CN111703340A - Seat with wireless charging function, bus and charging method - Google Patents

Abstract

The invention discloses a seat with a wireless charging function, a bus and a charging method, wherein the seat comprises a seat body, a backrest and a wireless charging device, a hollow cavity is arranged in the backrest, the wireless charging device is embedded into the cavity, the wireless charging device comprises a back plate and a frame, a bearing table is arranged on the frame at the bottom edge of the back plate, a wireless charging module is arranged in the back plate above the bearing table, a bearing inductor for detecting the occupation condition of the bearing table is arranged in the bearing table, the wireless charging module and the bearing sensor are both electrically connected with a controller, the wireless charging device further comprises a clamp for clamping a mobile phone, after the bearing inductor detects that the mobile phone is placed on the bearing table, the clamp clamps the mobile phone, and the controller starts the wireless charging module to charge the mobile. According to the seat, the wireless charging device is embedded into the backrest of the electric seat with the wireless charging function, the wireless charging device and the seat form a whole, the appearance is attractive, the use is convenient for passengers, the observation is easy, the data line connection is omitted, and the hiding performance is better.

Description

Seat with wireless charging function, bus and charging method

Technical Field

The invention relates to a seat, in particular to a seat with a wireless charging function, a bus using the seat and a charging method.

Background

The mobile phone is charged wirelessly so that no charging wire is wound, and the mobile phone is concise and attractive; the charging and discharging can be carried out without frequent plugging; the problem of mobile phone interface compatibility is not worried; the advantages of no electric shock risk of charging and answering the phone are accepted and favored by people. However, the charging mode is mainly applied to families and office occasions, the mobile phone wireless charging device and the mobile phone are required to be in a static environment, and the scientific and technological sense and the humanized design can be embodied if the wireless charging device is designed on the bus.

The existing pure electric bus is provided with a USB charging socket, is generally arranged on a driver instrument desk and a grab bar, and can be charged only by connecting data lines. Other positions in the vehicle are inconvenient to install, so that the problems can be effectively solved by selecting a reasonable installation position and adopting a wireless charging device.

Disclosure of Invention

The invention aims to provide a seat with a wireless charging function, a bus and a charging method, and aims to solve the technical problems in the background art.

In order to achieve the purpose, the specific technical scheme of the seat with the wireless charging function, the bus and the charging method is as follows:

the utility model provides a take wireless seat of function of charging, which comprises a seat body, back and wireless charging device, the inside hollow cavity that sets up of back, wireless charging device imbeds in the cavity, wireless charging device includes backplate and frame, set up the plummer on the frame of backplate base, set up wireless module of charging in the backplate of plummer top, set up the inductor that bears that is used for surveying the plummer occupation condition in the plummer, wireless module of charging, bear the sensor all with controller electric connection, still including the anchor clamps that are used for pressing from both sides tight cell-phone, it detects the plummer and places the cell-phone after, anchor clamps press from both sides tight cell-phone to bear the inductor, the controller starts wireless module of charging and charges for the.

Further, the middle part of plummer lateral wall sets up infrared detector, and infrared detector is used for surveying the passenger at back rear, and infrared detector and controller electric connection have the passenger and bear the weight of the sensor and detect the plummer when being taken up when infrared detector's detection has the passenger at back rear, and the controller opens wireless charging module and charges for the cell-phone.

Furthermore, an indicator light for reflecting whether the charging process is normal is further arranged on the bearing table, the indicator light comprises a fault indicator light and a wireless charging indicator light, and when the wireless charging module is started to charge the mobile phone, the wireless charging indicator light is turned on; when the charging process is abnormal, the fault indicating lamp is lightened, and the controller cuts off the charging circuit of the wireless charging module.

Furthermore, an adjusting groove is formed between the bearing table and the frames on the two sides, a clamp is arranged in the adjusting groove and connected with the back plate through a clamping structure, and when the mobile phone is placed on the bearing table, the clamping structure automatically clamps the mobile phone.

Furthermore, the clamping structure comprises a spring, two ends of the spring are respectively fixedly connected with the back plate and the clamp, when the mobile phone is not placed, the distance between the clamp and the back plate is 5-10 mm, after the mobile phone is fixed through the clamp, the spring is in an extending state, and the clamp applies pressure to the mobile phone.

