CN108510876B - Intelligent work card - Google Patents

Abstract

The invention discloses an intelligent workmanship card, which comprises: the card holder comprises a card holder body and a suspension ring which is detachably and mechanically connected with the card holder body; the worktile main body is a round-angle cuboid, and when the suspension circular ring is mechanically connected with the worktile main body, the suspension circular ring is fixed at the center of a first width surface and a first height surface of the worktile main body; the hanging ring is also electrically connected to the card body when the hanging ring is mechanically connected to the card body, the electrical connection being broken when the hanging ring is mechanically removed from the card body. The intelligent work card disclosed by the invention adopts clean energy to supply power, so that the energy efficiency is greatly reduced.

Description

Intelligent work card

Technical Field

The invention relates to the field of work cards, in particular to an intelligent work card.

Background

Because the number of the staff in the company is large, and one person in the company can not know all other staff in the company basically, the staff cards are adopted in the prior art to mark information such as names, numbers and the like so that the staff of the company can know each other and further the working efficiency is improved.

Because the conventional paper work card has single function and cannot meet the increasing demand of communication, the electronic work card is produced. However, the existing electronic work cards are charged by commercial power, which greatly increases the operation cost and energy consumption rate of companies and is not very desirable.

Disclosure of Invention

The invention provides an intelligent workmanship card which is characterized by comprising the following components: the card holder comprises a card holder body and a suspension ring which is detachably and mechanically connected with the card holder body; the worktile main body is a round-angle cuboid, and when the suspension circular ring is mechanically connected with the worktile main body, the suspension circular ring is fixed at the center of a first width surface and a first height surface of the worktile main body; the hanging ring is also electrically connected to the card body when the hanging ring is mechanically connected to the card body, the electrical connection being broken when the hanging ring is mechanically removed from the card body.

The intelligent workmanship board further meets the condition that the hanging ring is used for surrounding one part of a human body, and the part of the human body comprises any one of a neck, an arm and a waist.

The intelligent workmanship board further meets the condition that the perimeter of the suspension ring can be adjusted to adapt to different characteristics corresponding to a part of the human body.

This intelligence worker tablet, it still further satisfies the condition, the characteristic includes neck circumference, hand circumference, waistline.

The intelligent workmanship board further meets the condition that the suspension circular ring comprises a first face which is in direct contact with a part of the human body and a second face which is opposite to the first face and is in direct contact with the external environment; the surface of the first surface is made of thermoelectric materials, and the thermoelectric materials are used for directly converting thermal energy into electric energy; when the suspension ring is mechanically connected with the card main body, and the first surface is in direct contact with a part of the human body, the electric energy is transmitted to the card main body through the mechanical connection.

The intelligent workcard further meets the condition, the workcard main body comprises a front face for presenting user information, a back face opposite to the front face in direction, and a second width face and a second height face which are parallel to the first width face and the first height face; the front side is provided with a camera, a display area, a receiver, a microphone and an indicator light, the back side is provided with a path indicator, and the second width side and the height side are provided with communication interfaces.

The intelligent work card further meets the conditions, and the camera is used for photographing and displaying the photographing result in the display area.

The intelligent card further meets the condition, and the display area comprises one or more of a photo area, a name area, a position area and a number area.

The intelligent card further meets the condition that the display of the photographing result in the display area is in the photo area.

This intelligence worker tablet, it still further satisfies the condition, the earphone is used for making sound, the microphone is used for the input sound, the pilot lamp is the LED that discolours.

This intelligence worker tablet, it still further satisfies the condition, the LED that discolours can demonstrate different colours based on different control signal.

The intelligent card further satisfies the condition that the path indicator indicates the shortest path to move from the current position to the target position.

The intelligent work card further meets the condition, and the change of the displayed information on the display area is realized based on the information transmitted through the communication interface.

The intelligent work card further meets the condition, and the change of the display information comprises the change of one or more of name information, position information and number information.

The intelligent workcard further meets the conditions, and the workcard main body is provided with a power generation device,

The GPS, the memory, the communicator, the controller, the power generation device provides working power for the GPS, the memory, the communicator, the controller, the camera, the display area, the receiver, the microphone, the indicator light and the path indicator.

The intelligent workmanship board further meets the conditions, and the power generation device comprises a multi-turn coil, a magnet, diodes D1-D4, a voltage stabilizing circuit, a charging switch, a charging super capacitor, a change-over switch, a discharging super capacitor, a discharging switch and a storage battery.

