CN212989950U - Electric mobile device and fill electric pile - Google Patents

Abstract

The utility model discloses an electric mobile device and a charging pile, wherein the electric mobile device comprises a device body, a first sensing module, a second sensing module and a control module; the first sensing module is arranged on the device body and used for sensing the electromagnetic signal of the positioning coil and outputting a first electromagnetic sensing signal; the second sensing module is arranged on the device body and used for sensing the electromagnetic signal of the positioning coil and outputting a second electromagnetic sensing signal; and the control module is respectively connected with the first sensing module and the second sensing module and used for determining the relative position of the device body and the positioning coil according to the first electromagnetic sensing signal and the second electromagnetic sensing signal and controlling the device body to move according to the relative position until the device body moves to a target position. The device can solve the problem that the location fills electric pile inaccurate, unable normal charging, and the location is accurate, and the interference is few.

Description

Electric mobile device and fill electric pile

Technical Field

The utility model belongs to the technical field of the robotechnology and specifically relates to an electric mobile device is related to and fill electric pile and control electric mobile device's method.

Background

Mobile device for example mobile robot, unmanned electric vehicle etc. is carrying out automatic charging in-process, need know the position of filling electric pile to independently remove to filling electric pile position, accomplish the action of charging. However, it is difficult to automatically perform the charging operation for a mobile device with low positioning accuracy.

In the related art, the mobile device is used for positioning the charging pile, and some schemes are realized by adopting a laser, infrared or magnetic strip mode, but the cost for arranging the laser device is high, so that the laser device is not suitable for a low-cost mobile device; for a mobile device provided with infrared sensing, the infrared sensing performance is not excellent in an outdoor environment, and if the mobile device is polluted by soil, the mobile device is in a failure risk; to the mobile device who adopts the magnetic stripe, receive the restriction of structure, need the sensor to be close the magnetic stripe, and the magnetic stripe can adsorb substances such as iron fillings in the air for a long time, influences mobile device's accurate positioning.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide an electric mobile device, the device can solve the location and fill electric pile inaccurate, the unable problem of normally charging.

The utility model discloses a second purpose lies in providing a fill electric pile.

In order to solve the above problem, an electric mobile device according to an embodiment of the first aspect of the present invention includes a device body; the first sensing module is arranged on the device body and used for sensing the electromagnetic signal emitted by the positioning coil and outputting a first electromagnetic sensing signal; the second sensing module is arranged on the device body and used for sensing the electromagnetic signal emitted by the positioning coil and outputting a second electromagnetic sensing signal; and the control module is respectively connected with the first sensing module and the second sensing module and used for determining the relative position of the device body and the positioning coil according to the first electromagnetic sensing signal and the second electromagnetic sensing signal and controlling the device body to move according to the relative position until the device body moves to a target position.

According to the utility model discloses electric mobile device, through set up first sensing module and second sensing module on the device body, the electromagnetic signal of sensing positioning coil transmission respectively, and output electromagnetic sensing signal, control module is according to the relative position of the electromagnetic sensing signal determination device body and positioning coil and according to the position of the relative position adjusting device body, move to the target location until the device body, realize filling the electric pile location through magnetism sensing positioning mode promptly, little by environmental disturbance, thereby can improve and fill electric pile positioning accuracy, improve the automatic stability of recharging of electric mobile device, and set up based on first sensing module and second sensing module sensing electromagnetic signal, the cost is lower, satisfy low-cost demand.

In some embodiments, the control module comprises: the first signal conversion unit is connected with the first sensing module and used for converting the first electromagnetic sensing signal into a first level signal and a first voltage signal; the second signal conversion unit is connected with the second sensing module and used for converting the second electromagnetic sensing signal into a second level signal and a second voltage signal; and the control unit is respectively connected with the first signal conversion unit and the second signal conversion unit and is used for determining the relative position of the device body and the positioning coil according to the first level signal, the second level signal, the first voltage signal and the second voltage signal.

In some embodiments, the first sensing module and the second sensing module are disposed on the device body at intervals in a horizontal direction.

