JP778H - Memory card mounting mechanism - Google Patents

Description

Description: TECHNICAL FIELD OF THE INVENTION The present invention is a device to be mounted in an electronic device body as necessary.
The present invention relates to a mounting mechanism of a memory card. [Technical Background of the Invention and Problems] For example, small electronic devices such as portable small computers are
The built-in memory capacity of the child device is too large
Data that exceeds the memory capacity of the electronic device itself.
If you want to store the data in a separate memory
Insert an expansion memory card and insert the data into this memory card.
Data is being stored. As a memory card mounting mechanism in this kind of electronic equipment
Conventionally, lay a memory card on the bottom of the electronic device body
There is a card mounting recess for storing
Insert the memory card into the attachment and back
It is known that the lid is pressed and fixed. Na
Provide the card mounting recess on the bottom of the electronic device body.
There is a display or keyboard on the top of the electronic device body.
Since there is a card part, a card
If the recess is provided, the electronic device body is very large.
This is because it will end up. However, in such a memory card mounting mechanism,
When installing or removing the memory card, open the back cover each time.
The memory card must be installed and removed as it must be removed.
It was very troublesome to take out and retrieve. On the other hand, it is sold by being attached to an electronic cash register.
The memory card for storing data such as
Insert from the card slot on the front or side
It is installed in the main body of the register.
Dressing method for small electronic devices such as small portable computers.
It may be applied to a memory card loading mechanism.
There is a memory in this electronic cash register
The card mounting mechanism uses a memory card directly
When inserting a memory card, it is intended to be inserted into
It is necessary to align the tip of the memory card with the card insertion slot.
Yes, very narrow, just slightly wider than the thickness of the memory card
Align the tip of the memory card with the card insertion slot
Is very troublesome,
It is not possible to insert a memory card easily and with good operability.
Didn't come [Purpose of the Invention] The present invention has been made in view of the above circumstances.
However, the purpose is to use a conventional memory card.
Memory card loading and unloading
Memory card designed to be easy to operate
It is to provide a mounting mechanism for the card. [Summary of the Invention] That is, according to the present invention, the memory is provided in an electronic device body.
Use a card holder that holds the card in a removable manner.
It is provided so that it can be pulled out of the body, and the card holder can be pulled out.
Blocking means to prevent the outflow, and cards by this blocking means
Stops the operation of the electronic device when releasing the holder
A control means for stopping the
Hold the memory card you have in the electronic device book of this card holder
Inserted in a predetermined position inside the electronic device body by pushing it into the body
The memory card's I / O
The configuration is such that the memory card connection terminal is contacted. [Embodiment of the Invention] An embodiment of the present invention will be described below with reference to the drawings. Figure 1 shows a small portable computer equipped with a memory card mounting mechanism.
The external appearance of the computer is shown as 1 in the figure.
The computer main body 1 is a main body and is shown in FIG.
As shown in FIG. 3, the display window 2 is formed on the upper surface and
Synthetic resin case body with seed input keys 3, 3, ...
1a and a bottom panel 1b made of a metal plate. The computer main body 1 is shown in FIG. 2 and FIG.
As shown in FIG.
Crystal display panel 4 is arranged, and this display panel 4
Indicates the printed wiring board 5 installed under the display and the display.
It is sandwiched between the glass plate 2a fitted in the window 2 and
It The display panel 4 has a reflection plate 4a on its lower surface.
The display panel 4 is of a reflective type.
An array is formed on the upper surface of the wiring board 5 via the connector 6.
It is electrically connected to the display panel connection terminal (not shown)
Has been continued. Further, in FIG. 2 and FIG. 3, 7 is the broken line substrate 5
Resin card holder housing located underneath
, 8 is a housing bottom plate made of synthetic resin.
The housing bottom plate 8, the housing 7 and the wiring board 5 are the bottom.
Stacked on the front panel 1b, the bottom panel 1b is a case.
It is fixed to the sleeve body 1a by a set screw 9. In addition, a case body 1 is provided on the front surface of the computer main body 1.
The front plate of a and the front plate of the bottom panel 1b are formed by cutting out.
The card holder drawer openings 10 are installed at two locations on the left and right.
