JP3615259B2 - Disinfectant - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a disinfectant that sprays disinfectant and disinfects fingers, and in particular, automatically disinfects disinfectant without touching the device, or carries disinfectant at necessary places when necessary. The present invention relates to a disinfectant that performs sterilization by spraying in a mist.
[0002]
[Prior art]
Conventionally, various hand sterilizers are known in which a sensor detects that a hand has been inserted in order to disinfect a finger, and a sterilizing liquid is ejected in a mist form from a nozzle. For example, there is the one shown in Japanese Patent Publication No. 7-2155. That is, a rising portion is integrally provided at the rear end of the disinfectant main body that houses a disinfectant tank, an electromagnetic pump, and the like, and a front opening hood is provided in front of the rising portion to form a disinfection chamber. Two disinfectant spray nozzles are attached at the center of the left and right width direction at the upper end of the disinfection chamber, and a sensor for detecting the insertion of a hand into the disinfection chamber is attached in front of the two disinfection solution spray nozzles. When both hands are inserted, the sensor detects this and a signal is sent to the electromagnetic pump inside the disinfector body, and the disinfectant pumped up from the disinfectant tank is ejected from the disinfectant spray nozzle through the disinfectant supply pipe. It is like that. When the disinfecting liquid ejected from the two disinfecting liquid spray nozzles starts to be applied to the hand, the disinfecting liquid is sprinkled over both hands while moving the palm left and right in the disinfecting chamber. After the spray of the disinfectant from the nozzle stops, disinfection is completed by rubbing the disinfectant with both hands outside the disinfection chamber.
[0003]
[Problems to be solved by the invention]
However, in the conventional disinfectant, since the base and the sprayer main body are integrally formed and covered with the hood, the sterilizable range is limited to the inside of the hood and cannot be carried.
[0004]
The object of the present invention is to disinfect the pedestal base and the sprayer body as well as disinfecting as in the past, and can be carried around. It is intended to make it possible to easily disinfect medical equipment, etc., or disinfect a place without a power source.
[0005]
[Means for Solving the Problems]
The disinfectant according to the first aspect of the present invention is a storage container that stores disinfectant, an electromagnetic pump that supplies air to the spray nozzle at a predetermined pressure, and an axial angle of the nozzle that can be adjusted and supplied from the electromagnetic pump. A spray nozzle that is pumped up from the storage container through a pipe with a negative pressure and ejected in the form of a mist by ejecting the air that is generated, and a sensor that detects that a hand has been inserted when the hand is inserted below the spray nozzle An automatic / manual changeover switch that turns on the sensor when in the automatic position and turns off the sensor when in the manual position, and a manual spray switch that operates only when the automatic / manual changeover switch is in the manual position; An angle sensor for detecting the axial angle of the spray nozzle and the spray nozzle detected by the angle sensor at a fixed position, or the axial angle is equal to or greater than a predetermined value ), An automatic operation stop switch that cuts off a circuit connected to the sensor, a control circuit that operates the electromagnetic pump for a predetermined time by detection of the sensor or turning on of the manual spray switch, and a power supply to the control circuit. And a battery to be supplied.
[0006]
A disinfectant according to a second aspect of the present invention is a storage container that stores disinfectant, an electromagnetic pump that supplies air to the spray nozzle at a predetermined pressure, and an axial angle of the nozzle that can be adjusted and supplied from the electromagnetic pump. A spray nozzle that is pumped up from the storage container through a pipe with a negative pressure and ejected in the form of a mist by ejecting the air that is generated, and a sensor that detects that a hand has been inserted when the hand is inserted below the spray nozzle An automatic / manual changeover switch that turns on the sensor when in the automatic position and turns off the sensor when in the manual position, and a manual spray switch that operates only when the automatic / manual changeover switch is in the manual position; An angle sensor for detecting an axial angle of the spray nozzle, and the sensor when the axial angle of the spray nozzle detected by the angle sensor is a predetermined value or more. An automatic operation stop switch that cuts off a circuit to be connected, a control circuit that operates the electromagnetic pump for a certain time by detecting the sensor or turning on the manual spray switch, and supplying power to the control circuit, the electromagnetic pump, and the sensor In addition, a sprayer body provided with a rechargeable battery that can be supplied with DC power and charged with power, a support base that supports the sprayer body, and a commercial AC power that is built in the support base is converted into DC power of a predetermined voltage. And a pedestal configured to be separable from the sprayer body including a charger for supplying power to the control circuit, the electromagnetic pump, and the sensor from a DC power supply terminal and supplying charging power to the rechargeable battery, It is constituted by.