In some embodiments, the first signal conversion unit includes: the first frequency-selecting subunit is connected with the first sensing module and is used for performing frequency-selecting processing on the first electromagnetic sensing signal to obtain an electromagnetic signal with a target frequency; the first amplification subunit is connected with the first frequency selection subunit and is used for amplifying the obtained electromagnetic signal with the target frequency; the first detection subunit is connected with the first amplification subunit and is used for performing detection processing on the amplified electromagnetic signal with the target frequency to obtain the first voltage signal; and the first comparator is connected with the first amplification subunit and used for comparing the amplified electromagnetic signal of the target frequency with a preset electromagnetic signal to obtain the first level signal. The second signal conversion unit includes: the second frequency-selecting sub-module is connected with the second sensing module and is used for performing frequency-selecting processing on the second electromagnetic sensing signal to obtain an electromagnetic signal with a target frequency; the second amplification subunit is connected with the second frequency selection subunit and is used for amplifying the obtained electromagnetic signal with the target frequency; the second detection subunit is connected with the second amplification subunit and is used for performing detection processing on the amplified electromagnetic signal with the target frequency to obtain a second voltage signal; and the second comparator is connected with the second amplification subunit and used for comparing the amplified electromagnetic signal of the target frequency with a preset electromagnetic signal to obtain the second level signal.

In some embodiments, the electric mobile device further comprises: the positioning module is arranged on the device body, connected with the control module and used for receiving positioning information; the control module is further configured to control the device body to move to an electromagnetic sensing area according to the positioning information before controlling the device body to move to the target charging position.

An embodiment of the second aspect of the utility model provides a fill electric pile, include: the pile body is provided with a charging interface; the chassis is arranged below the pile body; and the positioning coil module is arranged on the chassis and used for transmitting an electromagnetic signal of a target frequency.

According to the utility model discloses fill electric pile through the electromagnetic signal who sets up positioning coil module transmission target frequency, can cooperate with electric mobile device, realizes that magnetism feels the location, reduces the mobile device and returns the environmental disturbance that the location received of filling, improves positioning accuracy to and adopt magnetism to feel locate mode, it is with low costs.

In some embodiments, the positioning coil module comprises: the positioning device comprises a positioning coil and a power supply module, wherein the power supply module is used for supplying power to the positioning coil, and the positioning coil is used for transmitting the electromagnetic signal of the target frequency.

In some embodiments, a positioning slot is disposed on the chassis, and the positioning coil is disposed in the positioning slot.

In some embodiments, the positioning slot is rectangular and is disposed at the bottom of the chassis.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a block diagram of an electrical mobile device according to an embodiment of the present invention;

fig. 2 is a block diagram of a charging pile according to an embodiment of the present invention;

fig. 3 is a top view of a charging post according to an embodiment of the present invention;

fig. 4 is a schematic position diagram of an electric mobility device according to an embodiment of the present invention;

fig. 5 is a block diagram of a first signal conversion unit according to an embodiment of the present invention;

fig. 6 is a block diagram of a second signal conversion unit according to an embodiment of the present invention;

fig. 7 is a flow chart of a method of controlling an electric mobile device according to an embodiment of the present invention.

Reference numerals:

an electric mobile device 10; a device body 1; a first sensing module 2; a second sensing module 3; a control module 6; a first signal conversion unit 4; a second signal conversion unit 5; a control unit 61; a positioning unit 7;

a charging pile 20; a pile body 11; a charging interface 12; a chassis 13; a positioning coil module 14; a positioning coil 15;

a first frequency-selecting subunit 41; a first amplification subunit 42; a first detector sub-unit 43; a first comparator 44;

a second frequency-selecting subunit 51; a second amplification subunit 52; a second detector sub-unit 53; a second comparator 54.

Detailed Description

Embodiments of the present invention are described in detail below, and the embodiments described with reference to the drawings are exemplary.

The utility model discloses the basic idea of electric mobile device control is, set up positioning coil in the stake side that charges, be responsible for the electromagnetic signal of transmission target frequency, set up electromagnetic sensing module in electric mobile device side, be responsible for receiving the electromagnetic signal of the target frequency of target position's positioning coil transmission, and through signal processing and logic judgement, adjust electric mobile device's position, control electric mobile device removes to target position, for example control electric mobile device removes to the charging position who fills electric pile, in order to accomplish charging process. Namely, the embodiment of the utility model provides a realize mobile device's location of filling based on the electromagnetic sensing mode, solve the inaccurate problem that normally charges in location.

The following describes the electric mobile device and fills electric pile according to the embodiment of the present invention with reference to the attached drawings.

Fig. 1 is a block diagram of an electric mobile device according to an embodiment of the first aspect of the present invention, and as shown in fig. 1, an electric mobile device 10 according to an embodiment of the present invention includes a device body 1, a first sensing module 2, a second sensing module 3, and a control module 6.