And the housing 7 and the housing bottom plate 8 are
Between the two card holder drawer openings 10,
Corresponding to 10 respectively, card holder storage space 11, 11
Has been formed. This card holder storage space 11 is
The lower surface of the housing 7 and the upper surface of the housing bottom plate 8 are recessed.
The card holder storage space 11,
Card holders 12 and 12 are stored in 11. This card holder 12 holds a memory card in a removable manner
This card holder 12 is almost entirely
Card holder storage space that fits inside the computer body 1
11 stored in the memory card when loading or withdrawing the memory card
The card holder drawer opening 10
ing. This card holder 12 is made of synthetic resin.
This card holder 12 has a front end face (the end in the drawing direction).
The thin box part 12a whose surface) opens and the bottom plate of this thin box part 12a
The protruding plate 12b extending outward (in the pull-out direction) and this protrusion
It consists of the front plate 12c formed at the front end of the outgoing plate 12b.
The front plate 12c has an opening for withdrawing the card holder.
It is sized to completely cover the portion 10, and the protruding plate portion 12b
Is deformed vertically by reducing its thickness.
It is an elastic plate to obtain. The card holder 12 is shown in FIGS. 4 to 6.
Make sure that both sides of the thin box 12a are
It is slidably supported on both sides of the storage space 11.
The card holder 12 of is installed on both sides of the thin box 12a.
Between the spring holder 13 and the inner back surface of the card holder storage space 11.
Of the card spring pushing coil spring 14 inserted into the
It is pressed in the pull-out direction by the force. Also, the card holder 12 is a computer body
When stored in 1, the upper edge of the front plate 12c is a card
As shown in FIG. 2, on the inner surface of the upper edge of the opening 10 for pulling out the holder.
Hooked on to the outside of the computer main body 1
It is designed to be locked so that this car
To unlock the holder 12, pull out the front
Push the operating part 15 protruding to the front of the plate 12c with your finger to project the plate 1.
By pushing down the front plate 12c while bending and deforming 2b,
It is supposed to be carried out. The card holder 12
When storing the card in the computer body 1,
With the pushing of the da 12 into the computer body 1,
The face plate 12c has the upper edge of the opening 10 for withdrawing the card holder.
It is pushed by the upper edge to bend and deform the protruding plate 12b downward.
While entering the inside of the card holder drawer opening 10,
Only the card holder is pulled out by the restoring force of the protruding plate 12b.
It is hooked on the inner surface of the upper edge of the opening 10 for sushi. The card holder 12 is pulled out by the coil spring.
It is designed to be performed by the spring force of 14.
Push the operating part 15 to unlock the card holder 12.
The card holder 12 is automatically pushed out by the spring force.
As shown in FIG. 5, the front end of the thin box 12a is
In a state where it projects outside the computer main body 1, the spring supports 13, 13
The card holder pull-out opening 10 on both inner edges.
It is designed to be fitted and locked. Next, the memory card will be described with reference to FIGS.
Figure 0 shows a RAM (Random) which is a type of memory card.
Access Memory card showing
This RAM card 20 has a length of 60 mm, a width of 50 mm, and a thickness.
The size is about 3.5 mm. The RAM card 20 includes a support plate 21 made of synthetic resin and
A pair of upper and lower surface panels 22a, 22b that cover the upper and lower surfaces of the support plate 21.
The printed wiring board 23 is stored in a thin case consisting of
The upper surface panel 22a is set with screws 2
It is fixed to the support plate 21 by 4 and the lower surface panel 22b is
It is adhered to the lower surface of the support plate 21. In addition, the surface panel
22a and 22b are for shielding static electricity from the outside
Is formed of a conductive metal plate such as a stainless plate.
There is. The wiring board 23 has a required number of RAM chips 2 on its lower surface.
Mount 5, 25 and chip parts 26, 26 such as capacitors
In addition, a large number of input / output terminals 2 are arranged on the top surface in the width direction.
7, 27, ... are formed, and this wiring board 23 is
It is fitted in the recess 21a formed on the upper surface of the holding plate 21.
It In addition, on the bottom surface of the recessed portion of the support plate 21, the RAM
Escape to chips 25, 25 and chip parts 26, 26
Recesses 28, 28 are formed. In addition, 29 is set as a backup power source to maintain memory.
