is attached to the electronic imaging device or the like. If it arrange | positions to the back side of the housing | casing 20, it can contribute to the improvement of operativity similarly.
[0077]
Next, in the electronic imaging apparatus or the like, the electronic device assembly housing mechanism or the like is provided, and an opening for inserting an IC memory card or other electronic device assembly is provided. In the electronic device assemblies of different types, a mechanism for providing an opening closing lid for the opening and thereby preventing intrusion of dust etc. will be described with reference to the following examples.
[0078]
8 to 10 are views showing a third embodiment of the present invention, and FIG. 8 is a schematic perspective view showing the vicinity of an insertion opening of a card slot or the like of an electronic imaging device or the like. FIG. 9 is a schematic perspective view showing the shape of an insertion opening of a card slot or the like of the electronic imaging device or the like shown in FIG. 8, and FIG. 10 is a card of the electronic imaging device or the like shown in FIG. It is the principal part perspective view which took out and showed the cover body arrange | positioned in opening for insertions, such as a slot, and its opening-and-closing mechanism part. Since the third embodiment is an invention mainly relating to the shape of the insertion opening such as the card slot and the mechanism disposed in the vicinity of the insertion opening, the third embodiment is used to avoid complication of the drawing. Illustrations of members not directly related to the embodiment are omitted.
[0079]
As shown in FIGS. 8 and 9, the housing 20A of the electronic imaging apparatus or the like according to the third embodiment includes the IC memory card ejecting apparatus, and includes a plurality of card slots for storing IC memory cards and the like. Is arranged. An insertion opening 21 which is an opening of the plurality of card slots or the like is provided on a side surface of the electronic imaging apparatus or the like. Then, lids 22A and 22B for closing the opening are provided so as to cover the insertion opening 21, and these lids 22A and 22B are fixed to the fixing member on the inner wall surface side of the housing 20A. A pivotally supported shaft or the like is provided so as to be rotatable with respect to the insertion opening 21.
[0080]
As shown in FIG. 10, the lid bodies 22A and 22B are pivotally supported by shafts 23A and 23B so that both ends on one end side thereof are rotatable in the direction along arrow A in FIG. 23A and 23B are pivotally supported by fixing members 24A and 24B on the inner wall surface side of the housing 20A of the electronic imaging apparatus or the like.
[0081]
Further, urging springs 25A and 25B are wound around the shafts 23A and 23B, respectively, and one end portions thereof are engaged with the lid bodies 22A and 22B. Accordingly, the lids 22A and 22B are always urged so as to cover the insertion opening 21 of the housing 20A from the inside of the housing 20A.
[0082]
As is particularly clear from FIG. 8, on the outer surfaces of the lids 22A and 22B, types (types) corresponding to the respective card slots, for example, the IC memory card, the I / O card, etc. A connector type or the like corresponding to the electronic device structure is displayed, and it is also a display board for displaying a type of the IC memory card or the like.
[0083]
On the other hand, as shown in FIG. 9, the shape of the insertion opening 21 provided in the side surface portion of the housing 20A of the electronic imaging device or the like corresponds to the number of the plurality of card slots, etc. It is separated by a separating member 30 which is a position regulating means. And each division of the opening 21 for insertion isolate | separated by this separation member 30 is formed so that the shape may differ according to the type described by the said cover bodies 22A and 22B. As a result, for example, an erroneous insertion such as an IC memory card of a type different from a connector type such as a card slot written on the surfaces of the lids 22A and 22B is erroneously prevented. It has become.
[0084]
As shown in FIG. 9, the separation member 30 may be configured integrally with the side wall surface of the casing 20A of the electronic imaging apparatus or the like, or by a member different from the casing 20A. The same applies to the configuration. Further, it is the same even if the separation member 30 is not provided and the shaft 23B that pivotally supports the lid 22B is also used as the separation member.
[0085]
In the third embodiment configured as described above, the operation when the IC memory card or the like is inserted / removed by opening / closing the lid provided in the insertion opening such as the card slot will be described below.
[0086]
11 is a cross-sectional view of the periphery of a card slot or the like disposed in the housing 20A of the electronic imaging device or the like when viewed from the side, and FIG. 12 is the electronic imaging device or the like of FIG. It is a schematic perspective view at the time of seeing the opening opening vicinity, such as a card slot, from the front side.
