CN107008005B - Storable digital device controller - Google Patents

Abstract

The invention relates to a storable digital device controller, which is designed with two sides of holding positions, a middle bridging connector, corresponding keys and joystick hardware, and can move (move and rotate) relatively to the middle bridging connector through the two sides of holding positions, so that the joystick, the keys and a circuit board can be pushed, pulled and rotated to perform a driven storage and sinking action, so that the hardware which is originally difficult to store or put in a pocket is hidden, further the storage rear surface is smooth and easy to carry, and the problem of inconvenient carrying in the prior art is solved.

Description

Storable digital device controller

Technical Field

The invention relates to a storable digital device controller.

Background

(1) In the creation of the prior art, the game handle controller is mostly used by a host connected with a television screen, the requirement for portability is not high, no additional independent carrying is needed, but the current smart phones are widely used by the masses, the game playing proportion through the smart phones is higher and higher, the requirement for carrying is more and more important, in the creation of the prior art, the game handle controller is mostly in an ergonomic holding shape, but because the shapes are different, and the game bars, keys and holding positions on the controller are all protruded out of the body, the game handle controller cannot be put into or put into and taken out of a bag body, and the user cannot hook the bag, trousers and coats when the game handle controller is put into or put into and taken out of the bag, so that the user cannot take the game handle controller for shrinkage storage and carrying.

(2) In the creation of the prior art, the game handle controller is divided into left and right sides, the middle is fixed by adopting a guide rail, so that the mobile phone can be clamped by the controllers on the two sides, but the functions of the smart phone are invalid or inconvenient for users due to contact, pressing and shielding of the sound holes, the charging holes and the keys of the smart phone when the two sides are clamped, the width of the smart phone can be increased, the left and right hands of the user can be far away from the smart phone when the user adopts the game handle controller with the left and right opposite clamps to play games, more distance and more time are required to be moved when the user needs to directly click on a screen picture, and the serious problem of slow response is caused in the games requiring aging in real-time combat. Especially, the function keys which are not arranged on the game handle controller are inconvenient for the user to feel deep when the screen clicking control is adopted.

(3) In the prior art, the keys, the game lever, the power interface and the like of the game handle controller have gaps with certain widths, and the gaps are large enough to allow water and air in the environment to enter, so that the stability of an internal circuit board is affected, and the water or the air can possibly permeate into the interior when being sprayed with rain, so that the product is damaged.

(4) In the prior art, the game handle controller may be provided with ports for an output power source and an input power source, but the electric wires are arranged outside the controller body, and are usually detached for storage when being stored, or directly surround the periphery of the controller, so that the trouble of being stored separately, even the problem of possibly losing, or winding deformation and breakage are caused.

Disclosure of Invention

The invention designs a storable digital device controller, which solves the technical problems of overlarge volume, inconvenient operation, poor tightness, unreasonable wire arrangement and the like of the conventional game handle controller.

In order to solve the technical problems, the invention adopts the following scheme:

the utility model provides a digital device controller that can accomodate, including left side portion of gripping (01L) and right side portion of gripping (01R), be provided with button (41) or direction controller (31) on this left side portion of gripping (01L) or right side portion of gripping (01R), be provided with circuit arrangement (51) under button (41) or direction controller (31), bridge connector (11) both ends are connected with left side portion of gripping (01L) and right side portion of gripping (01R) respectively, left side portion of gripping (01L) or right side portion of gripping (01R) are moved and are made both merge and draw in or expand the separation for bridge connector (11), its characterized in that: the portable electronic device further comprises a movable device (61), one end of the movable device (61) is in direct contact or indirect contact with the bridging connector (11), the other end of the movable device (61) enables the key (41) or/and the direction controller (31) to vertically move up and down, when the left holding part (01L) is separated from the right holding part (01R), the key (41) or/and the direction controller (31) is pushed out of the holding parts (01R and 01L) by the movable device (61), and when the left holding part (01L) is combined with the right holding part (01R), the key (41) or/and the direction controller (31) are received in the holding parts (01R and 01L).

Further, the bridge connector (11) is of any axially extending geometry; or/and the bridging connector (11) are integrated or multi-section assembly; or/and the bridging connector (11) is internally provided with a hollow tube (12), an electric wire (13) is arranged in the middle of the tube, and the electric wire (13) is a current transmission line or a data transmission line, or/and the bridging connector (11) is provided with a male-female opposite-plug connector (14) which is mutually connected and is connected through a metal contact (15).