This battery 29 is a recessed battery of the support plate 21.
It is stored in the battery storage recess 30 that is formed on the bottom of the inlet.
It 31a and 31b are a pair of terminal springs that come into contact with the battery 29.
One of the terminal springs 31a is attached to the lower surface of the wiring board 23.
The other terminal spring 31b is attached to the battery storage recess.
The wiring board is provided in the base portion 30 and is provided in the base portion 30.
Contact connection with the power supply terminal (not shown) formed on the bottom of 23
Has been done. 32 is an insulating sheet that covers the upper surface of the wiring board 23.
The insulating sheet 32 and the upper surface panel 22a of the wiring board 23
I / O terminals 2 on the part corresponding to the I / O terminal array on the surface
Apertures 33, 34 are formed to expose 7, 27, ...
There is. Further, 35 is the insulating sheet 32 and the upper surface panel 22a
A shutter plate made of a conductive metal plate provided between
This shutter plate 35 slides in the RAM card length direction.
It is provided so that it can be idle. This shutter plate 35 is RA
When not using the M card 20 (inside the computer 1)
The opening 34 of the upper front panel 22a (when not attached)
To cover the input / output terminals 27, 27, ... on the surface of the wiring board 23.
It is for hiding, and this shutter plate 35 has
The blindfold plate portion 35a that closes the opening 34 of the surface panel 22a, and the opening
The window 35b, which is almost the same size as 34, is slidable on the shutter plate 35.
They are formed side by side in the id direction. The shutter plate 35 has a recessed portion of the support plate 21 at one end.
RA is caused by the spring force of the wire spring 36 supported by the front end wall 21b.
Push in the direction of the tip of the M card (direction of insertion into the card holder 12).
The blindfold plate portion 35a is pressed by this spring force.
It is designed to be held under the opening 34
It Further, the blindfold portion 35a is elastic on the surface of the wiring board 23.
It is curved in an arc shape so that it touches the RAM card.
All I / O terminals 27, 2 on the wiring board surface when the card 20 is not used
By shorting 7, ..., static electricity is generated on the wiring on the wiring board 23 side.
When static electricity is generated, this static electricity is discharged from the shutter plate 35 to the upper surface panel.
It is designed to be released to Le 22a. Further, the support plate 21 is provided on both sides of the shutter plate 35.
From the notches 37, 37 formed on both edges to both sides of the RAM card
Projecting pieces 35c, 35c are formed to project the shank.
The data board 35 has these protruding pieces 35c, 35c on the rear end side of the RAM card.
The window portion 35 is pressed against the spring force of the wire spring 36.
Slide the b so that it faces the opening 34 in the upper surface panel 22a.
Input and output on the wiring board 23 surface as shown in FIG.
The terminals 27, 27, ... Are exposed. In addition,
At this time, the blindfold plate portion 35a of the shutter plate 35 has the insulating sheet 3
2 is mounted on and is supported on the insulating sheet 32. The shutter plate 35 holds the RAM card 20 in the card holder 12
When the card holder is inserted into the card holder,
12 Thin box parts are pressed by both side edges and resist the spring force of the wire spring 36.
Are moved to expose the input / output terminals 27, 27, ...
The card holder 12 and RAM
When the card 20 is taken out, the spring force of the wire spring 36 causes
The blindfold plate portion 35a automatically covers the input / output terminals 27, 27, ...
It is designed so that it can be restored to its normal state. On the other hand, at the inner back of the thin box portion 12a of the card holder 12,
As shown in FIG. 11, the surface panel of the RAM card 20.
Static electricity charged on the RAM card surface by touching 22a, 22b
A spring plate 40 for static electricity grounding is provided for grounding electricity.
ing. This spring plate 40 has RAM cards at both ends.
This is for contacting the tip surfaces of the front surface panels 22a, 22b.
The central portion of the spring plate 40 has a cutout formed in the thin box portion 12a.
A lead wire connecting piece 40a protruding from the portion 16 to the outside is formed.
ing. This lead wire connecting piece 40a is as shown in FIG.
The lead wire 41 is soldered to the
Is connected to the ground line of the wiring board 5 in the computer body 1.
Has been continued. The length of this lead wire 41 is
Take a little longer than the drawing stroke of the holder 12.
