KR101843570B1 - Apparatus for Monitoring the Status of Charging Guns for Electric Vehicles Using Internet Technology - Google Patents

Abstract

According to the present invention, an apparatus for monitoring a status of a charging gun for an electric vehicle using an IoT technology comprises: a charging gun support unit provided on one side of a charging apparatus for an electric vehicle; a support status sensing unit for sensing a support status of a charging gun supported by the charging gun support unit; and a sensing result output unit for outputting a sensing result to a manager terminal through the support status sensing unit. The support status sensing unit generates an unsupported signal representing an unsupported status of the charging gun when the charging gun is not supported by the charging gun support unit when the charging gun is not in use, and the sensing result output unit generates a notification signal notifying the unsupported status of the charging gun based on the unsupported signal to output the notification signal to the manager terminal.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus for monitoring a charging status of a charging gun for an electric vehicle,

The present invention relates to an apparatus for monitoring the status of a charging gun for an electric car using an Internet internet technology, more specifically, it can automatically determine the status of charging a charging gun, The present invention relates to an apparatus for monitoring the status of a charging gun for an electric vehicle using an Internet technology.

In recent years, the use of environmentally friendly energy due to the depletion of fossil fuels has led to an increase in the spread of electric vehicles. In addition, the spread of electric car chargers for charging electric vehicles is also expanding.

Meanwhile, although the charging gun inserted into the socket for the electric car is normally mounted in the storage box of the charging gun, when the user uses the charging gun, the charging gun may not be held in place. If there is a risk of breakage of the charging gun and the water on the floor is left unattended, there is a risk of electric shock due to a short circuit.

However, up to now, there has not been developed a proper method for solving such a problem, and a method for solving such problems is required.

Korean Patent No. 10-1689726

SUMMARY OF THE INVENTION The present invention is conceived to solve the problems of the conventional art described above, and it is an object of the present invention to automatically detect the state of mounting of a charging gun by sensing a change in contact state between a charging gun mounting portion and a sensor, If you can not confirm the installation of the charging gun in the unused state, you can warn the manager located at the remote location based on the internet technology of the object that the charging charge is unfixed. For example.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the present invention provides a device for monitoring a state of a charging gun for an electric car using an Internet technology, the device comprising: a charging gun mounting part provided on one side of a charging device for an electric vehicle; And a sensing result output unit for outputting a sensed result through the sensing unit to the manager terminal, wherein the sensing unit senses the state of the charging gun when the charging gun is in the charging state, And an unloading signal indicating a unloaded state of the charged gun is generated and transmitted to the detection result output unit. When the unloaded signal is not stored in the key holder unit, the detection result output unit outputs a notification signal And outputs it to the administrator terminal.

The charging gun mounting portion includes a charging gun mounting housing, a mounting plate for mounting a charging socket area of the charging gun, and a sensing plate formed in a vertical direction from the mounting plate. The mounting plate and the sensing plate are integrally formed When the charging socket region of the filling gun is mounted on the mounting plate as the central portion is coupled to the charging gun mounting housing through the hinge, the mounting plate and the sensing plate are rotated by the self- And can rotate by a certain angle.

In addition, when the charging gun is mounted on the mounting plate, the mounting plate and the sensing plate are rotated in one direction with the hinge as a rotation axis due to the self weight of the charging gun, When the charging gun is detached from the mounting plate, the mounting plate and the sensing plate contact the hinge as the self-weight of the charging gun is disappeared. And the mounting state sensing unit may determine that the charging gun is not currently mounted as the one side of the sensing plate is spaced apart from the mounting state sensing unit.

A buffer portion may be formed between the stationary state sensing portion and the sensing plate to mitigate an impact upon contact between the stationary state sensing portion and the sensing plate.

The buffer includes a housing which is formed so as to surround a periphery of the stationary state sensing unit and opens in the sensing plate direction and includes a protrusion further protruding in the direction of the sensing plate than the stationary state sensing unit, The sensing plate is provided on one surface of the sensing plate and a switch which is provided to protrude in the direction of the stationary state sensing unit and contacts the stationary state sensing unit when the sensing plate moves toward the stationary sensing unit, And a buffer member moving to the state sensing unit and performing damping in the process of contacting the switch with the mounting state sensing unit.

