JP4213300B2 - Information input device and information processing device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention has an information input device such as a keyboard used in a desktop personal computer and a keyboard.Information processing deviceIn particular, the present invention relates to a structure for storing a cable in a housing of a keyboard.
[0002]
[Prior art]
A desktop personal computer includes a keyboard that is used by being connected to the apparatus main body. This keyboard has a rectangular box-shaped housing and a number of keys arranged on the upper surface of the housing, and the housing is placed on a mounting surface such as a top plate of a desk. The keyboard is connected to the apparatus main body via a flexible cable.
[0003]
By the way, in this kind of personal computer, since the keyboard is a module independent of the device main body, the cable connecting the keyboard and the device main body cannot be used even if the keyboard and the device main body are separated. Its length is sufficiently secured so that it can be connected without any problems. For this reason, when the keyboard and the apparatus main body are arranged close to each other, the cable is often too long and is randomly routed around the apparatus main body and the keyboard. As a result, the cable may be in the way or adversely affect the appearance of the computer.
[0004]
As a countermeasure, the cable housing is conventionally formed in the keyboard housing, and the cable drawn out from the housing can be stored in the cable housing so that the unnecessary portion for wiring can be stored in the cable housing. A keyboard that can be used is known.
[0005]
The conventional cable storage part is comprised by the wide recessed part opened by the bottom face of the housing. This recess is connected to a cable insertion opening opened on the side surface of the housing. The cable insertion port is for guiding the cable to the cable storage part or pulling it out from the cable storage part, and has an opening width sufficiently larger than the thickness of the cable. And the pin-shaped protrusion which protrudes downward is arrange | positioned in the several places of the bottom of the said recess, and this cable is wound by winding the cable guide | induced from the said cable insertion port on these pins in loop shape. It is designed to be stored in the cable storage unit.
[0006]
A hook is attached to the cable insertion port. The hook is made of an elastic member such as rubber or synthetic resin material, and when the cable is passed through the cable insertion port, the cable is prevented from dropping from the cable insertion port by hooking the cable on the hook. It is like that.
[0007]
[Problems to be solved by the invention]
However, according to this conventional keyboard, after guiding the cable to the recess on the bottom of the housing, it is necessary to sequentially wind it around the pin-shaped protrusion, and when guiding this cable to the recess or pulling it out from here, The work of hooking the cable on the hook is required. For this reason, there is a problem that the workability when storing the cable in the cable storage unit is poor and the storage work is troublesome.
[0008]
Moreover, in the conventional configuration in which the cable is wound around the protrusion, the winding diameter of the cable in the recess is naturally determined. For this reason, when adjusting the length of the cable to be stored, the adjustment width becomes narrow, and it is difficult to finely adjust the length of the cable.
[0009]
In addition, since a hook for preventing the cable from dropping out must be attached to the cable insertion port, there is a problem that the number of parts increases correspondingly, resulting in a disadvantageous configuration in terms of cost.
[0010]
  The present invention has been made based on such circumstances, and can easily store the cable in the cable storage section, and can finely adjust the storage length of the cable, and has a simple configuration. Information input device that can reduce manufacturing costs withInformation processing deviceThe purpose is to provide.
[0011]
[Means for Solving the Problems]
  To achieve the above object, the present inventionOne form ofThe information input device according to
  A housing having a bottom wall and a peripheral wall connected to the bottom wall;,
  A flexible cable drawn out of the housing from the housing;
  the aboveConsists of a recess opened in the bottom wall of the housing,the aboveA cable storage section in which the cable is removably stored;Has.
  The cable storage unit includes a storage chamber for storing the cable in a folded state, and at least one cable holding unit connected to the storage chamber.And equipped withThis cable holder is(1)Cable insertion opening opened in the peripheral wall of the housingWhen, (2)Of the above cablesFrom outside the housingAn introduction portion led to the storage room;the aboveFrom the storage roomOutside the housingIt has an opening width that can be fitted into the drawer part to be pulled out.A groove portion, and the cable introduction portion and the lead-out portion are held in the groove portion in a bundled state.It is characterized by that.
[0012]
In such a configuration, when storing the cable in the cable storage portion, first, the housing is turned over so that the cable storage portion faces upward. In this state, the cable is guided to the storage room, and is folded as much as necessary so as to enter the storage room, and is stored in the storage room, and the length of the cable to be stored is adjusted.