Yes, push the card holder 12 into the computer body 1
It will bend in the card holder storage space 11
Growling. As shown in FIG. 12, the spring plate 40 is
Standing pieces 40b formed on both sides of the lead wire connecting piece 40a are thin boxes.
After inserting into the groove 17 provided on both sides of the cutout of the part 12a,
The lower part of the spring plate is attached to the hook portion 18 formed at the lower end of the inner back surface of the portion 12a.
It is attached by fitting the edges. 13 and 14 show the card holder 12 with the RAM card
This RAM card shows the state in which the card 20 is inserted.
To insert the card 20, insert the card holder 12
Receptacles 13 and 13 are on both sides of the opening 10 for pulling out the card holder.
Fig. 13 after pulling it out to a position where it can be received by the surface)
Attach the end of the RAM card 20 to the card holder as shown by the chain line.
Press on the protruding plate 12b of the DA 12 and in this state the RAM car
RAM card tip with the protruding plate 12b
Guide the edge and pull out the RAM card 20 from the card holder
By inserting by pushing from the opening 10 into the thin box 12a
Will be performed. In this case, while inserting the RAM card 20 in the thin box portion 12a
When the RAM card 20 is laid down, the card holder front plate
The lower surface of the RAM card 20 hits the upper edge of 12c, and this front plate 1
This is because the rear end of the RAM card 20 is supported by 2c.
After that, just press the rear edge of the RAM card and insert the RAM card 20.
Can be entered. Also, the RAM card 20 hits the card holder front plate 12c.
And the RAM card 20 supports the lower surface of its tip on the bottom of the thin box.
The tilted state in which the lower surface of the rear end is supported by the upper edge of the front plate.
The top of the RAM card 20 because it will be pushed in
Is the front edge of the top of the thin box or the opening for pulling out the card holder.
If it hits the upper edge of the part 10, there is resistance to the insertion of the RAM card 20.
However, even in this case, the RAM card 20 should be strongly
If you push it in, the RAM card 20 will be the front edge of the thin box top surface.
Or push down on the upper edge of the card holder drawer opening 10.
The front plate 12c is bent downward while bending the protruding plate 12b.
The RAM card 20 is further laid down so that the thin box part
You can insert the RAM card 20 to the inside of 12a
It However, in this way, the RAM card is inserted from the beginning.
If you push the card 20 hard, the bottom edge of the RAM card 20
The surface may rub strongly against the bottom of the thin box and may be damaged.
It Therefore, in this memory card mounting mechanism,
Leave the bottom of the thin box 12a of the
The card holder 12
The entire bottom of the card holder storage space 11 is
Form an opening 8a (see Fig. 3) of the size
On the bottom panel 1b of the computer body 1, the housing
RAM card corresponding to the opening 8a of the bottom plate 8
Guide ridges 50, 50 that guide the tip of 20 (Fig. 3 and
And FIG. 6) are formed. This guide ridge 50,50
Is sufficiently separated from the bottom of the card holder 12.
The guide ridges 50 and 50 have
Guiding ridges 50, 50 Smoothly mount the RAM card tip on the 50
It is tilted to make it happen. By doing this, the card holder 12 is tilted with respect to
The end of the RAM card 20 inserted from
From the opening 12d to the bottom of the card holder 12 shown by the solid line in FIG.
While protruding and being guided by the guide ridges 50, 50
Since it is inserted, leave the RAM card 20 in a tilted state.
Can be inserted deep into. Therefore, according to this memory card mounting mechanism, the RAM card
Inside the thin box part 12a of the card holder 12 by simply pressing the card 20
Since the RAM card 20 can be inserted deeply into the
It is only necessary to push the AM card 20 firmly at the end of insertion.
become. At the end of insertion, the RAM card 20 is on the thin box.
Front edge of the surface or the upper edge of the opening 10 for pulling out the card holder
As shown in FIG. 14, the front plate is pushed downward by
12c is displaced downward while bending the protruding plate portion 12b.
However, at this time, the RAM card 20 is fairly horizontal.
Also, the RAM card tip has the above-mentioned guide ridge 5
Guided at 0, 50 and inserted with little sliding resistance,
Therefore, the force to push the RAM card is also small.
