JP6058426B2 - Biological information monitor and its carrier - Google Patents

Description

  The present invention relates to a biological information monitor and a carrier for carrying it.

  The biological information monitor is a medical device capable of collectively displaying biological information such as heart rate, blood pressure, and respiratory rate measured from a patient in a numerical value or waveform format on a display unit (for example, see Patent Document 1). Such a biological information monitor is generally connected to an electrocardiogram electrode and various biological information measurement sensors, an input device for acquiring biological information data from a patient, and a display device for displaying the acquired biological information data And a power supply device for driving them.

  In addition, a biological information monitor that has a built-in battery so that it can be used during movement such as patient transportation and can be driven by either a commercial power source or a built-in battery is also known (see, for example, Patent Document 2). . The body of the biological information monitor used for such a patient transport application may be provided with a handle portion that is convenient to carry.

JP 2004-194996 A JP 2010-200896 A

  In a biological information monitor that can be used for patient transportation applications, components such as an input device, a display device, and a power supply device are required to be integrated from the viewpoint of ensuring transportability. However, since such a biological information monitor is not fixed to one place but can be moved to various places or used while moving, it can be used in various situations. Depending on the usage situation, some components may not be necessary.

  Therefore, it is required to configure the biological information monitor so that some components can be separated from other components according to the usage scene. For example, there is a case where the input device and the power supply device are integrated and only the display device is desired to be separated therefrom. In some cases, the display device and the power supply device may be integrated and only the input device may be separated from them. In some cases, the input device and the display device may be integrated and separated from the power supply device. Further, when the input device and the display device are separated from the power supply device, the input device and the display device may be used while being moved. However, there has been no proposal for a configuration of a biological information monitor that can freely change the combination of components according to the usage scene.

  An object of the present invention is to provide a biological information monitor and a carrier thereof capable of freely changing the combination of components according to the usage scene.

The biological information monitor of the present invention is
An input device for connecting a biological information detection unit attached to a patient, and an input device for acquiring biological information data from the patient via the input connector unit;
A display device for displaying biological information data acquired by the input device;
A base unit having a power supply unit for driving at least one of the input device and the display device by externally supplied power;
A carrier having a bottom that can be placed on the base unit, wherein the carrier is provided with a handle for separating and lifting the carrier from the base unit;
Have
The carrier is
A first mounting portion to which the input device can be attached and detached;
A second mounting part to which the display device can be attached and detached;
A first connector portion for electrically connecting the input device to the base unit and the display device when the input device is attached to the first attachment portion;
A second connector portion for electrically connecting the display device to the base unit and the input device when the display device is attached to the second attachment portion;
A third connector portion for electrically connecting the base unit to the input device and the display device when the carrier is placed on the base unit;
A standby power supply unit for driving the input device and the display device by a power supply from a battery housed in the carrier;
Have

The carrier of the biological information monitor of the present invention is
A bottom that can be placed on the base unit of the biological information monitor;
A handle for separating and lifting the carrier from the base unit;
A first mounting part to which the input device of the biological information monitor can be attached and detached;
A second mounting portion to which the display device of the biological information monitor can be attached and detached;
A first connector portion for electrically connecting the input device to the base unit and the display device when the input device is attached to the first attachment portion;
A second connector portion for electrically connecting the display device to the base unit and the input device when the display device is attached to the second attachment portion;
A third connector portion for electrically connecting the base unit to the input device and the display device when the carrier is placed on the base unit;
A standby power supply unit for driving the input device and the display device by a power supply from a battery housed in the carrier;
Have

  According to the present invention, the combination of the components can be freely changed according to the usage scene of the biological information monitor.