Further, a limiting device (16) is arranged on the bridging connector (11), the limiting device (16) is concave-convex internal-external buckling, unidirectional, bidirectional, multi-section ratchet teeth and elastic buckling positions are adopted to serve as a positioning device with controllable multi-section length, the limiting device (16) is stepless and adjustable, friction force and magnetic force resistance are generated through colloid or magnet to form any positioning point, and the limiting device (16) is arranged at any position of the bridging connector (11) or the male-female opposite-plug connector (14) and used for controlling the telescopic distance, and any one of the limiting devices is an integrated sleeve (17) or a folding rod (18).

Further, a direction controller (31) or a key (41) or a circuit device (51) is arranged on any side or any surface of the movable device (61), the movable device (61) is driven to move along the guide rail (611) or the rotating shaft (612) through the relative movement of the rotating arm rotating shaft, the cam, the top block, the spiral, the gear and the rack, and when the movable device (61) moves to the inner space, the height of a convex structure formed by the direction controller (31) or the key (41) which is higher than the surface of any holding part is gradually reduced or is flush or lower than the surface of the holding part.

Further, a battery (71) is arranged in the bridging connector (11) or the holding parts (01L, 01R), the battery (71) is connected with the connector through a wire (13) to form a circuit device (51), the battery (71) is used for supplying power output to charge the digital device (99) except the circuit device (51), two devices are supplied to one battery or two batteries are respectively supplied to two devices, and a power output or power input interface (814) is arranged on any holding part.

Further, the holding parts (01L, 01R) or the bridging connector (11) are provided with a magnet device (81), the digital device (99) is fixed on any side or any surface of the holding part through the adsorption of the magnet device (81), and the magnet or a device (811) which can be adsorbed by magnetic force induction is arranged on any side or any surface or inside the digital device (99).

Further, the periphery or any side or any surface of the magnet device (81) is arranged on any holding part (01L, 01R) or the bridging connector (11), a groove (812) lower than the surface of the holding part is arranged on any side or any surface of the magnet device (81), the magnet device (81) is arranged beside or in the groove, a switch (813) is arranged on any side or any surface of the magnet device (81), when the magnet device (81) and an external device (811) capable of being adsorbed by magnetic force induction are attracted to each other, the switch (813) changes due to magnetic force adsorption resistance, the function of the switch (813) is further triggered, the switch (813) is started by a power switch or/and a Bluetooth module of the digital device (99), and connection pairing is started automatically after the digital device (99) is adsorbed.

Further, a thin colloid (91) is arranged on the surface of any holding part or groove (812), the thin colloid (91) is coated on any side or any surface of the holding part, a concave accommodating space (815) is arranged between the thin colloid (91) and the groove (812), and when the magnet device (81) in the groove (812) or outside the groove (812) is adsorbed and fixed with the digital device (99) through magnetic force, the concave accommodating space (815) is compressed, so that each holding part is tightly combined with the digital device (99).

Further, the thin colloid (91) is coated at any unexpected exposed position of the storable digital device controller, the thin colloid (91) is provided with one surface or one opening, the opening boundary is coated with an outer cover (911) of any holding part, the thin colloid (91) is embedded at the opening by combining an inner cover (912) of the holding part, and the binding position (915) of the thin colloid (91) is sealed or pressed through the assembly of the outer cover (911) and the inner cover (912), so that dust and moisture are prevented from entering the holding part.

Further, the opening of the holding part is arranged on the inner side of the left holding part and the inner side of the right holding part, the opening is contacted with the inner side of the right holding part in an opposite way through the left inner side and the right inner side, the opening and the right holding part are combined and close to form a sealing waterproof ring, a packing magnet device (913) is arranged on any side or any surface of the inner cover (912) or the outer cover (911), the two-way packing magnet device (913) is mutually adsorbed to tightly press the colloid, a soft rubber plug which can be partially turned over is arranged, and the soft rubber plug is arranged in an opening hole on the opposite side of the inner cover.