The intelligent worker plate further meets the condition that the magnet is movably arranged in a space formed by the multi-turn coil, one end of the multi-turn coil is respectively connected with an anode of D1 and a cathode of D4, the other end of the multi-turn coil is respectively connected with an anode of D2 and a cathode of D3, the cathode of D1 and the cathode of D2 are connected together and are connected with one end of the voltage stabilizing circuit, and the anode of D3 and the anode of D4 are connected together and are connected with the other end of the voltage stabilizing circuit; one end of the voltage stabilizing circuit is also connected with one end of the charging switch, the other end of the charging switch is connected with one end of the charging super capacitor, and the other end of the voltage stabilizing circuit is directly connected with the other end of the charging super capacitor; one end of the charging super capacitor is connected with one end of the discharging super capacitor through the change-over switch, the other end of the charging super capacitor is directly connected with the other end of the discharging super capacitor, one end of the discharging super capacitor is connected with one end of the storage battery through the discharging switch, and the other end of the discharging super capacitor is directly connected with the other end of the storage battery; the thermoelectric material is connected with one end and the other end of the multi-turn coil respectively.

The intelligent workmanship board further meets the conditions that the multi-turn coil and the magnet are used for directly converting energy of mechanical vibration into electric energy, the diodes D1-D4 are used for converting the electric energy converted by the multi-turn coil and the magnet and the electric energy converted by the thermoelectric material into direct current power, the voltage stabilizing circuit converts the direct current power into stable direct current power with the amplitude within a preset voltage range and transmits the stable direct current power to a charging super capacitor connected with the voltage stabilizing circuit through the charging switch in a closed state; the charging super capacitor is charged by receiving the stable direct current power, and when the electric quantity level of the discharging super capacitor is reduced to a first preset electric quantity, the electric energy stored in the charging super capacitor is rapidly released to the discharging super capacitor through the change-over switch which is connected with the charging super capacitor and is in a closed state; the discharging super capacitor receives the power transmitted from the charging super capacitor to realize charging, and when the self power level reaches a rated level, the discharging switch connected with the discharging super capacitor in a closed state discharges the electric energy stored in the discharging super capacitor to the storage battery connected with the discharging super capacitor.

The intelligent workmanship board further meets the conditions that the controller monitors the electric quantity levels of the charging super capacitor and the discharging super capacitor in real time, when the electric quantity level of the charging super capacitor reaches the rated level of the charging super capacitor in the ascending direction, the controller controls the charging switch which is originally in the closed state to be switched off, when the electric quantity level of the charging super capacitor reaches second preset electric quantity in the descending direction, the controller controls the charging switch which is originally in the open state to be switched on, when the electric quantity level of the discharging super capacitor reaches first preset electric quantity in the descending direction, the controller sequentially controls the discharging switch which is originally in the closed state to be switched off, the change-over switch which is originally in the open state to be switched on, and when the electric quantity level of the discharging super capacitor reaches the rated level of the discharging super capacitor in the ascending direction, the controller sequentially controls the conversion switch which is originally in a closed state to be switched off, and the discharge switch which is originally in an open state to be switched on.

The intelligent workmanship board further meets the condition that the GPS measures the horizontal position and the vertical position and transmits the horizontal position and the vertical position to the controller.

The intelligent workmanship board further meets the conditions, the memory is used for storing a three-dimensional map, a voice recognition program and number mapping, the three-dimensional map comprises a map in the horizontal direction and the vertical direction, the voice recognition program is used for recognizing the sound input by the microphone so as to obtain recognition names, and the number mapping comprises one-to-one correspondence between a plurality of recognition names and communication numbers.

The intelligent employee badge further satisfies the condition that when the user speaks the name of a co-worker to be contacted to the microphone, the voice recognition program recognizes the name of the co-worker based on the voice input from the microphone and sends the name to the controller; the controller searches out a communication number corresponding to the name based on the number mapping, controls the GPS to work for a short time to obtain a current horizontal position and a vertical position, then transmits the corresponding communication number, the horizontal position and the vertical position and a user communication number to the communicator, and the communicator packages and sends the horizontal position, the vertical position and the user communication number according to the corresponding communication number.

When another communicator corresponding to the corresponding communication number receives the packet, the packet is transmitted to another controller corresponding to the other communicator, the other controller analyzes the packet to obtain the horizontal position and the vertical position of the user and the user communication number, the other controller obtains a user name corresponding to the user communication number based on number mapping and displays the user name, the horizontal position and the vertical position of the user on the path indicator; the other controller then controls the other corresponding GPS to work for a short time so as to obtain the current horizontal position and the vertical position of the other controller and display the current horizontal position and the vertical position on the path indicator; the other controller generates a shortest path to be moved from a current position to a destination position based on the information displayed on the path indicator and the three-dimensional map stored in the memory and displays the shortest path on the path indicator.