Furthermore, press from both sides tight structure and still include the sleeve, the spring housing is established on the sleeve, telescopic both ends respectively with backplate and anchor clamps fixed connection, when not placing the cell-phone, the length that the inner tube inserted the urceolus is the longest, when placing the cell-phone after, the sleeve is elongated.

Furthermore, the clamping structure comprises slide blocks arranged on the left side wall and the right side wall of the clamp, and guide grooves matched with the slide blocks are respectively arranged on the left side wall and the right side wall of the adjusting groove.

A bus comprises the seat with the wireless charging function.

A charging method for charging a mobile phone by using the seat with the wireless charging function mainly comprises the following steps:

plummer occupancy detection step S1: detecting the occupation condition of the bearing table through the bearing sensor, and acquiring a detection signal of the bearing sensor by the controller;

wireless charging step S2: when the mobile phone is placed on the bearing table, the bearing table is occupied, the clamp clamps the mobile phone tightly, and the controller starts the wireless charging module to charge the mobile phone until the charging is finished.

Further, after the step S1 of detecting the occupancy of the carrier, the method further comprises a step S11 of detecting a passenger, wherein the infrared detector detects whether the passenger is behind the backrest, and when the infrared detector detects that the passenger is behind the backrest and the carrier sensor detects that the carrier is occupied, the controller starts the wireless charging module to charge the mobile phone.

The seat, the bus and the charging method with the wireless charging function have the following advantages that:

according to the seat, the wireless charging device is embedded into the backrest of the electric bus seat, the wireless charging device and the seat form a whole, the appearance is attractive, passengers can use the wireless charging device conveniently, the wireless charging device is easy to observe, the data line connection is cancelled, the hiding performance is better, the power line connected with a bus body is arranged in the seat and is easy to pull out, the maintenance is convenient, the installation height of the wireless charging device accords with human engineering, an infrared detector on the wireless charging device can detect a human body at multiple angles, whether a mobile phone is put in or not can be detected through the gravity sensing effect, and the mobile phone can be automatically clamped.

Drawings

FIG. 1 is a perspective view of a chair with wireless charging function according to the present invention;

fig. 2 is a schematic structural diagram of a wireless charging device according to the present invention;

fig. 3 is a top view of the wireless charging device of the present invention;

FIG. 4 is a control block diagram of the wireless charging device according to the present invention;

fig. 5 is a flowchart illustrating the operation of the wireless charging device according to the present invention.

The reference numbers in the figures illustrate: 1. a backrest; 2. a wireless charging device; 21. a back plate; 22. a bearing table; 221. a USB charging interface; 222. a USB charging indicator light; 223. a fault indicator light; 224. a wireless charging indicator light; 23. a frame; 24. an adjustment groove; 25. a sensing region; 3. a clamp; 4. a sleeve; 5. a spring; 6. a guide rail; 7. an infrared detector; 8. and (7) decorating strips.

Detailed Description

In order to better understand the purpose, structure and function of the present invention, a seat, a bus and a charging method with a wireless charging function according to the present invention are further described in detail with reference to the accompanying drawings.

As shown in fig. 1, the seat with wireless charging function of the present invention comprises a seat body, a backrest 1 and a wireless charging device 2, wherein a hollow cavity is arranged inside the backrest 1, the wireless charging device 2 is embedded in the cavity and is disposed at the middle upper part of the backrest 1, the wireless charging device 2 comprises a back plate 21, side edges and bottom edges of the back plate 21 are provided with frames 23, a carrying table 22 is disposed on the frame 23 at the bottom edge of the back plate 21, a wireless charging module is disposed in the back plate 21 above the carrying table 22, a carrying sensor for detecting the occupation condition of the carrying table 22 is disposed in the carrying table 22, the carrying sensor can be a gravity sensor or a pressure sensor, or a wireless charging module, bear the sensor all with controller electric connection, still include the anchor clamps 3 that are used for pressing from both sides tight cell-phone, bear the sensor and detect that plummer 22 places the cell-phone after, anchor clamps 3 press from both sides tight cell-phone, the controller starts wireless module of charging and charges for the cell-phone.