The utility model provides a digital device controller that can accomodate, includes left side portion of gripping (01L) and right side portion of gripping (01R), its characterized in that: a button (41) or a direction controller (31) is arranged on any side or any surface of the any holding part, a circuit device (51) is arranged below the button or the direction controller, and the direction controller (31) is of a detachable structure and is fixed in a threaded, magnet and concave-convex mortise connection mode; the inside of the accommodating space (333) is provided with a fixing device corresponding to the direction controller (31), the outside of the accommodating space is provided with an outer cover device, the outer cover is a rotary shaft type flip and a sliding rail type flip, and any side or any side of the outer cover is provided with a magnet device (81) which is mutually adsorbed and fixed with a digital device (99) or a device (811) which can be adsorbed by magnetic force induction.

The storable digital device controller has the following beneficial effects:

(1) The invention is designed with two sides of holding position, middle bridging connector, and corresponding key and game bar hardware, and can make the game bar, key and circuit board pushed, pulled and rotated by the relative movement (movement and rotation) of two sides of holding position and middle bridging connector, and make a driven storage and sinking action, so that the hardware which is not easy to store or put into pocket is hidden, further the surface after storage is smooth and easy to carry, and the problem of inconvenient carrying under the prior art is solved.

(2) The invention is provided with a left holding part, a right holding part and a bridging connector, and the left holding part and the right holding part are mutually adsorbed with an iron metal magnetic device and a magnetic device of a digital device body or an additionally attached iron sheet and magnetic device or a digital device protective sleeve with the iron metal magnetic device and the magnetic device through a magnetic adsorption device arranged on the surfaces of the holding part or the bridging connector, so that the digital device is adsorbed on any surface of a game handle controller without being fixed in a clamping manner, the functions of the original smart phone are not shielded, pressed and blocked, and the invention is fixed and operated in a mode of overlapping the smart phone up and down to form a step, the reduction width of the layer degree is extremely large, and the step accords with the holding position and holding stability of a hand.

(3) The surface colloid is arranged on one side of any side of the controller, and the colloid is integrally formed or sealed for injecting the colloid, so that water cannot enter the device when water vapor or rain in the external environment is sprayed, and the product is durable.

(4) According to the invention, the holding spaces are arranged in the left and right holding parts which are mutually connected, the data wire is taken as the surrounding body of the data wire through the bridging connector, when a user needs to charge, the data wire can be taken down from the surrounding body and can be directly inserted into the charging port of the smart phone, when the smart phone is not used to be stored, the data wire is wound on the bridging connector, and the left and right holding parts can be stored and hidden after being folded, so that the smart phone is convenient, rapid and high in safety.

Drawings

Fig. 1: the invention relates to a three-dimensional structure schematic diagram of a digital device controller capable of being accommodated;

fig. 2: the invention can accommodate the front view of the digital device controller;

fig. 3: the active device in fig. 2 works schematically I;

fig. 4: the active device in fig. 2 works schematically II;

fig. 5: the back schematic diagram of the digital device controller capable of being accommodated in the invention;

fig. 6: the invention uses the rotating shaft to act on the moving device schematic diagram;

fig. 7: FIG. 6 is a side cross-sectional view;

fig. 8: FIG. 6 is a cross-sectional view of the other side;

fig. 9: the invention is limited by a structural schematic diagram of a thread device;

fig. 10: FIG. 9 is a side cross-sectional view;

fig. 11: FIG. 9 is a cross-sectional view of the other side;

fig. 12: the holding part of the invention is combined with a folding structure schematic diagram;

fig. 13: the wire installation schematic diagram in the invention;

fig. 14: the male-female opposite-plug connector is connected with a schematic diagram;

fig. 15: in the invention, a bridging connector is connected with a guide track in a schematic diagram I;

fig. 16: in the invention, a bridging connector is connected with a guide track in a schematic diagram II;

fig. 17: the position of the magnet device is schematically shown in the invention;

fig. 18: in the invention, a digital device is connected with a digital device controller;

fig. 19: the concave accommodating space position of the invention is schematically shown;

fig. 20: the digital device is fixed with the schematic diagram through the concave accommodating space;

fig. 21: the thin colloid coverage schematic diagram in the invention;

fig. 22: the inner cover and the outer cover are sealed schematically;

fig. 23: the invention can be stored in another structural schematic diagram of the digital device controller;

fig. 24: FIG. 23 is a schematic view of a grip portion incorporating a gather structure;

fig. 25: the third structural schematic diagram of the digital device controller which can be accommodated in the invention;

fig. 26: FIG. 25 is a schematic diagram of the digital device and digital device controller positions;

fig. 27: in fig. 25, the digital device is schematically connected to the digital device controller.

