CN216091569U - Self-service terminal with sterilizing and electricity-saving functions - Google Patents

Abstract

The application discloses self-service terminal with kill and economize on electricity function to solve prior art and be difficult to ensure the disinfection effect, probably harm terminal electron device, human resource is with high costs and the extravagant scheduling problem of power consumption. In the self-service terminal, the disinfection spraying equipment comprises a liquid medicine box, an atomizer and a corresponding atomizing nozzle, wherein an input pipeline of the atomizer is connected with the liquid medicine box, the atomizer is used for atomizing disinfection liquid medicine into fine molecules, an output pipeline of the atomizer is connected to the atomizing nozzle, the atomizing nozzle is fixed at the top of a shell of the self-service terminal, and the spraying direction of the atomizing nozzle is inclined to a screen area and a keyboard area below the atomizing nozzle; the input end and the output end of the energy-saving control unit are respectively connected with the infrared sensor and the self-service terminal host, the infrared sensor utilizes the principle that infrared light diffusely reflects objects, and when a person enters or leaves an induction range right in front of the infrared sensor, the infrared sensor immediately responds and outputs the infrared sensor to the energy-saving control unit.

Description

Self-service terminal with sterilizing and electricity-saving functions

Technical Field

The application relates to a self-service terminal, in particular to a self-service terminal with sterilizing and power saving functions.

Background

With the rise of the internet plus and artificial intelligence, intelligent terminals in all industries come into operation, and the application of the intelligent terminals in the scenes of government offices, enterprise operation, civil consumption, financial bills and the like is endless, so that the use frequency of people is increased.

The existing self-service equipment is mostly disinfected by manual work, namely the self-service equipment is regularly cleaned and disinfected by 75% ethanol cotton balls, is regularly wiped for 30min by disinfectant containing 250-500 mg/L of effective bromine, effective chlorine or chlorine dioxide, and then is wiped by clean wet rags to remove residual disinfectant. Therefore, the disinfection effect depends on whether the individual staff is careful enough and operates according to the standard; meanwhile, if the used disinfectant is not wiped timely, certain corrosion can be caused to the self-service terminal equipment; if the water stain is not wiped cleanly, the main board can be burnt; moreover, in order to ensure the disinfection effect, a large amount of labor can be repeatedly used, and the manpower resource is wasted.

Due to the particularity of self-service equipment, 24 hours of standby is usually required. For example, automatic teller machines of banks and government affairs/tax service self-service terminals, the current self-service terminals only have two states of starting and power-off, and because the personnel handling the business at night are rare, the self-service terminals often consume a large amount of power resources; in order to save power, the power-off can be selectively performed only by human, and the terminal equipment is damaged by multiple times of switching.

SUMMERY OF THE UTILITY MODEL

Therefore, the self-service terminal with the sterilizing and power-saving functions is provided, and the problems that in the prior art, the sterilizing effect is difficult to ensure, terminal electronic devices are possibly damaged, the cost of human resources is high, electricity is wasted and the like are solved.

In order to achieve the above object, the embodiments of the present application provide the following technical solutions:

a self-service terminal with disinfection and power saving functions comprises a self-service terminal body; the device is characterized by also comprising a disinfection spraying device, an automatic disinfection control module, an infrared sensor and an energy-saving control unit;

the disinfection spraying equipment comprises a liquid medicine box, an atomizer and a corresponding atomizing nozzle, wherein an input pipeline of the atomizer is connected with the liquid medicine box, the atomizer is used for atomizing disinfection liquid medicine into fine molecules, an output pipeline of the atomizer is connected to the atomizing nozzle, the atomizing nozzle is fixed at the top of a shell of the self-service terminal, and the spraying direction of the atomizing nozzle is inclined to a screen area and a keyboard area below the atomizing nozzle; the automatic disinfection control module is electrically connected with the disinfection spraying equipment and used for enabling the disinfection spraying equipment to execute disinfection work according to configured working parameters, and the automatic disinfection control module is electrically connected with the self-service terminal host;

the infrared sensor is arranged on the front side of the shell of the self-service terminal, and the input end and the output end of the energy-saving control unit are respectively connected with the infrared sensor and the self-service terminal host and used for triggering the self-service terminal host to turn off a screen or sleep after a user leaves; the infrared sensor utilizes the principle that infrared light diffusely reflects objects, and when people enter or leave the sensing range right in front of the infrared sensor, the infrared sensor immediately responds and outputs to the power-saving control unit.