The front perspective view and back perspective view which show the external appearance of the biological information monitor which concerns on one embodiment of this invention The figure which shows the state which isolate | separated each component of the biological information monitor which concerns on one embodiment of this invention The figure which shows the bottom face of the carrier which concerns on one embodiment of this invention The figure for demonstrating the method of mounting | wearing a telemeter with the display apparatus which concerns on one embodiment of this invention. The rear perspective view which shows the external appearance of the base unit which concerns on one embodiment of this invention The block diagram which shows the structure of the biological information monitor which concerns on one embodiment of this invention

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a front perspective view (FIG. 1 (a)) and a rear perspective view (FIG. 1 (b)) showing an appearance of a biological information monitor according to an embodiment of the present invention. FIG. 2 is a diagram illustrating a state in which each component of the biological information monitor according to the present embodiment is separated, and FIG. 3 is a diagram illustrating the bottom surface of the carrier of the biological information monitor according to the present embodiment.

  The biological information monitor 1 according to this embodiment includes four components such as a carrier 100, an input device 200, a display device 300, and a base unit 400.

  The input device 200 includes an input connector unit 201 for connecting a biological information detection unit attached to a patient, and is a device for acquiring biological information data from the patient via the input connector unit 201. The display device 300 is a device having a display unit 301 for displaying the biological information data acquired by the input device 200. The base unit 400 is installed at a predetermined place such as a bedside, and serves as a mounting table for mounting the monitor main body of the biological information monitor 1 (that is, a combination of the carrier 100, the input device 200, and the display device 300). The device used.

  The carrier 100 includes a carrier main body 100a configured to be connectable to each component in order to carry the biological information monitor 1 or some of the components. Further, the carrier body 100a is provided with a handle portion 101 configured to be gripped when the carrier body 100a is carried together with the connected components. In FIG. 1, the input device 200, the display device 300, and the base unit 400 are integrated with each other by connection with the carrier 100, but each component can be separated from the carrier 100 as shown in FIG. 2.

  Therefore, the carrier main body 100a of the carrier 100 has a first mounting portion 102 to which the input device 200 can be mounted and a second mounting portion 103 to which the display device 300 can be mounted. The bottom portion 104 of the carrier main body 100a is It is configured so that it can be placed on the base unit 400.

  The 1st mounting part 102 is comprised so that the input apparatus 200 can be mounted in the carrier main body 100a by inserting the input apparatus 200 from the side surface opening part of the carrier main body 100a. When the inserted input device 200 hits the deepest portion in the insertion direction of the carrier body 100a, the connector 202 (see FIG. 6) of the input device 200 is connected to the first connector 105 (see FIG. 6) of the carrier 100. Thus, the input device 200 is held by the carrier 100. The input device 200 can be separated from the carrier body 100a by being pulled out in the direction opposite to that at the time of insertion.

  The second mounting portion 103 is configured so that the display device 300 can be mounted on the carrier body 100a by inserting a connector portion 302 (see FIG. 6) provided on the back surface of the display device 300 from above. When the connector portion 302 is inserted into the second mounting portion 103 and locked, the display device 300 is held by the carrier body 100a. The display device 300 can be separated from the carrier main body 100a by pulling it upwards as opposed to inserting it.

  An engagement projection 106 and a third connector 107 are provided on the bottom 104 of the carrier body 100a. The bottom 104 of the carrier body 100a is placed above the top surface 401 of the base unit 400 so that the engaging protrusion 106 is aligned with the position of the engaging recess 402 (see FIG. 5) provided on the top surface 401 (see FIG. 5) of the base unit 400. The carrier protrusion 100 is engaged with the engagement recess 402, so that the carrier body 100a can be stably placed on the base unit 400. Further, when the engagement protrusion 106 engages with the engagement recess 402, the connector cover 403 (see FIG. 5) provided on the upper surface 401 of the base unit 400 is opened, and the base unit 400 disposed therein is opened. The third connector portion 107 of the carrier body 100a is connected to the connector portion 404 (see FIG. 6). The carrier body 100a can separate the carrier body 100a from the base unit 400 by pressing the lock release button 405 of the base unit 400 and holding the handle 101 of the carrier body 100a to lift the carrier body 100a upward.

