JP2021087228A - Portable terminal - Google Patents

Abstract

To provide a structure which can suppress misoperation that a battery is removed without turning off power when a hot swap function is not in an executable state.SOLUTION: A notification part is constituted to comprise an illumination part 41 of an information code reading part 40 disposed at a back face 11b of a housing 11, a speaker 26, and a vibrator 27. The notification part becomes a first notification state when it is determined to be in an executable state where power necessary for executing a hot swap function can be supplied after a state to remove a cover 14 is detected by a detection part 16, and the notification part becomes a second notification state when it is determined to be in a non-executable state.SELECTED DRAWING: Figure 6

Description

The present invention relates to a mobile terminal capable of performing a hot swap function.

Conventionally, a mobile terminal has been used for reading work such as inventory, and such a mobile terminal is in an environment where the battery replacement cycle increases due to an increase in power consumption due to multifunctionalization and the like. In such an environment, in the conventional battery replacement work in which the power of the mobile terminal is turned off, the power is turned on after the battery replacement is completed, and the system is started, the number of times from the power off to the return to the usable state is several. It may take about a minute. Therefore, by utilizing the hot swap function at the time of battery replacement, the battery can be replaced without turning off the power, and the time required for the battery replacement work is shortened.

As described above, as a technique related to a mobile terminal capable of executing a hot swap function, for example, an electronic device disclosed in Patent Document 1 below is known. This electronic device includes a main battery that requires battery replacement work and a sub-battery for backing up power supply by the main battery, and operates the control unit when the battery lid detects that the locked state is released from the housing. By shifting from the normal mode to the power saving mode, the power supply amount of the sub-battery is limited to reduce the size of the sub-battery.

Japanese Unexamined Patent Publication No. 2015-023711

By the way, even if the mobile terminal has a hot-swap function, for example, when the power required to execute the hot-swap function cannot be supplied to the sub-battery due to insufficient remaining amount of the main battery, or the sub-battery itself is damaged. In some cases, the hot swap function cannot be executed due to such cases. In such a case, even if the LED or the like is turned on to notify that the hot swap function cannot be executed, there is a problem that the hot swap fails because the main battery is replaced without noticing the notification. ..

The present invention has been made to solve the above-mentioned problems, and an object of the present invention is a configuration capable of suppressing an erroneous operation in which the battery is removed without turning off the power when the hot swap function is not in an executable state. Is to provide.

In order to achieve the above object, the invention according to claim 1 of the claims is
A mobile terminal (10) capable of performing a hot-swap function when replacing a battery.
A detector (16) that detects a state in which the cover (14) is removed from one surface (11b) of the housing (11) when the battery is replaced.
A determination unit (21) for determining whether or not the power required for executing the hot swap function can be supplied is in an executable state, and
A notification unit having a light emitting unit (41) provided on one surface, a sounding unit (26), and a vibrating unit (27).
Prepare
After the detection unit detects the state in which the cover is removed, the notification unit is in the first notification state when the determination unit determines that the cover is in the executable state, and the determination unit determines that the cover is not in the executable state. When it is done, it is characterized in that it becomes a second notification state.
The reference numerals in the parentheses indicate the correspondence with the specific means described in the embodiments described later.

In the invention of claim 1, the notification unit is configured to have a light emitting unit provided on one surface of a housing from which the cover is removed when the battery is replaced, and at least one of a sounding unit and a vibrating unit. Then, after the detection unit detects the state in which the cover is removed, the notification unit becomes the first notification state when the determination unit determines that the power required for executing the hot swap function can be supplied. If it is determined by the determination unit that it is not in the executable state, the notification unit is in the second notification state.

As a result, the operator can easily recognize whether or not the hot swap function can be executed depending on the notification state of the notification unit when the cover such as the battery lid is removed. In particular, at least one of a light emitting unit, a sounding unit, and a vibrating unit is prepared as a notification unit, and the light emitting unit that functions as a visual notification means is provided on the same one side as the cover, so that the cover is being removed. An operator can accurately grasp the notification state of the notification unit. Therefore, it is possible to suppress an erroneous operation in which the battery is removed without turning off the power when the hot swap function is not in the executable state.

In the invention of claim 2, the notification unit enters the third notification state after the first notification state continues for a predetermined time. Therefore, by setting the predetermined time based on the time required for the backup process or the like according to the execution of the hot swap function, the notification unit performs the first notification state to the third notification until the backup processing or the like is completed. It does not switch to the state. As a result, it is possible to suppress an erroneous operation in which the battery is removed during the backup process or the like.