[0087]
As shown in FIGS. 11 and 12, for example, the IC memory card 31 is directed from the insertion opening 21 provided on the side surface of the housing 20A of the electronic imaging device or the like toward the inside of the card slot or the like. When the I / O card 32 or the like is inserted, the lids 22A and 22B provided so as to cover the insertion opening 21 from the inside of the housing 20A are connected to the shafts 23A and 23B for supporting the lids 22A and 22B. In the center, against the urging force of the urging springs 25A and 25B, each of the urging springs is turned counterclockwise in FIG. At this time, the lids 22A and 22B are opened when the IC memory card 31, the I / O card 32, etc. are inserted, and at the same time, the IC memory card 31, the I / O card 32, etc. themselves. Thus, the insertion openings 21 are respectively closed, that is, kept closed.
[0088]
Further, the IC memory card 31, the I / O card 32, etc. are slid and inserted into the card slot, etc., and the connector portion at the rear end of the IC memory card 31, the I / O card 32, etc. Are inserted into the connector 10 provided inside the card slot, and the IC memory card 31, the I / O card 32, etc. are connected to the electronic imaging device or the like.
[0089]
When the mutual connector portions are connected and the IC memory card 31, the I / O card 32, etc. are completely stored in the card slot or the like, the lids 22A and 22B are The urging force of the urging springs 25A and 25B is urged in a direction in which the IC memory card 31, the I / O card 32, etc. are in contact with the upper surface side. A state where the memory card 31 and the I / O card 32 are inserted is held.
[0090]
That is, in FIGS. 11 and 12, the IC memory card 31 or the like is inserted into the upper card slot, and the I / O card 32 or the like is inserted into the lower card slot. Is shown.
[0091]
At this time, the lower lid 22B is in contact with the upper surface portion of the I / O card 32 to open the insertion opening 21, but the insertion opening 21 is open to the I / O card 32. The insertion opening 21 is not opened, and the cable portion of the I / O card 32 is not sandwiched between the lids 22B.
[0092]
Further, as shown in FIG. 11, since the IC memory card ejecting device and the like are arranged outside the rotation radius of the lid bodies 22A and 22B, the lid bodies 22A and 22B are rotated. In this case, one end of the lids 22A and 22B does not interfere with the IC memory card ejecting device or the like disposed in the housing 20A of the electronic imaging device or the like.
[0093]
As described above, according to the third embodiment, since the lids 22A and 22B are respectively disposed in the insertion openings 21 for the card slot or the like, the card slot or the like is not used. Even when there is an empty slot, the inside of the slot is not opened to the outside. Therefore, for example, dust can be prevented from entering the inside of the card slot or the like. it can.
[0094]
Further, at the same time when the IC memory card 31, the I / O card 32, etc. are inserted, the insertion opening 21 is closed by the IC memory card 31, the I / O card 32, etc. itself. Therefore, even when the IC memory card 31 or the like is inserted into or removed from the card slot or the like, entry of dust or the like can be prevented.
[0095]
When the IC memory card 31, the I / O card 32, etc. are inserted into the card slot, etc., the insertion opening 21 is blocked by the stored IC memory card 31, etc. Since the lids 22A and 22B are kept open, one end of the IC memory card 31 and the like can be observed from the outside, and therefore the card slot or the like is in use. Alternatively, it is possible to easily determine whether it is in an unused state, that is, whether it is an empty slot or not by visual observation.
[0096]
The lids 22A and 22B indicate the connector type of the IC memory card or the like to be inserted into the card slot or the like, and the insertion member 21 is formed in each card slot or the like by the separating member 30. Since the sections are separated into corresponding sections and the shapes of the sections are different depending on the types, it is possible to prevent erroneous insertion of an IC memory card or the like that does not correspond to any of the card slots.
[0097]
FIG. 13 is a schematic perspective view of the vicinity of a card slot or the like in a housing of an electronic imaging apparatus or the like showing a modification of the third embodiment. In this modification, the device is disposed in a casing such as the electronic imaging device so as to overlap in the vicinity where the card slot or the like is disposed, and is a device that is not attached or detached. For example, a case where a hard disk device or the like is provided is illustrated.