Reference numerals illustrate:

11-a bridge connector; 12-hollow tubular; 120-guiding track; 13-an electric wire; 14-male-female mating connector; 15-metal contacts; 16-a limiting device; 17-a multi-section sleeve; 18-folding bars; 01L-left grip; 01R-right grip; 21-a slit; 31-a directional controller; 41-a key; 51-a circuit arrangement; 61-a mobile device; 611-a guide rail; 612—a rotating shaft; 71-a battery; 81-magnet means; 811-a device that can be magnetically attracted; 812-trench; 813-a magnetic switch; 814-a power output or power input interface; 815-a concave accommodation space; 91-a thin colloid; 911-an outer cover; 912-inner cap; 913-compressing the magnet arrangement; 915-edge wrapping.

Detailed Description

The invention is further described with reference to fig. 1 to 27:

the invention relates to a storable digital device controller, which is provided with a left holding part 01L and a right holding part 01R, wherein a key 41 or a direction controller 31 is arranged on any side or any surface of the holding part, a circuit device 51 is arranged under the key or the direction controller, the left holding part and the right holding part are separate independent bodies, a bridging connector 11 is arranged on the outer side, the inner side or any surface of the left holding part and the right holding part, two ends of the bridging connector are respectively connected with the holding parts on two sides, a guide rail 120 is arranged on the bridging connector 11, and the bridging connector is arranged on the outer side or the inner side or any side of the bridging connector 11, or the outer side or the inner side or any side of the holding part, so that the bridging connector can be folded or stretched under the condition of being stable and restrained.

The bridge connector 11 and the left holding part 01L or the right holding part 01R are provided with a movable device 61 with guiding, traction and pushing functions, under the condition that any holding part and the bridge connector 11 relatively move, the movable device 61 is driven, the traction, guiding and pushing keys 41 or the direction controller 31 or the circuit device 51 are provided with a guide rail 611 or a rotating shaft 612, the movable device 61, the circuit device 51 or the keys 41 or the direction controller 31 are provided with a guide rail 611 or a rotating shaft 612 for restraining the movement of the components, the left holding part 01L and the right holding part 01R of the control device are guided, moved, rotated, unfolded or folded and combined by the bridge connector 11, in the folded state, a gap 21 is reserved between the holding parts on the left side and the right side, no obvious groove or accommodating space exists in the appearance structure of the gap, and the keys or the direction controller or the circuit device are in a linkage manner that the keys or the direction controller are sunk to any holding part direction, or the direction controller is in a detachable structure.

The left and right holding parts are separate individual, are provided with keys and a direction controller, a circuit device is arranged below the left and right holding parts, and a bridging connector is arranged between the left and right holding parts and is freely stretched and stored under the constraint condition. The left and right holding parts and the bridging connector are provided with movable devices, and the movable devices are provided with guide rails or rotating shafts which are driven by relative movement, so that the keys, the direction controllers and the circuit devices sink.

The bridging connector 11 is a square column or a cylinder or any geometric shape extending axially, the bridging connector 11 is an integral body or a two-section or three-section separable combined structure, is made of plastic, metal and fiber composite materials, is mutually connected in a magnet opposite suction mode, a rotating shaft, a gear, a ratchet wheel, a piston and a rotating arm mode or is connected with any holding part, a hollow tubular 12 is arranged in the column, an electric wire 13 is arranged in the middle of the tube, the electric wire is a current transmission line or a data transmission line, and the tail end of any one of the integral body or the two-section or three-section bridging connector 11 and the electric wire 13 is provided with a male-female opposite-plug connector 14 which is mutually connected and is provided with a metal contact 15.

The bridging connector is a square column or a geometric shape, can be divided into two sections and three sections, is made of plastic or metal, is hollow and is connected with each other or a holding part through a rotating shaft, a ratchet wheel, a piston and a rotating arm, and is provided with a male-female opposite-plug connector and a metal contact.

The bridge connector 11 has one or several limiting units 16 with one or several ratchet teeth and elastic buckling positions for controlling the telescopic distance, one or several sleeve pipes 17 and folding rods 18.

The bridge connector is provided with a limiting device, can control the extension length and the section position, is provided with a thread device, and is an integrated or multi-section sleeve or folding rod.