[0013]
  Next, of the cable, the introduction part led to the storage room and the drawer part drawn from the storage roomCable holder groovePush it in with your fingertips. As a result, the cable is held in the cable holding portion in a state where the introduction portion and the lead-out portion are bundled together, and the insertion path of the cable with respect to the cable storage portion is determined.
[0014]
Therefore, according to the above-described configuration, the troublesome and troublesome work of winding the cable around the protrusion or hooking it on the hook as in the prior art becomes unnecessary, and the cable can be easily stored in the cable storage portion.
[0015]
Moreover, since the cable can be folded into a free shape and stored in the storage room, the degree of freedom in adjusting the cable storage length is increased compared to the conventional case, and the length of the cable to be stored must be finely adjusted. Can do.
[0016]
In addition, since the cable holding portion is formed in a groove shape and is integrally formed on the bottom wall of the housing, a hook made of a separate dedicated part and a structure for attaching the hook can be omitted. For this reason, the number of parts can be reduced, and the configuration of the housing can be simplified.
[0018]
  To achieve the above object, the present inventionInformation processing apparatus according to one aspect ofIs
  With the device body,
  A keyboard connected to the apparatus body via a flexible first cable;,
  A peripheral device connected to the keyboard via a flexible second cable;,It has.
  The above keyboard
      A housing having a bottom wall placed on the mounting surface and first and second side walls connected to the bottom wall;
      the aboveConsists of a recess opened in the bottom wall of the housing,The first and second cables can be removedAnd cable storage partAnd,
    the aboveThe cable housing
      The first and second cablesEachA storage room in a folded state,
      the aboveA first cable holding portion connected to the storage chamber and having a first cable insertion opening opened in the first side wall of the housing;
      A second cable holding portion connected to the storage chamber and having a second cable insertion opening opened in the second side wall of the housing;With
      the aboveThe first and second cable holding portions are the first and second cables.From outside the housingAn introduction portion led to the storage room;the aboveFrom the storage roomOutside the housingIt has a groove shape with an opening width that allows the drawer part to be pulled out to be fitted,The introduction portion and the draw-out portion of the first cable are held together in a state of being bundled together, and the introduction portion and the draw-out portion of the second cable are one. Held in the second cable holding portion in a bundled stateIt is characterized by that.
[0019]
In such a configuration, when storing the first and second cables in the cable storage portion, first, the housing is turned over so that the cable storage portion faces upward. In this state, the first and second cables are led to the storage chamber of the cable storage section, and are folded as much as necessary so that they can enter the storage chamber. adjust.
[0020]
  Next, in the first cable, the introduction portion led to the storage chamber and the lead-out portion drawn out from the storage chamber are grooved.The fingertip of the hand on the first cable holderPress in order. As a result, the first cable is held in the first cable holding portion in a state where the introduction portion and the lead-out portion are bundled together, and the insertion path of the first cable with respect to the cable storage portion is provided. Determined.
[0021]
  Similarly, in the second cable, an introduction portion led to the storage chamber and a lead-out portion drawn from the storage chamber are formed in a groove shape.The fingertip of the hand on the second cable holderPush in order withGo. Thus, the second cable is held in the second cable holding portion in a state where the introduction portion and the lead-out portion are bundled together, and the insertion path of the second cable with respect to the cable storage portion is provided. Determined.
[0022]
Therefore, according to the above-described configuration, the troublesome and troublesome work of winding the cable around the protrusion or hooking it on the hook as in the prior art becomes unnecessary, and the cable can be easily stored in the cable storage portion.
[0023]
And since the 1st and 2nd cable is stored in a storage room by folding in a free shape, the freedom degree at the time of adjusting the storage length of the 1st and 2nd cable spreads compared with the past, The length of the cable to be stored can be finely adjusted.
[0024]
Further, since the first and second cable holding portions are formed in a groove shape and integrally formed on the bottom wall of the housing, it is possible to omit a hook made of a dedicated separate part and a structure for attaching the hook. it can. For this reason, the number of parts can be reduced, and the configuration of the housing can be simplified.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described below with reference to FIGS. 1 to 8 applied to a desktop personal computer.