The cushioning member is formed of a material that absorbs shocks according to deformation. The cushioning member is deformed in contact with the protruding portion before the sensing plate is moved to the mounting-state sensing unit side and the switch contacts the mounting-state sensing unit Damping can be performed.

The mounting state sensing unit may include a contact sensor for sensing a contact state of the sensing plate, a pressure sensor for sensing a pressure change due to the contact of the sensing plate, and a capacitance sensing unit for sensing a capacitance change due to the contact of the sensing plate. And a sensor.

The one end of the mounting plate may be provided with a bushing to prevent the charging gun from slipping off from one end of the mounting plate.

Also, when a charging-gun unused confirmation signal is transmitted from the charging apparatus for the electric vehicle according to the unused use of the charging gun, the mounting-state sensing unit senses the charging state of the charging gun and determines that the charging state of the charging- The unloaded signal can be generated.

In addition, at least one of the sound output means and the screen output means provided in the administrator terminal can be operated by outputting the notification signal informing the unsettled state of the charging subject in the detection result output unit to the administrator terminal.

The detection result output unit may further include a speaker device for outputting a sound based on the notification signal indicating the unfixed state of the charging subject and a monitor device for outputting a screen based on the notification signal indicating the unfixed state of the charging subject; And can inform the manager adjacent to the electric car charging device through any one or more of the speaker device and the monitor device to inform the manager of the uninstalled state of the charging subject by using a sound or a screen.

In order to solve the above-described problems, an apparatus for monitoring a stationary state of a charging gun for an electric vehicle using the Internet technology of the present invention has the following effects.

First, there is an advantage that it is possible to automatically determine the state of the charging gun by sensing the change of the contact state between the charging gun mounting part and the sensor due to the self weight of the charging gun.

Secondly, according to an aspect of the present invention, when the charging gun is not stationed in a state where the charging gun is not used, it is possible to promptly inform the manager located at the remote location based on the object Internet technology There is an advantage to be able to perform.

Third, there is an advantage that it is possible to prevent the risk of damage to the charging gun left on the floor around the charging device for the electric vehicle or the risk of electric shock due to leakage of the high-voltage current from the charging gun.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

Brief Description of the Drawings Fig. 1 is a schematic view showing a configuration of an apparatus for monitoring the state of a charging gun for an electric car using an Internet object technology according to a first embodiment of the present invention; Fig.
FIG. 2 is a schematic view showing an integrated form of a mounting plate and a sensing plate in a stationary state monitoring apparatus for a charging gun for an electric automobile using the Internet of Things according to the first embodiment of the present invention; FIG.
FIG. 3 is a view showing a state before the charging gun is mounted on a mounting plate of a charging gun mount housing in an apparatus for monitoring a charging state of a charging gun for an electric vehicle using the object Internet technology according to the first embodiment of the present invention;
FIG. 4 is a diagram illustrating a state after the charging gun is mounted on the mounting plate of the charging gun housing, in the charging state monitoring apparatus for a charging gun for an electric vehicle using the Internet of Things according to the first embodiment of the present invention;
5 and 6 are views showing a sensing plate and a stationary state sensing unit in an apparatus for monitoring a stationary state of a charging gun for an electric car using an Internet object technology according to a second embodiment of the present invention; And
FIG. 7 and FIG. 8 are views showing a sensing plate and a stationary state sensing unit in an apparatus for monitoring a stationary state of a charging gun for an electric vehicle using the object Internet technology according to the third embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In describing the present embodiment, the same designations and the same reference numerals are used for the same components, and further description thereof will be omitted.

FIG. 1 is a view schematically showing a configuration of an apparatus for monitoring a stationary state of a charging gun for an electric car using a thing Internet technology according to a first embodiment of the present invention. FIG. 2 is a cross- 110b and the sensing plate 110c, respectively.