  Note that in this embodiment mode, a telemeter 800 can be attached to the display device 300. FIG. 4 is a diagram for explaining a method of attaching the telemeter 800 to the display device 300. A removable cover 303 is attached to the side surface of the display device 300 (FIG. 4A). The cover 303 is a member for covering the telemeter interface unit 304. After the cover 303 is removed, when the telemeter 800 is inserted into the telemeter interface unit 304 in the direction of the arrow in the figure (FIG. 4B), the telemeter 800 is attached to the display device 300 (FIG. 4C). By attaching the telemeter 800 to the display device 300, it is possible to wirelessly transmit the biological information data displayed on the display unit 301 of the display device 300 to, for example, a central monitor.

  FIG. 5 is a rear perspective view showing the external appearance of the base unit 400 (FIGS. 5A and 5B). A removable cover 406 is provided on the back surface of the base unit 400. The cover 406 is a member for covering the network interface unit 407 and the like. After removing the cover 406, connecting means for enabling communication with an external device (for example, a LAN cable) is connected to the network interface unit 407, so that the components of the biological information monitor 1 are connected to the communication network 700 (FIG. 6). It is possible to communicate with an external device via (see). Further, the back surface of the base unit 400 has a power cord connector portion 408 for connecting to a commercial power source 600 (see FIG. 6). By connecting the power cord to the power cord connector 408, it is possible to receive power from the commercial power source 600.

  FIG. 6 is a block diagram showing a configuration of the biological information monitor 1, and schematically shows a functional configuration of each component. As described above, the biological information monitor 1 includes the carrier 100, the input device 200, the display device 300, and the base unit 400. In FIG. 6, solid lines connecting the blocks indicate transmission paths for various biological information data and operation signals, and dotted lines indicate power supply paths.

  The input device 200 includes an input connector unit 201, a connector unit 202, a measurement processing unit 203, a storage unit 204, and a power supply control unit 205.

The input connector unit 201 is a connector for connecting the biological information detection unit attached to the patient to the input device 200. In the present embodiment, the biological information detection unit detects an electrocardiogram electrode 501 for detecting an electrocardiogram, a blood pressure measurement cuff 502 for detecting blood pressure, a body temperature sensor 503 for detecting body temperature, and SpO ₂ . The SpO ₂ sensor 504 for detecting the cardiac output and the cardiac output sensor 505 for detecting the cardiac output are included, but the biological information detection unit is not limited thereto. Therefore, in this embodiment, the input connector unit 201 includes the first input connector unit 201a for connecting the electrocardiographic electrode 501, the second input connector unit 201b for connecting the blood pressure measurement cuff 502, and the body temperature sensor 503. A third input connector portion 201c for connecting the SpO ₂ sensor 504, a fourth input connector portion 201d for connecting the SpO ₂ sensor 504, and a fifth input connector portion 201e for connecting the cardiac output sensor 505. Yes. The input connector unit 201 functions as an interface between the connected biological information detection unit and the measurement processing unit 203.

  The measurement processing unit 203 executes a predetermined measurement process by executing a program stored in the storage unit 204. Through this measurement process, the measurement processing unit 203 measures the biological information data of the patient using the biological information detection unit connected to the input connector unit 201. In addition, since the conventionally well-known thing is applicable about the measuring method of various biological information using the said biological information detection part, the detailed description is abbreviate | omitted here. The measurement processing unit 203 can also read biometric information data measured in the past and stored in the storage unit 204.

  The storage unit 204 stores a program executed by the measurement processing unit 203 and biological information data measured by the measurement processing unit 203.

  The connector unit 202 is a connector that is connected to the first connector unit 105 of the carrier 100 when the input device 200 is attached to the carrier 100, thereby electrically connecting the carrier 100 and the input device 200. The power supply and biological information data transmission paths between the carrier 100 and the input device 200 are connected when the carrier 100 and the input device 200 are electrically connected, and the carrier 100 and the input device 200 are connected. Shut off when electrically disconnected.

  The power control unit 205 receives power supply from the outside of the input device 200 via the connector unit 202, and thereby drives each unit of the input device 200.

  The display device 300 includes a display unit 301, a connector unit 302, a display processing unit 305, a storage unit 306, a power supply control unit 307, and a telemeter interface unit 304.