[0026]
FIG. 1 discloses a desktop personal computer 1. The computer 1 includes a liquid crystal integrated device main body 2 and a keyboard 3 as an information input device used by being connected to the device main body 2. The apparatus main body 2 and the keyboard 3 are installed on a horizontal placement surface 4 (shown in FIG. 4) such as a table top.
[0027]
The apparatus main body 2 has a housing 5 made of synthetic resin. The housing 5 includes a base portion 6 and a stand portion 7. The base 6 has a flat rectangular box shape. The stand portion 7 extends upward from the rear end of the base portion 6 while maintaining the same width as the base portion 6.
[0028]
A flat liquid crystal display unit 11 is supported on the upper end of the stand portion 7. The liquid crystal display unit 11 includes a display housing 12 and a liquid crystal display module 13 accommodated in the display housing 12. The display housing 12 has a front surface in which a display opening 14 is formed, and the display screen 13 a of the liquid crystal display module 13 is exposed to the outside through the opening 14.
[0029]
As shown in FIGS. 1 to 5, the keyboard 3 includes a number of keys 15 and a housing 16 that supports the keys 15. The housing 16 has a flat rectangular box shape having a bottom wall 17a, an upper wall 17b, a first side wall 17c, a second side wall 17d, a front wall 17e, and a rear wall 17f.₁Depth dimension L₂It is set to be much larger than.
[0030]
The bottom wall 17 a of the housing 16 has a flat bottom surface 18 as shown in FIG. 2, and the bottom surface 18 is placed on the placement surface 4. First and second side walls 17c and 17d as peripheral walls of the housing 16 are spaced apart from each other in the width direction of the housing 16 and extend upward from the left and right side edges of the bottom wall 17a. The upper wall 17b of the housing 16 is inclined upward from the front part to the rear part of the housing 16, and therefore the housing 16 becomes thicker as it goes from the front part to the rear part.
[0031]
The housing 16 is divided into a lower housing 16a including a bottom wall 17a and an upper housing 16b including an upper wall 17b. The housings 16a and 16b are constituted by injection molded products obtained by filling a mold with a molten resin material, and these molded products are taken out by dividing the mold.
[0032]
The keyboard 3 has a flexible USB cable 20 as a first cable. The USB cable 20 has a circular cross-sectional shape and is drawn from the first side wall 17 c of the housing 16. The tip of the USB cable 20 is connected to a USB port (not shown) of the apparatus body 2. A mouse connector 21 as shown in FIG. 5 is disposed on the second side wall 17d of the housing 16. The mouse connector 21 is located on the side opposite to the drawing side of the USB cable 20.
[0033]
A mouse 22 as a peripheral device attached to the keyboard 3 is placed on the placement surface 4 together with the keyboard 3. The mouse 22 has a flexible mouse cable 23 as a second cable. The mouse cable 23 has a circular cross-sectional shape, and a connector 24 at the tip of the mouse cable 23 is connected to the mouse connector 21 of the keyboard 3.
[0034]
Therefore, in a state where the mouse 22 is connected to the keyboard 3, the USB cable 20 and the mouse cable 23 are drawn from both end portions along the width direction of the housing 16.
[0035]
As shown in FIGS. 3 to 7, the housing 16 has a cable storage portion 25 that selectively stores at least one of the USB cable 20 and the mouse cable 23. The cable storage portion 25 is configured by a recess opened in the bottom surface 18 of the housing 16, and is integrally formed with the bottom wall 17a when the lower housing 16a is injection molded.
[0036]
The cable storage unit 25 includes a storage chamber 26 that stores the two types of cables 20 and 23, and first and second cable holding units 27 a and 27 b that are connected to the storage chamber 26. The storage chamber 26 extends in the width direction and the depth direction of the housing 16, and the depth dimension thereof is set to be larger than the diameter of the cables 20 and 23, and the cables 20 and 23 are folded on the same plane. Has enough capacity to fit. The bottom surface 26a of the storage chamber 26 is inclined upward as it advances from the front portion of the housing 16 to the rear portion, and the depth dimension increases as the inclination proceeds from the front portion of the storage chamber 26 to the rear portion. Yes.
[0037]
The first cable holding portion 27a is for guiding the USB cable 20 to the storage chamber 26, and has a cable insertion opening 28 (shown in FIG. 4) opened in the first side wall 17c of the housing 16. The cable insertion port 28 and the storage chamber 26 are constituted by a groove 29 that communicates with the cable insertion port 28. The groove 29 extends in a straight line along the width direction of the housing 16, and the bottom surface 29 a of the groove 29 is located on the same plane as the bottom surface 26 a of the storage chamber 26.
