JP2018134531A - suitcase - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a suitcase improved in its usability, the suitcase including a lock mechanism in casters.SOLUTION: A grip part 21 is incorporated with a button switch 30 in a lateral position of a handle lock release button 26. A control signal is wirelessly transmitted from the button switch 30 to a lock mechanism for locking wheels.EFFECT: By virtue of the button switch that can be operated regardless of the expanded/contracted condition of an expanding/contracting handle, usability is improved. Furthermore, a conventionally used wire is removed, and the button switch which a user operates and the lock mechanism for putting the wheels in a braking condition are wirelessly connected. Consequently, the button switch can be arranged in any place, and thus, the button switch is provided in the grip part which the user holds. With this, operability is improved.SELECTED DRAWING: Figure 3

Description

   The present invention relates to a suitcase having casters.

If the suitcase is provided with casters, the horizontal movement of the suitcase is facilitated. On the other hand, since the wheels of the casters rotate freely, the suitcase may move without permission when the road surface or the floor surface is inclined or when the floor vibrates in the vehicle.
As countermeasures, various mechanisms for bringing the casters into a braking state have been proposed (see, for example, Patent Document 1 (FIG. 1)).

 Patent Document 1 has a structural feature that a wire is extended from an extendable handle and is mechanically connected to a lock mechanism built in the caster. When the extendable handle is retracted, the wheel is locked. When the telescopic handle is extended, the wheels are unlocked (unlocked).

 Using the principle that the telescopic handle is extended when moving the suitcase and the telescopic handle is retracted when the suitcase is placed, the caster wheels are automatically locked or unlocked. There is an advantage that can be.

  However, for example, when moving a small distance indoors, it is necessary to move the suitcase while the telescopic handle is being contracted. In addition, it is necessary to bring the telescopic handle into a braking state while being extended.

  Therefore, the suitcase of Patent Document 1 has room for improvement in terms of usability.

Japanese Patent No. 4757356

  It is an object of the present invention to provide a suitcase in which a caster is provided with a lock mechanism and is improved in terms of usability.

The invention according to claim 1 is a suitcase comprising a caster and an extendable / contractible handle.
The caster includes a lock mechanism for braking the wheels of the caster,
This lock mechanism has an electric actuator that puts the wheel into a braking state,
The telescopic handle includes a button switch that generates an operation signal related to the operation of the electric actuator, in a grip portion gripped by a user,
The operation signal generated by the button switch is wirelessly transmitted to the lock mechanism side.

  The invention according to claim 2 is characterized in that the lock mechanism is provided with a battery for supplying electric energy to the electric actuator.

In the invention according to claim 1, the button switch and the lock mechanism are provided in the suitcase. Since the button switch can be operated regardless of the expansion / contraction state of the expansion / contraction handle, it is easy to use.
And the wire conventionally used was abolished and the button switch which a user operates and the lock mechanism which makes a wheel into a braking state were connected by radio. As a result, the button switch can be placed anywhere.

On top of that, a button switch was provided on the grip that the user grabs. Thereby, operability is improved.
Therefore, according to claim 1, a suitcase improved in terms of usability is provided.

In the invention according to claim 2, the lock mechanism is provided with a battery for supplying electric energy to the electric actuator. The lock mechanism is provided in the caster. The caster freely changes its direction with respect to the suitcase so as to correspond to the change in the traveling direction of the suitcase. For this reason, it is structurally difficult to supply power to the lock mechanism from the suitcase side.
In that respect, in the present invention, since the battery is provided in the lock mechanism, the power supply is facilitated, and there is no concern that the structure is complicated.

1 is a perspective view of a suitcase according to the present invention. It is a figure explaining the structure of an expansion-contraction handle. FIG. 3 is a three-part enlarged view of FIG. 2. FIG. 3 is an enlarged view of part 4 of FIG. 2. It is sectional drawing of a caster. FIG. 6 is a sectional view taken along line 6-6 of FIG. It is a figure explaining the principal part of a locking mechanism. FIG. 8 is a cross-sectional view taken along line 8-8 in FIG. 5. It is a control flow figure explaining an operation of a lock mechanism. It is a figure explaining the effect | action of a button switch.

   Embodiments of the present invention will be described below with reference to the accompanying drawings.