1 and 2, an apparatus 100 for monitoring a stationary state of a charging gun for an electric vehicle using an object Internet technology according to an embodiment of the present invention includes a layered stationary stationery unit 110, a stationary state sensing unit 120, And a detection result output unit 130.

First, the filling gun mounting unit 110 is provided at one side of the charging apparatus for an electric car, and means the area where the filling gun 1 is mounted and stored.

More specifically, referring to FIG. 2, the filling gun mounting unit 110 includes a charging gun housing 110a for storing the charging gun 1, a U-shaped mounting member 110a for mounting the charging socket region of the charging gun 1, And a sensing plate 110c formed vertically from the plate 110b and the mounting plate 110b.

The charging gun mounting housing 110a may be a case for protecting the charging gun mounted on the mounting plate 110b with an external impact, and the mounting plate 110b may actually be a mounting area in which the charging gun 1 is mounted, . ≪ / RTI >

In particular, the mounting plate 110b may be formed in a U-shape so that the charging gun 1 is inserted and held in one direction, while the inside of the U-shape supports the lower end of the charging socket area of the charging gun 1, . For example, the charging gun 1 can be mounted on the mounting plate 110b by supporting the lower end of the head portion (charging socket region) of the charging gun 1, such as a toothbrush holder supporting the head portion of the toothbrush.

In this embodiment, one end portion of the mounting plate 110b may be provided with a bushing 110b-1 for preventing the mounted charging gun 1 from slipping off from the distal end of the mounting plate 110b, The charging gun 1 mounted on the mounting plate 110b is not released by the protruding portion 110b-1.

The sensing plate 110c may be positioned vertically from the mounting plate 110b to serve as a contact means for contacting the mounting state sensing unit 120 described later. More specifically, the sensing plate 110c contacts a part of the mounting state sensing unit 110, which will be described later, to inform the mounting state sensing unit 120 of whether the charging gun 1 is mounted on the mounting plate 110b But the shape of the sensing plate 110c is not limited at this time.

Hereinafter, how the sensing plate 110c informs the stationary state sensing unit 120 whether or not the charging gun 1 is placed on the stationary plate 110b will be described.

The stationary plate 110b and the sensing plate 110c are arranged so as to be perpendicular to each other and the area where the stationary plate 110b and the sensing plate 110c meet is filled with the stationary charger housing 110a and the hinge, And can be fixed to the key holder housing 110a.

More specifically, the mounting plate 110b can be positioned horizontally from the floor surface inside the charging gun mounting housing 110a, and the sensing plate 110c can be positioned vertically from the bottom surface inside the charging gun mounting housing 110a At this time, a hinge is provided in a region where the mounting plate 110b and the sensing plate 110c meet vertically, so that the mounting plate 110b and the sensing plate 110c are fixed to the inside of the charging gun mounting housing 110a So that it can be rotated at a certain angle.

At this time, since the mounting plate 110b and the sensing plate 110c can be formed in an integrated module form in a state of being perpendicular to each other, when the mounting plate 110b is horizontal from the bottom surface, the hinge is rotated by the rotation axis, In the case of some rotation, the sensing plate 110c is rotated so as to correspond to the radius at which the mounting plate 110b is rotated.

For example, in a state where the filling gun 1 is not mounted on the mounting plate 110b, the mounting plate 110b is inclined at an angle of about 15 degrees in the horizontal direction and the sensing plate 110c is inclined about 15 When the charging gun 1 is mounted on the mounting plate 110b in this state, the mounting plate 110b is moved by the weight of the charging gun 1, The sensing plate 110c is rotated at 15 angles in the direction in which the charging gun 1 is mounted.

At this time, the sensing plate 110c is rotated at an angle of 15 degrees in the direction of the filling gun 1, so that one side of the sensing plate 110c is automatically brought into contact with the mounting state sensing unit 120 described later, (120). ≪ / RTI >

Next, the stationary state sensing unit 120 can sense the stationary state of the charging gun 1 as the charging gun 1 is mounted on the charging gun mounting unit 110, and more specifically, It is detected whether or not the sensing plate 110c is in contact with the rotation of the sensing plate 110c to sense whether the charging gun 1 is stationed or not.