[0098]
That is, as shown in FIG. 13, the insertion opening 21 provided on the side surface of the casing 20B of the electronic imaging apparatus or the like has a lid so as to cover the same as in the third embodiment. 22A and 22B are provided, and a fixing device such as a hard disk device 26 is disposed behind the separating member that separates the insertion opening 21.
[0099]
By adopting such a configuration, the same effects as those of the third embodiment can be obtained, and the IC memory card, the I / O card or the like can be attached to an external storage device or the like which is detachably disposed. A connector portion corresponding to a related device and a connector portion corresponding to a device related to a fixed external storage device or the like that is not attached or detached such as the hard disk device are provided in the housing 20B of the electronic imaging device or the like. Therefore, the arrangement of the electric circuits and the like inside the housing 20B of the electronic imaging apparatus or the like can be arranged simply and efficiently in space.
[0100]
14, 15, and 16 are diagrams showing the vicinity of an insertion opening such as a card slot in a housing of an electronic imaging apparatus or the like showing another modification of the third embodiment, and FIG. 15 is a schematic perspective view when viewed from the front side, FIG. 15 is a perspective view of the schematic perspective view when viewed from the rear side, and FIG. 16 is a cross section when viewed from the side. FIG.
[0101]
As shown in FIGS. 14, 15, and 16, an insertion opening 21 such as the card slot disposed in a housing 20A of the electronic imaging apparatus or the like is provided with a plurality of card slots or the like by a separating member 30A. It is made to isolate | separate into each division corresponding to. Thus, the insertion opening 21 is separated into an upper insertion opening 21A and a lower insertion opening 21B.
[0102]
The separation member 30A extends to a position close to or in contact with a front end portion of the IC memory card ejecting device or the like disposed inside the card slot or the like, and is formed by, for example, an L-shaped member Has been.
[0103]
In this modification, the lid 22Bb disposed so as to cover the lower insertion opening 21B is different from the third embodiment in that the lower side is the center of rotation. . That is, the lid 22A is disposed in the same manner as in the third embodiment, while the lid 22Bb is pivotally supported by the shaft 23Bb on the lower side of the lower insertion opening 21Bb. Has been.
[0104]
Thus, when the IC memory card or the like is inserted into the card slot or the like, the lid 22A is rotated counterclockwise about the shaft 23A in FIG. The lid 22Bb is rotated clockwise around the shaft 23Bb in FIG.
[0105]
With this configuration, the same effect as that of the third embodiment can be obtained, and the insertion opening 21 can be provided, for example, on the upper side so as to correspond to each card slot or the like by the separating member 30A. Since the lower insertion openings 21A and 21B are separated from each other, erroneous insertion of an IC memory card or the like into each card slot or the like can be prevented in advance.
[0106]
Further, since the separating member 30A has an L-shape and is arranged so as to extend to a position close to or in contact with the internal IC memory card ejecting device such as the card slot, the IC memory card or the like is inserted. When inserting from the opening 21 for use, it can insert more smoothly.
[0107]
【The invention's effect】
Book as explained aboveAccording to the invention, in an IC memory card ejecting apparatus which is an electronic device structure housing mechanism such as an electronic imaging apparatus for inserting and removing the electronic device structure such as the IC memory card,By using a link memberBy reducing the amount of ejection of the eject operation member that performs the eject operation from the apparatus itself, and reducing the amount of operation of the eject operation member, it is possible to provide an electronic device assembly housing mechanism that is more excellent in operability.
[Brief description of the drawings]
FIG. 1 is an external perspective view showing an outline of an electronic device assembly housing mechanism (an IC memory card ejecting device attaching / detaching mechanism) according to a first embodiment of the present invention;
FIG. 2 is a schematic diagram showing the operation of the ejecting apparatus shown in FIG.
3 is a schematic diagram showing the operation of the ejecting apparatus shown in FIG.
4 is a graph showing a relationship between an operation amount of an eject operation member and an operation force amount at the time of an eject operation in the eject device of FIG. 1; FIG.
5 is a graph showing a change in operating force amount of an eject operation member during an eject operation in the eject device of FIG. 1; FIG.
FIG. 6 is an external perspective view showing an outline of an electronic device assembly housing mechanism (attachment / detachment mechanism of an IC memory card ejection device) according to a second embodiment of the present invention.