Optionally, the liquid medicine box and the atomizer are arranged in the same closed shell, a mist outlet is formed in the middle area of the upper end face of the closed shell, and an output pipeline of the atomizer extends out of the mist outlet; one side of the upper end surface of the closed shell is provided with a water filling port and a water filling port cover.

Optionally, there are a plurality of atomizers and a plurality of atomizing nozzles; the atomizer is integrally matched with the same output pipeline, the output pipeline extends out of the fog outlet, and the position close to the atomizing nozzle is divided into a plurality of branch circuits which are communicated with the atomizing nozzles in a one-to-one correspondence manner.

Optionally, the atomizers are uniformly distributed around the mist outlet formed in the middle area of the upper end face of the closed shell.

Optionally, the bottom of the liquid medicine box is provided with an inductor for monitoring the liquid level, and the output end of the inductor is electrically connected with the automatic disinfection control module.

Optionally, the closure housing is further provided with a movable handle.

Optionally, the top of the housing of the self-service terminal is provided with a projection facing a user relative to the screen area and the keyboard area, and the atomizing nozzle is fixedly mounted on the bottom surface of the projection, and the spraying direction is vertical downward.

Optionally, the self-service terminal host is provided with a fixed service port for the automatic disinfection control module, and is used for configuring working parameters of the disinfection spraying equipment, and sending a disinfection instruction to the automatic disinfection control module through the self-service terminal host, so that the disinfection spraying equipment executes disinfection work according to the configured working parameters.

Optionally, the output of the infrared sensor is at a high/low level, or the infrared sensor adopts an NPN drive output.

Optionally, the infrared sensor is located below the screen area and above the keyboard area.

The application has at least the following beneficial effects:

according to the self-service terminal with the sterilizing and electricity-saving functions, the sterilizing liquid medicine is atomized into small molecules, and the atomizing nozzles are arranged above the screen area and the keyboard area of the self-service terminal to ensure the actual effect of each sterilizing; the automatic disinfection control module drives and controls the disinfection spraying equipment to automatically execute disinfection work according to the configured working parameters, and prompt information is given through a self-service terminal screen or a loudspeaker after disinfection is finished, so that the human resources are saved, users and managers can obtain/confirm disinfection conditions, and the user experience and the sanitation management efficiency are improved; and carry out personnel's monitoring through infrared inductor, according to the power consumption of in-service use demand maximize ground saving, alleviate self-service terminal's operation burden.

The spray type sterilization is adopted, the sterilization area can be covered in a large range by the thinned sterilization solution, some tiny grooves and narrow spaces can be contacted with the sterilization spray, dead-angle-free sterilization is achieved, the sterilization effect is guaranteed, meanwhile, the micromolecule spray is slightly corroded on the self-service equipment, and the service life of the equipment is guaranteed.

The sterilizing device is combined with the self-service equipment, so that the attractiveness is not influenced, and the sterilizing device can be used for sterilizing common areas. The sterilizing device has simple structure and practical function, and can prompt the supplement/replacement of the liquid medicine in time through the inductor, thereby being convenient for maintenance.

The control of the disinfection spraying device is realized by combining a disinfection program through an internet of things control mode, customized disinfection configuration can be carried out according to the use condition of self-service equipment, for example, a user can be configured to start disinfection immediately after transacting business, start disinfection after transacting business several times, regularly kill without business, and the like; the screen of the disinfection process displays a disinfection prompt each time to prompt a user to use after the disinfection is finished, and meanwhile, the disinfection time can be configured according to the proportion of the liquid medicine, the whole process is automatically processed, and the purpose of automatic disinfection and sterilization is achieved.

Whether a user leaves (does not need to be served) can be judged by combining the mode of measuring the idle time length with the infrared inductor, the self-service terminal is triggered and controlled to be off or dormant, whether the user comes (needs to be served) is judged by monitoring through the infrared inductor, and the self-service terminal is triggered and controlled to recover normal work, so that the electricity is saved to the maximum extent according to the actual use requirement, and the operation burden of the self-service terminal is reduced; the set second time length is less than the set first time length, so that the method is more suitable for the actual application condition of research, avoids misoperation, ensures that the user requirement is met, and improves the user experience; the comprehensive cost is low, and the feasibility is high.

Drawings

In order to more clearly illustrate the prior art and the present invention, the drawings which are needed to be used in the description of the prior art and the embodiments of the present invention will be briefly described. It should be apparent that the drawings in the following description are merely exemplary, and that other drawings may be derived from the provided drawings by those of ordinary skill in the art without inventive effort.