  The connector unit 302 is a connector that is connected to the second connector unit 108 of the carrier 100 when the display device 300 is attached to the carrier 100, thereby electrically connecting the carrier 100 and the display device 300. The power supply path and the transmission path between the carrier 100 and the display device 300 are connected when the carrier 100 and the display device 300 are electrically connected, and the carrier 100 and the display device 300 are electrically connected. Blocked when disconnected.

  The display processing unit 305 executes a predetermined display process by executing a program stored in the storage unit 306. By this display processing, the display processing unit 305 causes the display unit 301 to display the biological information data in the form of measurement values or waveforms. The display processing unit 305 can display the biological information data on the display unit 301 in real time when performing display processing on the biological information data received from the outside via the connector unit 302. However, the display processing unit 305 can display the past biological information data in a form such as a trend graph by reading the biological information data stored in the storage unit 306 and performing display processing on the data. .

  The display unit 301 is a touch panel, for example, and has not only a display function for displaying biometric information data but also a function as an input unit that receives an input operation by an operator. When the display unit 301 receives an input operation by the operator, the display unit 301 generates an operation signal for operating each unit in the display device 300 or each unit in the biological information monitor 1 according to the content of the operation. The generated operation signal is appropriately transmitted through a transmission path in the display device 300 or the biological information monitor 1.

  The storage unit 306 stores biometric information data displayed on the display unit 301 by display processing.

  The power control unit 307 receives power supply from the outside of the display device 300 via the connector unit 302, and thereby drives each unit of the display device 300.

  The telemeter interface unit 304 has a configuration in which the telemeter 800 can be attached and detached as described above. The telemeter 800 can be attached to the telemeter 800 as necessary, and the biological information data can be wirelessly transmitted via the telemeter 800.

  The base unit 400 includes a connector unit 404, a network interface unit 407, a main power supply unit 409, a standby power supply unit 410, and a power supply control unit 411.

  The connector unit 404 is a connector that electrically connects the carrier 100 and the base unit 400 when the carrier 100 is placed on the base unit 400 and the third connector unit 107 of the carrier 100 is connected to the connector unit 404. It is. The power supply path and the transmission path between the carrier 100 and the base unit 400 are connected when the carrier 100 and the base unit 400 are electrically connected, and the carrier 100 and the base unit 400 are electrically connected. Blocked when disconnected.

  The power control unit 411 supplies power to the carrier 100 via the connector unit 404. The power supply control unit 411 supplies the power supply from the main power supply unit 409 to the carrier 100 in normal times, but alternatively supplies the power supply from the standby power supply unit 410 to the carrier 100 in an emergency (for example, during a power failure). May be supplied.

  The main power supply unit 409 receives a power supply from an external commercial power supply 600 via a power cord connected to a power cord connector unit 408 (see FIG. 5), and includes a circuit that performs AC-DC conversion and the like. It is.

  The standby power supply unit 410 includes a charging unit 412 and a battery housing unit 413. The standby power supply unit 410 charges the battery stored in the battery storage unit 413 using the main power supply unit 409 as a driving power supply. The battery accommodating part 413 is comprised so that the battery which can be accommodated in the battery accommodating part 109 in the carrier 100 mentioned later can be accommodated. Therefore, the standby power supply unit 410 can charge the backup battery used in the carrier 100 in the base unit 400. In addition, the power supply from the battery after the charge accommodated in the battery accommodating part 413 can be used as a power supply for emergency.

  The network interface unit 407 is an interface that connects the base unit 400 to the communication network 700. By connecting the base unit 400 to the communication network 700, data communication between the input device 200 and the display device 300 of the biological information monitor 1 and an external device becomes possible.

  The carrier 100 includes a first connector unit 105, a second connector unit 108, a third connector unit 107, a transmission processing unit 110, a power supply control unit 111, and a standby power supply unit 112.

  Each of the first connector unit 105, the second connector unit 108, and the third connector unit 107 electrically connects the carrier 100 and each component as described above.