[0007]
A disinfectant according to a third aspect of the present invention is a storage container that stores disinfectant, an electromagnetic pump that supplies air to the spray nozzle at a predetermined pressure, and an axial angle of the nozzle that can be adjusted and supplied from the electromagnetic pump. A spray nozzle that is pumped up from the storage container through a pipe with a negative pressure and ejected in the form of a mist by ejecting the air that is generated, and a sensor that detects that a hand has been inserted when the hand is inserted below the spray nozzle An automatic / manual changeover switch that turns on the sensor when in the automatic position and turns off the sensor when in the manual position, and a manual spray switch that operates only when the automatic / manual changeover switch is in the manual position; A nozzle fixed position detection sensor for detecting that the axial direction of the spray nozzle is at a fixed position, and the sensor only when there is detection of the nozzle fixed position detection sensor. A sensor operating switch to be operated, a control circuit for operating the electromagnetic pump for a predetermined time by detecting the sensor or turning on the manual spray switch, supplying power to the control circuit, the electromagnetic pump and the sensor, and A sprayer main body provided with a rechargeable battery that can be charged by receiving power, a support base that supports the sprayer main body, and a DC power supply by converting commercial AC power built in the support base into DC power of a predetermined voltage A pedestal comprising a charger for supplying power to the control circuit, the electromagnetic pump, and the sensor from a terminal and supplying charging power to a rechargeable battery, and configured to be separable from the sprayer body. is there.
[0008]
According to a fourth aspect of the present invention, there is provided a disinfector according to the present invention, wherein a tray provided with a receptacle for the disinfectant sprayed by the spray nozzle is provided on the support base at a position below the spray nozzle.
[0009]
In the disinfectant according to the invention described in claim 5, the spray nozzle is configured such that the diffuser is screwed and detachable, and the nozzle for mixing the air and the disinfectant can be freely detached.
[0010]
[Action]
According to the first aspect of the present invention, since it can be easily carried and the axial angle of the spray nozzle can be adjusted, the disinfectant is sprayed as much as necessary to the portion to be sprayed as necessary. In addition, if the axial angle of the spray nozzle detected by the angle sensor is greater than or equal to a predetermined value, the circuit connected to the sensor is shut off by the automatic operation stop switch, and the spray nozzle is not oriented at the predetermined angle. Even if a hand is inserted below the spray nozzle without knowing it, the sensor detects that the disinfecting liquid is not sprayed, and if the nozzle fixed position detection sensor detects that the axial direction of the spray nozzle is in a fixed position, the sensor Since the sensor is activated by the operation switch, even if the hand is accidentally inserted below the spray nozzle even though the spray nozzle is not in the fixed position, Without service is to spray the disinfectant it does not operate, disinfecting liquid to be sprayed can be so is not applied to the body and clothes and the like.
[0011]
According to the second aspect of the present invention, when the axial angle of the spray nozzle detected by the angle sensor is greater than or equal to a predetermined value, the circuit connected to the sensor is shut off by the automatic operation stop switch, and the spray nozzle faces downward. Even if you insert your hand under the spray nozzle without knowing that it is not, the sensor will not detect and spray the disinfectant so that the sprayed disinfectant will not splash on your body or clothes can do.
[0012]
According to the third aspect of the present invention, when detecting that the axial direction of the spray nozzle is vertical by the nozzle fixed position detection sensor, the sensor is operated by the sensor operation switch. If you accidentally insert your hand below the spray nozzle even if you are not facing it, the sensor will not operate and spray disinfectant so that the disinfectant that is sprayed will not splash on your body or clothes be able to.
[0013]
According to the fourth aspect of the present invention, since the tray having the receptacle for the disinfecting liquid sprayed by the spray nozzle is provided on the support base at a position below the spray nozzle, the sprayed disinfecting liquid soot is easily discharged. be able to.
[0014]
According to the fifth aspect of the present invention, since the diffuser of the spray nozzle is configured to be detachable by being screwed in, anyone can easily eliminate clogging even if the spray nozzle is clogged. Anyone can easily assemble the original spray nozzle.
[0015]
【Example】
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
1, 2 and 3 show an embodiment of the disinfectant according to the first aspect of the present invention.