The structures, proportions, sizes, and other dimensions shown in the specification are for illustrative purposes only and are not intended to limit the scope of the present invention, which is defined by the claims, and it is to be understood that all such modifications, changes in proportions, or alterations in size which do not affect the efficacy or objectives of the utility model are not to be seen as within the scope of the present invention.

Fig. 1 is a schematic system diagram of a self-service terminal implementing an autonomous killing function according to an embodiment of the present application;

FIG. 2 is a schematic structural diagram of a self-service terminal with killing and power saving functions according to an embodiment of the present application;

FIG. 3 is a top view of the main structure of the embodiment shown in FIG. 2;

FIG. 4 is a partial internal block diagram of the main structure of the embodiment shown in FIG. 2;

fig. 5 is a schematic view of an application scenario according to an embodiment of the present application.

Fig. 6 is a schematic front view of the embodiment shown in fig. 5.

Fig. 7 is a schematic view of the internal structure of the embodiment shown in fig. 5.

Fig. 8 is a schematic workflow diagram of autonomous killing in an embodiment of the present application.

Fig. 9 is a diagram illustrating a conventional power saving operation flow in an embodiment of the present application.

Fig. 10 is a schematic diagram illustrating an optimized power saving operation principle in an embodiment of the present application.

Fig. 11 is a wiring diagram of the switching value output of the infrared sensor.

FIG. 12 is a diagram of the NPN output wiring of the infrared sensor.

The reference numbers illustrate:

1-a self-service terminal housing; 2-self-service terminal host; 3-sterilizing the spraying equipment main body;

301-liquid medicine box; 302-atomizer (nebulizer); 303-a sensor; 304-a water stop floating ball; 305-water inlet cover; 306-mist outlet holes; 307-upper cover; 308-middle cover; 309-a handle;

4-an output pipeline; 401-branch; 5-an atomizing nozzle; 6-a touch screen; 7-an infrared probe; 8-a keyboard; 9-second generation ID card identification area; 10-a printer; 11-a ticket printer; 12-power supply.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the present application, "a plurality" means two or more unless otherwise specified. The terms "first," "second," "third," "fourth," and the like (if any) in the description and claims of this application and the above-described drawings are intended to distinguish between referenced items. For a scheme with a time sequence flow, the term expression does not need to be understood as describing a specific sequence or a sequence order, and for a scheme of a device structure, the term expression does not have distinction of importance degree, position relation and the like.

Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements specifically listed, but may include other steps or elements not expressly listed that are inherent to such process, method, article, or apparatus or that are added to such process, method, article, or apparatus based on the concepts of the present application.

As shown in fig. 1 to 7, the self-service terminal with disinfection and power saving functions provided in this embodiment includes a disinfection spray device, an automatic disinfection control module, an infrared sensor, and an energy saving control unit;

the disinfection spraying equipment comprises a liquid medicine box, an atomizer and a corresponding atomizing nozzle, wherein an input pipeline of the atomizer is connected with the liquid medicine box, the atomizer is used for atomizing disinfection liquid medicine into fine molecules, an output pipeline of the atomizer is connected to the atomizing nozzle, the atomizing nozzle is fixed at the top of a shell of the self-service terminal, and the spraying direction of the atomizing nozzle is inclined to the screen area and the keyboard area below; the automatic disinfection control module is electrically connected with the disinfection spraying equipment and used for enabling the disinfection spraying equipment to execute disinfection work according to configured working parameters, and the automatic disinfection control module is electrically connected with the self-service terminal host so as to prompt the disinfection completion condition through a self-service terminal screen or a loudspeaker;

the energy-saving control unit comprises an infrared sensor, an energy-saving control unit and a self-service terminal host, wherein the infrared sensor is arranged on the front side of a shell of the self-service terminal, and the input end and the output end of the energy-saving control unit are respectively connected with the infrared sensor and the self-service terminal host and are used for triggering the self-service terminal host to turn off a screen or sleep after a user leaves; the infrared sensor utilizes the principle that infrared light diffusely reflects objects, and when people enter or leave the sensing range right in front of the infrared sensor, the infrared sensor immediately responds and outputs to the power-saving control unit.

Specifically, the method comprises the following steps:

regarding the sterilization spray apparatus: above the touch screen area and the keyboard area of the self-service terminal, 4 atomizing nozzles are configured, and the high-power atomizer is connected through a pipeline and can atomize disinfectant liquid into small molecules. The system has the function of accurately controlling the dosage, ensures that surrounding personnel handling business cannot be influenced by the atomized disinfectant, and can also enable the self-service terminal to achieve the disinfection effect.