The beneficial technical effects obtained by the invention are as follows:

1. based on the environment of the worker's card, the electric energy is obtained by combining the thermoelectricity and the vibration which are uniquely arranged, so that clean energy is fully utilized, and the energy consumption level is greatly reduced;

2. by adopting the display area with changeable information, the worker card can be reused and cannot be discarded even if the related information of the personnel and even the personnel change;

3. a calling-path display mode is set, so that the rapid contact among the employees is greatly facilitated, and the efficiency is improved;

4. the charging super capacitor and the discharging super capacitor which are respectively arranged are adopted, so that clean energy can be maximally drawn, and the utilization level of the clean energy is improved;

5. the GPS also collects the vertical height, can obtain floor information and is convenient for staff to obtain an accurate destination position.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. In the drawings, like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a block diagram of the intelligent card of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to those skilled in the art upon review of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

The first embodiment.

Please refer to the attached drawing.

An intelligent card for workers, which is characterized in that the intelligent card for workers comprises: the card holder comprises a card holder body and a suspension ring which is detachably and mechanically connected with the card holder body; the worktile main body is a round-angle cuboid, and when the suspension circular ring is mechanically connected with the worktile main body, the suspension circular ring is fixed at the center of a first width surface and a first height surface of the worktile main body; the hanging ring is also electrically connected to the card body when the hanging ring is mechanically connected to the card body, the electrical connection being broken when the hanging ring is mechanically removed from the card body.

The hanging ring is used for surrounding a part of a human body, and the part of the human body comprises any one of a neck, arms and a waist.

The circumference of the suspension ring may be adjusted to suit different corresponding characteristics of the body part.

The characteristics comprise a neck circumference, a hand circumference and a waist circumference.

The suspension ring comprises a first face in direct contact with a portion of the human body and a second face facing opposite the first face in direct contact with an external environment; the surface of the first surface is made of thermoelectric materials, and the thermoelectric materials are used for directly converting thermal energy into electric energy; when the suspension ring is mechanically connected with the card main body, and the first surface is in direct contact with a part of the human body, the electric energy is transmitted to the card main body through the mechanical connection.

The workcard main body comprises a front face for presenting user information, a back face opposite to the front face in direction, and a second width face and a second height face which are parallel to the first width face and the first height face; the front side is provided with a camera, a display area, a receiver, a microphone and an indicator light, the back side is provided with a path indicator, and the second width side and the height side are provided with communication interfaces.

The camera is used for photographing and displaying a photographing result in the display area.

The display area includes one or more of a photo area, a name area, a job position area, and a number area.

The displaying of the result of the photographing in the display area is displaying in the photograph area.

The earphone is used for making sound, the microphone is used for inputting sound, and the indicator light is a color-changing LED.

The color changing LEDs are capable of assuming different colors based on different control signals.

The path indicator indicates the shortest path that needs to be moved to move from the current location to the destination location.

The alteration of the display information on the display area is effected based on the information transmitted through the communication interface.

The change of the display information includes a change of one or more of name information, position information, and number information.

The electric power generation device is characterized in that the work card main body is internally provided with an electric power generation device, a GPS, a storage, a communicator and a controller, and the electric power generation device provides working electric power for the GPS, the storage, the communicator, the controller, the camera, the display area, the receiver, the microphone, the indicator light and the path indicator.

The power generation device comprises a multi-turn coil, a magnet, diodes D1-D4, a voltage stabilizing circuit, a charging switch, a charging super capacitor, a change-over switch, a discharging super capacitor, a discharging switch and a storage battery.

The magnet is movably arranged in a space formed by the multi-turn coil, one end of the multi-turn coil is respectively connected with an anode of D1 and a cathode of D4, the other end of the multi-turn coil is respectively connected with an anode of D2 and a cathode of D3, the cathode of D1 and the cathode of D2 are connected together and are connected with one end of the voltage stabilizing circuit, and the anode of D3 and the anode of D4 are connected together and are connected with the other end of the voltage stabilizing circuit; one end of the voltage stabilizing circuit is also connected with one end of the charging switch, the other end of the charging switch is connected with one end of the charging super capacitor, and the other end of the voltage stabilizing circuit is directly connected with the other end of the charging super capacitor; one end of the charging super capacitor is connected with one end of the discharging super capacitor through the change-over switch, the other end of the charging super capacitor is directly connected with the other end of the discharging super capacitor, one end of the discharging super capacitor is connected with one end of the storage battery through the discharging switch, and the other end of the discharging super capacitor is directly connected with the other end of the storage battery; the thermoelectric material is connected with one end and the other end of the multi-turn coil respectively.

The multi-turn coil and the magnet are used for directly converting energy of mechanical vibration into electric energy, the diodes D1-D4 are used for converting the electric energy converted by the multi-turn coil and the magnet and the electric energy converted by the thermoelectric material into direct current power, the voltage stabilizing circuit converts the direct current power into stable direct current power with the amplitude within a preset voltage range and transmits the stable direct current power to a charging super capacitor connected with the voltage stabilizing circuit through the charging switch in a closed state; the charging super capacitor is charged by receiving the stable direct current power, and when the electric quantity level of the discharging super capacitor is reduced to a first preset electric quantity, the electric energy stored in the charging super capacitor is rapidly released to the discharging super capacitor through the change-over switch which is connected with the charging super capacitor and is in a closed state; the discharging super capacitor receives the power transmitted from the charging super capacitor to realize charging, and when the self power level reaches a rated level, the discharging switch connected with the discharging super capacitor in a closed state discharges the electric energy stored in the discharging super capacitor to the storage battery connected with the discharging super capacitor.

