CN107769336A - Palm ultrasound charging system and device - Google Patents

Abstract

The present invention relates to a kind of palm ultrasound charging system and device, including charging bracket, the charging inlet for providing power interface is provided with charging bracket, there is the supporting surface for being used for placing palm ultrasonic device on charging bracket, the charge position corresponding with the cell area of palm ultrasonic device is set on supporting surface, and the charge position is charged to the battery included in palm ultrasonic device by wired or wireless way.The present invention can be charged by wire or wirelessly mode to palm ultrasonic device, easy-to-use.

Description

Handheld Ultrasonic Charging System and Device

technical field

The invention relates to a handheld ultrasonic charging system and device, belonging to the technical field of ultrasonic equipment.

Background technique

Usually, conventional ultrasonic scanning instruments in hospitals and outpatient departments are bulky and not portable. The portable ultrasound equipment only needs to be connected to a smartphone or a tablet computer, and the ultrasound scan image can be displayed on the screen of the mobile phone or computer, which has good portability.

Existing portable ultrasound equipment has the problem that the use time is limited by the energy consumption of the built-in battery. Therefore, the rapid development of portable ultrasound equipment also puts forward higher requirements on the battery life of the portable ultrasound equipment. At present, when charging a portable ultrasonic device, the portable ultrasonic device is generally connected to a power source through a power cord and a charger, or the battery of the portable ultrasonic device is taken out and installed on a charging device for charging. In the existing charging methods, it is necessary to use a charging cable that matches the portable ultrasound equipment, or connect the device itself or the battery to the charger to charge, which is very inconvenient to use.

Contents of the invention

The purpose of the present invention is to overcome the deficiencies in the prior art, and provide a handheld ultrasonic charging system and device, which can conveniently charge handheld ultrasonic equipment.

According to the technical solution provided by the present invention, the handheld ultrasonic charging device includes a charging bracket, the charging bracket is provided with a charging interface for providing a power supply interface, and the charging bracket has a supporting surface for placing the handheld ultrasonic equipment. A charging position corresponding to the battery area of the handheld ultrasonic device is set, and the charging position charges the battery contained in the handheld ultrasonic device in a wired or wireless manner.

Further, the charging position is provided with a wireless charging module, and correspondingly, the battery of the handheld ultrasonic device is a battery with a wireless charging function; the wireless charging module is arranged inside the charging stand.

Further, the charging bracket is also provided with a battery charging socket.

Further, an automatic calibration structure is set between the support surface and the handheld ultrasonic device, the automatic calibration structure includes a first magnetic part and a second magnetic part, the first magnetic part is arranged on the support surface, and the second magnetic part is arranged on the palm On the ultrasonic device, after the first magnetic part and the second magnetic part are magnetically connected to each other, the charging position corresponds to the battery area of the handheld ultrasonic device.

Further, the first magnetic part is arranged on the surface of the supporting surface and is flush with the supporting surface, and the second magnetic part is arranged on the surface of the shell of the handheld ultrasonic device and is flush with the surface of the handheld ultrasonic device.

Further, a first positioning piece is set on the support surface, a second positioning piece matched with the first positioning piece is set on the handheld ultrasonic equipment, and the first magnetic piece and the second magnetic piece are respectively arranged on the first locator and the second locator.

Further, a supporting part for supporting the handheld ultrasonic device is provided at one end of the supporting surface; a blocking part is provided outside the supporting part.

Further, the charging interface is connected to a power socket through a charger; or, a charging module is integrated in the charging bracket, and the charging interface is connected to a power socket through a power cord and a plug.

Further, the charger is provided with a monitoring module, and the monitoring module includes:

A display component for displaying the charging type, battery level, estimated remaining time to complete charging, and charging parameters;

And a control component for controlling the charging speed.

The present invention also provides a handheld ultrasonic charging system, including the above-mentioned handheld ultrasonic charging device.