7 is an external perspective view illustrating a case where the electronic device assembly housing mechanism (IC memory card ejecting apparatus) in FIG. 1 is applied to a portable electronic imaging apparatus or the like. FIG.
FIG. 8 is a diagram showing a third embodiment of the present invention, and is a schematic perspective view showing the vicinity of an insertion opening of a card slot of an electronic imaging device or the like.
9 is a schematic perspective view showing the shape of an insertion opening of a card slot or the like in the electronic imaging apparatus or the like of FIG.
10 is a perspective view of a main part extracted from the lid disposed in an insertion opening of a card slot or the like in the electronic imaging apparatus of FIG.
11 is a diagram showing the operation when inserting an IC memory card or the like by opening and closing the lid of the insertion opening of the card slot or the like in the apparatus of FIG. 8, and seeing the periphery of the card slot or the like from the side. FIG.
12 is a schematic perspective view when the vicinity of an insertion opening such as a card slot of the apparatus of FIG. 11 is viewed from the front side.
FIG. 13 is a schematic perspective view of the vicinity of a card slot or the like in a housing of an electronic imaging apparatus or the like showing a modification of the third embodiment.
FIG. 14 is a view showing the vicinity of an opening for insertion of a card slot or the like in a housing of an electronic imaging apparatus or the like showing another modification of the third embodiment, and is a schematic perspective view when viewed from the front side. .
15 is a perspective view of a schematic perspective view when viewed from the rear side of the apparatus of FIG. 14; FIG.
16 is a cross-sectional view of the apparatus shown in FIG. 14 as viewed from the side.
FIG. 17 is a schematic perspective view showing a conventional electronic device assembly housing mechanism (attachment / detachment mechanism of an IC memory card ejection device).
FIG. 18 is a schematic perspective view showing another conventional electronic device assembly housing mechanism (IC memory card ejecting device attaching / detaching mechanism).
FIG. 19 is a schematic perspective view illustrating a case where a plurality of card slots and the like are provided in a housing of a conventional electronic imaging device or the like.
20 is a schematic perspective view illustrating a case where a lid is provided in an insertion opening of a card slot or the like in the electronic imaging apparatus or the like shown in FIG.
21 is a schematic perspective view illustrating an erroneous insertion operation of an IC memory card or the like with respect to the card slot or the like of FIG.
[Explanation of symbols]
0,0A, 100,100A ... Ejector body
1, 31, 101 ... IC memory card (electronic device structure)
2,102 …… Base part
3, 3A, 103, 103A ... Support stand (displacement conversion member)
5, 5A, 105, 105A ... Eject operation member
6, 6A, 106, 106A ... Link member (displacement conversion member)
13, 13A ... biasing spring (biasing means)
14 …… Guide part (guide member)
21, 21A, 21B ... Opening for insertion
22A, 22B, 22Bb ...... Cover body (lid body for closing the opening)
30, 30A ... separation member (position regulating means)

Claims (2)

In an electronic device assembly housing mechanism having a fitting connector portion of the other type for fitting a plate-like electronic device assembly having a fitting connector portion of one type at the back of the opening for inserting the electronic device assembly,
Applied so as to be extended in the insertion and removal direction and substantially perpendicular to the direction of the said connector portion of the electronic device assembly, a guide member disposed in the vicinity of the opening for the electronic device assembly insert,
An eject operation member having an operation portion arranged on the same surface as the surface on which the opening for inserting the electronic device assembly is formed, and being guided by the guide member so as to be slidable along the extending direction of the guide member. When,
A support base that is supported so as to be movable along the insertion / removal direction of the electronic device assembly, and that abuts and pushes against the rear end of the electronic device assembly ;
A displacement conversion member for displacing the support base in a direction in which the electronic device assembly is withdrawn from the connector portion in conjunction with the sliding displacement of the eject operation member;
An electronic device assembly housing mechanism characterized by comprising: The eject operation member is guided by the guide member so as to be slidable along the longitudinal direction of the rectangular electronic device assembly insertion opening, and the displacement conversion member is connected to the support base at the other end. 2. The electronic device assembly housing mechanism according to claim 1, wherein the electronic device assembly housing mechanism is a link member that is pivotally supported so that one end thereof is pivotally supported on the eject operation member .

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