The first sensing module 2 is, for example, an inductor, disposed on the device body 1, and is configured to sense an electromagnetic signal emitted by a positioning coil at a target position and output a first electromagnetic sensing signal; the second sensing module 3, for example, an inductor, is disposed on the device body 1, and is configured to sense the electromagnetic signal emitted by the positioning coil and output a second electromagnetic sensing signal; the control module 6 is connected to the first sensing module 2 and the second sensing module 3, respectively, and is configured to determine a relative position between the device body 1 and the positioning coil according to the first electromagnetic sensing signal and the second electromagnetic sensing signal, for example, the device body 1 is inside the coil or outside the coil or on the coil, and control the device body 1 to move according to the relative position between the device body 1 and the positioning coil until the device body 1 moves to a target position. For example, for the recharging location, the target position may be a charging port of the electric mobile device 10 aligned with a charging port of the charging pile when the electric mobile device is in the position, so that the electric mobile device 10 is charged in alignment with the charging pile.

According to the utility model discloses electric mobile device 10, through set up first sensing module 2 and second sensing module 3 on the device body 1, the electromagnetic signal of sensing target frequency respectively, and output electromagnetic sensing signal, control module 6 is according to the relative position of electromagnetic sensing signal adjusting device body 1 and positioning coil, until the device body 1 removes to the target position of charging, realize filling the electric pile location through magnetic induction locate mode promptly, little by environmental disturbance, thereby can improve and fill electric pile positioning accuracy, improve the automatic stability of recharging of electric mobile device 10, and set up based on first sensing module 2 and the sensing electromagnetic signal of second sensing module 3, the cost is lower, satisfy low-cost demand.

In some embodiments, the control module 6 includes a first signal conversion unit 4, a second signal conversion unit 5 and a control unit 61, wherein the first signal conversion unit 4 is connected with the first sensing module 2 for converting the first electromagnetic sensing signal into a first level signal and a first voltage signal; the second signal conversion unit 5 is connected to the second sensing module 3, and is configured to convert the second electromagnetic sensing signal into a second level signal and a second voltage signal; the control unit 6 is connected to the first signal conversion unit 4 and the second signal conversion unit 5, respectively, and is configured to determine the relative position of the apparatus body 1 and the positioning coil according to the first level signal, the second level signal, the first voltage signal, and the second voltage signal.

Fig. 2 shows the structural block diagram of the charging pile according to the embodiment of the second aspect of the present invention, as shown in fig. 2, the charging pile 20 of the present invention includes a pile body 11, a chassis 13 and a positioning coil module 14.

Wherein, a charging interface 12 is arranged on the pile body 11; the chassis 13 is disposed below the pile body 11, and when the electric moving device 10 is in the recharging position, the electric moving device may be roughly positioned to the electromagnetic sensing area, that is, moved to the chassis 13, and then adjusted to the target charging position by the sensing signal of the sensing module; the positioning coil module 14 is disposed on the chassis 13 and is used for transmitting an electromagnetic signal of a target frequency.

It should be noted that chassis 13 may be disposed directly below or laterally below pile body 11, and may be specifically disposed according to actual conditions, which is not limited thereto.

Fig. 3 is a top view of a charging pile according to an embodiment of the present invention, and the setting position of the positioning coil module 14 can be as shown in fig. 3. Specifically, the positioning coil module 14 disposed on the charging pile 20 transmits an electromagnetic signal of a target frequency, the first sensing module 2 and the second sensing module 3 disposed on the electric mobile device 10 sense the electromagnetic signal of the target frequency, the first sensing module 2 outputs a first electromagnetic sensing signal such as a voltage signal to the first signal conversion unit 4, and the second sensing module 3 outputs a second electromagnetic sensing signal such as a voltage signal to the second signal conversion unit 5, and the signals are processed and converted into external interrupt signals, i.e., a level signal and a voltage signal, when the electric mobile device moves to different positions, the sensing modules sense the electromagnetic signals differently, i.e., the rising edge signals of the first sensing module 2 and the second sensing module 3 are detected, i.e., the time when the level signal is received, and the sensing intensities are also different, so that the converted voltage signals are different, the control unit 61 can perform logic judgment and operation according to the obtained level signal and voltage signal, the current position of the device body 1 is determined, and the position of the device body 1 is adjusted by the signal change when the device body 1 is moved until the device body 1 moves to the target position, that is, the position of the electric mobile device 10 is adjusted, for example, the device body is moved to a position right opposite to the charging interface 12 of the charging pile 20, so as to facilitate normal charging.

Therefore, the embodiment of the utility model provides a mode based on magnetic wire location, through the positioning coil module 14 that fills the setting in electric pile 20, cooperate with first sensing module 2 and the second sensing module 3 that sets up in the electric mobile device 10, according to the position of the electromagnetic sensing signal adjusting device body 1 in the electromagnetic sensing area, make the device body 1 autonomous movement to the interface 12 department that charges who fills electric pile 20, accomplish the counterpoint operation that charges, realize the location of recharging of electric mobile device 10, the cost is lower, and it is little to receive environmental disturbance, if can avoid sheltering from the runaway phenomenon that causes because of earth, improve the automatic stability of recharging of electric mobile device 10, positioning accuracy is high.