The holding parts 01L and 01R are internally provided with a direction controller 31, a key 41, a circuit device 51, a battery 71 and a movable device 61, the movable device 61 is in direct contact or indirect contact with the bridging connector 11, any side or any surface of the movable device 61 is provided with the direction controller 31 or the key 41 or the circuit device 51, and the movable device 61 is driven to move along a guide rail 611 or a rotating shaft 612 through the relative movement of a rotating arm rotating shaft, a cam, a top block, a screw, a gear and a rack, and when the movable device 61 moves to an inner space, the height of a convex structure higher than the surface of any holding part is gradually decreased or is flush or slightly lower than the surface.

The relative motion of the rotating arm rotating shaft, the cam, the top block, the spiral, the gear or the rack drives the movable device. The driving structure generates relative motion of two objects, so that the movable device is pushed or pulled by the driving party and is limited by the rotating shaft to generate movement and rotation restrained in a certain axial direction. The limiting device is a movement starting point and a movement ending point which are arranged for avoiding excessive movement of the movable device.

See fig. 7 and 10 for gears and racks. The rotation axis of the arm is shown in fig. 8 and 11. See fig. 9 for spirals.

The holding part is provided with a direction controller, a key, a circuit device, a battery and a movable device, wherein the movable device is in direct or indirect contact with the bridging connector, and the movable device is driven to move along a guide rail or a rotating shaft through the relative movement of a rotating arm shaft, a cam, a top block, a spiral, a gear and a rack, so that the protrusion is accommodated in the body.

The bridge connector 11 or the holding parts 01L and 01R are internally provided with a battery 71 which is a lithium polymer soft package battery or a round tube battery, the battery is arranged in the inner side of a tubular body or any holding part of the bridge connector 11 and is connected with the circuit device 51 through an electric wire 13, the battery is arranged in any holding part or two side holding parts are respectively provided with a battery, and the circuit device 51 is connected with the connector through the electric wire 13, wherein the battery 71 is used for supplying the controller of the invention, simultaneously supplying power output to the digital device 99 for charging, supplying two devices for one battery or two batteries respectively, and the power output or power input interface 814 is arranged on any side of any holding part.

The bridging connector or the holding part is provided with a battery which is arranged in the tubular body and is connected with the circuit board through a wire, and one battery can supply the digital equipment and the controller, or two batteries can respectively supply the digital equipment or the controller.

The holding part 01L, 01R or any side of the bridging connector 11 is provided with a magnet device 81, the magnet device 81 is used for adsorbing and fixing the digital device 99 on any side or any side of the holding part, any side or any side of the digital device 99 is internally provided with a magnet or a device 811 which can be adsorbed by magnetic force induction, the device 811 which can be adsorbed by magnetic force induction is a sheet body or a plurality of sheet bodies or blocks dispersed on any side or any side of the digital device 99 or a digital device protective sleeve or a digital device protective frame, and the shape is rectangular, round, elliptic, L-shaped, C-shaped, mouth-shaped, rectangle or geometric shape. The holding part or the bridging connector is provided with a magnet device which adsorbs and fixes the digital equipment, or an additional device which can be adsorbed is arranged outside the device, and the device is a sheet body, a block body or a protective frame or a digital equipment body, and can be in any shape.

The arbitrary holding part 01L, 01R or the bridging connector 11 is provided with a groove 812 lower than the surface plane around or on any side or on any surface of the magnet device 81, the magnet is arranged beside or in the groove, the magnet device 81 is rectangular, round, oval, L-shaped, C-shaped, mouth-shaped, rectangular or geometric, a switch 813 is arranged on any side or on any surface of the magnet device 81, when the magnet device 81 and an external device 811 which can be attracted by magnetic force induction are attracted mutually, the switch 813 changes due to the magnetic force absorption resistance, the function of the magnetic switch 813 is triggered to start, and the switch is a power switch or a bluetooth module starting switch, so that the digital device 99 is attracted on the device of the invention, namely the connection pairing is started automatically.

The holding part or the bridging connector is provided with a magnet device, a groove lower than a plane is arranged on any surface of the holding part or the bridging connector, the magnet is of any shape, and the magnet device is provided with a magnetic control switch, and the magnet device can be automatically opened for pairing after being attached.