In the invention of claim 3, since the notification unit has one or more second light emitting units arranged on a surface different from the one surface of the outer surface of the housing, the first notification state by the notification unit and the first notification unit The visibility of the notification state of 2 can be further improved. This makes it easier for the operator to more accurately grasp the notification state of the notification unit, so that the above-mentioned erroneous operation can be reliably suppressed.

In the invention of claim 4, a selection unit is provided for selecting at least one target to be operated in the notification state by the notification unit from the light emitting unit, the sounding unit, and the vibrating unit in response to the operation by the operation unit. As a result, the operator who operates the operation unit can select the target to be notified in the first notification state and the second notification state so as to be suitable for the work environment and the like. Compared with the case where all the objects of the vibrating part are operated, efficient notification can be performed so as to reduce the power consumption at the time of notification.

It is a perspective view which shows the mobile terminal which concerns on 1st Embodiment. It is a front view of the mobile terminal of FIG. It is a rear view of the mobile terminal of FIG. It is a partial rear view which shows the enlarged state by removing the cover from the mobile terminal of FIG. 5 (A) is a block diagram illustrating the electrical configuration of the mobile terminal of FIG. 1, and FIG. 5 (B) schematically illustrates the electrical configuration of the wireless tag processing unit of FIG. 5 (A). 5 (C) is a block diagram schematically illustrating the electrical configuration of the information code reading unit of FIG. 5 (A). It is a flowchart which illustrates the flow of the notification processing performed by the control unit in 1st Embodiment.

[First Embodiment]
Hereinafter, the first embodiment embodying the mobile terminal of the present invention will be described with reference to the drawings.
The mobile terminal 10 according to the present embodiment is configured as a portable information reading device that is carried by a reading operator and used in various places, and optically reads an information code such as a bar code or a two-dimensional code. In addition to the function as an information code reader, it also has the function of reading and writing information stored in wireless tags such as RFID tags via radio waves transmitted and received via the antenna, and it is configured to be able to read in two ways. ing.

In particular, the mobile terminal 10 according to the present embodiment is configured so that the battery replacement work can be performed without performing the power OFF operation by utilizing the hot swap function at the time of battery replacement.

As shown in FIGS. 1 to 3, the housing 11 constituting the outer shell of the mobile terminal 10 is formed in a substantially thin plate shape, and the surface 11a thereof is narrowed to a narrow frame (narrow bezel). A large-sized display screen 24a is arranged. Further, as shown in FIG. 3, a reading port 12 for taking in the reflected light from the information code C into the housing 11 is provided on one end side of the back surface (back surface) 11b of the housing 11 in the longitudinal direction. As shown in FIG. 4, a cover (battery lid) 14 for closing the storage port 13 for inserting and removing the battery 50 is assembled on the other end side in the direction. The back surface 11b of the housing 11 may correspond to an example of "one side of the housing".

A control unit 21 that controls the entire mobile terminal 10 is provided in the housing 11 (see FIG. 5A). The control unit 21 is mainly composed of a microcomputer, has a CPU, a system bus, an input / output interface, and the like, and constitutes an information processing device together with a storage unit 22. In addition to a program for executing a reading process for optically reading the information code C and a program for executing a reading process for reading the wireless tag T by non-contact communication, the storage unit 22 is subjected to a notification process described later. A program or the like for execution is executably stored in advance by the control unit 21.

Further, as shown in FIG. 5A, a light emitting unit 23, a touch panel 24, an operation unit 25, a speaker 26, a vibrator 27, a communication unit 28, and the like are connected to the control unit 21. The touch panel 24 is configured as a known touch panel type display device, and is superimposed on a display unit configured as a known display device such as a liquid crystal display and a display screen 24a of the display unit on the display screen 24a. On the other hand, it is provided with a transparent operation panel that functions as a detection unit that can detect the range of pressing operation (contact). In the touch panel 24, the display content of the display unit is controlled by the control unit 21. The operation unit 25 is configured to include the operation panel and a plurality of keys provided on the side surface of the housing 11, so that the operation unit 25 can be used for pressing operations (touch range, etc.) and key operations on the display screen 24a of the touch panel 24. It is configured to output the corresponding signal to the control unit 21.