[0038]
The groove portion 29 of the USB cable 20 has an introduction portion 20a led to the storage chamber 26 through the cable insertion port 28 and a lead-out portion 20b drawn out of the housing 16 from the storage chamber 26 in parallel with each other. Opening width X so that it can be fitted₁have. Therefore, in a state where the introduction portion 20a and the lead-out portion 20b of the USB cable 20 are fitted in the groove portion 29, the portions 20a, 20b and the inner surface of the groove portion 29 are in elastic contact with each other, and the USB cable is between them. A certain holding force that prevents the 20 from falling off is generated.
[0039]
The second cable holding portion 27 b is for guiding the mouse cable 23 to the storage chamber 26, and includes a cable insertion port 31 opened in the second side wall 17 d of the housing 16, and the cable insertion port 31. The groove portion 32 communicates with the storage chamber 26. The groove 32 extends in a straight line along the width direction of the housing 16, and the bottom surface 32 a of the groove 32 is located on the same plane as the bottom surface 26 a of the storage chamber 26.
[0040]
The groove portion 32 of the mouse cable 23 has an introduction portion 23a led to the storage chamber 26 through the cable insertion port 31 and a lead-out portion 23b drawn out of the housing 16 from the storage chamber 26 in parallel with each other. Opening width X so that it can be fitted₂have. Therefore, in a state where the introduction portion 23a and the lead-out portion 23b of the mouse cable 23 are fitted in the groove portion 32, the portions 23a and 23b and the inner surface of the groove portion 32 are in elastic contact with each other, and the mouse cable is between them. A certain holding force that prevents the drop-off of 23 is generated.
[0041]
The groove portions 29, 32 of the first and second cable holding portions 27a, 27b are located on the same straight line extending in the width direction of the housing 16 on both sides of the storage chamber 26, and the front end portions of the storage chamber 26, respectively. It is connected to. And the opening width X of these groove parts 29 and 32₁, X₂Is set to be much smaller than the depth dimension of the storage chamber 26.
[0042]
As shown in FIG. 3, a cover attachment seat 35 that is continuous in the circumferential direction is formed at the opening edge of the cable storage portion 25 that is opened in the bottom surface 18 of the housing 16. The cover mounting seat 35 is configured by a depression that is one step lower than the bottom surface 18 of the housing 16.
[0043]
Of this cover mounting seat 35, a front half portion 35a along the opening front edge of the cable storage portion 25 extends in a straight line along the width direction of the housing 16, and a plurality of seats on the front half portion 35a have a plurality of surfaces. The locking holes 36 are formed at intervals. A plurality of notches 37 are formed in the rear half portion 35 b of the cover mounting seat 35 along the rear opening edge of the cable storage portion 25. The notches 37 are formed at two positions corresponding to the storage chamber 26 and one position respectively corresponding to the groove portions 29 and 32 of the first and second cable holding portions 27a and 27b.
[0044]
The cable storage portion 25 of the housing 16 is covered with detachable first and second cable covers 40 and 41. The first cable cover 40 includes a narrow first plate portion 40a that covers the groove 29 of the first cable holding portion 27a, and a wide second plate portion 40b that continuously covers the left half of the storage chamber 26. have. The second cable cover 41 includes a narrow first plate portion 41a that covers the groove portion 32 of the second cable holding portion 27b, and a wide second plate portion 41b that continuously covers the right half of the storage chamber 26. have.
[0045]
The peripheral portions of the first and second cable covers 40 and 41 are superimposed on the seating surface of the cover mounting seat 35. The peripheral portions of the first and second cable covers 40 and 41 are elastically provided with a plurality of tongue pieces 43 (shown in FIG. 8) inserted into the locking holes 36 and the notches 37, respectively. A pair of latch pieces 44 that are hooked on the two are integrally formed.
[0046]
Therefore, after inserting the tongue piece 43 into the locking hole 36, the first and second cable covers 40, 41 are overlapped with the cover mounting seat 35 and the latch piece 44 is hooked on the notch 37. Thus, the bottom wall 17a of the housing 16 is supported.