For this purpose, the stationary state sensing unit 120 includes a contact sensor for sensing a contact state of the sensing plate 110c, a pressure sensor for sensing a pressure change due to the contact of the sensing plate 110c, At least one of the electrostatic capacity sensing sensors for sensing a change in electrostatic capacitance may be applied.

Therefore, when the filling gun 1 is mounted on the mounting plate 110b, the mounting plate 110b and the sensing plate 110c are rotated in the direction in which the charging gun 1 is mounted due to the own weight of the charging gun 1 At this time, since the sensing plate 110c is brought into contact with the mounting state sensing unit 120, the mounting state sensing unit 120 confirms that the current charging case 1 is mounted on the mounting plate 110b.

On the other hand, when the charging gun 1 is detached from the mounting plate 110b, the weight of the charging gun 1 disappears, so that the mounting plate 110b and the sensing plate 110c are moved in the direction in which the charging gun 1 is mounted The stationary state sensing unit 120 senses that the current charging gun 1 has been moved to the mounting plate 110. As the sensing plate 110c is disengaged from the stationary state sensing unit 120, 110b. ≪ / RTI >

In particular, in the case where the charging gun is not mounted on the mounting plate 110b of the charging key holder 110 (for example, when the charging of the electric car is completed When the user leaves the charging gun on the floor without resting on the mounting plate 110b), an unstable signal indicating the unfixed state of the charging gun 1 is generated and transmitted to the detection result output unit 130 to be described later .

Meanwhile, in the present embodiment, the stationary state sensing unit 120 may receive a rechargeable battery cartridge non-use confirmation signal from the charging apparatus for electric vehicles according to the unused state of the rechargeable gun 1, When it is confirmed that the stationary state of the gun 1 is in an unstalled state, the stationary state sensing unit 120 may generate an unstable signal and transmit the unstable signal to the detection result output unit 130.

Next, the sensing result output unit 130 may output the sensed result through the sensing state sensing unit 120 to the manager terminal.

More specifically, the detection result output unit 130 generates a notification signal indicating the unfixed state of the charging device 1 based on the unstable signal transmitted from the above-described deactivation state sensing unit 120, Can be output. Therefore, in the administrator terminal, a warning sound indicating that the current charging subject 1 is unstuck may be output through the sound output means provided in the manager terminal itself, or the current charging subject 1 ) May be displayed.

In the present embodiment, the detection result output unit 130 may include a speaker device and a monitor device for outputting a sound for informing itself of the unloaded state of the charging gun 1, 1 may be output to inform the manager of the surrounding area or may display a screen informing that the current charging gun 1 has not been mounted through the monitor device and notify the surrounding manager.

Next, a process of contacting the sensing plate 110c to the mounting state sensing unit 120 as the charging gun is mounted on the mounting plate 110b will be described with reference to FIGS. 3 and 4. FIG.

Fig. 3 is a view showing a state before the filling gun is mounted on the mounting plate 110b of the charging gun mount housing 110a. Fig. 4 is a side view of the charging gun mount housing 110a, Fig.

3, the charging gun 1 is not mounted on the mounting plate 110b as the charging gun 1 is positioned outside the charging gun mounting portion 110a. In this case, It may be the case that the gun 1 is in use or the case where the user has completed using the charging gun 1 but left the charging gun 1 on the floor.

Therefore, the stationary state sensing unit 120 senses whether or not the sensing plate 110c is contacted when a charging gun non-use confirmation signal for unused charging gun 1 is received from the electric car charging apparatus.

3, it can be seen that the mounting plate 110b is in the state where the left side is held at about 15 degrees in the drawing, and the sensing plate 110c is tilted at about 15 degrees in the clockwise direction have. In particular, it can be seen that the upper portion of the sensing plate 110c and the stationary state sensing unit 120 are spaced apart from each other.