The surface of any holding part or groove 812 is provided with a thin colloid 91, the colloid is coated on any side or any surface of the holding part, and the colloid and the groove are provided with a concave accommodating space 815, when the magnet in the groove or outside the groove is fixed with external equipment through magnetic force absorption, the space is compressed to form a concave accommodating space, so that the controller device of the invention is tightly combined with digital equipment, and the thin colloid 91 is made of soft materials such as silica gel, plastic, TPU, TPE, TPR and the like.

The holding part or the groove is provided with a thin colloid which is coated on any surface, the colloid and the groove are provided with a space, and the colloid on the surface can be compressed after magnetic force absorption to enable the digital device to sink, so that the handle and the digital device are fixed, and the thin colloid is silica gel or plastic or soft glue.

The thin colloid 91 is coated at any position of the invention, distributed on all exposed surfaces and arranged outside the body of the holding part, the keys and the direction controller, the thin colloid 91 is provided with one surface or one opening, the boundary of the opening is coated with the outer cover 911 of the holding part, the inner cover 912 of the holding part is embedded in the opening, and the binding position 915 of the thin colloid 91 is sealed or pressed through the assembly of the outer cover and the inner cover, so that dust and moisture are prevented from entering the inside.

The thin colloid is distributed on all the exposed surfaces and covers the keys, the direction controller and the body, the colloid is provided with an opening, covers the outer cover of the holding part, is embedded with the inner cover, and is sealed or pressed after being assembled, so that the waterproof and dustproof effects are realized.

The opening of the holding part is arranged on the inner side of the left holding part and the inner side of the right holding part, and is contacted in opposite directions through the left inner side and the right inner side, and is combined and closed to form a sealing waterproof ring, a pressing magnet device 913 is arranged on any side or any surface of the inner cover 912 or the outer cover 911, the two-way magnet devices mutually adsorb to press the colloid, a soft rubber plug which can be locally lifted is arranged, and the soft rubber plug is arranged in an opening hole on the opposite side of the inner cover.

The left and right holding parts are of an integral structure, a key 41 or a direction controller 31 is arranged on any side or any surface of the holding part, a circuit device 51 is arranged under the key or the direction controller, the direction controller 31 is of a detachable structure and is fixed in a threaded, magnet and concave-convex mortise joint mode, and a containing space 333 is arranged on the holding part body and used for containing the direction controller 31.

The opening is arranged on the opposite inner side, is contacted in opposite directions through the left inner side and the right inner side, is combined and closed to form a sealing waterproof ring, is tightly pressed by a magnet device of the inner cover or the outer cover to achieve the waterproof and dustproof effects, is provided with a soft rubber plug which can be partially turned over, and is arranged in an opening hole on the opposite side of the inner cover.

The invention has been described above by way of example with reference to the accompanying drawings, it is clear that the implementation of the invention is not limited to the above-described manner, but it is within the scope of the invention to apply the inventive concept and technical solution to other situations as long as various improvements made by the inventive concept and technical solution are adopted or without any improvement.

Claims (9)

1. The utility model provides a digital device controller that can accomodate, including left side portion of gripping (01L) and right side portion of gripping (01R), be provided with button (41) or direction controller (31) on this left side portion of gripping (01L) or right side portion of gripping (01R), be provided with circuit arrangement (51) under button (41) or direction controller (31), bridge connector (11) both ends are connected with left side portion of gripping (01L) and right side portion of gripping (01R) respectively, left side portion of gripping (01L) or right side portion of gripping (01R) are moved and are made both merge and draw in or expand the separation for bridge connector (11), its characterized in that: the portable electronic device further comprises a movable device (61), one end of the movable device (61) is in direct contact or indirect contact with the bridging connector (11), the other end of the movable device (61) enables the key (41) or/and the direction controller (31) to vertically move up and down, when the left holding part (01L) is separated from the right holding part (01R), the key (41) or/and the direction controller (31) is pushed out of the holding parts (01R and 01L) by the movable device (61), and when the left holding part (01L) is combined with the right holding part (01R), the key (41) or/and the direction controller (31) are received in the holding parts (01R and 01L); the movable device (61) is driven to move along the guide rail (611) or the rotating shaft (612) through the relative movement of the rotating arm rotating shaft, the cam, the top block, the spiral, the gear or the rack, and when the movable device (61) moves to the inner space, the height of a protruding structure formed by the direction controller (31) or the button (41) which is higher than the surface of any holding part is gradually reduced or is level or lower than the surface of the holding part.