[0047]
In a state where the first and second cable covers 40, 41 are attached to the housing 16, the first and second plate portions 40 a, 40 b, 41 a, 41 b of these cable covers 40, 41 are attached to the bottom wall 17 a of the housing 16. The USB cable 20 and the mouse cable 23 are held in the cable storage unit 25 so as to be kept flush with each other.
[0048]
In the personal computer 1 having such a configuration, in order to store the USB cable 20 and the mouse cable 23 connected to the keyboard 3 in the cable storage section 25 of the housing 16, the housing 16 is turned upside down as shown in FIG. Turn 25 upwards. When the cable storage unit 25 is closed by the first and second cable covers 40 and 41, first, the latch piece 44 is pressed with a fingertip, whereby the latch piece 44 and the notch 37 are engaged. The first and second cable covers 40 and 41 are removed from the housing 16.
[0049]
In this state, the USB cable 20 is guided from the direction of the first cable holding portion 27a toward the storage chamber 26, and is sequentially folded along the bottom surface 26a of the storage chamber 26 by an amount corresponding to the required length. In the storage chamber 26. Thereby, the length of the USB cable 20 to be stored is adjusted.
[0050]
Next, in the USB cable 20, the introduction portion 20 a introduced into the storage chamber 26 and the lead-out portion 20 b drawn out from the storage chamber 26 are inserted into the groove 29 of the first cable holding portion 27 a. Push it in with your fingertips. As a result, the USB cable 20 is held in the groove 29 in a state where the introduction portion 20a and the lead-out portion 20b are bundled together, and the insertion path of the USB cable 20 with respect to the cable storage portion 25 is determined.
[0051]
When the holding of the USB cable 20 is completed, the mouse cable 23 is now guided from the direction of the second cable holding portion 27b toward the storage chamber 26, and the storage chamber 26 is sequentially moved by the length corresponding to the required length. The mouse cable 23 is housed in the storage chamber 26 by being folded along the bottom surface 26a. Thereby, the length of the mouse cable 23 to be stored is adjusted.
[0052]
Next, in the mouse cable 23, the introduction portion 23 a introduced into the storage chamber 26 and the lead-out portion 23 b drawn out from the storage chamber 26 are inserted into the groove portion 32 of the second cable holding portion 27 b. Push it in with your fingertips. As a result, the mouse cable 23 is held in the groove portion 32 in a state where the introduction portion 23a and the lead-out portion 23b are bundled together, and the insertion path of the mouse cable 23 with respect to the cable storage portion 25 is determined.
[0053]
Finally, the first and second cable covers 40, 41 are overlapped on the cover mounting seat 35 of the cable storage portion 25, and the latch piece 44 is hooked on the notch 37, so that these first and second cable covers 40, In 41, the USB cable 20 and the mouse cable 23 housed in the cable storage unit 25 are covered. This completes the storage operation of the series of USB cable 20 and mouse cable 23.
[0054]
According to the keyboard 3 having such a configuration, when the USB cable 20 and the mouse cable 23 are stored in the cable storage unit 25 of the keyboard 3, the USB cable 20 and the mouse cable 23 are folded and stored in the storage chamber 26. Thereafter, the introduction portion 20a and the lead-out portion 20b are pushed into the groove portions 29 and 32 of the first and second cable holding portions 27a and 27b, and the USB cable 20 and the mouse cable 23 are inserted using the groove portions 29 and 32. A route should be defined.
[0055]
This eliminates the troublesome and troublesome work of winding the cable to be stored around the protrusion many times and hooking the cable on the hook so that the cable does not come apart. 23 can be easily stored.
[0056]
Moreover, since the USB cable 20 and the mouse cable 23 are housed in the storage room 26 by being folded into a free shape along the bottom surface 26a of the storage room 26, when the storage length of these cables 20 and 23 is adjusted. The degree of freedom increases. For this reason, the adjustment range is widened compared to the conventional case, and the storage length of the cables 20 and 23 can be finely adjusted.
[0057]
Further, since the grooves 29 and 32 that define the insertion path of the USB cable 20 and the mouse cable 23 are formed integrally with the bottom wall 17a when the lower housing 16a is injection molded, a dedicated hook for hooking the cables 20 and 23, A structure for attaching the hook becomes unnecessary. For this reason, not only can the number of parts be reduced, but also the structure of the cable storage portion 25 can be simplified, and the manufacturing cost of the housing 16 can be reduced.