In the figure, 1 is a disinfectant sprayer. A storage container 2 is detachably attached to the main body 3 and stores a disinfecting liquid sprayed from the main body 3. As the disinfectant stored in the storage container 2, a medical disinfectant generally used by doctors, nurses, nurses, etc. is assumed. In particular, the disinfectant is sprayed without touching the container. Effective for what needs to be done.
[0016]
A spray nozzle 4 is provided so that the axis angle of the spray nozzle 4 can be adjusted. By adjusting the axis angle of the spray nozzle 4, the nozzle direction can be adjusted in a plurality of stages from a substantially vertical position to a position of approximately 90 ° laterally. It is provided so that it can be adjusted in stages. And the inside of the storage container 2 is passed through the pipe which leads to the hole formed in the spray nozzle 4 by ejecting the air supplied with the predetermined pressure from the electromagnetic pump 8 built in the main body 3 of the disinfectant sprayer 1 from the tip. The disinfectant solution is pumped up at a negative pressure and sprayed from the tip of the spray nozzle 4 together with the jetted air.
[0017]
Reference numeral 5 denotes a spray time adjustment knob, which adjusts the operation time of the electromagnetic pump 8 built in the main body 3 by turning the spray time adjustment knob 5. The amount of the disinfectant sprayed from the nozzle 4 is adjusted.
[0018]
A sensor 6 is provided in the vicinity of the spray nozzle 4 as shown in FIG. 2 and detects that a hand has been inserted when the hand is inserted below the spray nozzle 4. And the circuit as shown in FIG. 3 built in the main body 3 of the disinfectant sprayer 1 is activated by the detection of the sensor 6. In FIG. 3, reference numeral 7 denotes a control circuit. The control circuit 7 is supplied with power (usually DC power) from the outside. The control circuit 7 supplies operating power to the sensor 6 and the electromagnetic pump 8. In addition, it has a function of operating the electromagnetic pump 8 for a certain period of time upon receiving a signal from the sensor 6 that has detected that a hand has been inserted.
[0019]
9 is an automatic / manual changeover switch, which is provided on the upper surface of the disinfecting liquid sprayer 1. When a hand is inserted below the sensor 6, automatic operation for detecting the insertion of the hand and automatically spraying the disinfecting liquid, Even if a hand is inserted below the sensor 6, the sensor 6 does not operate and the manual operation in which the disinfectant is sprayed is switched by another operation switch. The sensor 6 is switched when the automatic / manual switch 9 is in the automatic position. The circuit configuration is such that the sensor 6 is turned off when turned on and in the manual position.
[0020]
Reference numeral 13 denotes an angle sensor that detects the axial angle of the spray nozzle 4. Reference numeral 14 denotes an automatic operation stop switch, as shown in FIG. 3, when the spray nozzle 4 is in a fixed position (for example, a vertical position) detected by the angle sensor 13 or when the shaft angle is a predetermined value or more ( For example, the control circuit 7 connected to the sensor 6 is cut off in the lateral direction (with respect to the vertical position).
[0021]
That is, in the drawing, the automatic / manual changeover switch 9 provided on the upper surface of the main body 3 detects the insertion of the hand and automatically sprays the disinfectant liquid when the hand is inserted below the sensor 6. Even if a hand is inserted below the sensor 6, the sensor 6 does not operate and the manual operation of spraying the disinfectant with another operation switch (manual spray switch 11) is switched. The sensor 6 is connected to the control circuit 7 at the position, and the connection between the sensor 6 and the control circuit 7 is cut off at the manual position. Furthermore, even when the automatic / manual changeover switch 9 is in the automatic position, when the position of the spray nozzle 4 is at a fixed position (for example, vertical position) or the shaft angle is equal to or greater than a predetermined value by the angle sensor 13. (For example, in the horizontal direction with respect to the vertical position), the automatic operation stop switch 14 is turned off, the circuit connecting the automatic / manual changeover switch 9 and the sensor 6 is cut off, and a hand is inserted below the sensor 6 Even if the control circuit 7 is not operated by the sensor 6, the disinfecting liquid is not sprayed from the spray nozzle 4.
[0022]
10 is used when the disinfectant sprayer 1 is moved by a handle. A manual spray switch 11 is provided in the vicinity of the tip of the handle 10, and the manual spray switch 11 is an automatic / manual switch 9. Is operated only when it is in the manual position. When it is turned on (ON), the control circuit 7 is activated, and the electromagnetic pump 8 is driven for a certain period of time to spray a certain amount of disinfectant from the spray nozzle 4.