The middle part of plummer 22 lateral wall sets up infrared detector 7, and infrared detector 7 is used for surveying the passenger at back 1 rear, and infrared detector 7 and controller electric connection have the passenger and bear the weight of the sensor and detect plummer 22 when being taken up when infrared detector 7's detection has the passenger and the plummer 22 to be taken up behind back 1, and the controller is opened wireless charging module and is charged for the cell-phone.

As shown in fig. 2, an indicator light for reflecting whether the charging process is normal or not is further disposed on the carrying table 22, the indicator light includes a fault indicator light 223 and a wireless charging indicator light 224, when the wireless charging module is started to charge the mobile phone, the wireless charging indicator light 224 is turned on, the carrying sensor sets a carrying threshold, when the controller detects that the output signal of the carrying sensor exceeds the carrying threshold, or during the charging process, the infrared detector 7 detects that no passenger is behind the backrest 1 and the passenger is not in the detection range, or during the charging process, when the signal of the carrying sensor is suddenly interrupted, the fault indicator light 223 is turned on, and the controller cuts off the charging circuit of the wireless charging module.

Still be equipped with USB interface 221 and the USB pilot lamp 222 that charges on plummer 22 of infrared detector 7 below, when the passenger adopted the data line to charge for the cell-phone through USB interface 221 that charges, USB charge pilot lamp 222 lights, for not having the cell-phone of the wireless function of charging to charge provides very big facility.

In order to effectively fix the mobile phone when the mobile phone is placed on the bearing table 22, an adjusting groove 24 is arranged between the bearing table 22 and the frames 23 at two sides, a clamp 3 is arranged in the adjusting groove 24, the clamp 3 is connected with the back plate 21 through a clamping structure, and when the mobile phone is placed on the bearing table 22, the clamping structure automatically clamps the mobile phone.

The clamping structure comprises a spring 5, two ends of the spring 5 are respectively fixedly connected with the back plate 21 and the clamp 3, when the mobile phone is not placed, the distance between the clamp 3 and the back plate 21 is 5-10 mm, after the mobile phone is fixed through the clamp 3, the spring 5 is in an extension state, and the clamp 3 applies pressure to the mobile phone.

Further, in order to ensure that the clamp 3 is more stable in the translation process, as shown in fig. 3, the clamping structure further comprises a sleeve 4, the sleeve 4 comprises an inner cylinder and an outer cylinder, the inner cylinder is inserted into the outer cylinder to form the sleeve 4, the spring 5 is sleeved on the sleeve 4, two ends of the sleeve 4 are respectively fixedly connected with the back plate 21 and the clamp 3, when the mobile phone is not placed, the length of the inner cylinder inserted into the outer cylinder is longest, and after the mobile phone is placed, the sleeve 4 is elongated.

The clamping structure can also be fixed on the guide rail 6 on the bottom surface of the adjusting groove 24, the section of the guide rail 6 is of an inverted trapezoidal structure, the bottom surface of the clamp 3 is provided with an inverted trapezoidal sliding groove matched with the guide rail 6, and the clamp 3 can automatically slide along the guide rail 6. The number of the guide rails 6 in each adjusting groove 24 is at least one, and each guide rail 6 is perpendicular to the back plate 21.

The clamping structure can also be a slide block arranged on the left side wall and the right side wall of the clamp 3, and guide grooves matched with the slide block are respectively arranged on the left side wall and the right side wall of the adjusting groove 24. The clamping structure can realize the stable movement of the clamp 3, so that the clamp 3 cannot be separated from the adjusting groove 24.

In order to reduce the interference of electromagnetic radiation of the whole vehicle, a copper mesh is arranged on the backrest 1 in the area of the wireless charging device 2; in the wireless charging process of the mobile phone, the wireless charging module generates heat, in order to improve the heat dissipation, a plurality of heat dissipation holes are formed in the side wall of the cavity, and the purpose of heat dissipation is achieved by means of air circulation; the wireless charging device 2 is fixed to the backrest 1 by a decorative strip 8.