[0058]
Further, according to the above configuration, the first cable cover 40 covers the first cable holding portion 27a through which the USB cable 20 is inserted and the left half of the storage chamber 26, and the second cable cover 41 is provided with the mouse. The second cable holding portion 27b through which the cable 23 is inserted and the right half of the storage chamber 26 are covered and hidden. Therefore, in order to adjust the length of either the USB cable 20 or the mouse cable 23, the cable cover 40 or 41 on the side corresponding to the cable 20 or 23 to be adjusted may be removed. When the length is adjusted, the holding of the other cable 20 or 23 is not released.
[0059]
In the first embodiment, the second cable holding portion through which the mouse cable is inserted is formed on the bottom wall of the housing. However, in the case of a keyboard that does not have a mouse connector for connecting the mouse cable, The second cable holding part may be omitted.
[0060]
The present invention is not limited to the first embodiment described above, and FIGS. 9 and 10 show a second embodiment of the present invention.
[0061]
In the second embodiment, when the USB cable 20 and the mouse cable 23 are stored together in the cable storage unit 25, the cables 20 and 23 are prevented from being entangled. The basic configuration of the cable storage unit 25 other than that of the first embodiment is the same as that of the first embodiment.
[0062]
Therefore, in the second embodiment, the same components as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0063]
As shown in FIG. 9, a rib-like partition wall 50 is disposed in the storage chamber 26. The partition wall 50 is integrally formed at the time of injection molding of the lower housing 16 a and protrudes downward from the bottom surface 26 a of the storage chamber 26. The partition wall 50 continuously extends in a straight line from the opening end of the second cable holding portion 27b to the storage chamber 26 toward the first cable holding portion 27a. A cable insertion passage 51 is formed between the first cable holding portion 27a and the first cable holding portion 27a.
[0064]
Therefore, the partition wall 50 partitions the inside of the storage chamber 26 into two chambers, a first chamber 52 and a second chamber 53, and the first chamber 52 holds the first cable via the passage 51. The second chamber 53 is continued to the second cable holding portion 27b while continuing to the portion 27a.
[0065]
According to the cable storage unit 25 having such a configuration, the USB cable 20 is folded along the bottom surface 26 a in the first chamber 52 of the storage chamber 26, and then the first cable is connected via the passage 51. It is guided to the groove portion 29 of the holding portion 27a. The mouse cable 23 is folded in the second chamber 53 of the storage chamber 26 along the bottom surface 26a and then guided to the groove 32 of the second cable holding portion 27b. The folded end 23 c faces the passage 51.
[0066]
According to such a configuration, the storage chamber 26 of the cable storage unit 25 is partitioned into the first chamber 52 that stores the USB cable 20 and the second chamber 53 that stores the mouse cable 23 via the partition wall 50. Therefore, even when both the USB cable 20 and the mouse cable 23 are stored together in the storage chamber 26, a rib-shaped partition wall 50 is interposed between the cables 20 and 23.
[0067]
Therefore, the cables 20 and 23 can be prevented from being entangled inside the storage chamber 25, and the storage length adjustment of the cables 20 and 23 can be easily performed. At the same time, since the insertion paths of the cables 20 and 23 inside the storage chamber 25 are defined, when the cables 20 and 23 are folded along the bottom surface 26a, the adjacent cables 20 and 23 become an obstacle. No, the workability when the cables 20 and 23 are stored is further improved.
[0068]
Since the partition wall 50 protruding from the bottom surface 26a of the storage chamber 26 extends continuously along the width direction of the housing 16, in order to smoothly and easily perform die cutting at the time of injection molding, FIG. As shown in FIG. 10B, it is desirable that a large number of recesses 55 are formed at the protruding tip of the partition wall 50 at intervals in the longitudinal direction, and the protruding end of the partition wall 50 has an uneven shape.
[0069]
Moreover, the partition wall 50 does not need to be formed continuously in the width direction of the housing 16. For example, a plurality of partition walls may be arranged in a row at intervals in the width direction of the housing.
[0070]
FIG. 11 discloses a third embodiment of the present invention.
[0071]
This third embodiment shows a structure suitable for the case where the USB cable 20 and the mouse cable 23 are pulled out from the first side wall 17 c of the housing 16.