[0023]
In FIG. 3, a battery 12 is housed in the main body 3 of the disinfectant sprayer 1 and supplies power to the control circuit 7. FIG. 3 shows the relationship among the automatic / manual switch 9, the manual spray switch 11, the sensor 6, the control circuit 7, the electromagnetic pump 8, the battery 12, the angle sensor, and the automatic operation stop switch 14. .
[0024]
Next, the operation of this embodiment will be described.
A disinfecting liquid to be used, for example, a disinfecting liquid, is placed in the storage container 2 and moved to an appropriate place with the handle 10 and the automatic / manual changeover switch 9 is set to an automatic position or a manual position. When the automatic / manual switch 9 is set to the automatic position, the disinfecting liquid is not sprayed from the spray nozzle 4 even when the manual spray switch 11 is pressed, and the sensor 6 is moved by inserting the hand below the sensor 6. When the insertion is detected, the control circuit 7 is operated to drive the electromagnetic pump 8 for a certain period of time to spray a certain amount of the disinfectant from the spray nozzle 4, but the axial angle of the spray nozzle 4 detected by the angle sensor 13 The automatic operation stop switch 14 is activated to shut off the circuit connected to the sensor 6 when the sensor is in a fixed position or when the shaft angle is greater than or equal to a predetermined value (or less), and control is performed even if the sensor 6 detects insertion of a hand. The electromagnetic pump 8 is not operated without operating the circuit 7.
[0025]
When the automatic / manual switch 9 is set to the manual position, the sensor 6 does not operate even if a hand is inserted below the sensor 6. However, when the manual spray switch 11 is pressed, the control circuit 7 is activated and the electromagnetic pump 8 is turned on. A certain amount of disinfectant is sprayed from the spray nozzle 4 by driving for a certain time. When the automatic / manual changeover switch 9 is in the manual position, the circuit connected to the sensor 6 is opened and not used as shown in FIG. 3, so that the axis angle of the spray nozzle 4 detected by the angle sensor 13 is fixed. Even when the automatic operation stop switch 14 is activated when the position is not in the position or when the shaft angle is a predetermined value or more with respect to the vertical position, the control circuit 7 is activated by pressing the manual spray switch 11 and the electromagnetic pump 8 is activated. A certain amount of disinfectant is sprayed from the spray nozzle 4 by driving for a certain time.
[0026]
4, FIG. 5, FIG. 6, FIG. 7, FIG. 8, and FIG. 9 show an embodiment of the disinfectant according to the second aspect of the present invention.
In the figure, reference numeral 1 denotes a disinfectant sprayer, which is composed of a sprayer body 40 and a base 41.
The sprayer main body 40 is configured separately from the pedestal 41, and is configured such that the sprayer main body 40 can be detached from the pedestal 41 and used independently as shown in FIG. As shown in FIG. 7, the pedestal 41 is configured as independent from the sprayer body 40, and the sprayer body 40 can be placed and used as shown in FIG. 4.
[0027]
Reference numeral 51 denotes a support base, which is formed in an L-shape and is used to place and support the sprayer body 40. Reference numeral 52 denotes a DC power supply terminal for supplying DC power, which is connected to the connection terminal 53 of the sprayer body 40 when the sprayer body 40 is placed on the pedestal 41.
[0028]
Reference numeral 54 denotes a place where the storage container 43 is placed when the sprayer body 40 is placed on the pedestal 41. Reference numeral 55 denotes a tray which is formed in a disk concave shape and is attached to the support base 51. The tray 55 is located below the spray nozzle 44 and receives and discharges the disinfectant liquid sprayed by the spray nozzle 44. A plurality of discharge ports 56 are provided in the approximate center of the tray 55.
[0029]
Reference numeral 32 denotes an AC power supply terminal which is connected to a commercial AC power supply, is attached to the support base 51, and is connected to a DC power supply. This DC power supply is built in the support base 51 and converts commercial AC power into DC power of a predetermined voltage to supply power to the control circuit 47. Furthermore, in this example, as shown in FIG. 9, a charger 58 for supplying charging power to the rechargeable battery 57 is provided.