The light emitting unit 23 is, for example, an LED, which is arranged at a position above the display screen 24a as shown in FIG. 2 and the like, and is configured so that the light emitting state is controlled by the control unit 21. There is. The speaker 26 is arranged at a position where the sound emitting port 26a is above the display screen 24a and near the light emitting unit 23, and is controlled by the control unit 21 to provide preset voices, alarm sounds, and the like. It is configured to emit (pronounce) various notification sounds through the sound emitting port 26a. The vibrator 27 is composed of a known vibrator mounted on a mobile device, and is controlled by a control unit 21 to generate vibration that can be transmitted to an operator who holds the housing 11. The communication unit 28 is configured as an interface for performing data communication with an external device such as a server by wired communication or wireless communication, and is configured to perform communication processing in cooperation with the control unit 21. ..

Further, a power supply unit 29 composed of a known power supply circuit or the like is provided in the housing 11. The power supply unit 29 uses the battery 50 housed in the battery housing unit 15 provided in the housing 11 via the storage port 13 (see FIG. 4) to supply electric power to the control unit 21 and various electric components. Is configured to supply. The battery accommodating unit 15 is provided with a detecting unit 16 for detecting a state in which the cover 14 is removed from the back surface 11b of the housing 11 (hereinafter, also referred to as an open state). The detection unit 16 is configured to output a predetermined signal corresponding to the detection of the open state to the control unit 21.

Further, the mobile terminal 10 includes a wireless tag processing unit 30 and an information code reading unit 40, which are controlled by the control unit 21 and function as an information reading unit capable of reading external information.

First, the wireless tag processing unit 30 will be described with reference to FIG. 5 (B).
The wireless tag processing unit 30 cooperates with the antenna 34 and the control unit 21 to communicate with the wireless tag T by electromagnetic waves, and reads data stored in the wireless tag T or writes data to the wireless tag T. It functions to do. The wireless tag processing unit 30 is configured as a circuit that transmits by a known radio wave method, and as schematically shown in FIG. 5B, a transmission circuit 31, a reception circuit 32, a matching circuit 33, and the like are included. Have.

The transmission circuit 31 is composed of a carrier oscillator, a coding unit, an amplifier, a transmission unit filter, a modulation unit, and the like, and has a configuration in which a carrier (carrier wave) having a predetermined frequency is output from the carrier oscillator. Further, the coding unit is connected to the control unit 21, and the transmission data output from the control unit 21 is encoded and output to the modulation unit. The modulation unit is a part where the carrier (carrier wave) from the carrier oscillator and the transmission data from the coding unit are input, and the carrier (carrier wave) output from the carrier oscillator is coded when a command is transmitted to the communication target. A modulated signal modulated by ASK (Amplitude Shift Keying) is generated by a coded transmission code (modulated signal) output from the conversion unit, and is output to an amplifier. The amplifier amplifies the input signal (the signal to be modulated by the modulator) with a predetermined gain, outputs the amplified signal to the transmitter filter, and the transmitter filter filters the amplified signal from the amplifier. The transmission signal is output to the antenna 34 via the matching circuit 33. When the transmission signal is output to the antenna 34 in this way, the transmission signal is radiated to the outside from the antenna 34 as a transmission radio wave.

On the other hand, the response signal received by the antenna 34 is input to the receiving circuit 32 via the matching circuit 33. The receiving circuit 32 is composed of a receiving unit filter, an amplifier, a demodulation unit, a binarization processing unit, a compounding unit, and the like, and after filtering the response signal received via the antenna 34 by the receiving unit filter. , Amplifies by an amplifier, and demodulates the amplified signal by a demodulator. Then, the demodulated signal waveform is binarized by the binarization processing unit, decoded by the decoding unit, and then the decoded signal is output to the control unit 21 as received data.

Next, the information code reading unit 40 will be described with reference to FIG. 5 (C).
As shown in FIG. 5C, the information code reading unit 40 includes a light receiving sensor 43 composed of a CCD area sensor, an imaging lens 42, an illumination unit 41 composed of a plurality of LEDs, lenses, and the like. In cooperation with the control unit 21, it functions to read the information code C (bar code or two-dimensional code) attached to the reading target R.

When reading by the information code reading unit 40, first, the illumination light Lf is emitted from the illumination unit 41 commanded by the control unit 21, and the illumination light Lf is irradiated to the reading target R through the reading port 12. To. Then, the reflected light Lr reflected by the illumination light Lf by the information code C is taken into the apparatus through the reading port 12, and is received by the light receiving sensor 43 through the imaging lens 42. The imaging lens 42 arranged between the reading port 12 and the light receiving sensor 43 is configured to form an image of the information code C on the light receiving sensor 43, and the light receiving sensor 43 is an image of the information code C. Outputs a light-receiving signal according to. The light receiving signal output from the light receiving sensor 43 is stored in the storage unit 22 as image data, and is used in the decoding process for acquiring the information recorded in the information code C. The information code reading unit 40 is provided with an amplifier circuit that amplifies the signal from the light receiving sensor 43, an AD conversion circuit that converts the amplified signal into a digital signal, and the like, but these circuits are not shown. Is omitted.