According to the electric mobile device 10 of the embodiment of the present invention, by providing the first sensing module 2 and the second sensing module 3 on the device body 1, the electromagnetic signal of the target frequency is sensed and the sensed signal is outputted, and the sensed signal is converted by the first signal conversion unit 4 and the second signal conversion unit 5 to obtain the level signal and the digital signal, the control unit 61 adjusts the position of the device body 1 according to the variation information of the level signal and the digital signal until the device body 1 moves to the target charging position, so that the electric mobile device 10 can precisely position the target charging position to accomplish the purpose of normal charging, and the embodiment of the present invention is based on the arrangement that the first sensing module 2 and the second sensing module 3 sense the electromagnetic signal, i.e. in the manner of magnetic wire positioning, the cost is low, and the influence by the environment is small, such as the out-of-control phenomenon caused by earth shielding can be avoided, the stability of the automatic recharging of the electric mobile device 10 is improved.

In an embodiment, as shown in fig. 1, the electric mobile device 10 of the embodiment of the present invention further includes a positioning module 7, which is disposed on the device body 1, connected to the control module 6, and configured to receive positioning information, and the control module 6 is further configured to move the control device body 1 to the electromagnetic sensing region according to the positioning information before the control device body 1 moves to the target position, that is, to move to the region where the electromagnetic signal transmitted by the positioning coil can be sensed.

For example, when the electric mobile device 10 is recharged and positioned, the position of the charging pile 20, that is, the electromagnetic sensing area, may be positioned by a Positioning module such as a beidou satellite navigation System, a GPS (Global Positioning System), and the like, because the Positioning accuracy of the Positioning module 7 is not accurate enough, in the electromagnetic sensing area, based on the first sensing module 2 and the second sensing module 3, the mobile device 10 is controlled to move to the target charging position in a magnetic wire Positioning manner, that is, the charging port of the mobile device is aligned to the position of the charging interface 12 of the charging pile, so that the charging can be automatically completed.

In some embodiments, when controlling the electric mobile apparatus 10 to move to the target charging position in the magnetic wire positioning manner, the control module 6 performs logical judgment and operation on the acquired level signal and voltage signal to control the apparatus body 1 to move within the electromagnetic sensing area until moving to the target position.

Specifically, in the embodiment, the control unit 61, when determining the relative position of the apparatus body 1 and the positioning coil, is configured to determine that the apparatus body 1 is deviated from the positioning coil, for example, inside or outside the coil, in a case where a time difference between a time when a rising edge of the first level signal is detected and a time when a rising edge of the second level signal is detected is greater than or equal to a preset threshold value. Further, in some embodiments, when the rising edge timing of the first level signal is detected later than the rising edge timing of the second level signal and the first voltage signal is smaller than the second voltage signal, or when the rising edge timing of the first level signal is detected later than the rising edge timing of the second level signal and the first voltage signal is larger than the second voltage signal, it is determined that the apparatus body 1 is located outside the coil of the positioning coil; and is further configured to determine that the device body is located within a coil of the positioning coil when the first level signal is detected earlier than the second level signal. And is further configured to determine that the apparatus body 1 is located on the coil of the positioning coil, if a time difference between a time when the rising edge of the first level signal is detected and a time when the rising edge of the second level signal is detected is smaller than a preset threshold, where the time difference is smaller than the preset threshold, which indicates that the rising edge of the first level signal is closer to the rising edge of the second level signal, and the preset threshold may be set according to an actual traveling error or detection error. For example, when the timing at which the first level signal is detected is equal to the timing at which the second level signal is detected, it is determined that the device body is positioned on the coil of the positioning coil.

In the embodiment, for the positioning coil, since the detecting device body 1 is located on the coil of the positioning coil, it is easier to detect or more accurate to position than inside or outside the coil, in the embodiment, one side of the coil of the positioning coil may be set to correspond to the target position, that is, the position of the device body 1 on the coil is found according to the detected level signal and voltage signal. That is, the target position can be accurately reached by traveling along one side of the coil of the positioning coil. When the time difference between the rising edge time of the first level signal and the rising edge time of the second level signal is smaller than the preset threshold, it is determined that the apparatus body 1 is located on the coil of the positioning coil, and the apparatus body may travel to the target position along the current direction, that is, the direction of one side of the coil of the positioning coil.