[0030]
A handle 42 is used when the sprayer body 40 is removed from the pedestal 41 and carried. Reference numeral 43 denotes a storage container that stores a disinfectant sprayed from the sprayer body 40. As the disinfecting liquid stored in the storage container 43, a disinfecting liquid generally used by doctors, nurses, nurses, etc. is assumed, and it is particularly necessary to spray the disinfecting liquid without touching the container. Effective for those with
[0031]
As shown in FIG. 8, the spray nozzle 44 includes a diffuser 70 having a built-in nozzle as shown by an arrow A on the rotary shaft 71. The nozzle angle is changed from a vertical position to a horizontal position of approximately 90 degrees. It is pivotably attached to a plurality of stages so as to be adjustable. A cam 72 formed in the shape of a quarter arc is fixed to the rotating shaft 71, and a plurality of recesses 73 are provided on the circumferential surface of the cam 72, and a stopper 74 is fitted into the recess 73. By doing so, the axial angle of the spray nozzle 44 is determined. Moreover, the diffuser 70 of the spray nozzle 44 is configured to be detachable by screwing, and is configured to be freely removable from a nozzle that mixes air and disinfectant.
Reference numeral 45 denotes a spray time adjustment knob. The operation time of the electromagnetic pump 48 built in the sprayer main body 40 is adjusted by turning the spray time adjustment knob 45, and by adjusting the spray time of the spray nozzle 44. The amount of the disinfectant sprayed from the spray nozzle 44 is adjusted.
[0032]
Reference numeral 46 denotes a sensor, which is configured in the same manner as the sensor 6 in the embodiment of the invention described in claim 1, and is provided downward and adjacent to the spray nozzle 44 as shown in FIG. This sensor 46 detects that a hand is inserted below and outputs a detection signal. By inserting a hand below the spray nozzle 44, the sensor 46 is provided below the sensor 46 provided adjacent to the spray nozzle 44. It is detected that the hand has been inserted and the hand is inserted below the spray nozzle 44.
[0033]
And the circuit as shown in FIG. 9 built in the sprayer main body 40 by the detection of this sensor 46 operates. That is, in FIG. 9, 47 is a control circuit, 48 is an electromagnetic pump, and 49 is a DC battery. The control circuit 47 is supplied with power from the rechargeable battery 57 when the sprayer body 40 is carried by being removed from the base 41, and from the DC power supply 50 when the sprayer body 40 is set on the base 41 for use. Is to be supplied.
[0034]
The control circuit 47 has a function of supplying an operating power to the sensor 46 and the electromagnetic pump 48 and operating the electromagnetic pump 48 for a predetermined time in response to a signal from the sensor 46 that detects that a hand has been inserted. Yes.
[0035]
60 is an automatic / manual changeover switch, which is provided on the upper surface of the disinfecting liquid sprayer 1, and when a hand is inserted below the sensor 46, automatic operation for detecting the insertion of the hand and automatically spraying the disinfecting liquid; Even if a hand is inserted below the sensor 46, the sensor 46 does not operate and the manual operation in which the disinfectant is sprayed is switched by another operation switch. The sensor 46 is switched when the automatic / manual switch 60 is in the automatic position. The circuit is configured to turn on and turn off the sensor 46 when in the manual position.
[0036]
75 is an angle sensor for detecting the axial angle of the spray nozzle 44, and 76 is an automatic operation stop switch. As shown in FIG. 8, when the angle sensor 75 becomes larger than a predetermined angle (in the vertical direction in this embodiment) (raises in the lateral direction) by the eccentric cam 77 fixed to the rotation shaft 71, the angle sensor 75 is activated. Then, the automatic operation stop switch 76 is operated, and the circuit connecting the sensor 46 and the automatic / manual changeover switch 60 is cut off as shown in FIG. It is supposed to be stopped.
[0037]
Next, the operation of this embodiment will be described.
When disinfecting liquid to be used in the storage container 43, for example, disinfecting liquid, is carried and used with the sprayer main body 40, the handle 42 is moved to a target place, and the automatic / manual changeover switch 60 is set to the automatic position. When the angle sensor 75 is set to be in an automatic operation state and the shaft angle of the spray nozzle 44 is equal to or less than a predetermined value, the automatic operation stop switch 76 does not operate and the circuit connected to the sensor 46 is not shut off and the automatic operation is performed. It becomes possible. In this automatic operation state, a hand is put under the sensor 46, the control circuit 47 is activated by the detection of the sensor 46, and the electromagnetic pump 48 is driven for a certain period of time to spray a certain amount of disinfectant from the spray nozzle 44.