Referring to fig. 2, 3 and 4, the specific configuration of the sterilizing spray device is as follows:

1. 4 high-power customized sprayers are arranged in the self-service terminal, 1.8L of atomization amount per hour is achieved, compressed disinfection liquid is sprayed on a screen and an operation table of the self-service terminal, and the effect is more obvious;

2. the appearance is simple and elegant, the handle is arranged, the replacement is convenient, the practicability is strong, and the application is wide;

3. the standard 2M full copper power line is equipped, so that the safety is higher;

4. intelligent operation design, integration of switch, mist quantity/constant humidity regulation, timing setting and other functions;

5. the 6.5L large-capacity water tank is standby for long time and has a water shortage protection function, and the worry about water shortage and dry burning is avoided;

6. PP material, corrosion-resistant, can add the disinfectant.

As shown in fig. 5, 6 and 7, the top of the housing of the self-service terminal has a projection facing the user (screen area is relatively concave) relative to the screen area and the keyboard area, and four atomizing nozzles are fixedly mounted on the bottom surface of the projection, and the spraying direction is vertically downward.

The liquid medicine box and the atomizer are arranged in the same closed shell, the closed shell is positioned on one side of the bottom of the self-service terminal, and a water filling port cover are arranged on one side of the upper end face of the closed shell; the middle area of the upper end face of the closed shell is provided with a mist outlet, and the four atomizers are uniformly distributed around the mist outlet arranged in the middle area of the upper end face of the closed shell. The four atomizers are integrally matched with the same output pipeline, the output pipeline extends out of the mist outlet, one way of the output pipeline upwards reaches the top of the self-service terminal, and the four ways of the output pipeline are communicated with the four atomizing nozzles in a one-to-one correspondence mode. The bottom of liquid medicine case is provided with the inductor that is used for monitoring the liquid level, and the output and the automatic disinfection control module electricity of inductor are connected, and the stagnant water floater falls to the critical height of settlement when the liquid medicine is not enough, and the inductor sends prompt signal to automatic disinfection control module.

Regarding the automatic sterilization control module: through the control of the sterilizing and spraying device, customized sterilizing and killing configuration is carried out by combining the use condition of the self-service terminal, the sterilizing and killing can be started immediately after a user transacts services, the sterilizing and killing can be started after a plurality of services are separated, the sterilizing and killing can be regularly carried out without the service transaction, the sterilizing and killing prompt can be displayed on a screen in the sterilizing and killing process every time, the user is prompted to use the sterilizing and killing finished, meanwhile, the sterilizing and killing time can be configured according to the proportion of liquid medicine, the whole process is automatically processed, and the purpose of automatic sterilizing and disinfecting is achieved.

Self service terminal equipment is as alleviateing service window pressure, the thing networking facilities of substitute personnel operation, its user is continuous constantly, in order to accord with epidemic situation protection requirement, need regularly disinfect to equipment, adopt the automatic disinfection module that disinfects, can realize the automatic regular disinfection to terminal equipment, carry out the disinfection of spraying to personnel's common operation region, the propagation of new crown epidemic situation of separation effectively, the mode that the software and hardware combines is passed through to this embodiment, can dispose the back of business handling according to actual need and kill, regularly kill, modes such as interval kill, whole journey automation treatment, the human cost is saved, reach the effect of epidemic situation prevention and control again.

In order to avoid direct contact between people, tax authorities advocate actively to guide taxpayers to handle tax-related payment related matters through non-contact channels, so that tax-related payment services which need to be handled by users actually are guaranteed, and direct contact between people is avoided. Taking a typical tax self-service terminal as an example, as shown in fig. 5, the killing device is combined with a self-service device, an atomizing nozzle is fixed on the top of a housing of the self-service terminal, and the spraying direction of the atomizing nozzle is inclined to the screen area and the keyboard area below. The appearance is not influenced, and meanwhile, the disinfection and killing can be carried out aiming at the common areas.

The spray type disinfection liquid has smaller molecules, reduces waste and simultaneously lightens the corrosion effect of the liquid medicine on a machine. Since the new crown epidemic situation, people highly attach importance to individual epidemic situation protection work, so the set of sterilization system meets the problem that after a user uses self-service equipment in daily life, the equipment is not sterilized in time, indirect contact between people is caused, and adverse consequences are caused. The embodiment is simple to realize and meets the application requirement.