Moreover, damage to the tip of the RAM card can be prevented. Also, on the inner bottom surface of the thin box portion 12a of the card holder 12,
Inserted diagonally into the card holder 12, on both sides of it
Push the end of the RAM card 20 upwards and
Card support pieces 12e, 12e supporting the end from below are provided.
Has been. Then, the RAM card 20 can be inserted into the card holder 12.
Along with this, the shutter plate 35 attaches the protruding pieces 35c, 35c to the thin box portion.
I / O terminal 2 by being pushed by both edges and moving
7, 27, ... are exposed and RAM RAM
Insert the tip of the card 20 until it reaches the inside of the thin box 12a.
The card support pieces 12e, 12e
Pushed up to a horizontal position, and after the RAM card
Restoring force of the protruding plate 12b when the edge gets over the front plate 12c
The rear end is pushed by the front plate 12c which is returned by the
Being in contact with the electrical ground spring plate 40,
It is designed to be held in the holder 12. In this way, hold the RAM card 20 in the card holder 12
Then, insert the card holder 12 into the computer body 1.
RAM card pushed in and held in the card holder 12
Insert the card 20 into the computer 1 at the specified position.
Good. When removing the RAM card 20, use the card holder 12
To the outside of the computer body 1 and press the front plate 12c
Remove the RAM card 20 from the card holder 12 while lowering it
Good. On the other hand, on the lower surface of the wiring board 5 in the computer main body 1,
Contact with the input / output terminals 27, 27, ... of the RAM card 20.
A large number of memory card connection terminals 60, 60, ...
There is. These memory card connection terminals 60, 60, ... are leaf springs.
The tip of the card holder is a housing
Card holder case through the openings 7a, 7a formed in the ring 7.
It projects into the storage spaces 11, 11. Also, the top plate of the thin box portion 12a of the card holder 12 is
Covers the surface of the RAM card 20 held by the card holder 12.
It is an insulating cover 12f. This insulating cover 12f is
Place the RAM card 20 in the card holder 12
RA on the tip side of the input / output terminal array of the RAM card 20
It is sized to cover the surface of the M card.
ー 12f tip edge should be lower toward the front of the card holder.
So that it is inclined. The surface of the RAM card 20 is placed on the card holder 12 in this way.
Insulation cover that covers the input / output terminals 27, 27, ...
-12f is provided to cover the inside of the computer 1.
When the card holder 12 is pushed in, the surface of the RAM card 20 is
If the memory card connection terminals 60, 60, ...
If static electricity is charged on the surface of the RAM card, this
Static electricity flows to the memory card connection terminals 60, 60, ...
Because it adversely affects the electronic circuit inside the computer main body 1.
Install the insulating cover 12f on the card holder 12 as described above.
If you keep the card holder 12 completely,
Until it is pushed into 1, the memory card connection terminals 60, 60, ...
As shown in FIGS. 13 and 14, on the insulating cover 12f
The memory on the surface of the RAM card 20
Prevents direct contact of the card connection terminals 60, 60, ...
The static electricity charged on the surface of the AM card contacts the memory card.
It is possible to prevent it from flowing into the connection terminals 60, 60, ....
Wear. The memory card connection terminals 60, 60, ...
By pushing the holder 12 into the computer body 1,
The insulating cover 12f comes off from the tip edge, and due to its elasticity, R
As shown in FIG. 2, enter the opening 34 on the surface of the AM card.
Although it contacts the input / output terminals 27, 27, ... of the RAM card 20,
At this time, the memory card connection terminals 60, 60, ...
Does it slowly descend along the inclination of the tip edge of bar 12f?
, The memory card connection terminals 60, 60, ... Are the RAM card 20.
Minimize impact when touching the input / output terminals 27, 27, ...
You can On the other hand, in FIG. 2, reference numeral 61 is inside the computer main body 1.
Rubber sheet arranged under the key arrangement on the surface of the
This rubber sheet 61 is placed on the upper surface of the wiring board 5.
The rubber sheet 61 has the input keys 3,
3, so that the input key 3 is moved upwards.
A bulging portion 61a that presses is formed. Of this bulge 61a
The lower surface faces the fixed contact 63 formed on the upper surface of the wiring board.