[0038]
Even if the automatic / manual changeover switch 60 is set to the automatic position and is in the automatic operation state, the automatic operation stop switch 76 operates when the angle sensor 75 detects that the axial angle of the spray nozzle 44 is equal to or greater than a predetermined value. The circuit connected to the sensor 46 is cut off and automatic operation cannot be performed. Even if the automatic operation stop switch 76 is activated, the control circuit 47 does not operate even if a hand is placed below the sensor 46, and the disinfectant does not spray from the spray nozzle 44.
[0039]
When the automatic / manual changeover switch 60 is set to the manual position and is in the manual operation state, the control circuit 47 is operated by turning on the manual spray switch 61 regardless of the shaft angle of the spray nozzle 44, and the electromagnetic The pump 48 is driven for a certain time to spray a certain amount of the disinfectant from the spray nozzle 44.
[0040]
When the sprayer main body 40 is placed on the pedestal 41 and used, the power supply terminal 32 is inserted into an outlet or the like, AC power is supplied, DC is converted by the charger 58 and supplied from the DC power supply terminal 52. When the automatic / manual changeover switch 60 is set to the automatic position and the automatic operation state is set, and the angle sensor 75 has the axis angle of the spray nozzle 44 equal to or less than a predetermined value, the automatic operation stop switch 76 is The circuit that does not operate and is connected to the sensor 46 is not cut off, and automatic operation is possible. In this automatic operation state, a hand is put under the sensor 46, the control circuit 47 is activated by the detection of the sensor 46, and the electromagnetic pump 48 is driven for a certain period of time to spray a certain amount of disinfectant from the spray nozzle 44.
[0041]
Even if the automatic / manual changeover switch 60 is set to the automatic position and is in the automatic operation state, the automatic operation stop switch 76 operates when the angle sensor 75 detects that the axial angle of the spray nozzle 44 is equal to or greater than a predetermined value. The circuit connected to the sensor 46 is cut off and automatic operation cannot be performed. Even if the automatic operation stop switch 76 is activated, the control circuit 47 does not operate even if a hand is placed below the sensor 46, and the disinfectant does not spray from the spray nozzle 44.
[0042]
When the automatic / manual changeover switch 60 is set to the manual position and is in the manual operation state, the control circuit 47 is operated by turning on the manual spray switch 61 regardless of the shaft angle of the spray nozzle 44, and the electromagnetic The pump 48 is driven for a certain time to spray a certain amount of the disinfectant from the spray nozzle 44.
[0043]
4, FIG. 5, FIG. 6, FIG. 7, FIG. 8, and FIG. 10 show an embodiment of a disinfectant according to the invention of claim 3 of the present application.
In the figure, reference numeral 1 denotes a disinfectant sprayer, which is composed of a sprayer body 40 and a base 41.
The sprayer main body 40 is configured separately from the pedestal 41, and is configured such that the sprayer main body 40 can be detached from the pedestal 41 and used independently as shown in FIG. However, in this embodiment, the nozzle fixed position detection sensor 80 for detecting that the axial direction of the spray nozzle 44 is in the vertical direction and the detection by the nozzle fixed position detection sensor 80 are the same. This embodiment differs from the embodiment of the invention described in claim 2 in that a sensor operation switch 81 for operating the sensor 46 only in a certain case is provided.
As shown in FIG. 8, the nozzle fixed position detection sensor 80 is operated by hitting a limit switch when the spray nozzle 44 is directed in the vertical direction by the eccentric cam 77 fixed to the rotating shaft 71, and the sensor operation switch 81 is operated. Then, as shown in FIG. 10, the circuit for connecting the sensor 46 and the automatic / manual changeover switch 60 is closed. As a result, the sensor 46 becomes operable, and the sensor 46 can be operated automatically. On the other hand, when the spray nozzle 44 is rotated and the tip starts to rise upward from the vertical position, the pressing by the eccentric cam 77 fixed to the rotation shaft 71 is eliminated, the limit switch is turned off, and the sensor operation switch 81 is turned off. Thus, a circuit for connecting the sensor 46 and the automatic / manual changeover switch 60 is established, and the automatic operation by the sensor 46 is disabled.
[0044]
Next, the operation of this embodiment will be described.
When disinfecting liquid to be used in the storage container 43, for example, disinfecting liquid, is carried and used with the sprayer main body 40, the handle 42 is moved to a target place, and the automatic / manual changeover switch 60 is set to the automatic position. When the spray nozzle 44 is oriented vertically and the nozzle fixed position detection sensor 80 detects the fixed position, the sensor operation switch 81 is activated and the circuit connected to the sensor 46 is not shut off and the automatic operation is performed. It becomes possible. In this automatic operation state, a hand is put under the sensor 46, the control circuit 47 is operated by the detection of the sensor 46, and the electromagnetic pump 48 is driven for a certain time to spray a certain amount of the disinfectant from the spray nozzle 44.