[0072]
As shown in FIG. 11, a first cable storage 60 for storing the USB cable 20 and a second cable storage 61 for storing the mouse cable 23 are formed on the bottom wall 17 a of the housing 16. . These cable storage portions 60, 61 are configured by recesses opened in the bottom surface 18 of the housing 16, and are arranged side by side in the depth direction of the housing 16.
[0073]
The first cable storage unit 60 includes a storage chamber 62 in which the USB cable 20 is stored in a folded state, and a cable holding unit 63 connected to the storage chamber 62. The storage chamber 62 has a capacity sufficient to accommodate the USB cable 20. The USB cable 20 is folded along the flat bottom surface 62 a of the storage chamber 62.
[0074]
The cable holding portion 63 includes a cable insertion port 64 opened in the first side wall 17 c of the housing 16 and a groove portion 65 that communicates the cable insertion port 64 with the storage chamber 62. The groove 65 extends in a straight line along the width direction of the housing 16. Then, as in the first embodiment, the groove 65 has an opening width X that allows the introduction portion 20a and the lead-out portion 20b of the USB cable 20 to be fitted in parallel with each other.₁have. Therefore, the introduction portion 20 a and the lead-out portion 20 b of the USB cable 20 are held in the first cable storage portion 60 by fitting into the groove portion 65.
[0075]
The second cable storage unit 61 includes a storage chamber 67 for storing the mouse cable 23 in a folded state, and a cable holding unit 68 connected to the storage chamber 67. The storage room 67 has a capacity sufficient to accommodate the mouse cable 23. The mouse cable 23 is folded along the flat bottom surface 67 a of the storage chamber 67.
[0076]
The cable holding portion 68 includes a cable insertion port 69 opened in the first side wall 17 c of the housing 16 and a groove portion 70 that allows the cable insertion port 69 and the storage chamber 67 to communicate with each other. The groove portion 70 extends in a straight line along the width direction of the housing 16. Then, as in the first embodiment, the groove portion 70 has an opening width X such that the introduction portion 23a and the lead-out portion 23b of the mouse cable 23 can be fitted in a parallel state.₂have. Therefore, the introduction portion 23 a and the lead-out portion 23 b of the mouse cable 23 are held by the second cable holding portion 61 by fitting into the groove portion 65.
[0077]
The first and second cable storage portions 60 and 61 are individually covered by the same first and second cable covers 40 and 41 as those in the first embodiment. 41 is removably supported on the bottom wall 17 a of the housing 16 via the tongue piece 43 and the latch piece 44.
[0078]
According to such a configuration, the first cable storage unit 60 in which the USB cable 20 is stored and the second cable storage unit 61 in which the mouse cable 23 is stored are independent from each other. And the mouse cable 23 can be stored inside the housing 16 without being entangled with each other.
[0079]
For this reason, the adjustment work of the storage length of each cable 20 and 23 can be performed easily, and the workability | operativity at the time of storage of the cables 20 and 23 improves more.
[0080]
【The invention's effect】
  According to the present invention detailed above,The cable can be easily stored in the cable storage section, and the cable storage length can be finely adjusted. Furthermore, there is an advantage that the structure of the cable storage portion can be simplified, and the manufacturing cost of the housing can be reduced and provided at low cost.
[Brief description of the drawings]
FIG. 1 is a perspective view of a desktop personal computer according to a first embodiment of the present invention.
FIG. 2 is a perspective view of the keyboard when the housing is viewed from the bottom wall side.
FIG. 3 is a perspective view of a keyboard showing a state in which a USB cable and a mouse cable are stored in a cable storage unit.
FIG. 4 is a left side view of the keyboard.
FIG. 5 is a right side view of the keyboard.
FIG. 6 is a side view of a keyboard showing a section of a storage chamber of a cable storage section in a cross section.
FIG. 7 is a side view of the keyboard showing a section of the cable holding portion of the cable storage portion in section.
FIG. 8 is a cross-sectional view showing a state in which the cable storage portion is closed using first and second cable covers.
FIG. 9 is a perspective view of a keyboard showing a state where a USB cable and a mouse cable are stored in a cable storage unit in the second embodiment of the present invention.
FIG. 10A is a side view of the keyboard showing a section of the storage chamber of the cable storage section in section.
(B) is sectional drawing of the protrusion front-end | tip of a partition wall.