The controller monitors the electric quantity levels of the charging super capacitor and the discharging super capacitor in real time, when the electric quantity level of the charging super capacitor reaches the rated level of the charging super capacitor in the ascending direction, the controller controls the charging switch which is originally in the closed state to be switched off, when the electric quantity level of the charging super capacitor reaches a second preset electric quantity in the descending direction, the controller controls the charging switch which is originally in the open state to be switched on, when the electric quantity level of the discharging super capacitor reaches a first preset electric quantity in the descending direction, the controller sequentially controls the discharging switch which is originally in the closed state to be switched off, the change-over switch which is originally in the open state to be switched on, and when the electric quantity level of the discharging super capacitor reaches the rated level of the discharging super capacitor in the ascending direction, the controller sequentially controls the change-over switch which is originally in the closed state to be switched off, the discharge switch, which is originally in an open state, is closed.

The GPS measures a horizontal position and a vertical position, and transmits the horizontal position and the vertical position to the controller.

The memory is used for storing a three-dimensional map, a voice recognition program and number mapping, the three-dimensional map comprises a horizontal map and a vertical map, the voice recognition program is used for recognizing sound input from the microphone to obtain a recognition name, and the number mapping comprises a one-to-one correspondence relationship between a plurality of recognition names and communication numbers.

When the user speaks the name of a colleague needing to be contacted into the microphone, the voice recognition program recognizes the name of the colleague based on the voice input from the microphone and sends the name to the controller; the controller searches out a communication number corresponding to the name based on the number mapping, controls the GPS to work for a short time to obtain a current horizontal position and a vertical position, then transmits the corresponding communication number, the horizontal position and the vertical position and a user communication number to the communicator, and the communicator packages and sends the horizontal position, the vertical position and the user communication number according to the corresponding communication number.

When another communicator corresponding to the corresponding communication number receives the packet, the packet is transmitted to another controller corresponding to the other communicator, the other controller analyzes the packet to obtain the horizontal position and the vertical position of the user and the user communication number, the other controller obtains a user name corresponding to the user communication number based on number mapping and displays the user name, the horizontal position and the vertical position of the user on the path indicator; the other controller then controls the other corresponding GPS to work for a short time so as to obtain the current horizontal position and the vertical position of the other controller and display the current horizontal position and the vertical position on the path indicator; the other controller generates a shortest path to be moved from a current position to a destination position based on the information displayed on the path indicator and the three-dimensional map stored in the memory and displays the shortest path on the path indicator.

Example two.

An intelligent card for workers, which is characterized in that the intelligent card for workers comprises: the card holder comprises a card holder body and a suspension ring which is detachably and mechanically connected with the card holder body; the worktile main body is a round-angle cuboid, and when the suspension circular ring is mechanically connected with the worktile main body, the suspension circular ring is fixed at the center of a first width surface and a first height surface of the worktile main body; the hanging ring is also electrically connected to the card body when the hanging ring is mechanically connected to the card body, the electrical connection being broken when the hanging ring is mechanically removed from the card body.

The hanging ring is used for surrounding a part of a human body, and the part of the human body comprises any one of a neck, arms and a waist.

The circumference of the suspension ring may be adjusted to suit different corresponding characteristics of the body part.

The characteristics comprise a neck circumference, a hand circumference and a waist circumference.

The suspension ring comprises a first face in direct contact with a portion of the human body and a second face facing opposite the first face in direct contact with an external environment; the surface of the first surface is made of thermoelectric materials, and the thermoelectric materials are used for directly converting thermal energy into electric energy; when the suspension ring is mechanically connected with the card main body, and the first surface is in direct contact with a part of the human body, the electric energy is transmitted to the card main body through the mechanical connection.

The workcard main body comprises a front face for presenting user information, a back face opposite to the front face in direction, and a second width face and a second height face which are parallel to the first width face and the first height face; be provided with camera, display area, earphone, microphone, pilot lamp, two-dimensional code on the front, be provided with the route indicator on the back, be provided with communication interface on the wide and high face of second.

The camera is used for photographing and displaying a photographing result in the display area.

The display area includes one or more of a photo area, a name area, a job position area, and a number area.

The displaying of the result of the photographing in the display area is displaying in the photograph area.

The earphone is used for making sound, the microphone is used for inputting sound, and the indicator light is a color-changing LED.

The color changing LEDs are capable of assuming different colors based on different control signals.

The two-dimensional code is used for being scanned.

The path indicator indicates the shortest path that needs to be moved to move from the current location to the destination location.