In the mobile terminal 10 configured in this way, when the battery 50 is replaced, the cover 14 is removed from the back surface 11b of the housing 11, and the control unit 21 receives a signal corresponding to the open state detection from the detection unit 16. By executing the hot swap, the battery can be replaced without turning off the power. Specifically, by using the sub-battery that has been supplied with power from the battery 50 and automatically performing backup processing or the like using the power supply from the sub-battery during replacement of the battery 50, There is no need for power off processing.

In particular, in the present embodiment, the notification process performed by the control unit 21 causes the lighting unit 41, the speaker 26, and the vibrator 27 of the information code reading unit 40 to function as notification units when the open state is detected, thereby causing the sub-battery to function. It suppresses an erroneous operation in which the battery 50 is removed without turning off the power when the hot swap function is not in an executable state due to a power shortage or the like. The lighting unit 41 may correspond to an example of a "light emitting unit", the speaker 26 may correspond to an example of a "sounding unit", and the vibrator 27 may correspond to an example of a "vibrating unit".

Hereinafter, the notification process performed by the control unit 21 will be described in detail with reference to the flowchart shown in FIG.
When the notification process is started by the control unit 21, it is determined in the determination process of step S101 whether or not the cover 14 is in the open state in which the cover 14 is removed from the back surface 11b of the housing 11, and the detection unit 16 determines that the cover 14 is in the open state. If a predetermined signal corresponding to the detection of the state is not received, the determination of No is repeated.

Then, when the operator removes the cover 14 from the back surface 11b and the open state is detected in response to the signal from the detection unit 16 (Yes in S101), the hot swap function is activated in the determination process in step S103. It is determined whether or not the power required for execution is in a state where it can be supplied from the sub-battery (hereinafter, also referred to as an executable state). The control unit 21 that performs the determination process in step S103 corresponds to an example of a "determination unit" that determines whether or not the power required for executing the hot swap function can be supplied. obtain.

Here, if it is determined that the sub-battery is in an executable state because the sub-battery is sufficiently supplied with power from the battery 50 (Yes in S103), the hot swap function is executable and the hot swap function is being executed. The notification unit is in the first notification state (S105). Specifically, as a notification unit, for example, the lighting unit 41 is in a predetermined blinking state, the speaker 26 emits a predetermined buzzer sound, and the vibrator 27 vibrates at a predetermined interval. The operator who receives this first notification state can easily recognize that the hot swap function is available.

On the other hand, if it is determined that the sub-battery is not in the executable state because the sub-battery is not sufficiently supplied with power from the battery 50 (No in S103), the notification unit indicates that the hot swap function is not executable. Is in the second notification state (S107). Specifically, unlike the first notification state described above, the lighting unit 41 is in a blinking state, the speaker 26 emits a buzzer sound, and the vibrator 27 vibrates at predetermined intervals. The operator who receives the second notification state can recognize that the hot swap function cannot be used and that the power OFF operation is required before removing the battery 50.

When the first notification state is reached as described above, the first notification state remains until a predetermined time (for example, 10s) required for backup processing using the hot swap function elapses (No in S109). When the predetermined time elapses (Yes in S109), the notification unit enters the third notification state (S111) to indicate that the battery can be replaced. Specifically, unlike the first notification state and the second notification state described above, the lighting unit 41 is in a blinking state or a lighting state, the speaker 26 emits a buzzer sound, and the vibrator 27 is predetermined. Vibrate at intervals. The operator who receives the third notification state can easily recognize that the battery can be replaced.

As described above, in the mobile terminal 10 according to the present embodiment, the notification unit is configured to have the lighting unit 41 of the information code reading unit 40 provided on the back surface 11b of the housing 11, the speaker 26, and the vibrator 27. Will be done. Then, after the detection unit 16 detects the state in which the cover 14 is removed, if it is determined that the power required for executing the hot swap function can be supplied (Yes in S103), the notification unit sets the position. When the notification state of 1 is reached and it is determined that the state is not executable (No in S103), the notification unit is in the second notification state.