FIG. 11 is a perspective view of a keyboard showing a state in which a USB cable and a mouse cable are stored in a cable storage unit in the third embodiment of the present invention.
[Explanation of symbols]
  2 ... device main body, 3 ... keyboard, 4 ... mounting surface, 16 ... housing, 17a ... bottom wall, 17c, 17d ... peripheral wall (first side wall, second side wall), 20 ... first cable (USB cable) ), 20a ... introduction portion, 20b ... drawing portion, 22 ... peripheral device (mouse), 23 ... second cable (mouse cable), 23a ... introduction portion, 23b ... drawing portion, 25, 60, 61 ... cable storage (First cable storage unit, second cable storage unit), 26, 62, 67... Storage chamber, 27a, 63... First cable holding unit, 27b, 68. , 64, 69... Cable insertion port, 29, 32, 65, 70.

Claims (7)

A housing having a bottom wall and a peripheral wall connected to the bottom wall ;
A flexible cable drawn out of the housing from the housing;
Is constituted by indentations opened in the bottom wall of the housing, in the information input apparatus having a, a cable storage portion in which the cable is retractable withdrawn,
The cable storage portion is provided with a storage chamber to fit in a folded state the cable, and at least one cable retaining portion connected to the storage chamber, and
The cable holding portion (1) and the cable insertion hole opened in the peripheral wall of the housing, (2) the introduction portion is guided to the storage compartment from the outside of the housing of the cable, said housing from said storage chamber features of a lead-out portion and a groove portion having a possible opening width fitting the drawn out, and that the introduction and the extraction portion of the cable is held in the groove while being bundled into one Information input device.   2. The information input device according to claim 1, wherein the cable storage portion of the housing is covered with a removable cable cover. A housing having a bottom wall and first and second side walls connected to the bottom wall ;
Flexible first and second cables drawn out of the housing from the housing;
Is constituted by indentations opened in the bottom wall of the housing, comprising a cable storage unit for the first and second cable is retractable removed and the,
The cable housing is
A storage chamber for storing the first and second cables in a folded state;
A first cable holding portion that is continuous with the storage chamber and has a first cable insertion opening that is opened in the first side wall of the housing;
A second cable holding portion that is continuous with the storage chamber and has a second cable insertion opening opened in the second side wall of the housing ;
It said first and second cable holding portion, the introduction portion to be guided to the storage compartment from the outside of the housing of the first and second cables, lead portion led out to the outside of the housing from the storage chamber And is held in the first cable holding portion in a state where the introduction portion and the lead-out portion of the first cable are bundled together, An information input device, wherein the second cable holding portion is held in a state where the introduction portion and the drawing portion of the second cable are bundled together .   4. The information input device according to claim 3, wherein the cable storage portion is covered with a plurality of cable covers, and the cable covers are removably supported on the bottom wall of the housing. . In the description of claim 3, the cable storage portion has a partition wall for partitioning said storage chamber into a first chamber and the second chamber, the first chamber, to the first cable holding portion with continuous, the second chamber, the information input device, characterized in that connected to said second cable holding portion. The device body ;
A keyboard connected via a flexible first cable to the apparatus body,
An information processing apparatus comprising a peripheral device connected via the flexible second cable to the keyboard,
The above keyboard
A housing having a bottom wall placed on the mounting surface and first and second side walls connected to the bottom wall;
Is constituted by indentations opened in the bottom wall of the housing, comprising a cable storage unit for the first and second cable is retractable removed and the,
The cable housing is
A storage chamber for storing the first and second cables in a folded state;
A first cable holding portion that is continuous with the storage chamber and has a first cable insertion opening that is opened in the first side wall of the housing;
A second cable holding portion that is continuous with the storage chamber and has a second cable insertion opening opened in the second side wall of the housing ;
Said first and second cable holding portion, the introduction portion to be guided to the storage compartment from the outside of the housing of the first and second cable lead-out portion drawn out of the housing from the storage chamber And is held in the first cable holding portion in a state where the introduction portion and the lead-out portion of the first cable are bundled together, An information processing apparatus, wherein the introduction portion and the lead portion of the second cable are held by the second cable holding portion in a bundled state . 7. The information processing apparatus according to claim 6, wherein the cable storage portion is covered with a plurality of cable covers, and the cable covers are removably supported on the bottom wall of the housing. .

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