  The transmission processing unit 110 is configured to relay a transmission path between the first connector unit 105, the second connector unit 108, and the third connector unit 107, and includes the input device 200, the display device 300, and the base unit 400. Data transmission between them.

  The standby power supply unit 112 includes a charging unit 113 and a battery housing unit 109. The standby power supply unit 112 charges the battery stored in the battery storage unit 109 using the main power supply unit 409 as a driving power supply. In addition, the power supply from the battery after the charge accommodated in the battery accommodating part 109 can be used as a power supply for emergency.

  The power control unit 111 is a control unit that selects a driving power source for the input device 200 and the display device 300. That is, the power supply control unit 111 is configured to supply power from the standby power supply unit 112 (more specifically, a battery housed therein) in the carrier 100 and the base unit 400 (mainly the main power supply unit 409 in the base unit 400). ) Is selected as the drive power supply. For example, the power supply control unit 111 selects the power supply from the base unit 400 when the power supply from the base unit 400 can be received, and the power supply from the standby power supply unit 112 in the carrier 100 otherwise. select.

  Next, the combination of the components and the operation of the biological information monitor 1 according to the usage scene of the biological information monitor 1 will be described with some examples.

(Usage example 1)
In the first usage example, the input device 200 is removed from the biological information monitor 1 and used. Here, in a scene where a patient is transported from, for example, a hospital room (hereinafter referred to as “transport destination”) to, for example, an operating room or another room (hereinafter referred to as “transport destination”), the biological information monitor 1 is provided at the transport source. A situation is assumed in which a display device of another biological information monitor or the like is installed at the transport destination.

  At the transport source, the input device 200 alone can be detached from the biological information monitor 1 by pulling out the input device 200 from the carrier 100. Therefore, the input device 200 can be carried to the transport destination as the patient is transported without removing the biological information detection unit that is previously attached to the patient and connected to the input device 200. At the transport destination, the input device 200 can be connected to a display device of another biological information monitor via a cable, for example. If another biological information monitor has the same configuration as the biological information monitor 1 of the present embodiment, the input device 200 can be connected to the biological information monitor by being inserted into the carrier of the biological information monitor. it can. When the patient is transported to the transport destination, the biological information detection unit attached to the patient is connected to the input device 200, so that it is not necessary to reattach the biological information detection unit. Therefore, simply by completing the connection of the input device 200 to another biological information monitor, monitoring at the transfer destination can be started quickly from that point, so that the monitoring interruption period during transfer can be shortened.

(Usage example 2)
The usage scene of Usage Example 2 is basically the same as that of Usage Example 1, except that the components used after being removed from the biological information monitor 1 are the carrier 100 and the input device 200. In this scene, it is assumed that the display device 300 is removed from the biological information monitor 1 in advance, but the scene in which the display device 300 is detached from the biological information monitor 1 and used will be described later.

  In this case, during patient transportation, the input device 200 can perform an operation of measuring biological information data using the standby power supply unit 112 in the carrier 100 as a drive power supply unit. Therefore, after removing the carrier 100 together with the input device 200 in a state where the input device 200 is mounted on the carrier 100 from the biological information monitor 1 installed at the transport source, another type of biological information installed at the transport destination. The biometric information data measured until the carrier 100 and the input device 200 are connected to the monitor through the cable can be stored in the storage unit 204. That is, the input device 200 can continue measurement and holding of the patient's biological information data without interruption, including during patient transportation. Further, when the carrier 100 and the input device 200 are connected to another type of biological information monitor installed at the transport destination via a cable, the input device 200 measures the display device of this different type of biological information monitor. Alternatively, the stored biological information data can be displayed.

  When a base unit of the same type as the base unit 400 is installed at the transport destination, the carrier 100 on which the input device 200 that measures and holds the biological information data of the patient is mounted on the same base unit as it is. Can be placed. At that time, the power supply control unit 111 of the carrier 100 can select the main power supply unit in the same type base unit as the drive power supply unit of the input device 200. That is, the input device 200 can be supplied with power from the same type base unit via the carrier 100, and can continuously measure and hold the biological information data of the patient. In addition, when the same type base unit and the biological information monitor installed at the transfer destination or nurse station can communicate via the connection means (for example, a LAN cable), the same type base unit is installed on the same type base unit installed at the transfer destination. By placing the carrier 100 on which the input device 200 is mounted, the biological information data measured or held by the input device 200 can be displayed on the display devices of those biological information monitors.

