JP2017063338A - Nurse call slave unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To transmit a call signal and also to confirm whether depression of a call button has been correctly performed or not by using electromotive force to be generated by the depression of the call button.SOLUTION: A movable york 32 is reciprocatively moved in accordance with an operation of a push button 2 so as to generate power by a coil 33 in each of the forward movement and the return movement. A call signal is transmitted by using electromotive force generated in one of the forward movement and the return movement. Besides, a push button operation confirmation announcement action is performed by using electromotive force generated in the other movement. Thus, two-time power generation is performed by one operation of the push button 2. The transmission of a call signal and a push button operation confirmation announcement action are performed by using electromotive force obtained in each-time power generation.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a nurse call slave, and is particularly suitable for use in a nurse call slave with an electromotive mechanism that generates an electromotive force when a call button is pressed.

  In general, the nurse call system used in hospitals and nursing homes has a nurse call slave set installed in each bedside of a hospital room and a nurse call master set installed in a nurse center, and the patient is a nurse call slave set. When a call is made by pressing the call button, the nurse call parent device is notified that the call has been made. Many nurse call cordless handsets are of a type that is connected to a wall unit that is embedded in each bedside wall, but a wireless type is also available (see, for example, Patent Document 1).

  The call transmitter described in Patent Literature 1 includes a movable unit (call button), a wireless transmission unit, and a power generation unit, detects an operation of the movable unit, generates a call signal, and converts the call signal into a radio signal. Convert and send. At this time, the power generation unit generates an electromotive force generated by operating the movable unit, and supplies the power as an operation power source of the calling transmitter. In addition, although this patent document 1 does not disclose the principle of power generation, technologies for generating an electromotive force in conjunction with the reciprocating motion of the movable portion of the button are disclosed in, for example, patent documents 2 and 3. .

  The power generation device described in Patent Document 2 converts a push button that is operated during power generation, a power generation unit that generates power by reciprocating the movable yoke, and a movement of the push button during operation into reciprocal movement of the movable yoke. A conversion mechanism. In addition, a power generation module described in Patent Document 3 includes a base, an electromotive unit installed on the base, a plunger installed on the base so as to be able to reciprocate up and down, and an electromotive force in conjunction with the reciprocating movement of the plunger. And a drive unit for starting the unit.

JP 2014-90354 A JP 2010-283970 A JP 2013-123338 A

  According to the call transmitter described in Patent Document 1, a call signal can be wirelessly transmitted by an electromotive force generated by pressing a call button without having a power supply unit. However, when the amount of pressing the call button is insufficient or when the call button is pressed slowly, a sufficient electromotive force is not generated and the call signal may not be transmitted wirelessly. In this case, the patient assumes that the nurse call is being made by pressing the call button and waits for a response from the nurse or the like.

  On the other hand, for example, when the call button is pressed, if the buzzer sounds or the light emitting element such as an LED emits light, the patient himself confirms whether or not the call button has been pressed correctly. can do. If it is a nurse call cordless handset which has a power supply part inside, it is possible. However, in the case of a nurse call slave unit that generates an electromotive force and secures a power source, the power obtained by one generation of power by pressing the call button is used for wireless transmission of a call signal, so a buzzer sounds or LED There was a problem that it was not possible to emit light.

  The present invention has been made to solve such a problem. By using the electromotive force generated by pressing the call button, the call signal is transmitted and the call button is correctly pressed. The purpose is to be able to confirm whether or not.

  In order to solve the above-described problems, in the present invention, the movable yoke is reciprocated according to the operation of the push button so that power generation is performed in each of the forward movement and the backward movement. On the other hand, the call signal is transmitted using the electromotive force generated in one side, and the push button operation confirmation notification operation is performed on the other side using the electromotive force generated.

  According to the present invention configured as described above, power generation is performed twice by one operation of the push button, and by using the electromotive force obtained by each power generation, transmission of the calling signal and push button It is possible to perform an operation confirmation notification operation. Thereby, not only can the call signal be transmitted using the electromotive force generated by pressing the push button, but also the operator can confirm whether or not the call button has been pressed correctly.

It is a figure which shows the example of an external appearance structure of the nurse call subunit | mobile_unit by this embodiment. It is a figure which shows the schematic structural example of the electromotive mechanism incorporated in the nurse call subunit | mobile_unit by this embodiment. It is a figure which shows the structural example of the electric power generation part by this embodiment. It is a block diagram which shows the system configuration example with which the nurse call subunit | mobile_unit of this embodiment is provided.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram illustrating an external configuration example of a nurse call slave device 10 according to the present embodiment. As shown in FIG. 1, the nurse call slave device 10 of this embodiment has a configuration in which a push button 2 is provided on the front surface of the main body 1. The push button 2 is configured to be rotatable about the end 2b on the side opposite to the pressing portion 2a by pressing the pressing portion 2a.