The alteration of the display information on the display area is effected based on the information transmitted through the communication interface.

The change of the display information includes a change of one or more of name information, position information, and number information.

The electric power generation device is characterized in that the work card main body is internally provided with an electric power generation device, a GPS, a storage, a communicator and a controller, and the electric power generation device provides working electric power for the GPS, the storage, the communicator, the controller, the camera, the display area, the receiver, the microphone, the indicator light and the path indicator.

The power generation device comprises a multi-turn coil, a magnet, diodes D1-D4, a voltage stabilizing circuit, a charging switch, a charging super capacitor, a change-over switch, a discharging super capacitor, a discharging switch and a storage battery.

The magnet is movably arranged in a space formed by the multi-turn coil, one end of the multi-turn coil is respectively connected with an anode of D1 and a cathode of D4, the other end of the multi-turn coil is respectively connected with an anode of D2 and a cathode of D3, the cathode of D1 and the cathode of D2 are connected together and are connected with one end of the voltage stabilizing circuit, and the anode of D3 and the anode of D4 are connected together and are connected with the other end of the voltage stabilizing circuit; one end of the voltage stabilizing circuit is also connected with one end of the charging switch, the other end of the charging switch is connected with one end of the charging super capacitor, and the other end of the voltage stabilizing circuit is directly connected with the other end of the charging super capacitor; one end of the charging super capacitor is connected with one end of the discharging super capacitor through the change-over switch, the other end of the charging super capacitor is directly connected with the other end of the discharging super capacitor, one end of the discharging super capacitor is connected with one end of the storage battery through the discharging switch, and the other end of the discharging super capacitor is directly connected with the other end of the storage battery; the thermoelectric material is connected with one end and the other end of the multi-turn coil respectively.

The multi-turn coil and the magnet are used for directly converting energy of mechanical vibration into electric energy, the diodes D1-D4 are used for converting the electric energy converted by the multi-turn coil and the magnet and the electric energy converted by the thermoelectric material into direct current power, the voltage stabilizing circuit converts the direct current power into stable direct current power with the amplitude within a preset voltage range and transmits the stable direct current power to a charging super capacitor connected with the voltage stabilizing circuit through the charging switch in a closed state; the charging super capacitor is charged by receiving the stable direct current power, and when the electric quantity level of the discharging super capacitor is reduced to a first preset electric quantity, the electric energy stored in the charging super capacitor is rapidly released to the discharging super capacitor through the change-over switch which is connected with the charging super capacitor and is in a closed state; the discharging super capacitor receives the power transmitted from the charging super capacitor to realize charging, and when the self power level reaches a rated level, the discharging switch connected with the discharging super capacitor in a closed state discharges the electric energy stored in the discharging super capacitor to the storage battery connected with the discharging super capacitor.

The controller monitors the electric quantity levels of the charging super capacitor and the discharging super capacitor in real time, when the electric quantity level of the charging super capacitor reaches the rated level of the charging super capacitor in the ascending direction, the controller controls the charging switch which is originally in the closed state to be switched off, when the electric quantity level of the charging super capacitor reaches a second preset electric quantity in the descending direction, the controller controls the charging switch which is originally in the open state to be switched on, when the electric quantity level of the discharging super capacitor reaches a first preset electric quantity in the descending direction, the controller sequentially controls the discharging switch which is originally in the closed state to be switched off, the change-over switch which is originally in the open state to be switched on, and when the electric quantity level of the discharging super capacitor reaches the rated level of the discharging super capacitor in the ascending direction, the controller sequentially controls the change-over switch which is originally in the closed state to be switched off, the discharge switch, which is originally in an open state, is closed.

The GPS measures a horizontal position and a vertical position, and transmits the horizontal position and the vertical position to the controller.

The memory is used for storing a three-dimensional map, a voice recognition program and number mapping, the three-dimensional map comprises a horizontal map and a vertical map, the voice recognition program is used for recognizing sound input from the microphone to obtain a recognition name, and the number mapping comprises a one-to-one correspondence relationship between a plurality of recognition names and communication numbers.

When the user speaks the name of a colleague needing to be contacted into the microphone, the voice recognition program recognizes the name of the colleague based on the voice input from the microphone and sends the name to the controller; the controller searches out a communication number corresponding to the name based on the number mapping, controls the GPS to work for a short time to obtain a current horizontal position and a vertical position, then transmits the corresponding communication number, the horizontal position and the vertical position and a user communication number to the communicator, and the communicator packages and sends the horizontal position, the vertical position and the user communication number according to the corresponding communication number.