4, when the charging gun 1 is mounted on the mounting plate 110b of the charging gun mounting portion 110a, the mounting plate 110b is horizontally rotated about 15 degrees in the drawing by the weight of the charging gun 1 And the sensing plate 110c rotates about 15 degrees counterclockwise in accordance with the rotation of the sensing plate 110c. Particularly, it can be seen that the upper portion of the sensing plate 110c is in contact with the stationary state sensing unit 120 at this time.

3 and 4, the stationary state sensing unit 120 can determine whether or not the charging gun 1 is stationary.

In particular, the stationary state sensing unit 120 may transmit the contact state of the sensing plate 110c to the sensing result output unit 130 through wired / wireless network communication based on the Internet (IoT) technology. Also, in this embodiment, the detection result output unit 130 may transmit a notification signal for notifying the unmanned state of the charging case 1 to the administrator terminal located at a remote place through wired / wireless network communication.

Hereinafter, other embodiments of the present invention will be described.

5 and 6 are diagrams showing a state of a sensing plate 110c and a mounting state sensing unit 120 in an apparatus for monitoring the state of a charging gun for an electric car using an Internet object technology according to a second embodiment of the present invention to be.

In the second embodiment of the present invention shown in FIGS. 5 and 6, a buffer is provided between the stationary state sensing unit 120 and the sensing plate 110c, which is different from the first embodiment described above.

Specifically, the buffer serves to mitigate an impact upon contact between the stationary state sensing unit 120 and the sensing plate 110c. This is for preventing the sensing plate 110c from being suddenly rotated due to the self weight of the charging gun 1 to apply an impact to the stationary state sensing unit 120.

The buffer may be implemented in various forms without limitation. In this embodiment, the buffer includes a housing 140, a switch 114, and a buffer member 112.

The housing 140 is formed so as to surround the periphery of the stationary state sensing unit 120 and is opened in the direction of the sensing plate 110c. At this time, the housing 140 includes a protrusion 142 that protrudes further toward the sensing plate 110c than the stationary state sensing unit 120.

More specifically, in the present embodiment, since the mounting state sensing unit 120 is formed in a rectangular shape, the housing 140 is formed so as to surround each side of the mounting state sensing unit 120, ) Direction is only open to the side.

A protrusion 142 is formed at an end of the housing 140 surrounding the upper and lower sides of the stationary state sensing unit 120 so that the protrusion 142 is spaced apart from the sensing plate 120 110c.

The switch 114 is provided on one surface of the sensing plate 110c so as to protrude in the direction of the stationary state sensing unit 120. The sensing plate 120c is connected to the stationary state sensing unit 120 The protrusion 142 can be inserted into the insertion space 143 and contacted with the stationary state sensing unit 120. That is, the protruding length of the switch 114 may be equal to or longer than the protruding length of the protruding portion 142.

The buffer member 112 is provided on one surface of the sensing plate 110c like the switch 114. The sensing plate 110c moves toward the mounting state sensing unit 120, Damping is performed in the process of contacting the stationary state sensing unit 120.

This is because a strong shock can be applied in the process of contacting the mounting state sensing unit 120 on the characteristic of the protruded type switch 114. If such a phenomenon is repeated, the mounting state sensing unit 120 may be damaged . Therefore, the buffer member 112 may perform damping in the process of contacting the switch 114 with the mounting state sensing unit 120 to prevent this.

The cushioning member 112 may be formed to have various shapes and shapes. In this embodiment, the cushioning member 112 may be formed of a material that absorbs impact according to deformation, 6, before the switch 114 is moved to the stationary-state sensing unit 120 and contacts the stationary-state sensing unit 120, a method of performing damping as it is deformed by contact with the protruding unit 142 .

That is, the damping by the cushioning member 112 is performed immediately before the switch 114 is brought into contact with the cradle-state sensing unit 120, so that the switch 114 supplies the cradle-state sensing unit 120 Lt; / RTI >

The cushioning member 112 may be provided on the protrusion 142 of the housing 140 or may be provided on the side of the sensing plate 110c in the present embodiment, Or both the protrusion 142 and the sensing plate 110c.