  FIG. 2 is a diagram illustrating a schematic configuration example of the electromotive mechanism built in the nurse call slave device 10 according to the present embodiment. FIG. 2 shows a state where the configuration of the electromotive mechanism is viewed from the side of the nurse call slave 10. Here, FIG. 2A shows a state where the push button 2 is not pressed, and FIG. 2B shows a state where the push button 2 is pressed. The electromotive mechanism of this embodiment includes a lever member 21, a rotating shaft 22, a coil spring 23, and a power generation unit 24.

  As described above, the push button 2 is configured to be pivotable about the pivot shaft 2b located at the end thereof. A lever member 21 is disposed below the push button 2 rotating in this way (on the back side of the nurse call slave 10). Further, on the inner side of the push button 2 (the side where the lever member 21 is disposed), a convex portion 2 c is provided at a position facing one end in the longitudinal direction of the lever member 21. The convex portion 2 c is in contact with one end of the lever member 21.

  The lever member 21 is configured to be rotatable in conjunction with the pressing operation of the push button 2 with a rotating shaft 22 provided at a position closer to the center than the other end as a fulcrum. That is, when the push button 2 is pressed, the convex portion 2c pushes one end of the lever member 21 downward (on the back side of the nurse call slave device 10). Thereby, the lever member 21 rotates so that one end thereof moves downward and the other end moves upward (the front side of the nurse call slave device 10) (the state shown in FIG. 2B).

  A coil spring 23 is attached below the lever member 21, specifically, between the lever member 21 and the base member 25 that contacts the back side of the main body 1. The coil spring 23 is provided on one end side of the lever member 21 with respect to the rotating shaft 22. Accordingly, as shown in FIG. 2B, when the push button 2 is pressed, the coil spring 23 is contracted. For this reason, when the operator releases the hand from the push button 2, the lever member 21 receives the restoring force of the coil spring 23, and the restoring force is transmitted to the push button 2 through the convex portion 2c, so that the push button 2 is The original state shown in FIG.

  A power generation unit 24 is provided on the other end side of the lever member 21. FIG. 3 is a diagram illustrating a configuration example of the power generation unit 24. FIG. 3A is a diagram illustrating a state where the configuration of the power generation unit 24 is viewed from the front side of the nurse call slave 10. FIGS. 3B and 3C are views showing the configuration of the power generation unit 24 as viewed from the side of the nurse call slave device 10. Here, FIG. 3B shows a state where the push button 2 is not pressed, and FIG. 3C shows a state where the push button 2 is pressed.

  As shown in FIG. 3, the power generation unit 24 includes a lever 31, a movable yoke 32, and a coil 33. The lever 31 is fixed to the movable yoke 32 by screws or the like. The movable yoke 32 is an iron plate formed in a substantially U shape, and a part thereof penetrates the space in the coil 33.

  As shown in FIG. 3A, a leaf spring 27 is attached between the lever 31 and the presser plate 26 that contacts the top plate of the casing of the power generation unit 24. Thereby, the lever 31 is urged | biased by the leaf | plate spring 27 below (the back side of the nurse call subunit 10). FIG. 3B shows a steady position of the lever 31 biased by the leaf spring 27.

  As shown in FIGS. 3 (b) and 3 (c), a lever operating portion 21 a that protrudes to the front side of the nurse call slave device 10 is provided at the other end of the lever member 21. The lever operating portion 21 a is provided at a position facing the lever 31. As shown in FIG. 3B, when the push button 2 is not pressed, the lever operation unit 21 a is not in contact with the lever 31 because the other end of the lever member 21 is located on the lower side.

  On the other hand, when the push button 2 is pressed, the lever member 21a pushes the lever 31 upward because the other end of the lever member 21 moves upward as shown in FIG. As a result, the lever 31 moves upward, and the movable yoke 32 fixed to the lever 31 is displaced downward in the coil 33 (moving the movable yoke 32 forward). At this time, the leaf spring 27 is in a contracted state.

  Thereafter, when the operator releases his hand from the push button 2, the other end of the lever member 21 moves downward. At this time, the lever 31 receives the restoring force of the leaf spring 27. As a result, the lever 31 moves downward, and the movable yoke 32 fixed to the lever 31 is also displaced upward in the coil 33 (return movement of the movable yoke 32).

  As described above, the movable yoke 32 reciprocates in the coil 33 in accordance with the operation of the push button 2. At this time, the lever member 21 and the lever 31 function as a conversion mechanism that converts the vertical movement of the push button 2 into the reciprocating movement of the movable yoke 31. As described above, a part of the movable yoke 32 penetrates the internal space of the coil 33. For this reason, the coil 33 receives the change of the magnetic field which arises with the movement of the movable yoke 31, and generates the electromotive force by electromagnetic induction. In particular, in the present embodiment, power generation can be performed in each of the forward movement and the backward movement of the movable yoke 31.

  Moreover, in this embodiment, as shown to Fig.3 (a), the two electrodes 33a and 33b are taken out from the coil 33. FIG. Here, the electromotive force generated in the forward movement of the movable yoke 32 is output from the first electrode 33a. On the other hand, from the second electrode 33b, an electromotive force generated in the backward movement of the movable yoke 32 is output. In the present embodiment, the two electromotive forces are used to transmit a calling signal and to confirm and notify the operation of the push button 2.