The automatic disinfection control module can be realized by adopting an independent hardware control module, and can also be realized by the operation of a self-service terminal host through software service. For example, the self-service terminal can be provided with 'killing assistant' software, a killing display end (displayed and configured through a touch screen) and a killing spraying device are connected, the killing display end provides detailed configuration options, timing killing time, killing cycle intervals, service handling times killing and the like can be configured, a manager can input parameters and commands through a keyboard and/or the touch screen, the killing display end stores configured customized parameters to the local (a memory of a self-service terminal host) through a network, different equipment terminals are provided with own memory spaces, and various configurations of various equipment are achieved. Meanwhile, the sterilizing assistant of the Internet of things controller plays a role in starting and stopping, the sterilizing assistant provides a local fixed interface service in the self-service equipment, a fixed service port of the machine where the sterilizing assistant is located is monitored in real time, when configured parameters are executed, the sterilizing display end calls the port through a Post request and sends a sterilizing instruction, the interface of the sterilizing assistant is called, the interface converts different sterilizing equipment instructions into corresponding serial port instructions, and hardware equipment is controlled to sterilize the machine in real time. The method has the advantages of stable communication and high real-time performance. All the interactive operations are completed through local services, a server does not need to be set up, and network resources are not occupied. And after the killing assistant finishes the instruction, the killing display end carries out corresponding page jump and presents the page jump on a terminal display screen to prompt a terminal user.

The killing method for the self-service terminal provided by the embodiment mainly comprises the following steps:

judging whether the self-service terminal has user operation currently;

if no user operation exists currently, the self-service terminal system returns to the home page;

outputting a killing instruction according to a preset killing mode;

and driving the disinfection spraying equipment to execute disinfection work according to the configured working parameters.

The killing mode can be selected in various ways, as shown in fig. 8, commonly used are "killing starts immediately after the user finishes working" and "timed killing" (for example, killing at 6 pm every day). In addition, it is also possible to configure "start killing after several times of business" and "regular killing without business transaction" (for example, killing after 3 hours after the latest business transaction), etc.

Regarding the intelligent power saving function: in a more conventional mode, whether the infrared sensing user leaves or comes, the energy-saving control unit triggers the self-service terminal host to turn off the screen, sleep or recover to normal operation, as shown in fig. 9. The following optimized implementations may also be employed:

as shown in fig. 10, the energy-saving control unit records the idle time after the user operates the self-service terminal last time, and determines whether the idle time exceeds a set first time; specifically, the host software of the self-service terminal can be used for directly judging whether the user has operation (the human-computer interaction interface does not receive the input of the user or continuously outputs the content to the user), the timing function can be a hardware timer, and the timing function can also be realized through software (program);

the energy-saving control unit also detects whether the user leaves the self-service terminal through an infrared inductor;

when the idle time length exceeds a set first time length or the infrared sensor does not scan people within a set second time length, and the idle time length exceeds the set first time length, judging that the user leaves the self-service terminal, and outputting a power saving instruction by the control unit to enable the self-service terminal to be off-screen or dormant; the set second duration is less than the set first duration;

when the self-service terminal is in a screen-off or dormant state, the control unit outputs a recovery instruction to enable the self-service terminal to recover to normal work when detecting that a person appears in a set range beside the self-service terminal through the infrared sensor.

In the embodiment, the mode of measuring the idle time is combined with the infrared inductor to judge whether the user leaves (does not need service), and accordingly the self-service terminal is triggered and controlled to be off or dormant; the set second time length is less than the set first time length, so that the method is more suitable for the actual application condition of research, avoids misoperation, ensures that the user requirement is met, and improves the user experience; the comprehensive cost is low, and the feasibility is high.

For example, the first time period may be 15 seconds and the second time period may be 5 seconds.

Sometimes, the idle time exceeds the set first time due to long temporary call answering time before the user is in front of the self-service terminal, and the user is not suitable to turn off the screen or sleep (particularly at night) at the moment because the user does not leave the self-service terminal; because the infrared inductor can sense that personnel still exist in front of the self-service terminal, the self-service terminal cannot be turned off or dormant.

Sometimes, a user may be away from the sensing range of the self-service terminal for a short time (for example, searching for inquiry items of a companion, picking up carelessly scattered documents, paper money, bills and the like) in the process of using the self-service terminal, and at this time, the user does not want to be turned off or sleep because the infrared sensor cannot sense the documents; due to the longer idle time setting, the self-service terminal does not turn off the screen or sleep.