As shown in fig. 4, the hardware architecture is composed of two parts, namely a peripheral hardware architecture and a wireless charging hardware architecture, and related control logic is implemented based on software. In the following, a gravity sensor is taken as an example for detailed description, the controller is a single chip, the gravity sensor is mainly detected by a gravity switch, and when the mobile phone is placed on the bearing table 22, the switch is closed to provide a switch signal for the single chip. Meanwhile, an infrared transmitting tube of the infrared detector 7 transmits infrared rays to detect passengers in the seat area, the infrared rays reflected back by the passengers convert optical signals into electric signals through a receiving photoelectric tube of the infrared detector 7, and when the single chip microcomputer receives the gravity switch signal and the infrared signals, the electric signals can be used as judgment conditions of control logic. The low-voltage power supply voltage that pure electric bus provided is unstable, and the DC/DC on the whole car charges for the battery, and its voltage variation range is great, so the power management module in peripheral hardware circuit has quoted SC8703 high efficiency, synchronous, 4 manage step-up and step-down controllers. The input voltage can be stabilized and limited, and a series of protection functions such as output overvoltage protection, short-circuit protection and over-temperature protection are provided. The module can provide a voltage-stabilizing current-limiting power supply for the singlechip and is also an execution unit of the singlechip. The DC/DC in the peripheral hardware circuit adopts a SY8213 chip, the voltage of a superior power supply can be reduced, the output voltage reaches 5V, and the output current can reach 3A. The power supply can be directly provided for the USB charging mode.

DC/DC in the wireless charging hardware framework adopts an SGM2203 chip, and a power supply which is matched safely is provided for the single chip microcomputer and the wireless charging module and is 5V voltage. The single chip microcomputer mainly adjusts relevant parameters in a charging system in a practical mode by adopting SC92F8461BM16U, and performs logic control on a wireless charging chip based on software. Meanwhile, the system is communicated with a single chip microcomputer in a peripheral hardware framework, and interaction is realized on an upper computer. The frequency converter can invert the direct-current voltage into alternating-current power with proper frequency for output, the undistorted voltage transmission and the maximization of power can be achieved through the matching circuit, and the alternating voltage signal is transmitted to the coils through the multiplexing circuit to generate a variable magnetic field. The matching circuit and the multiplexing circuit feed back the parameters of the relevant electric devices to the single chip microcomputer to realize the logic control of the wireless charging control module. The mobile phone with the wireless charging function can be automatically charged by being placed in the induction area 25.

The invention also provides a bus which comprises the seat with the wireless charging function, the wireless charging device 2 is embedded into the backrest 1 of the pure electric seat with the wireless charging function, the data line connection is cancelled, the hiding performance is better, the automatic charging is realized, and the application range is wider.

As shown in fig. 5, the present invention further provides a charging method for wirelessly charging a mobile phone by using a seat with a wireless charging function, which mainly comprises the following steps:

plummer 22 occupancy detection step S1: the occupancy condition of the bearing table 22 is detected through the bearing sensor, and the controller acquires a detection signal of the bearing sensor;

wireless charging step S2: when the mobile phone is placed on the bearing table 22, the bearing table 22 is occupied, the clamp 3 clamps the mobile phone tightly, and the controller starts the wireless charging module to charge the mobile phone until the charging is finished.

After the step S1 of detecting the occupancy of the platform 22, the method further includes a step S11 of detecting a passenger, the infrared detector 7 detects whether the passenger is behind the backrest 1, and when the infrared detector 7 detects that the passenger is behind the backrest 1 and the load sensor detects that the platform 22 is occupied, the controller starts the wireless charging module to charge the mobile phone.

After the wireless charging step S2, an exception handling step S3 is further included, when the controller detects that the output signal of the load sensor exceeds the load threshold, or during charging, the infrared detector 7 detects that no passenger is behind the backrest 1 and the passenger is not in the detection range, or during charging, when the signal of the load sensor is suddenly interrupted, the fault indicator lamp 223 is turned on, and the controller cuts off the charging circuit of the wireless charging module.