There is a movable contact 62 that
When the input key 3 is pressed, the bulging portion 61a
Contact the fixed contact 63 by elastic deformation downward
It has become. Moreover, in FIG.
Power supply battery, this battery 64 is
It is housed in the battery housing hole 65 provided in the housing 7 and
It is supported on the housing bottom plate 8. Further, in FIG. 1, 70 is a table of the computer main body 1.
The first power switch provided on the surface, 71 is a computer
A second power switch provided on the front surface of the main body 1,
These power switches 70 and 71 are slide switches, respectively.
And the second power switch 71 is
Two card hos formed on the front of the computer main body 1
It is provided between the rudder drawer openings 10, 10. This second power switch 71, as shown in FIG.
A knob portion 72 that slides on the front surface of the computer body 1,
It was extended from the knob 72 into the computer main body 1.
The arm 73 and the movable part formed at the tip of the arm 73
The contact holding frame 74 and the leaf springs held by the holding frame 74
Movable contact 75 and common fixing formed on the lower surface of wiring board 5
Consisting of contact 76 and fixed fixed contacts 77a, 77b, 77c
The movable contact 75 has two fixed contact portions 75.
It has a and 75b. The movable contact holding frame 74 is
In the recess 78 formed on the upper surface of the housing 7, the slide
Is inserted so that the arm 73 is
It is slidably supported on the stepped portion 79 formed at the front end of the ring 7.
I have it. Of the fixed contacts formed on the wiring board 5,
The common fixed contact 76 has a horizontally long contact with the movable contact 75 along the moving direction.
The fixed contact of one of the movable contacts 75 is defined as a point.
The part 75a is always in contact with this common fixed contact 76, and the other fixed contact is fixed.
The constant contact point 75b is used for sliding operation of the knob 72.
By moving to the movable contact 75, the moving direction of the movable contact 75
Selective contacts 77a, 77b, 77c lined up with are selectively contacted.
It is designed to be touched. FIG. 15 shows an outline of a circuit in the computer main body 1.
In the figure, 80 is a central information processing unit (hereinafter referred to as CPU
(Abbreviated) and installed in the computer body 1
The memory circuit in the RAM card 20 is
Connect the input / output terminal 27 to the memory card in the computer 1.
With the connector 81 composed of the connection terminal 60 and the CPU 80,
It is supposed to be connected. Also, 82 is a power supply circuit.
The power from the power supply circuit 82 is the V of the CPU 80.
_DD It is supplied to the terminal and also through the connector 81.
V of the memory circuit of RAM card 20 _DD Also supplied to the terminals
It has become so. The CPU 80 is an input key 3 on the surface of the computer body.
The signal given from the key input section 83 by the operation of 3 ...
In accordance with the information processing, the display information is displayed on the display unit 84.
It also sends the liquid crystal display panel 4 of the display section 84 to drive the display.
Therefore, the data between this CPU 80 and the RAM card 20
Transfer of data is performed through the connector 81.
Has become. The CPU 80 also sends a switch signal to its SW terminal.
It is designed to work with the input of
H signal from the power supply circuit 82 to the first power switch
Input via 70 and the second power switch 71
Has become. The second power switch 71 has its knob portion 72 at an intermediate position.
Turned on, the knob 72 is turned to the right.
When moved to the left or right side, in both cases OF
In the F state, move the knob 72 to the intermediate position.
Then, the movable contact 75 becomes the common fixed contact 76 and the selection fixed contact 77b.
And switch 71 is turned on.
It has become. Then, the first power switch 70 is turned on, and then the second power switch 70 is turned on.
When the power switch 71 of is turned on, _DD end
A switch signal having the same potential as the child input is supplied from the power supply circuit 82 to the CPU.
It is input to the SW terminal of 80, and V _DD Terminal input
Given to the CPU 80, the CPU 80 operates. Also, turn the knob portion 72 of the second power switch 71 to the right side.
Or move it to the left, its movable contact 75
Select fixed contacts 77a or 77a connected to point 76 and ground line.
Or 77c and the second power switch
The switch 71 is turned off. At this time, the first power switch
Even if the switch 70 is turned on, the SW terminal of the CPU 80
CPU80 stops the operation because the switch signal is not input.