As a result, the operator can easily recognize whether or not the hot swap function can be executed depending on the notification state of the notification unit when the cover 14 is removed. In particular, an illumination unit 41, a speaker 26, and a vibrator 27 are prepared as notification units, and the illumination unit 41 that functions as a visual notification means is provided on the same back surface 11b side as the cover 14, so that the cover 14 is about to be removed. An operator can accurately grasp the notification state of the notification unit. Therefore, it is possible to suppress an erroneous operation in which the battery 50 is removed without turning off the power when the hot swap function is not in the executable state. The notification unit may be configured to have at least one of the speaker 26 and the vibrator 27 in addition to the illumination unit 41.

In particular, in the present embodiment, the notification unit enters the third notification state (S111) after the first notification state continues for a predetermined time (Yes in S109). Therefore, by setting the predetermined time based on the time required for the backup process or the like according to the execution of the hot swap function, the notification unit performs the first notification state to the third notification until the backup processing or the like is completed. It does not switch to the state. As a result, it is possible to suppress an erroneous operation in which the battery 50 is removed during the backup process or the like.

As a modification of the present embodiment, the notification unit may be configured to have one or more second light emitting units arranged on a surface different from the back surface 11b of the outer surface of the housing 11. Specifically, for example, the light emitting unit 23 located on the surface 11a side of the housing 11 and above the display screen 24a may be used as the second light emitting unit. That is, for example, both the illumination unit 41 on the back surface 11b side and the light emitting unit 23 on the surface 11a side may be used as visual notification means. Therefore, the visibility of the first notification state, the second notification state, and the like by the notification unit can be further improved. This makes it easier for the operator to more accurately grasp the notification state of the notification unit, so that the above-mentioned erroneous operation can be reliably suppressed.

Further, not only all the objects such as the lighting unit 41, the speaker 26, and the vibrator 27 function as the notification unit, but some objects may function as the notification unit. Further, the control unit 21 that functions as a selection unit selects in advance at least one target to be operated in the notification state by the notification unit from the light emitting unit, the sounding unit, and the vibrating unit in response to the operation by the operation unit 25. May be good. For example, when working in a noisy environment, the vibrating part can be selected to be excluded, and when working with gloves, the vibrating part can be selected to be excluded. In this way, the operator who operates the operation unit 25 can select the target to be notified at the time of the first notification state, the second notification state, or the like so as to be suitable for the work environment or the like. Compared with the case where all the objects of the sounding unit and the vibrating unit are operated, efficient notification can be performed so as to reduce the power consumption at the time of notification.

The present invention is not limited to the above-described embodiment and modifications, and may be embodied as follows, for example.
(1) In each of the above-mentioned notification states, the blinking interval of the lighting unit 41 and the light emitting unit 23 may be changed, or the emission color or the like may be changed. Further, the light emitting unit that functions as the notification unit is not limited to the illumination unit 41 and the light emitting unit 23 of the information code reading unit 40, but is provided on other light emitting units or side surfaces provided on the back surface 11b side. The light emitting part of the above may be adopted.

(2) The speaker 26 is not limited to being configured to emit sound through the sound emitting port 26a arranged on the front surface 11a side, and one or more sound emitting ports arranged on the back surface 11b side or the like. It may be configured to emit sound via.

10 ... Mobile terminal 11 ... Housing 11b ... Back (one side)
14 ... Cover 16 ... Detection unit 21 ... Control unit 23 ... Light emitting unit (second light emitting unit)
24 ... Display unit 25 ... Operation unit 26 ... Speaker (pronunciation unit)
27 ... Vibrator (vibration part)
40 ... Information code reading unit 41 ... Lighting unit (light emitting unit)
50 ... Battery

Claims (4)

A mobile terminal that can perform a hot-swap function when replacing the battery.
A detector that detects when the cover is removed from one side of the housing when replacing the battery,
A determination unit that determines whether or not the power required to execute the hot swap function is in an executable state that can be supplied, and a determination unit.
A light emitting unit provided on one surface, a notification unit having at least one of a sounding unit and a vibrating unit, and a notification unit.
Prepare
After the detection unit detects the state in which the cover is removed, the notification unit is in the first notification state when the determination unit determines that the cover is in the executable state, and the determination unit determines that the cover is not in the executable state. A mobile terminal characterized in that a second notification state is set when the notification is performed. The mobile terminal according to claim 1, wherein the notification unit becomes a third notification state after the first notification state continues for a predetermined time. The mobile terminal according to claim 1 or 2, wherein the notification unit has one or more second light emitting units arranged on a surface different from the one surface of the outer surface of the housing. Operation unit and
A selection unit for selecting at least one target to be operated in the notification state by the notification unit from the light emitting unit, the sounding unit, and the vibrating unit in response to the operation by the operation unit.
The mobile terminal according to any one of claims 1 to 3, further comprising.

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