Further, in the embodiment, the control unit 61 is configured to, when controlling the apparatus body 1 to move according to the relative position, determine that the apparatus body 1 deviates from the positioning coil 1, control the apparatus body 1 to move in a turning direction, for example, to move to the previous position, until a time difference between a time when a rising edge of the first level signal is detected and a time when a rising edge of the second level signal is detected is smaller than a preset threshold; alternatively, it is determined that the apparatus body 1 is located on the coil of the positioning coil, and the apparatus body 1 is controlled to move to the target position in the current direction.

For example, when the apparatus body 1 is located outside the coil of the positioning coil 15, the apparatus body 1 is controlled to move in the coil inner direction; when the device body 1 is positioned inside the coil of the positioning coil 15, the control device body 1 is moved in the direction outside the coil; when the device body 1 is located on the coil of the positioning coil, the control device body 1 moves towards a first direction, during the movement of the control device body 1 towards the first direction, the rising edge time of the first level signal is detected to be later than the rising edge time of the second level signal, and the first voltage signal is smaller than the second voltage signal, the position of the device body 1 on the coil of the positioning coil 15 is determined to correspond to a target position, the control device body 1 moves to the target position along the current direction, for example, to be aligned with a charging interface of a charging pile, or, when the device body 1 is located on the coil of the positioning coil 15, the control device body 1 moves towards a second direction opposite to the first direction, during the movement of the control device body 1 towards the second direction, the rising edge time of the first level signal is detected to be earlier than the rising edge time of the second level signal, it is determined that the position of the apparatus body 1 on the coil of the positioning coil 15 corresponds to the target position, and the apparatus body 1 is controlled to return to the previous position and move over to the target position. I.e., when the apparatus body 1 is located on the coil, it is further determined whether the position corresponds to the target position by the signal condition of moving to the next position.

For example, for the recharging location, the condition that the detection signal of the target charging location satisfies may be detected in advance according to the set position of the positioning coil 15 and stored, and then, at the time of the recharging location, the control unit 61 may determine whether the acquired level signal and voltage signal of the first sensing module 2 and the second sensing module 3 satisfy the determination condition of the target charging location, and then determine whether the electric mobile device 10 moves to the target charging location.

As shown in fig. 4, in the figure, the position 2 is a position where the charging port of the electric mobile device 10 is aligned with the charging port of the charging pile 20, that is, the position 2 is a target charging position, and the control unit 61 determines that the obtained level signals and voltage signals of the first sensing module 2 and the second sensing module 3 satisfy the determination condition of the position, it is determined that the device body 1 moves to the target charging position, and otherwise, it continues to control the device body 1 to move.

However, as shown in fig. 4, when the position is set at the symmetrical position of the positioning coil 15, there is a position where the rising timing of the level signal is the same and the voltage signal is the same, and in order to avoid erroneous determination, it is possible to reversely deduce whether the position is the target charging position from the next position of movement, or to determine whether the position is the target charging position by referring to the previous position.

For example, assume that the time when the rising edge of the first level signal is detected is t1, the first voltage signal is v1, the time when the rising edge of the second level signal is detected is t2, and the second voltage signal is v 2. As shown in fig. 4, when the rising edge of the first level signal is detected at the time of position 2 and is equal to the rising edge of the second level signal, when the device body 1 is at the position 2, the control unit 61 controls the device body 1 to move to the second position, for example, the position 1, in the first direction, and when the rising edge of the first level signal is detected at the second position, the rising edge of the first level signal is later than the rising edge of the second level signal and the first voltage signal is less than the second voltage signal, i.e., t1> t2, v1< v2, the first position, i.e., the position 2, is determined as the target charging position, and the device body 1 is controlled to return to the first position, i.e., the device body 1 is controlled to move to the target charging position. Or, when the control device body 1 moves from the second position to the first position along the second direction, that is, the position where the device body 1 is located is the second position, that is, the position 1, and then moves from the position 1 to the position 2, it can be determined that the device body 1 moves to the target charging position, where the second direction and the first direction may be a positive direction and a negative direction perpendicular to the direction of the height of the charging pile body.

Alternatively, when the apparatus body 1 is at the position 2, the control unit 61 controls the apparatus body 1 to move in the second direction to a third position, for example, the position 3 in fig. 4, and when the third position, the rising edge time of the first level signal is detected before the rising edge time of the second level signal is detected, determines that the first position is the target charging position, and controls the apparatus body 1 to return to the first position, or, when the apparatus body 1 is controlled to move in the first direction from the third position to the first position, that is, the previous position is the position 3, and moves in the first direction from the position 3 to the position 2, determines that the apparatus body 1 moves to the target charging position. That is, when the device body 1 deviates, the device body 1 can be controlled to move in a certain direction, and whether the device body 1 is located at the target charging position is judged according to the signal change information of the moved position, so that the purpose that the electric mobile device 10 correctly searches for the charging pile 20 is achieved, and the positioning is accurate.