  As shown in FIG. 1, a suitcase 10 includes a case main body 11 that is a main body of the case, a cover 12 that closes an opening of the case main body 11, an extendable handle 20 that can be pulled out from the case main body 11, 11, two casters 50 provided at the bottom of the cover 11, and two casters 50 provided at the bottom of the cover 12 (one at the back right is not visible).

As shown in FIG. 2, the telescopic handle 20 includes a grip portion 21 that is gripped by a user and leg portions 22 and 22 extending from the grip portion 21. The grip part 21 is a hollow body, and the leg parts 22 and 22 are hollow cylinders.
The case body 11 is provided with guide cylinders 24 and 24 for accommodating the leg portions 22 and 22 so as to be movable in the axial direction, and a bridge part 25 for fastening the lower ends of the guide cylinders 24 and 24 to the case body 11.

  As shown in FIG. 3, the grip portion 21 includes a handle lock release button 26 that is pressed by the user, a cross portion 27 that extends left and right from the handle lock release button 26, and a spring 28 that biases the cross portion 27 upward. , 28 and upper ends of operation rods 29, 29 that descend from both ends of the cross part 27. A part of the handle lock release button 26 protrudes outward from the grip portion 21. When the handle lock release button 26 is pushed by the user's hand, the cross portion 27 is lowered against the spring 28 and the operation rods 29 and 29 are lowered.

A button switch 30 is built in the grip portion 21 at a side position of the handle lock release button 26.
The button switch 30 includes a first substrate 31 built in the grip portion 21 and a push button 32 mounted on the first substrate 31.
A part of the push button 32 protrudes from the grip portion 21. When the push button 32 is pressed with a user's finger, it is switched on-off-on-off. The first substrate 31 has the first transmitting element 33 and the first receiving element 34 mounted thereon, and an operation signal is emitted from the first transmitting element 33 in the form of a radio signal.

  The button switch 30 is preferably an illuminated switch. That is, a light emitting element (LED chip) is built in and emits light according to an operation. In the embodiment, power is supplied to the button switch 30 from a battery (not shown) provided in the grip portion 21. However, the present invention is not limited to this. But you can. Furthermore, the aspect which supplies electric power to the button switch 30 from the photovoltaic device provided in the grip part 21 or the case main body 11 may be sufficient.

As shown in FIG. 4, the guide tube 24 is provided with lock holes 36 at a predetermined pitch.
The leg portion 22 incorporates a driver 39 that integrally includes a driven tapered surface 37 and a lock piece 38 and a spring 41 that biases the driver 39 so that the lock piece 38 fits into the lock hole 36. .
A drive taper surface 42 is provided at the lower end of the operation rod 29.

  When the operating rod 29 shown in FIG. 3 is artificially lowered, the drive taper surface 42 shown in FIG. 4 is lowered, the driven taper surface 37 is pushed, and the driver 39 moves horizontally in the direction in which the spring 41 contracts. As a result, the lock piece 38 is detached from the lock hole 36. In this state, the leg portion 22 and the operation rod 29 can be moved up or down with respect to the guide tube 24.

As shown in FIG. 5, the caster 50 is lowered from the swivel shaft 51 inserted into the case body 11 or the cover 12, a horizontal plate 52 attached integrally to the lower end of the swivel shaft 51, and the horizontal plate 52. A pair of vertical walls 53, an axle 55 supported by the pair of vertical walls 53, and wheels 56 supported by the axle 55 are provided.
Since the axle 55 is offset from the turning shaft 51 by a distance L, the position (orientation) of the wheel 56 changes around the turning shaft 51 according to the traveling direction of the suitcase 10.

In addition, the caster 50 is provided with a lock mechanism 60 that locks the wheels 56.
The lock mechanism 60 is provided on a second substrate 63 on which the second receiving element 61 and the second transmitting element 62 are mounted, an electric actuator 64 controlled by the second substrate 63, and a shaft 65 of the electric actuator 64. And a gear portion 67 provided on the side surface of the wheel 56.

  That is, as shown in FIG. 6, a gear portion 67 is provided on a side surface of the wheel 56, and an electric actuator 64 is attached to one vertical wall 53. The electric actuator 64 is preferably a rotary electric actuator in which the shaft 65 rotates.

  As shown in FIG. 7, when the shaft 65 rotates and the claw 66 meshes with the gear portion 67, a braking state is established and the wheel 56 does not rotate. When the claw 66 is disengaged from the gear portion 67, the unlocked state is established and the wheel 56 can be rotated.