2. The stowable digital device controller of claim 1, wherein: the bridge connector (11) is provided with a limiting device (16) for limiting the position between any holding part and the bridge connector (11), the limiting device (16) is concave-convex internal-external buckling, and a unidirectional, bidirectional, multi-section ratchet teeth or elastic buckling mode is adopted as a multi-section length controllable positioning device; or when the limiting device (16) is of a stepless adjustable structure, any positioning point is formed by generating friction force and magnetic resistance through colloid or magnet, and the limiting device (16) is arranged at any position of the bridging connector (11) or the male-female opposite-plug connector (14) and used for controlling the telescopic distance, and any one of the limiting devices is an integrated or multi-section sleeve (17) or a folding rod (18).

3. The stowable digital device controller of claim 2, wherein: -said bridging connector (11) is of any axially extending geometry; or/and the bridging connector (11) are integrated or multi-section assembly; or/and the bridging connector (11) is internally provided with a hollow tube (12), an electric wire (13) is arranged in the middle of the tube, and the electric wire (13) is a current transmission line or a data transmission line, or/and the bridging connector (11) is provided with a male-female opposite-plug connector (14) which is mutually connected and is connected through a metal contact (15).

4. The stowable digital device controller of claim 3, wherein: the bridge connector (11) or the holding parts (01L, 01R) are internally provided with a battery (71), the battery (71) is connected with the connector through a wire (13) to form a circuit device (51), the battery (71) is used for supplying power output to charge the digital device (99) except for the circuit device (51), two devices are supplied to one battery or two batteries are respectively supplied to two devices, and a power output or power input interface (814) is arranged at any holding part.

5. The stowable digital device controller of claim 4, wherein: the holding parts (01L, 01R) or the bridging connector (11) are provided with magnet devices (81), the digital device (99) is adsorbed and fixed on any side or any surface of the holding parts through the magnet devices (81), and the magnet or a device (811) which can be adsorbed by magnetic force induction is arranged on any side or any surface or inside the digital device (99).

6. The stowable digital device controller of claim 5, wherein: the magnetic force sensing device is characterized in that the periphery or any side or any surface of the magnet device (81) is arranged on any holding part (01L, 01R) or the bridging connector (11), a groove (812) lower than the surface of the holding part is formed in the periphery or any side or any surface of the magnet device (81), the magnet device (81) is arranged beside or in the groove, a switch (813) is arranged on any side or any surface of the magnet device (81), when the magnet device (81) and an external device (811) capable of being attracted by magnetic force sensing are attracted to each other, the switch (813) changes due to magnetic force attraction resistance, the function of the switch (813) is triggered, the switch (813) is started by a power switch or/and a Bluetooth module of the digital device (99), and connection pairing is started automatically after the digital device (99) is attracted.

7. The stowable digital device controller of claim 6, wherein: the surface of any holding part or groove (812) is provided with a thin colloid (91), the thin colloid (91) is coated on any side or any surface of the holding part, the thin colloid (91) and the groove (812) are provided with a concave accommodating space (815), and when the magnet device (81) in the groove (812) or outside the groove (812) is fixedly adsorbed with the digital device (99) through magnetic force, the concave accommodating space (815) is compressed, so that each holding part is tightly combined with the digital device (99).

8. The stowable digital device controller of claim 7, wherein: the thin colloid (91) is coated at any unexpected exposed position of the storable digital device controller, the thin colloid (91) is provided with one surface or one opening, the boundary of the opening is coated with an outer cover (911) of any holding part, the thin colloid (91) is embedded in the opening by combining an inner cover (912) of the holding part, and the binding part (915) of the thin colloid (91) is sealed or pressed through the assembly of the outer cover (911) and the inner cover (912) so as to prevent dust and moisture from entering the holding part.

9. The stowable digital device controller of claim 8, wherein: the opening of the holding part is arranged on the inner side of the left holding part and the inner side of the right holding part, the opening is contacted with the inner side of the right holding part in opposite directions through the left inner side and the right inner side, the opening and the right holding part are combined and close to form a sealing waterproof ring, a packing magnet device (913) is arranged on any side or any surface of the inner cover (912) or the outer cover (911), the two-way packing magnet device (913) is mutually adsorbed to tightly pack colloid, a soft rubber plug which can be locally lifted is arranged, and the soft rubber plug is arranged in an opening hole on the opposite side of the inner cover.