Stop. At this time, the V of the CPU 80 _DD Terminal input
Flows to the second power switch 71 side and contacts the movable contact 75.
Selected fixed contact 77a or 77c to the ground line.
It Also, the knob portion 72 of the second power switch 71 is
Pull out the card holder 12 without turning off the second power switch 71.
If this happens, prevent the card holder 12 from being pulled out.
Also serves as a stopper. That is, this knob portion 72
When you move it to the middle position, both ends are left
Project to the front of the right card holder drawer opening 10, 10
The length of the knob 72 is
In the computer main body 1, the two
The front plates 12c, 12c of the card holders 12, 12 are shown in Fig. 4.
It is designed to receive from outside. This fruit
In the example, one of the above is placed on the front surface of one end of the card holder front plate 12c.
The protrusion a that comes into contact with the knob 72 is provided.
Insert the part 72 inward from the front of the computer main body 1.
Card holder front plate 12c directly on the knob 72,
Since it can be received and received, the card holder front plate
It is not necessary to provide the protrusion a on 12c. In this way, it is provided on the surface of the computer main body 1.
In addition to the first power switch 70, in front of the computer body 1
A second power switch 71 is provided on the surface of the second power switch.
The knob portion 72 of the switch 71 prevents the card holder 12 from being pulled out.
The reason why it stops is that it does not stop the CPU 80
Remove the RAM card 20 from inside the computer body 1.
This is to prevent swelling. That is, the computer main unit 1 is provided with the first power switch.
Just forget to turn off the power switch 70 just by installing the switch 70.
R from within the computer body 1 without stopping the CPU 80
Sometimes you can take out the AM card 20, like this
Take out the RAM card 20 without stopping the CPU 80.
Doing so may destroy the memory of the RAM card 20.
However, as mentioned above, the
2 power switch 71 is provided and the knob 72 is used for the card
If you prevent the holders 12 and 12 from being pulled out, this
The knob 72 of the second power switch 71 of the right or left
Unless the second power switch 71 is turned off by moving to
Card holder 12 cannot be pulled out.
Do not forget to turn off the power source switch
The RAM card 20 is removed from the computer body 1
Can be prevented. In addition, pull the card holder 12 on the right side.
If you want to pull it out, move the knob 72 to the left.
To turn off the second power switch 71,
When pulling out the ruda 12, pull the knob 72 to the right.
And turn off the second power switch 71.
After this, the front plate 12c of the card holder 12 is
Press to lower the card holder opening 10
Remove the front plate 12c from the inner surface of the upper edge of the
The card holder 12 is pushed out by the spring force of the drawing coil spring 14.
You can do it. Then, in this memory card mounting mechanism,
Insert the memory card into the computer main body 1
The computer holder 1 that holds the card holder 12 that is detachably held
It is provided so that it can be pulled out and is held in this card holder 12.
RAM card 20 with this card holder 12 computer
Pushing into the main body 1 causes the computer 1
Push it into the position, and the input / output terminals 27, 2
7, ... is the memory card connection terminal 6 in the computer main unit 1.
Because it makes contact with 0, 60, ...
Install the RAM card 20 in the main unit 1 of the card
Hold the RAM card 20 in the holder 12 and attach the card holder 12
What you do by just pushing it into the computer body 1
Therefore, you can remove the back cover as usual and remove the memory card.
Card or insert the end of the memory card into the card slot.
There is no need to perform a troublesome operation such as pushing
The RAM card 20 can also be removed outside the computer body 1.
Pull out the card holder 12 and use this card holder 12 to RA
Is it easy to do by removing the M card 20?
RAM card compared to conventional memory card mounting mechanism
Can be easily attached and removed with good operability.
It In addition, in the above-mentioned embodiment, the drawer of the card holder 12 is
This is done by automatically pushing out the card holder 12
The card holder 12 is pulled out.
May be performed manually. Also on
In the above embodiment, the mounting of the RAM card is explained,
The memory card is not limited to the RAM card 20,
ROM (Read Only Me) without power supply battery
a memory card or a ROM / RAM card
Good, memory card with display and key operation
(For example, like an ultra-thin calculator, data terminal
Used as). Furthermore, above
In the embodiment, the card holder 12 is placed in front of the computer main body 1.