When another communicator corresponding to the corresponding communication number receives the packet, the packet is transmitted to another controller corresponding to the other communicator, the other controller analyzes the packet to obtain the horizontal position and the vertical position of the user and the user communication number, the other controller obtains a user name corresponding to the user communication number based on number mapping and displays the user name, the horizontal position and the vertical position of the user on the path indicator; the other controller then controls the other corresponding GPS to work for a short time so as to obtain the current horizontal position and the vertical position of the other controller and display the current horizontal position and the vertical position on the path indicator; the other controller generates a shortest path to be moved from a current position to a destination position based on the information displayed on the path indicator and the three-dimensional map stored in the memory and displays the shortest path on the path indicator.

Example three.

An intelligent card for workers, which is characterized in that the intelligent card for workers comprises: the card comprises a card body and an elastic suspension ring which is detachably and mechanically connected with the card body; the worktile main body is a flaky round-corner cuboid, and when the suspension circular ring is mechanically connected with the worktile main body, the suspension circular ring is fixed at the center of a first width surface and a first height surface of the worktile main body; the hanging ring is also electrically connected to the card body when the hanging ring is mechanically connected to the card body, the electrical connection being broken when the hanging ring is mechanically removed from the card body.

The hanging ring is used for surrounding a part of a human body, and the part of the human body comprises any one of a neck, arms and a waist.

The circumference of the suspension ring may be adjusted to suit different corresponding characteristics of the body part.

The characteristics comprise a neck circumference, a hand circumference and a waist circumference.

The suspension ring comprises a first face in direct contact with a portion of the human body and a second face facing opposite the first face in direct contact with an external environment; the surface of the first surface is made of thermoelectric materials, and the thermoelectric materials are used for directly converting thermal energy into electric energy; when the suspension ring is mechanically connected with the card main body, and the first surface is in direct contact with a part of the human body, the electric energy is transmitted to the card main body through the mechanical connection.

The workcard main body comprises a front face for presenting user information, a back face opposite to the front face in direction, and a second width face and a second height face which are parallel to the first width face and the first height face; the front side is provided with a camera, a display area, a receiver, a microphone and an indicator light, the back side is provided with a path indicator, and the second width side and the height side are provided with communication interfaces.

The camera is used for photographing and displaying a photographing result in the display area.

The display area includes one or more of a photo area, a name area, a job position area, and a number area.

The displaying of the result of the photographing in the display area is displaying in the photograph area.

The earphone is used for making sound, the microphone is used for inputting sound, and the indicator light is a color-changing LED.

The color changing LEDs are capable of assuming different colors based on different control signals.

The path indicator indicates the shortest path that needs to be moved to move from the current location to the destination location.

The alteration of the display information on the display area is effected based on the information transmitted through the communication interface.

The change of the display information includes a change of one or more of name information, position information, and number information.

The electric power generation device is characterized in that the work card main body is internally provided with an electric power generation device, a GPS, a storage, a communicator and a controller, and the electric power generation device provides working electric power for the GPS, the storage, the communicator, the controller, the camera, the display area, the receiver, the microphone, the indicator light and the path indicator.

The power generation device comprises a multi-turn coil, a magnet, diodes D1-D4, a voltage stabilizing circuit, a charging switch, a charging super capacitor, a change-over switch, a discharging super capacitor, a discharging switch and a storage battery.

The controller detects the SOC of the storage battery in real time, when the SOC is lower than a preset SOC lower limit, the controller controls the color-changing LED to display red, and when the SOC is higher than a preset SOC upper limit, the controller controls the color-changing LED to display green.

The magnet is movably arranged in a space formed by the multi-turn coil, one end of the multi-turn coil is respectively connected with an anode of D1 and a cathode of D4, the other end of the multi-turn coil is respectively connected with an anode of D2 and a cathode of D3, the cathode of D1 and the cathode of D2 are connected together and are connected with one end of the voltage stabilizing circuit, and the anode of D3 and the anode of D4 are connected together and are connected with the other end of the voltage stabilizing circuit; one end of the voltage stabilizing circuit is also connected with one end of the charging switch, the other end of the charging switch is connected with one end of the charging super capacitor, and the other end of the voltage stabilizing circuit is directly connected with the other end of the charging super capacitor; one end of the charging super capacitor is connected with one end of the discharging super capacitor through the change-over switch, the other end of the charging super capacitor is directly connected with the other end of the discharging super capacitor, one end of the discharging super capacitor is connected with one end of the storage battery through the discharging switch, and the other end of the discharging super capacitor is directly connected with the other end of the storage battery; the thermoelectric material is connected with one end and the other end of the multi-turn coil respectively.

The multi-turn coil and the magnet are used for directly converting energy of mechanical vibration into electric energy, the diodes D1-D4 are used for converting the electric energy converted by the multi-turn coil and the magnet and the electric energy converted by the thermoelectric material into direct current power, the voltage stabilizing circuit converts the direct current power into stable direct current power with the amplitude within a preset voltage range and transmits the stable direct current power to a charging super capacitor connected with the voltage stabilizing circuit through the charging switch in a closed state; the charging super capacitor is charged by receiving the stable direct current power, and when the electric quantity level of the discharging super capacitor is reduced to a first preset electric quantity, the electric energy stored in the charging super capacitor is rapidly released to the discharging super capacitor through the change-over switch which is connected with the charging super capacitor and is in a closed state; the discharging super capacitor receives the power transmitted from the charging super capacitor to realize charging, and when the self power level reaches a rated level, the discharging switch connected with the discharging super capacitor in a closed state discharges the electric energy stored in the discharging super capacitor to the storage battery connected with the discharging super capacitor.