Therefore, the two conditions of long idle time and short duration without infrared induction are met simultaneously, the node instruction is sent, the practical application condition of research is better met, the misoperation is avoided, the user requirement is met, and the user experience is improved.

For the specific type of the infrared sensor, as shown in fig. 11, the output of the infrared sensor is at a high/low level; alternatively, the infrared sensor may be an NPN drive output, as shown in fig. 12.

All the technical features of the above embodiments can be arbitrarily combined (as long as there is no contradiction between the combinations of the technical features), and for brevity of description, all the possible combinations of the technical features in the above embodiments are not described; these examples, which are not explicitly described, should be considered to be within the scope of the present description.

The present application has been described in considerable detail with reference to certain embodiments and examples thereof. It should be noted that it is obvious that several variations and modifications can be made to these specific embodiments without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A self-service terminal with disinfection and power saving functions comprises a shell and a self-service terminal host; the device is characterized by also comprising a disinfection spraying device, an automatic disinfection control module, an infrared sensor and an energy-saving control unit;

the disinfection spraying equipment comprises a liquid medicine box, an atomizer and a corresponding atomizing nozzle, wherein an input pipeline of the atomizer is connected with the liquid medicine box, the atomizer is used for atomizing disinfection liquid medicine into fine molecules, an output pipeline of the atomizer is connected to the atomizing nozzle, the atomizing nozzle is fixed at the top of a shell of the self-service terminal, and the spraying direction of the atomizing nozzle is inclined to a screen area and a keyboard area below the atomizing nozzle; the automatic disinfection control module is electrically connected with the disinfection spraying equipment and used for enabling the disinfection spraying equipment to execute disinfection work according to configured working parameters, and the automatic disinfection control module is electrically connected with the self-service terminal host;

the infrared sensor is arranged on the front side of the shell of the self-service terminal, and the input end and the output end of the energy-saving control unit are respectively connected with the infrared sensor and the self-service terminal host and used for triggering the self-service terminal host to turn off a screen or sleep after a user leaves; the infrared sensor utilizes the principle that infrared light diffusely reflects objects, and when people enter or leave the sensing range right in front of the infrared sensor, the infrared sensor immediately responds and outputs to the power-saving control unit.

2. The self-service terminal with killing and power saving functions as claimed in claim 1, wherein the liquid medicine box and the atomizer are arranged in the same closed shell, a mist outlet is formed in the middle area of the upper end face of the closed shell, and an output pipeline of the atomizer extends out of the mist outlet; one side of the upper end surface of the closed shell is provided with a water filling port and a water filling port cover.

3. The self-service terminal with killing and power saving functions as claimed in claim 2, wherein the number of the atomizers is multiple, and the number of the atomizing nozzles is multiple; the atomizer is integrally matched with the same output pipeline, the output pipeline extends out of the fog outlet, and the position close to the atomizing nozzle is divided into a plurality of branch circuits which are communicated with the atomizing nozzles in a one-to-one correspondence manner.

4. The self-service terminal with sterilizing and power-saving functions as claimed in claim 3, wherein the plurality of atomizers are uniformly distributed around the mist outlet formed in the middle area of the upper end face of the closed shell.

5. The self-service terminal with sterilizing and power-saving functions as claimed in claim 1, wherein a sensor for monitoring liquid level is arranged at the bottom of the liquid medicine box, and the output end of the sensor is electrically connected with the automatic sterilization control module.

6. The self-service terminal with killing and power saving functions as claimed in claim 2, wherein the closed shell is further provided with a movable handle.

7. The self-service terminal with killing and power saving functions according to claim 2, wherein the top of the housing of the self-service terminal is provided with a projection facing a user relative to the screen area and the keyboard area, the atomizing nozzle is fixedly mounted on the bottom surface of the projection, and the spraying direction is vertically downward.

8. The self-service terminal with killing and power saving functions as claimed in claim 1, wherein the self-service terminal host is provided with a fixed service port for the automatic disinfection control module, and is used for configuring working parameters of the disinfection spraying equipment, and sending a killing instruction to the automatic disinfection control module through the self-service terminal host, so that the disinfection spraying equipment executes killing work according to the configured working parameters.

9. The self-service terminal with killing and power saving functions as claimed in claim 1, wherein the output of the infrared sensor is high/low level, or the infrared sensor adopts NPN driving output.

10. The self-service terminal with killing and power saving functions of claim 1, wherein the infrared sensor is located below the screen area and above the keyboard area.

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