[0045]
Even if the automatic / manual changeover switch 60 is set to the automatic position and is in the automatic operation state, the sensor operation switch 81 is not detected because the nozzle fixed position detection sensor 80 does not detect the fixed position unless the spray nozzle 44 is in the fixed position. It does not operate, the circuit connected to the sensor 46 is cut off, and automatic operation cannot be performed. Even if the sensor operation switch 81 is not operated, the control circuit 47 does not operate even if a hand is placed below the sensor 46, and the disinfectant does not spray from the spray nozzle 44.
[0046]
Further, when the automatic / manual changeover switch 60 is set to the manual position so as to be in the manual operation state, it is connected to the sensor 46 regardless of the operation state of the sensor operation switch 81 regardless of the position of the spray nozzle 44. In this state, the control circuit 47 does not operate in the sensor 46, and the control circuit 47 is activated by turning on the manual spray switch 61, and the electromagnetic pump 48 is driven for a certain time. As a result, a certain amount of the disinfectant is sprayed from the spray nozzle 44. The case where the sprayer body 40 is used while being placed on the base 41 is the same as the case where the sprayer body 40 is carried and used.
[0047]
【The invention's effect】
According to the present invention, a sufficient amount of disinfectant can be rubbed into the hand, only the sprayer body can be carried, it can be used in a stable state even in the event of an emergency such as a power failure, and is necessary. Accordingly, the disinfecting liquid can be sprayed on the portion to be sprayed, and the disinfecting liquid can be sprayed without inserting a hand below the spray nozzle.
[Brief description of the drawings]
FIG. 1 is an overall perspective view of a disinfector according to the first aspect of the present invention.
FIG. 2 is a bottom view of the disinfector shown in FIG.
FIG. 3 is an operation circuit diagram of the disinfectant according to the first aspect of the present invention.
FIG. 4 is an overall perspective view of a disinfectant according to the inventions of claims 2 and 3 of the present application.
FIG. 5 is a perspective view of the sprayer body of the disinfectant according to the inventions of claims 2 and 3 of the present application.
6 is a bottom view of the sprayer body shown in FIG. 5. FIG.
FIG. 7 is a perspective view of a pedestal of a disinfector according to the inventions of claims 2 and 3 of the present application.
8 is a side view of a partial cross section of the spray nozzle shown in FIG. 6. FIG.
FIG. 9 is an operation circuit diagram of the disinfectant according to the second aspect of the present invention.
FIG. 10 is an operation circuit diagram of the disinfectant according to the third aspect of the present invention.
[Explanation of symbols]
1 ……………………………………………………… Disinfectant sprayer
2 ………………………………………………………… Storage container
3 ……………………………………………………… Body
4 ……………………………………………………… Spray nozzle
5 ……………………………………………………… Spray time adjustment knob
6 ……………………………………………………… Sensor
7 ……………………………………………………… Control circuit
8 ……………………………………………………… Electromagnetic pump
9 ……………………………………………………… Auto / Manual Switch
10 …………………………………………………………
11 …………………………………………………… Manual spray switch
12 ………………………………………………………… Battery
32 …………………………………………………………
40 ………………………………………………………… Sprayer body
41 …………………………………………………… Pedestal
42 …………………………………………………………
43 ………………………………………………………… Storage container
44 ………………………………………………………… Spray nozzle
45 ………………………………………………………… Spray time adjustment knob
46 ………………………………………………………… Sensor
47 ………………………………………………………… Control circuit
48 ………………………………………………………… Electromagnetic Pump
51 ………………………………………………………… Support stand
52 …………………………………………………… DC power supply terminal
53 ………………………………………………………… Connecting terminal
54 …………………………………………………………
55 ………………………………………………………… Tray
56 ………………………………………………………… Discharge port
57 ………………………………………………………… Rechargeable battery
58 ………………………………………………………… Charger
59 ………………………………………………………… Charging time selector switch
60 …………………………………………………… Auto / manual switch
61 …………………………………………………… Manual spray switch
70 ………………………………………………………… Diffuser
71 ………………………………………………………… Rotation axis
72 ………………………………………………………… Cam
73 ………………………………………………………… Recess
74 ………………………………………………………… Stopper
75 ………………………………………………………… Angle Sensor
76 …………………………………………………… Automatic operation stop switch
77 ………………………………………………………… Changing Cam
80 ………………………………………………………… Nozzle fixed position detection sensor
81 ………………………………………………………… Sensor activation switch

Claims (5)