I tried to draw it out, but this card holder
It may be pulled out to the side of the computer main body 1, or
Vertically mount a card holder such as a computer with a printer
If the device is tall enough to be stored in the
The card holder may be pulled out to the information. It should be noted that, in the above-described embodiment, the portable small-sized computer is used.
The memory card mounting mechanism has been explained.
In addition to a small portable computer,
Memory card loading machine for electronic devices such as cash registers
Of course, it can be widely used as a structure. [Effect of the Invention] According to the present invention, the memory card in the main body of the electronic device
Attach the memory card to the card holder
Just push the card holder into the electronic device.
Therefore, the back cover can be removed and the memory can be
Insert the card or insert the end of the memory card into the card slot.
No need for complicated operations such as inserting them together
In addition, the memory card can be taken out of the electronic
Memory card from this card holder.
Since it can be easily done by taking it out,
Compared to the memory card mounting mechanism,
It can be taken out easily and with good operability.
The operation of the electronic device body is forcibly stopped when the memory card is attached or detached.
Since it can be stopped, the incompleteness of both input and output terminals
Prevents accidents such as destruction of memory contents due to operation in a connected state
It is possible to increase the safety when attaching and detaching the memory card.
Wear.

BRIEF DESCRIPTION OF THE DRAWINGS The drawings show an embodiment of the present invention. FIGS. 1, 2 and 3 are external views of a portable small computer equipped with a memory card mounting mechanism, and an enlarged vertical section thereof. FIG. 4 is a side view and an exploded perspective view, FIG. 4 and FIG.
6 is an enlarged sectional view taken along the line AA of FIG. 4, FIG. 7 is an exploded perspective view of a RAM card, and FIGS. 8 and 9 are RAMs.
FIG. 10 is a vertical cross-sectional side view showing a state where the input / output terminals of the card are covered with a shutter plate and a state where the shutter plate is moved to expose the input / output terminals. FIG. 10 is a sectional view taken along line BB in FIG. FIG. 11 is a perspective view seen from the bottom side of the card holder, FIG.
FIG. 13 is a cross-sectional view showing a method of attaching a spring plate for electrostatic grounding provided inside the card holder, FIGS. 13 and 14 are vertical side views showing a method of inserting a RAM card into the card holder, and FIG. 15 is a computer. It is a circuit diagram in the main body. 1 ... Computer body, 1a ... Case body, 1b ...
Bottom panel, 4 ... Liquid crystal display panel, 5 ... Wiring board,
7-card holder housing, 8-housing bottom plate, 10-card holder drawer opening, 11-card holder storage space, 12-card holder, 12a-thin box, 12b-projection plate Part, 12c …… front plate, 12d …… opening of bottom of thin box part, 12e …… card support piece, 12f …… insulating cover, 14 …… card holder pushing coil spring, 20 …… R
AM card, 21 ... Support plate, 22a, 22b ... Front panel,
23 ... Wiring board, 27 ... Input / output terminal, 32 ... Insulation sheet, 35 ... Shutter plate, 36 ... Wire spring, 50 ... Guide ridge, 60 ... Memory card connection terminal, 70 ... No. 1 power switch, 71 ...... second power switch.

Claims (1)

[Claims] [Claims] [Claim 1] A memory card mounting mechanism which is mounted in an electronic device main body when necessary, wherein the memory card is detachably held in the electronic device main body. A card holder provided so as to be able to be drawn out of the main body of the device, a blocking means for preventing the card holder from being pulled out from the outside of the electronic device main body, and when the blocking of the withdrawal of the card holder by the blocking means is released, An operation control means for stopping the operation of the electronic device main body, and inserting the memory card held in the card holder into a predetermined position in the electronic device main body by pushing the card holder into the electronic device main body; A memory card mounting mechanism characterized in that the input / output terminals of the card are brought into contact with the memory card connection terminals inside the electronic device body. 2. The card holder is pressed in the pull-out direction by a spring force, and when the blocking is released by the blocking means, the card holder is automatically pushed out by a spring force to a pulled-out state. The memory card mounting mechanism according to claim 1. 3. The memory card according to claim 1 or 2, wherein the card holder has an insulating cover for covering the memory card except for an arrangement portion of its input / output terminals. Mounting mechanism.