This take seat of wireless function of charging is with wireless charging device 2 embedding to the seat back 1 of electric bus in, constitute a whole with the seat, the appearance is pleasing to the eye, the passenger facilitates the use, easily observe, the data line connection has been cancelled, the hidden nature is better, arrange inside the seat with car body connection's power cord, the easy-to-draw maintenance of being convenient for, wireless charging device 2's mounting height accords with human engineering, infrared detector 7 on it can the multi-angle detect the human body, whether the cell-phone is put into through gravity induction effect detection, and can be to cell-phone self-holding.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. A seat with a wireless charging function is characterized by comprising a seat body, a backrest (1) and a wireless charging device (2), wherein a hollow cavity is arranged inside the backrest (1), the wireless charging device (2) is embedded into the cavity, the wireless charging device (2) comprises a back plate (21) and a frame (23), a bearing table (22) is arranged on the frame (23) at the bottom edge of the back plate (21), a wireless charging module is arranged in the back plate (21) above the bearing table (22), a bearing sensor used for detecting the occupation condition of the bearing table (22) is arranged in the bearing table (22), the wireless charging module and the bearing sensor are electrically connected with a controller, the seat also comprises a clamp (3) used for clamping a mobile phone, and after the bearing sensor detects that the bearing table (22) is placed with the mobile phone, the clamp (3) clamps the mobile phone, and the controller starts the wireless charging module to charge the mobile phone.

2. The seat with the wireless charging function according to claim 1, wherein an infrared detector (7) is arranged in the middle of the side wall of the bearing table (22), the infrared detector (7) is used for detecting a passenger behind the backrest (1), the infrared detector (7) is electrically connected with the controller, and when the detection of the infrared detector (7) detects that the passenger is behind the backrest (1) and the bearing sensor detects that the bearing table (22) is occupied, the controller starts the wireless charging module to charge the mobile phone.

3. The seat with the wireless charging function according to claim 2, wherein an indicator light for reflecting whether the charging process is normal is further arranged on the bearing table (22), the indicator light comprises a fault indicator light (223) and a wireless charging indicator light (224), and when the wireless charging module is started to charge the mobile phone, the wireless charging indicator light (224) is turned on; when the charging process is abnormal, the fault indicator lamp (223) is lightened, and the controller cuts off the charging circuit of the wireless charging module.

4. The seat with the wireless charging function according to claim 1, wherein an adjusting groove (24) is formed between the bearing platform (22) and the side frames (23) on the two sides, a clamp (3) is arranged in the adjusting groove (24), the clamp (3) is connected with the back plate (21) through a clamping structure, and when the mobile phone is placed on the bearing platform (22), the clamping structure automatically clamps the mobile phone.

5. The seat with the wireless charging function according to claim 4, wherein the clamping structure comprises a spring (5), two ends of the spring (5) are fixedly connected with the back plate (21) and the clamp (3), respectively, when the mobile phone is not placed, the distance from the clamp (3) to the back plate (21) is 5m-10mm, after the mobile phone is fixed through the clamp (3), the spring (5) is in an extended state, and the clamp (3) applies pressure to the mobile phone.

6. The seat with the wireless charging function according to claim 5, wherein the clamping structure further comprises a sleeve (4), the spring (5) is sleeved on the sleeve (4), two ends of the sleeve (4) are respectively and fixedly connected with the back plate (21) and the clamp (3), when the mobile phone is not placed, the length of the inner cylinder inserted into the outer cylinder is longest, and when the mobile phone is placed, the sleeve (4) is elongated.

7. The seat with the wireless charging function according to claim 5 or 6, wherein the clamping structure further comprises sliders arranged on the left and right side walls of the clamp (3), and guide grooves matched with the sliders are respectively arranged on the left and right side walls of the adjusting groove (24).

8. A bus characterized by comprising a wireless charging function seat according to any one of claims 1 to 7.

9. A charging method for charging a mobile phone by using the wireless charging seat as claimed in any one of claims 1 to 7, which mainly comprises the following steps:

carrying platform (22) occupation condition detection step S1: the occupation condition of the bearing table (22) is detected through the bearing sensor, and a controller acquires a detection signal of the bearing sensor;

wireless charging step S2: when the mobile phone is placed on the bearing table (22), the bearing table (22) is occupied, the clamp (3) clamps the mobile phone tightly, and the controller starts the wireless charging module to charge the mobile phone until the charging is finished.

10. The charging method according to claim 9, wherein after the step S1 of detecting occupancy of the carrier (22), the method further comprises a step S11 of detecting passengers, the infrared detector (7) detects whether passengers are present behind the backrest (1), and the controller turns on the wireless charging module to charge the mobile phone when the detection of the infrared detector (7) detects that passengers are present behind the backrest (1) and the carrier sensor detects that the carrier (22) is occupied.

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