However, as shown in fig. 4, when the device body 1 is at the position 4, due to the symmetrical structure of the positioning coil 15, the signal information at the position 4 is consistent with that at the position 2, that is, the rising edge time of the first level signal and the rising edge time of the second level signal are detected at the same time, at this time, the device body 1 is controlled to move in the first direction, that is, the device body 1 moves to the position 3, at this time, t1< t2, it is determined that the position 4 is not the target charging position; when the device body 1 is at the position 5, t1> t2, v1> v2, and the condition of the target charging position, i.e., the position 2, is not satisfied, the deviation of the position 5 from the positioning coil 15 can be determined, and the position of the device body 1 can be continuously adjusted until the electric mobile device 10 moves to the target charging position, i.e., the position facing the charging interface 12 of the charging post 20.

In an embodiment, a charging port is disposed behind the device body 1 to cooperate with the charging port 12 in the charging pile 20 to complete normal charging of the electric mobile device 10, and the first sensing module 2 and the second sensing module 3 are disposed behind the device body 1, so that the charging port can be more accurately positioned to be aligned with the charging port of the charging pile.

In the embodiment, the first and second sensing modules 2 and 3 are disposed on the apparatus body 1 at intervals in the horizontal direction, for example, at the middle of the rear of the apparatus body 1 at intervals horizontally.

In the embodiment, as shown in fig. 5, the first signal conversion unit 4 includes a first frequency selecting subunit 41, a first amplifying subunit 42, a first detecting subunit 43, and a first comparator 44. The first frequency-selecting subunit 41 is connected to the first sensing module 2, and is configured to perform frequency-selecting processing on a first electromagnetic sensing signal of the first sensing module 2 to obtain an electromagnetic signal of a target frequency; the first amplification subunit 42 is connected to the first frequency selection subunit 41, and is configured to amplify the obtained electromagnetic signal at the target frequency; the first detection subunit 43 is connected to the first amplification subunit 42, and is configured to perform detection processing on the amplified electromagnetic signal of the target frequency to obtain a first voltage signal; the first comparator 44 is connected to the first amplifying subunit 42, and is configured to compare the amplified electromagnetic signal of the target frequency with a preset electromagnetic signal to obtain a first level signal. The first sensing signal to be sensed is subjected to frequency selection, amplification, detection, and the like to convert the analog signal into a level signal and a voltage signal, so that the control unit 61 adjusts the position of the apparatus body 1 according to the change information of the signal.

In the embodiment, as shown in fig. 6, the second signal conversion unit 5 includes a second frequency selecting subunit 51, a second amplifying subunit 52, a second detecting subunit 53, and a second comparator 54. The second frequency-selecting subunit 51 is connected to the second sensing module 3, and is configured to perform frequency-selecting processing on a second electromagnetic sensing signal of the second sensing module 3 to obtain an electromagnetic signal of a target frequency; the second amplification subunit 52 is connected to the second frequency selection subunit 51, and is configured to amplify the obtained electromagnetic signal at the target frequency; the second detection subunit 53 is connected to the second amplification subunit 52, and is configured to perform detection processing on the amplified electromagnetic signal of the target frequency to obtain a second voltage signal; the second comparator 54 is connected to the second amplifying subunit 52, and is configured to compare the amplified electromagnetic signal of the target frequency with a preset electromagnetic signal, so as to obtain a second level signal. The second sensing signal to be sensed is subjected to frequency selection, amplification, detection, and the like to convert the analog signal into a digital signal and a level signal, so that the control unit 61 adjusts the position of the apparatus body 1 according to the change information of the signal.

In an embodiment, the electro-mobile device 10 may comprise a mobile robot.

According to the utility model discloses fill electric pile 20, through setting up the electromagnetic signal of 14 transmission target frequencies of positioning coil module to cooperate with first sensing module 2 and second sensing module 3 of electric mobile device 10 ends, with the position of adjustment electric mobile device 10 in the target area, realize that electric mobile device 10 charges the mouth and fills the accurate counterpoint of electric pile interface 12, accomplish normal charging.

In an embodiment, the positioning coil module 14 includes a positioning coil 15 and a power supply module. The power module is configured to supply power to the positioning coil 15 to control the positioning coil 15 to be powered by a discontinuous alternating current signal with a fixed frequency, so that the positioning coil 15 can transmit an electromagnetic signal with a target frequency. This promptly the embodiment of the utility model provides an adopt the production of automatically controlled mode control electromagnetic signal, compare in the mode that adopts the magnetic stripe location, neither can adsorb the foreign matter, need not closely to contact the sensing again, reduce the restriction of structure.