The controller monitors the electric quantity levels of the charging super capacitor and the discharging super capacitor in real time, when the electric quantity level of the charging super capacitor reaches the rated level of the charging super capacitor in the ascending direction, the controller controls the charging switch which is originally in the closed state to be switched off, when the electric quantity level of the charging super capacitor reaches a second preset electric quantity in the descending direction, the controller controls the charging switch which is originally in the open state to be switched on, when the electric quantity level of the discharging super capacitor reaches a first preset electric quantity in the descending direction, the controller sequentially controls the discharging switch which is originally in the closed state to be switched off, the change-over switch which is originally in the open state to be switched on, and when the electric quantity level of the discharging super capacitor reaches the rated level of the discharging super capacitor in the ascending direction, the controller sequentially controls the change-over switch which is originally in the closed state to be switched off, the discharge switch, which is originally in an open state, is closed.

The GPS measures a horizontal position and a vertical position, and transmits the horizontal position and the vertical position to the controller.

The memory is used for storing a three-dimensional map, a voice recognition program and number mapping, the three-dimensional map comprises a horizontal map and a vertical map, the voice recognition program is used for recognizing sound input from the microphone to obtain a recognition name, and the number mapping comprises a one-to-one correspondence relationship between a plurality of recognition names and communication numbers.

When the user speaks the name of a colleague needing to be contacted into the microphone, the voice recognition program recognizes the name of the colleague based on the voice input from the microphone and sends the name to the controller; the controller searches out a communication number corresponding to the name based on the number mapping, controls the GPS to work for a short time to obtain a current horizontal position and a vertical position, then transmits the corresponding communication number, the horizontal position and the vertical position and a user communication number to the communicator, and the communicator packages and sends the horizontal position, the vertical position and the user communication number according to the corresponding communication number.

When another communicator corresponding to the corresponding communication number receives the packet, the packet is transmitted to another controller corresponding to the other communicator, the other controller analyzes the packet to obtain the horizontal position and the vertical position of the user and the user communication number, the other controller obtains a user name corresponding to the user communication number based on number mapping and displays the user name, the horizontal position and the vertical position of the user on the path indicator; the other controller then controls the other corresponding GPS to work for a short time so as to obtain the current horizontal position and the vertical position of the other controller and display the current horizontal position and the vertical position on the path indicator; the other controller generates a shortest path to be moved from a current position to a destination position based on the information displayed on the path indicator and the three-dimensional map stored in the memory and displays the shortest path on the path indicator.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. It is therefore intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is the following claims, including all equivalents, that are intended to define the spirit and scope of this invention. The above examples are to be construed as merely illustrative and not limitative of the remainder of the disclosure. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (1)

1. An intelligent card for a worker, the intelligent card for a worker comprising: the card holder comprises a card holder body and a suspension ring which is detachably and mechanically connected with the card holder body; the worktile main body is a round-angle cuboid, and when the suspension circular ring is mechanically connected with the worktile main body, the suspension circular ring is fixed at the center of a first width surface and a first height surface of the worktile main body; said hanging ring being further electrically connected to said card body when said hanging ring is mechanically connected to said card body, said electrical connection being broken when said hanging ring is mechanically disconnected from said card body; the hanging ring is used for surrounding one part of a human body, and the part of the human body comprises any one of a neck, arms and a waist; the circumference of the suspension ring can be adjusted to adapt to different characteristics corresponding to a part of the human body; the characteristics comprise a neck circumference, a hand circumference and a waist circumference; it is characterized in that the preparation method is characterized in that,