As shown in FIG. 8, a second substrate 63 is attached to one of the pair of left and right vertical walls 53, 53, and a battery receiving portion 68 is mounted on the second substrate 63.
The battery 69 is accommodated in the cylinder 71. One end of the cylindrical body 71 is opened and the other end is closed by a screw seat 72. The screw seat 72 is screwed into the other vertical wall 53.
Electric energy is supplied to the electric actuator 64 through the second substrate 63 in the screwed state.

  A coin groove 73 is provided in the screw seat 72, and the screw seat 72 can be turned by inserting a coin into the coin groove 73. As a result, the battery 69 can be replaced at any time. Note that the holding structure of the battery 69 may be changed as appropriate.

The operation of the second substrate 63 will be described with reference to FIG.
As shown in FIG. 9A, the remaining amount of the battery is detected by the second substrate (ST01), and it is checked whether or not the remaining amount is equal to or greater than a predetermined value (voltage at which the electric actuator can be operated) (ST02). . If it is equal to or greater than the predetermined value, the push button (FIG. 10A, reference numeral 32) remains off (ST03). If it is less than the predetermined value, the push button (FIG. 10 (c), symbol 32) blinks (ST04).

  Transmission and reception of signals between the first substrate 31 and the second substrate 63 is performed wirelessly. That is, the radio signal from the first transmitting element 33 shown in FIG. 3 is received by the second receiving element 61 shown in FIG. 5, and the radio signal from the second transmitting element 62 shown in FIG. Received at element 34.

As shown in FIG. 9B, if the push button is in the off position (ST11), the pawl is set to the unlocked position (ST12) and the push button remains off (ST13).
Since the wheels are in the unlocked state, the suitcase 10 can be moved freely.

As shown in FIG. 9C, if the push button is in the ON position (ST21), the pawl is set to the locked position (ST22) and the push button is continuously lit (ST23).
Since the wheels are in a braking state, the suitcase 10 does not have to worry about moving without permission.

FIG. 10 shows the optical state of the push button.
In FIG. 10A, it can be visually confirmed that the push button 30 is in an extinguished state, the remaining amount of the battery is sufficient, and the wheels are in the unlocked state.
In FIG. 10B, the push button 30 is in a continuously lit state, and it can be visually confirmed that the wheel is in a braking state.
In FIG. 10C, the push button 30 is in a blinking state, and prompts for battery replacement.

In addition, the suitcase 10 may be an attache case or a normal hard case in addition to a travel suitcase, and the size and use are arbitrary.
When the suitcase 10 is provided with four casters 50, it is sufficient that the lock mechanism 60 is provided with two casters 50. However, all of the four casters 50 may have the lock mechanism 60.

The electric actuator 64 may be a linear electric actuator in addition to the rotary electric actuator. A low-priced and easily available solenoid-type electric actuator can be adopted as long as it is a linear electric actuator. Furthermore, in addition to the structure shown in FIG. Any structure may be adopted.

  A battery that supplies power to the button switch 30 and a battery 69 that supplies power to the electric actuator 64 may be so-called dry batteries, but may be rechargeable secondary batteries as long as they can generate electrical energy and can be of any type and shape. You can choose it. Further, the power supply to the button switch 30 and the electric actuator 64 may be supplied from a commercially available mobile battery instead of the battery 69, a pocket provided with the commercially available mobile battery in the interior of the suitcase, or the suitcase itself. Even if it puts in the arrangement space formed in, it does not interfere.

  The present invention is suitable for a suitcase having a caster and a telescopic handle.

DESCRIPTION OF SYMBOLS 10 ... Suitcase 20 ... Telescopic handle 21 ... Grip part 30 ... Button switch 32 ... Push button 50 ... Caster 56 ... Wheel 60 ... Lock mechanism 64 ... Electric actuator 69 ... Battery

Claims (2)

In a suitcase equipped with casters and extendable telescopic handles,
The caster includes a lock mechanism for braking the wheels of the caster,
This lock mechanism has an electric actuator that puts the wheel into a braking state,
The telescopic handle includes a button switch that generates an operation signal related to the operation of the electric actuator, in a grip portion gripped by a user,
A suitcase characterized in that the operation signal generated by the button switch is wirelessly transmitted to the lock mechanism.   The suitcase according to claim 1, wherein the lock mechanism includes a battery for supplying electric energy to the electric actuator.

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