In an embodiment, a positioning groove is provided on the chassis 13, and the positioning coil is disposed in the positioning groove so as to fix the positioning coil.

In the embodiment, the positioning slot is rectangular and is arranged at the bottom of the chassis 13.

An embodiment of a third aspect of the present invention provides a method for controlling an electric mobile device, as shown in fig. 7, the method for controlling an electric mobile device of an embodiment of the present invention includes at least step S1, step S2, and step S3.

Step S1, receiving a positioning signal.

And step S2, controlling the point moving device to move to the electromagnetic induction area of the positioning coil according to the positioning information.

In step S3, a first electromagnetic sensing signal and a second electromagnetic sensing signal are acquired.

In an embodiment, a first sensing module and a second sensing module are disposed in the electric mobile device, and can sense an electromagnetic signal of a target frequency, and then according to the electromagnetic signal, the first sensing module outputs a first electromagnetic sensing signal to the control module, and the second sensing module outputs a second electromagnetic sensing signal to the control module.

Further, a first level signal and a first voltage signal are obtained from the first electromagnetic sensing signal, and a second level signal and a second voltage signal are obtained from the second electromagnetic sensing signal. For example, after the electromagnetic sensing signal is subjected to frequency selection, amplification, detection and the like, the control module converts the analog signal into a digital signal, that is, acquires a first level signal and a first voltage signal, and acquires a second level signal and a second voltage signal.

In step S4, the relative position of the electric mobile device and the positioning coil is determined according to the first electromagnetic sensing signal and the second electromagnetic sensing signal.

And step S5, controlling the electric mobile device to move according to the relative position until the electric mobile device moves to the target position.

In an embodiment, the control unit in the electric mobile device judges the relative position of the electric mobile device and the positioning coil according to the acquired first level signal, the second level signal, the first voltage signal and the second voltage signal, and adjusts the position of the device body according to the signal change information when the device body is moved until the device body moves to the target position. Therefore, the utility model discloses based on the locate mode of magnetic wire, the position of the adjusting device body makes the device body autonomous movement to just for the target location kneck that charges for example, accomplish the counterpoint operation that charges, realizes electric mobile device's location, and the cost is lower, and can not receive the influence of environment, if can avoid sheltering from the out of control phenomenon that causes because of earth, improve the automatic stability of recharging of electric mobile device.

According to the utility model discloses a method of control electric mobile device, based on the electromagnetic sensing signal of first sensing module and the second sensing module that sets up in the electric mobile device, according to electromagnetic sensing signal's change information, the device body of control electric mobile device removes to the target location, realizes that electric mobile device can accurate positioning target location to accomplish the purpose of normally charging, positioning accuracy is high.

In an embodiment, determining the relative position of the electric mobile device and the positioning coil from the first level signal, the second level signal, the first voltage signal, and the second voltage signal comprises: the time difference value between the moment when the rising edge of the first level signal is detected and the moment when the rising edge of the second level signal is detected is larger than or equal to a preset threshold value, and the device body is determined to deviate from the positioning coil; or, determining that the device body is located on the coil of the positioning coil when the time difference between the time when the rising edge of the first level signal is detected and the time when the rising edge of the second level signal is detected is smaller than the preset threshold.

For example, when the rising edge timing of the first level signal is detected later than the rising edge timing of the second level signal and the first voltage signal is smaller than the second voltage signal, or when the rising edge timing of the first level signal is detected later than the rising edge timing of the second level signal and the first voltage signal is larger than the second voltage signal, it is determined that the device body is located outside the coil of the positioning coil; when the rising edge moment of the first level signal is detected to be earlier than the rising edge moment of the second level signal, determining that the device body is positioned in a coil of the positioning coil; when the rising edge time of the first level signal is detected to be equal to the rising edge time of the second level signal, the device body is determined to be positioned on the coil of the positioning coil.

In some embodiments, controlling the movement of the electro-mobile device according to the relative position until the electro-mobile device moves to the target position comprises: determining that the device body deviates from the positioning coil, and controlling the device body to move in a steering mode, such as to move to the previous position, until the time difference between the moment when the rising edge of the first level signal is detected and the moment when the rising edge of the second level signal is detected is smaller than a preset threshold value; or, determining that the device body is positioned on a coil of the positioning coil, and controlling the device body to move to the target position along the current direction.