the suspension ring comprises a first face in direct contact with a portion of the human body and a second face facing opposite the first face in direct contact with an external environment; the surface of the first surface is made of thermoelectric materials, and the thermoelectric materials are used for directly converting thermal energy into electric energy; when the suspension ring is mechanically connected with the workhorse board body and the first surface is in direct contact with a part of the human body, the electric energy is transmitted to the workhorse board body through the mechanical connection; the workcard main body comprises a front face for presenting user information, a back face opposite to the front face in direction, and a second width face and a second height face which are parallel to the first width face and the first height face; the front side is provided with a camera, a display area, a receiver, a microphone, an indicator light and a two-dimensional code, the back side is provided with a path indicator, and the second wide and high sides are provided with communication interfaces; the camera is used for photographing and displaying a photographing result in the display area; the display area comprises one or more of a photo area, a name area, a position area and a number area; the display of the result of the photographing in the display area is in the photograph area; the receiver is used for making sound, the microphone is used for inputting sound, and the indicator light is a color-changing LED; the color-changing LED can present different colors based on different control signals; the two-dimensional code is used for being scanned; the path indicator indicates a shortest path that needs to be moved to move from a current location to a target location; enabling alteration of display information on the display area based on information transmitted through the communication interface; the change of the display information comprises one or more of name information, position information and number information; the work card main body is internally provided with an electric power generation device, a GPS, a memory, a communicator and a controller, wherein the electric power generation device provides working electric power for the GPS, the memory, the communicator, the controller, a camera, a display area, a receiver, a microphone, an indicator light and a path indicator; the power generation device comprises a multi-turn coil, a magnet, diodes D1-D4, a voltage stabilizing circuit, a charging switch, a charging super capacitor, a transfer switch, a discharging super capacitor, a discharging switch and a storage battery; the magnet is movably arranged in a space formed by the multi-turn coil, one end of the multi-turn coil is respectively connected with an anode of D1 and a cathode of D4, the other end of the multi-turn coil is respectively connected with an anode of D2 and a cathode of D3, the cathode of D1 and the cathode of D2 are connected together and are connected with one end of the voltage stabilizing circuit, and the anode of D3 and the anode of D4 are connected together and are connected with the other end of the voltage stabilizing circuit; one end of the voltage stabilizing circuit is also connected with one end of the charging switch, the other end of the charging switch is connected with one end of the charging super capacitor, and the other end of the voltage stabilizing circuit is directly connected with the other end of the charging super capacitor; one end of the charging super capacitor is connected with one end of the discharging super capacitor through the change-over switch, the other end of the charging super capacitor is directly connected with the other end of the discharging super capacitor, one end of the discharging super capacitor is connected with one end of the storage battery through the discharging switch, and the other end of the discharging super capacitor is directly connected with the other end of the storage battery; the thermoelectric material is respectively connected with one end and the other end of the multi-turn coil; the multi-turn coil and the magnet are used for directly converting energy of mechanical vibration into electric energy, the diodes D1-D4 are used for converting the electric energy converted by the multi-turn coil and the magnet and the electric energy converted by the thermoelectric material into direct current power, the voltage stabilizing circuit converts the direct current power into stable direct current power with the amplitude within a preset voltage range and transmits the stable direct current power to a charging super capacitor connected with the voltage stabilizing circuit through the charging switch in a closed state; the charging super capacitor is charged by receiving the stable direct current power, and when the electric quantity level of the discharging super capacitor is reduced to a first preset electric quantity, the electric energy stored in the charging super capacitor is rapidly released to the discharging super capacitor through the change-over switch which is connected with the charging super capacitor and is in a closed state; the discharging super capacitor receives the electric power transmitted from the charging super capacitor to realize charging, and when the electric quantity level of the discharging super capacitor reaches a rated level, the discharging switch connected with the discharging super capacitor and in a closed state discharges the electric energy stored in the discharging super capacitor to the storage battery connected with the discharging super capacitor; the controller monitors the electric quantity levels of the charging super capacitor and the discharging super capacitor in real time, when the electric quantity level of the charging super capacitor reaches the rated level of the charging super capacitor in the ascending direction, the controller controls the charging switch which is originally in the closed state to be switched off, when the electric quantity level of the charging super capacitor reaches a second preset electric quantity in the descending direction, the controller controls the charging switch which is originally in the open state to be switched on, when the electric quantity level of the discharging super capacitor reaches a first preset electric quantity in the descending direction, the controller sequentially controls the discharging switch which is originally in the closed state to be switched off, the change-over switch which is originally in the open state to be switched on, and when the electric quantity level of the discharging super capacitor reaches the rated level of the discharging super capacitor in the ascending direction, the controller sequentially controls the change-over switch which is originally in the closed state to be switched off, the discharge switch which is originally in an open state is closed; the GPS measures a horizontal position and a vertical position and transmits the horizontal position and the vertical position to the controller; the memory is used for storing a three-dimensional map, a voice recognition program and a number mapping, wherein the three-dimensional map comprises a horizontal map and a vertical map, the voice recognition program is used for recognizing sound input from the microphone so as to obtain a recognition name, and the number mapping comprises a one-to-one correspondence relationship between a plurality of recognition names and communication numbers; when the user speaks the name of a colleague needing to be contacted into the microphone, the voice recognition program recognizes the name of the colleague based on the voice input from the microphone and sends the name to the controller; the controller searches out a communication number corresponding to the name based on the number mapping, controls the GPS to work for a short time to obtain a current horizontal position and a vertical position, then transmits the corresponding communication number, the horizontal position and the vertical position and a user communication number to the communicator, and the communicator packages and sends the horizontal position, the vertical position and the user communication number according to the corresponding communication number.

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