A storage container for storing a disinfectant solution, an electromagnetic pump for supplying air to the spray nozzle at a predetermined pressure, and a pipe from the storage container by ejecting air supplied from the electromagnetic pump provided with an adjustable axial angle of the nozzle A spray nozzle that is pumped up in a negative pressure through a nozzle and ejected in the form of a mist, a sensor that detects that a hand has been inserted when the hand is inserted below the spray nozzle, and the sensor is turned on manually when in the automatic position. An automatic / manual changeover switch that turns off the sensor when in position, a manual spray switch that operates only when the automatic / manual changeover switch is in the manual position, an angle sensor that detects the axial angle of the spray nozzle, Connected to the sensor when the spray nozzle detected by the angle sensor is in a fixed position or when the axial angle is greater than or equal to a predetermined value (or less). And automatic operation stop switch to cut off the circuit, a control circuit for operating the electromagnetic pump a predetermined time by the detection or on of the manual spray switch of the sensor, disinfector comprising a battery for supplying power to the control circuit. A storage container for storing a disinfectant solution, an electromagnetic pump for supplying air to the spray nozzle at a predetermined pressure, and a pipe from the storage container by ejecting air supplied from the electromagnetic pump provided with an adjustable nozzle shaft angle. A spray nozzle that is pumped up in a negative pressure through a nozzle and ejected in the form of a mist, a sensor that detects that a hand has been inserted when the hand is inserted below the spray nozzle, and the sensor is turned on manually when in the automatic position. An automatic / manual change-over switch that turns off the sensor when in position, a manual spray switch that operates only when the automatic / manual change-over switch is in the manual position, an angle sensor that detects the axial angle of the spray nozzle, Automatic operation stop that shuts off a circuit connected to the sensor when the axial angle of the spray nozzle detected by the angle sensor is greater than or equal to a predetermined value A control circuit that operates the electromagnetic pump for a certain period of time by detecting the sensor or turning on the manual spray switch, supplying power to the control circuit, the electromagnetic pump, and the sensor and receiving DC power. A sprayer body including a rechargeable battery capable of charging electric power, a support base that supports the sprayer body, and a commercial AC power that is built in the support base is converted into DC power of a predetermined voltage, and the control is performed from a DC power supply terminal. Disinfection characterized by comprising a circuit, the electromagnetic pump, and a battery charger that supplies power to the rechargeable battery and that supplies charging power to the rechargeable battery, and is configured to be separable from the sprayer body. vessel. A storage container for storing a disinfectant solution, an electromagnetic pump for supplying air to the spray nozzle at a predetermined pressure, and a pipe from the storage container by ejecting air supplied from the electromagnetic pump provided with an adjustable nozzle shaft angle. A spray nozzle that is pumped up in a negative pressure through a nozzle and ejected in the form of a mist, a sensor that detects that a hand has been inserted when the hand is inserted below the spray nozzle, and the sensor is turned on manually when in the automatic position. An automatic / manual switch that turns off the sensor when in position, a manual spray switch that operates only when the automatic / manual switch is in the manual position, and the axial direction of the spray nozzle is in a fixed position. A nozzle fixed position detection sensor to detect, a sensor operation switch that activates the sensor only when there is detection of the nozzle fixed position detection sensor, A control circuit that operates the electromagnetic pump for a certain period of time by detecting a sensor or turning on the manual spray switch, supplying power to the control circuit, the electromagnetic pump, and the sensor, and receiving power from the DC power supply to charge power A sprayer body including a rechargeable battery, a support base that supports the sprayer body, a commercial AC power that is built in the support base is converted into DC power of a predetermined voltage, and the control circuit and the electromagnetic wave are supplied from a DC power supply terminal. A disinfector characterized by comprising a pump and a charger for supplying electric power to the sensor and supplying charging power to the rechargeable battery, and a base configured to be separable from the sprayer body. The disinfectant according to claim 2 or 3, wherein a tray having a receptacle for the disinfectant sprayed by the spray nozzle is provided on the support base at a position below the spray nozzle. The sterilizer according to claim 1, 2, or 3, wherein the spray nozzle is configured such that a diffuser is screwed in and removable, and a nozzle for mixing air and a disinfectant can be freely detached.

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