FIG. 7 and FIG. 8 are views showing a state of the sensing plate 110c and the mounting state sensing unit 120 in the upper part of the apparatus for monitoring the mounting state of the charging gun for an electric car using the Internet of Things according to the third embodiment of the present invention. Fig.

In the case of the third embodiment of the present invention shown in FIGS. 7 and 8, the buffer unit is provided as in the second embodiment, but the mechanism of the buffer unit is completely different.

In this embodiment, the stationary state sensing unit 120 is formed to have a first inclined surface 121 at one side and coupled to the auxiliary housing 140 at the other side.

At this time, the auxiliary housing 140 is extended longer to the sensing plate 110c than the mounting state sensing unit 120, and an extended portion of the auxiliary housing 140 is connected to the first inclined surface 121 without a step The second inclined surface 141 is formed.

That is, the mounting state sensing unit 120 and the auxiliary housing 140 form one oblique surface to which the first inclined surface 121 and the second inclined surface 141 are connected.

The mounting state sensing unit 120 may be formed of a conductive material, and the auxiliary housing 140 may be formed of a nonconductive material. The reason for doing this will be described later.

A receiving space 116 is formed inside the sensing plate 110c, and the buffering part is provided in the receiving space 116.

Specifically, in the present embodiment, the buffer part is provided in a state that a part of the buffer part is accommodated in the accommodation space 116 and a part of the buffer part protrudes to the outside of the sensing plate 110c, A rotating member 152 rotatably provided at an outer end of the moving member 150 and formed of a conductive material, a movable member 150 And a resilient member 154 in the form of a compression spring which is elastically deformed in accordance with the linear movement of the elastic member 154.

The rotation member 152 is disposed in contact with the oblique surface formed by the first inclined surface 121 and the second inclined surface 141. The elastic member 154 has one end connected to the sensing plate 110c, And is held in contact with the stopper 115 formed on the inner side of the stopper 115. [

Hereinafter, the mechanism of the cushioning portion of this embodiment will be described in detail.

7, since the sensing plate 110c is positioned behind the charging gun 1 in a state where the charging gun 1 is not mounted on the charging key holder 110, And is further projected outwardly by the elastic force of the member 154, so that the rotary member 152 is in contact with the second inclined surface 141 side.

As shown in FIG. 8, the sensing plate 110c moves forward when the charging gun 1 is mounted on the charging key holder 110, so that the rotation member 152 is rotated in the first inclined plane The movable member 150 rotates along the oblique surface formed by the first inclined surface 121 and the second inclined surface 141 and reaches the first inclined surface 121 so that the movable member 150 compresses the elastic member 154, And is inserted into the accommodation space 116.

In other words, in this state, the rotating member 152, which is a conductor, and the stationary state sensing unit 120 are in contact with each other, so that the sensing result output unit 130 is electrically connected to the charging gun 1, It is possible to generate a signal indicating that it is in a stationary state.

As described above, in this embodiment, since the rotary member 152 is in continuous contact with the oblique surface formed by the first inclined surface 121 and the second inclined surface 141, the movement of the sensing plate 110c It is possible to prevent occurrence of a sudden impact according to the present invention.

It will be apparent to those skilled in the art that the present invention can be embodied in other specific forms without departing from the spirit or scope of the invention as defined in the appended claims. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative rather than restrictive, and the present invention is not limited to the above description, but may be modified within the scope of the appended claims and equivalents thereof.