For example, when the device body is located outside the coil of the positioning coil, the device body is controlled to move toward the coil inside direction; when the device body is positioned in the coil of the positioning coil, the device body is controlled to move towards the outside direction of the coil; when the device body is positioned on the coil of the positioning coil, the control device body moves towards the first direction, in the process that the control device body moves towards the first direction, the time when the first level signal is detected is later than the time when the second level signal is detected, and the first voltage signal is smaller than the second voltage signal, the position of the device body on the coil of the positioning coil is determined to be a target position, and the control device body returns to the target position, or, when the device body is positioned on the coil of the positioning coil, the control device body moves towards the second direction opposite to the first direction, in the process that the control device body moves towards the second direction, the time when the first level signal is detected is earlier than the time when the second level signal is detected, the position of the device body on the coil of the positioning coil is determined to be the target position, and the control device body returns to the target position.

In summary, the present invention provides an electric mobile device and a method for controlling the electric mobile device, which determine the relative position between the electric mobile device and a positioning coil based on the change of an electromagnetic sensing signal, and then adjust the moving position of the moving body of the electric mobile device until the moving body moves to a target position, for example, the charging port of the electric mobile device aligns with the charging port of a charging pile, so as to realize the automatic back charging control of the electric mobile device, or realize the fixed-point management or maintenance of the electric mobile device, and based on the control of the electromagnetic sensing signal, the interference is small, the control precision is high, and the cost is low.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. An electro-motion device, comprising:

a device body;

the first sensing module is arranged on the device body and used for sensing the electromagnetic signal emitted by the positioning coil and outputting a first electromagnetic sensing signal;

the second sensing module is arranged on the device body and used for sensing the electromagnetic signal emitted by the positioning coil and outputting a second electromagnetic sensing signal;

and the control module is respectively connected with the first sensing module and the second sensing module and is used for controlling the device body to move to a target position according to the first electromagnetic sensing signal and the second electromagnetic sensing signal.

2. The electro-motion device of claim 1, wherein the control module comprises:

the first signal conversion unit is connected with the first sensing module and used for converting the first electromagnetic sensing signal into a first level signal and a first voltage signal;

the second signal conversion unit is connected with the second sensing module and used for converting the second electromagnetic sensing signal into a second level signal and a second voltage signal;

and the control unit is respectively connected with the first signal conversion unit and the second signal conversion unit and is used for determining the relative position of the device body and the positioning coil according to the first level signal, the second level signal, the first voltage signal and the second voltage signal.

3. The electric mobile device according to claim 1,

the first sensing module and the second sensing module are arranged on the device body at intervals along the horizontal direction.

4. The electric mobile device according to claim 2,

the first signal conversion unit includes:

the first frequency-selecting subunit is connected with the first sensing module and is used for performing frequency-selecting processing on the first electromagnetic sensing signal to obtain an electromagnetic signal with a target frequency;

the first amplification subunit is connected with the first frequency selection subunit and is used for amplifying the obtained electromagnetic signal with the target frequency;

the first detection subunit is connected with the first amplification subunit and is used for performing detection processing on the amplified electromagnetic signal with the target frequency to obtain the first voltage signal;

the first comparator is connected with the first amplification subunit and used for comparing the amplified electromagnetic signal of the target frequency with a preset electromagnetic signal to obtain the first level signal;

the second signal conversion unit includes:

the second frequency-selecting subunit is connected with the second sensing module and is used for performing frequency-selecting processing on the second electromagnetic sensing signal to obtain an electromagnetic signal with a target frequency;

the second amplification subunit is connected with the second frequency selection subunit and is used for amplifying the obtained electromagnetic signal with the target frequency;

the second detection subunit is connected with the second amplification subunit and is used for performing detection processing on the amplified electromagnetic signal with the target frequency to obtain a second voltage signal;

and the second comparator is connected with the second amplification subunit and used for comparing the amplified electromagnetic signal of the target frequency with a preset electromagnetic signal to obtain the second level signal.

5. The electrical mobility device of any one of claims 1-4, further comprising:

the positioning module is arranged on the device body, connected with the control module and used for receiving positioning information;

the control module is further configured to control the device body to move to the electromagnetic sensing area of the positioning coil according to the positioning information before controlling the device body to move to the target position.

6. A charging pile, comprising:

the pile body is provided with a charging interface;

the chassis is arranged below the pile body;

and the positioning coil module is arranged on the chassis and used for transmitting an electromagnetic signal of a target frequency.

7. The charging pile of claim 6, wherein the positioning coil module comprises:

the positioning device comprises a positioning coil and a power supply module, wherein the power supply module is used for supplying power to the positioning coil, and the positioning coil is used for transmitting the electromagnetic signal of the target frequency.

8. The charging pile of claim 7, wherein a positioning slot is provided on the chassis, and the positioning coil is disposed in the positioning slot.

9. The charging pile of claim 8, wherein the positioning slot is rectangular and is disposed at the bottom of the chassis.

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