  FIG. 4 is a block diagram illustrating a system configuration example provided in the nurse call slave device 10. As shown in FIG. 4, the nurse call slave device 10 of this embodiment includes the power generation unit 24, the call signal transmission unit 41, and the notification unit 42 described above. The call signal transmission unit 41 is connected to the second electrode 33 b of the power generation unit 24. In addition, the notification unit 42 is connected to the first electrode 33 a of the power generation unit 24.

  The call signal transmission unit 41 transmits a call signal using the electromotive force generated during the return movement of the movable yoke 32. The call signal transmission unit 41 is composed of a wireless transmission module, and transmits the call signal wirelessly. When operating the nurse call system, a wireless receiver is installed near the nurse call slave 10 and a call signal received by the wireless receiver is transmitted to the nurse call parent by wire.

  The notification unit 42 performs a confirmation notification operation of the operation of the push button 2 using the electromotive force generated in the outward movement of the movable yoke 32. For example, the notification unit 42 includes a buzzer and outputs a buzzer sound. Note that the confirmation notification operation of the operation of the push button 2 may be performed by light emission of a light emitting element such as an LED instead of the buzzer sound. However, since the light emission using the electromotive force ends in a moment and may be missed, it is preferable to output a buzzer sound that is easy for the operator to confirm even when the sound is emitted for a moment.

  As described above in detail, in the present embodiment, the movable yoke 32 is reciprocated in accordance with the operation of the push button 2, and power generation is performed in each of the forward movement and the backward movement. A buzzer sound is output using the electromotive force generated in the forward movement of the movable yoke 32, and a call signal is transmitted using the electromotive force generated in the backward movement of the movable yoke 32. Yes.

  According to the present embodiment configured as described above, power generation is performed twice by one operation of the push button 2, and using the electromotive force obtained by each power generation, transmission of a calling signal, It becomes possible to perform the confirmation notification operation of the operation of the button 2. This makes it possible not only to transmit a call signal using the electromotive force generated by pressing the push button 2 but also to allow the operator to check whether or not the call button 2 has been pressed correctly. it can.

  In the above-described embodiment, the call signal transmission unit 41 transmits a call signal using the electromotive force generated in the backward movement of the movable yoke 32, and uses the electromotive force generated in the forward movement of the movable yoke 32. The example in which the notification unit 42 outputs the buzzer sound has been described, but the reverse may be possible. That is, the calling signal transmission unit 41 transmits a calling signal using the electromotive force generated in the forward movement of the movable yoke 32, and the notification unit 42 uses the electromotive force generated in the backward movement of the movable yoke 32. May output a buzzer sound.

  In addition, when the pressing amount of the push button 2 is insufficient, or when the push button 2 is pushed slowly, the electromotive force is insufficient and the call signal may not be transmitted. On the other hand, if the buzzer sound is output using the electromotive force generated in the forward movement of the movable yoke 32, the operator is conscious of pressing the push button 2 firmly until the buzzer sounds. Since it works, it is possible to suppress a situation in which the calling state cannot be transmitted due to a poor pressing state.

  In the above embodiment, the example in which the coil spring 23 and the leaf spring 27 are used to bias the lever member 21 and the lever 31 has been described. However, instead of the coil spring 23, another elastic member such as a leaf spring is used. Alternatively, another elastic member such as a coil spring may be used instead of the leaf spring 27.

  Moreover, in the said embodiment, although the specific example of a structure was shown in FIGS. 1-3 about the conversion mechanism which converts the motion of the push button 2, the electric power generation part 24, and the push button 2 into the reciprocating movement of the movable yoke 31, This is merely an example, and the present invention is not limited to this configuration. The point is that the present invention can be applied to any configuration in which the movable yoke reciprocates in accordance with the reciprocating movement of the push button and can generate power in the forward path and the return path.

  In addition, each of the above-described embodiments is merely an example of actualization in carrying out the present invention, and the technical scope of the present invention should not be construed in a limited manner. In other words, the present invention can be implemented in various forms without departing from the spirit or main features thereof.

2 Push button 10 Nurse call cord 21 Lever member 21a Lever operation part 24 Power generation part 31 Lever 32 Movable yoke 33 Coil 33a, 33b Electrode 41 Call signal transmission part 42 Notification part

Claims (3)

A push button,
A movable yoke that reciprocates in response to the operation of the push button;
A coil for generating electricity in each of the forward movement and the backward movement of the movable yoke;
A paging signal transmitter for transmitting a paging signal using the electromotive force generated in either the forward movement or the backward movement;
A nurse call slave device comprising: a notification unit that performs a confirmation notification operation of the push button operation using an electromotive force generated in the other of the forward movement and the backward movement.   The nurse call slave according to claim 1, wherein the notification unit outputs a buzzer sound as a confirmation notification operation of the push button operation. The call signal transmitter uses the electromotive force generated in the return trip to transmit the call signal,
The nurse call slave according to claim 1, wherein the notification unit performs a confirmation notification operation of the push button operation using an electromotive force generated in the forward movement.