1: Charging gun
100: Mounting status monitoring device for electric car charging gun
110: Charging gun mounting part
110a: Charging gun mounting housing
110b: mounting plate
110b-1:
110c: sensing plate
120: stationary state sensing unit
130: detection result output unit

Claims (11)

A charging gun mounting portion provided at one side of the charging device for electric vehicles;
A stationary state sensing unit for sensing a stationary state of the charging gun placed on the charging gun mounting unit; And
A sensing result output unit for outputting a sensing result through the stationary state sensing unit to an administrator terminal;
Lt; / RTI >
Wherein the charging gun mounting portion comprises:
A charging gun mounting housing, a mounting plate for mounting a charging socket area of the charging gun, and a sensing plate formed in a vertical direction from the mounting plate,
Wherein the holding plate and the sensing plate are integrally formed with each other, and a central portion of the holding plate is coupled to the charging gun mounting housing through a hinge, so that when the charging socket region of the charging gun is mounted on the mounting plate, The mounting plate and the sensing plate are rotated by a certain angle with the hinge as a rotation axis,
The stationary state sensing unit includes:
At least one of a contact sensor for sensing a contact state of the sensing plate, a pressure sensor for sensing a pressure change due to the contact of the sensing plate, and a capacitance sensing sensor for sensing a capacitance change due to the contact of the sensing plate And an unoccupied signal indicating an untreated state of the charged gun is generated and transmitted to the detected result output unit when the charged gun is not placed in the charged gun mounting unit in a state where the charged gun is not used, And an alarm signal for notifying the unloaded state of the charged item based on the unloaded signal, and outputting the alarm signal to the administrator terminal.
delete The method according to claim 1,
When the filling gun is mounted on the mounting plate,
The mounting plate and the sensing plate are rotated in one direction by a predetermined angle with the hinge as a rotation axis due to the self weight of the charging gun and as the one side of the sensing plate contacts the mounting state sensing unit, It is determined that the gun is currently in a stationary state,
When the filling gun is detached from the mounting plate,
As the weight of the charged gun disappears, the mounting plate and the sensing plate rotate in opposite directions with the hinge as a rotation axis, and as one side of the sensing plate is separated from the mounting state sensing unit, A device for monitoring the status of a charging gun for electric vehicles using Internet technology. The method of claim 3,
And a buffer for reducing an impact at the time of contact between the stationary state sensing unit and the sensing plate is formed between the stationary state sensing unit and the sensing plate. 5. The method of claim 4,
The buffering portion
A housing which is formed to surround the periphery of the stationary state sensing unit and opens in the sensing plate direction and further protrudes in the direction of the sensing plate than the stationary state sensing unit;
A switch which is provided on one surface of the sensing plate so as to protrude in the direction of the stationary state sensing unit and contacts the stationary state sensing unit when the sensing plate moves toward the stationary state sensing unit; And
A buffer member provided on one surface of the sensing plate and performing damping in a process of moving the sensing plate to the mounting state sensing unit and contacting the switch to the mounting state sensing unit;
An apparatus for monitoring the status of a charging gun for an electric vehicle using an Internet technology. 6. The method of claim 5,
The cushioning member is formed of a material that absorbs impact according to deformation. The cushioning member contacts the protruding portion before the sensing plate is moved to the mounting-state sensing portion and contacts the mounting- A device for monitoring the status of charging guns for electric vehicles using Internet technology. delete The method according to claim 1,
At one end of the mounting plate,
And a restricting protrusion for preventing the stored charging gun from slipping off from one end of the mounting plate is provided. The method according to claim 1,
When a charging-gun unused confirmation signal is transmitted from the charging device for electric vehicles according to unused charging gun,
The stationary state sensing unit includes:
Wherein the unloading signal is generated when it is determined that the charging state of the charging gun is an unstalled state by sensing the charging state of the charging gun. The method according to claim 1,
And the detection result output unit outputs the notification signal informing the uninstalled state of the charging subject to the administrator terminal,
And the sound output means or the screen output means provided in the manager terminal is operated. The method according to claim 1,
The detection result output unit outputs,
A speaker device for outputting a sound on the basis of the notification signal indicating the unfixed state of the charged item; And
A monitor device for outputting a screen on the basis of the notification signal informing the unloaded state of the charged item; Or more,
A monitoring device for monitoring the charging gun status of an electric car using an Internet technology for notifying an administrator adjacent to the electric car charging device through any one or more of the speaker device and the monitor device using a sound or a screen, .

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