(Usage example 3)
In Usage Example 3, the carrier 100, the input device 200, and the display device 300 are removed from the biological information monitor 1 and used. That is, the usage scene of Usage Example 3 is basically the same as that of Usage Example 2, except that the input device 200 is mounted on the carrier 100 and the display device 300 is also mounted on the carrier 100. This is different from use example 2.

  In this case, since the biological information data measured during patient transportation can be displayed on the display device 300 in real time, the patient can be transported from the transportation source to the transportation destination while monitoring is performed in real time.

  When a base unit of the same type as the base unit 400 is installed at the transport destination, the carrier 100 on which the input device 200 and the display device 300 during the monitoring operation are mounted can be directly placed on the same type of base unit. it can. At that time, the power supply control unit 111 of the carrier 100 can select the main power supply unit in the same type base unit as the drive power supply unit of the input device 200 and the display device 300. That is, the input device 200 and the display device 300 can be supplied with power from the same type base unit via the carrier 100, and can continue to be monitored in real time.

(Usage example 4)
In the usage example 4, the display device 300 is removed from the biological information monitor 1 and used. Here, it is assumed that the biological information monitor 1 is used while being fixed to the bedside.

  More specifically, the base unit 400 is installed fixed to the bedside. The carrier 100 is mounted with the input device 200 connected to the biological information detection unit mounted on the patient, and the carrier 100 is placed on the base unit 400 in this state. On the other hand, the display device 300 is separated from the carrier 100. If the display device 300 can be independently driven even when separated from the carrier 100, the display device 300 can be used in a state separated from the carrier 100, for example, by being installed on a wall of a hospital room. In this case, for example, a cable for supplying biological information data and power is connected to the connector portion 302 of the display device 300 and the second connector portion 108 of the carrier 100.

  In this use situation, the carrier 100 can receive power supply from the main power supply unit 409 of the base unit 400, so that the power supply control unit 111 is used as a drive power supply unit of the input device 200 mounted on the carrier 100 in the base unit 400. The main power supply unit 409 can be selected. Therefore, the input device 200 can perform an operation of measuring biological information data from the patient by supplying power from the main power supply unit 409 of the base unit 400.

  As described above, since the display device 300 is separated from the carrier 100 but is connected to the carrier 100 through a cable, the measured biological information data is transferred from the input device 200 via the carrier 100 to the display device 300. Can be transmitted. That is, the display device 300 can display the waveform or measurement value of the biological information data in real time.

  Thus, the display device 300 does not necessarily have to be integrated with other components in the biological information monitor 1, and can be used even when separated from the carrier 100. Therefore, the display device 300 can be installed at any place regardless of the installation position of the base unit 400.

  The base unit 400 is equipped with a network interface unit 407, and the base unit 400 is connected to an external device via a communication network 700 so as to be communicable. Therefore, the measured biological information data can be transmitted to an external device via the carrier 100, the base unit 400, and the communication network 700.

  As described above, according to the present embodiment, the biological information monitor 1 is configured to be separable into four components: the carrier 100, the input device 200, the display device 300, and the base unit 400. Of these components, the carrier 100 is configured such that the input device 200, the display device 300, and the base unit 400 are interconnected via the carrier 100 having the handle 101 for conveyance. . More specifically, the carrier 100 includes a bottom portion 104 that can be placed on the base unit 400, a first attachment portion 102 to which the input device 200 can be attached and detached, and a second attachment portion 103 to which the display device 300 can be attached and detached. Have. Further, the carrier 100 is provided with first, second, and third connector portions 105, 107, and 108. The first connector unit 105 can electrically connect the input device 200 to the base unit 400 and the display device 300 when the input device 200 is mounted on the first mounting unit 102. The second connector portion 108 can electrically connect the display device 300, the base unit 400, and the input device 200 when the display device 300 is attached to the second attachment portion 103. The third connector unit 107 can electrically connect the base unit 400, the input device 200, and the display device 300 when the carrier 100 is placed on the base unit 400. With such a configuration, the biological information monitor 1 can cope with various usage situations as described above by freely changing the combination of components.

  Although the embodiment of the present invention has been described above, the above description is an illustration of a preferred embodiment of the present invention, and the scope of the present invention is not limited to this. Therefore, the above embodiment can be implemented with various modifications.

DESCRIPTION OF SYMBOLS 1 Biological information monitor 100 Carrier 100a Carrier main body 101 Handle part 102 1st mounting part 103 2nd mounting part 104 Bottom part 105 1st connector part 107 3rd connector part 108 2nd connector part 109, 413 Battery accommodating part 110 Transmission processing part 111 205, 307, 411 Power control unit 112, 410 Standby power unit 113, 412 Charging unit 200 Input device 201 Input connector unit 202, 302, 404 Connector unit 203 Measurement processing unit 204, 306 Storage unit 300 Display device 301 Display unit 304 Telemeter interface unit 305 Display processing unit 400 Base unit 407 Network interface unit 409 Main power supply unit

Claims (9)

An input device for connecting a biological information detection unit attached to a patient, and an input device for acquiring biological information data from the patient via the input connector unit;
A display device for displaying biological information data acquired by the input device;
A base unit having a power supply unit for driving at least one of the input device and the display device by externally supplied power;
A carrier having a bottom that can be placed on the base unit, wherein the carrier is provided with a handle for separating and lifting the carrier from the base unit;
Have
The carrier is
A first mounting portion to which the input device can be attached and detached;
A second mounting part to which the display device can be attached and detached;
A first connector portion for electrically connecting the input device to the base unit and the display device when the input device is attached to the first attachment portion;
A second connector portion for electrically connecting the display device to the base unit and the input device when the display device is attached to the second attachment portion;
A third connector portion for electrically connecting the base unit to the input device and the display device when the carrier is placed on the base unit;
A standby power supply unit for driving the input device and the display device by a power supply from a battery housed in the carrier;
Having
Biological information monitor. A power supply control unit that selects one of the power supply unit and the standby power supply unit as a drive power supply unit for driving the devices mounted on the first mounting unit and the second mounting unit;
The biological information monitor according to claim 1. The power supply control unit selects the standby power supply unit as the drive power supply unit when power supply from the power supply unit to the devices mounted on the first mounting unit and the second mounting unit is stopped.
The biological information monitor according to claim 2. The power supply control unit selects the standby power supply unit as the drive power supply unit when the carrier is separated from the base unit.
The biological information monitor according to claim 2. The display device includes a telemeter interface unit to which a telemeter can be attached and detached.
The biological information monitor according to any one of claims 1 to 4. The base unit has a network interface unit for connection to an external communication network.
The biological information monitor according to any one of claims 1 to 5. The carrier has a charging unit for charging a battery accommodated in the carrier.
The biological information monitor according to any one of claims 1 to 6. The base unit includes a battery storage unit that stores a battery that can be stored in the carrier, and a charging unit that charges the battery stored in the battery storage unit.
The biological information monitor according to any one of claims 1 to 6. A biological information monitor carrier,
A bottom that can be placed on the base unit of the biological information monitor;
A handle for separating and lifting the carrier from the base unit;
A first mounting part to which the input device of the biological information monitor can be attached and detached;
A second mounting portion to which the display device of the biological information monitor can be attached and detached;
A first connector portion for electrically connecting the input device to the base unit and the display device when the input device is attached to the first attachment portion;
A second connector portion for electrically connecting the display device to the base unit and the input device when the display device is attached to the second attachment portion;
A third connector portion for electrically connecting the base unit to the input device and the display device when the carrier is placed on the base unit;
A standby power supply unit for driving the input device and the display device by a power supply from a battery housed in the carrier;
Having
Biological information monitor carrier.

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