The present invention has the following advantages:

(1) The present invention can charge the handheld ultrasonic device in a wired or wireless manner, which is convenient to use;

(2) The charging device of the present invention can charge the handheld ultrasonic equipment and the backup battery simultaneously or separately, without affecting the normal operation of the handheld ultrasonic equipment

(3) The charging device of the present invention can protect the handheld ultrasonic equipment and avoid collision damage between the handheld ultrasonic equipment and the charging device.

Description of drawings

Fig. 1 is a schematic diagram of the handheld ultrasonic charging system of the present invention.

Fig. 2 is a schematic diagram of an exploded state of the handheld ultrasonic charging system of the present invention.

Fig. 3 is a schematic structural view of the handheld ultrasonic charging device of the present invention.

Fig. 4 is a schematic structural diagram of the charging stand.

Fig. 5 is a schematic diagram of the automatic calibration of the position of the handheld ultrasound device when it is placed on the charging stand.

Fig. 6 is a schematic diagram of charging the handheld ultrasonic device directly with a charger.

Fig. 7 is a schematic diagram of charging directly with a charger in another embodiment of the handheld ultrasonic device.

Description of reference signs: 100-handheld ultrasonic charging device, 101-charging bracket, 102-support surface, 103-charging position, 104-charging interface, 105-charger, 1051-monitoring module, 106-battery charging socket, 107 - supporting part, 108 - blocking part, 200 - handheld ultrasonic equipment, 201 - equipment charging interface, 300 - spare battery, 401 - first magnetic part, 402 - second magnetic part.

Detailed ways

The present invention will be further described below in conjunction with specific drawings.

As shown in Fig. 1 and Fig. 2, the handheld ultrasonic charging system of the present invention includes a handheld ultrasonic charging device 100 and a handheld ultrasonic device 200, the handheld ultrasonic charging device 100 is used to charge the battery in the handheld ultrasonic device 200, and the power is Directly transmit to the battery of the handheld ultrasonic device 200 in a wireless or wired manner; specifically, as shown in Figure 3 and Figure 4, the handheld ultrasonic charging device 100 includes a charging stand 101, and a charging The interface 104, specifically the charging interface 104 can adopt a TYPE C charging interface, which is used to provide an interface for providing power to the charging stand 101; the charging stand 101 also has a support surface 102 for placing the handheld ultrasonic device 200, A charging position 103 is set on the supporting surface 102; when the handheld ultrasonic device 200 is placed on the supporting surface 102 for charging, the charging position 103 corresponds to the battery area of the handheld ultrasonic device 200; as a specific embodiment of the present invention , the charging position 103 can be provided with a wireless charging module, and correspondingly, the battery of the handheld ultrasonic device 200 also adopts a battery with a wireless charging function, and the charging position 103 corresponds to the battery area of the handheld ultrasonic device 200, so that the wireless charging of the charging position 103 The module charges the battery of the handheld ultrasonic device 200 wirelessly; generally, the wireless charging module is set inside the charging stand 101; as another specific embodiment of the present invention, the charging position 103 is provided with a charging interface , the charging interface is connected to the corresponding battery interface of the handheld ultrasonic device 200 , so that the charging interface of the charging position 103 charges the battery of the handheld ultrasonic device 200 in a wired manner.

Further, the charging stand 101 is also provided with a battery charging socket 106, which is used to charge the spare battery 300 of the handheld ultrasonic device 200; when the handheld ultrasonic device 200 is in use, the spare battery 300 can be Charging on the charging stand 101 does not need to wait for the handheld ultrasonic device 200 to be charged in the charging stand 101, so that the handheld ultrasonic device 200 and the spare battery 300 can be charged simultaneously or separately without affecting the operation of the handheld ultrasonic device 200 Normal work, greatly improving the convenience of use.

As a specific embodiment of the present invention, the supporting surface 102 of the charging stand 101 is a horizontal plane. In this case, when the handheld ultrasonic device 200 is placed on the supporting surface 102, in order to ensure that the battery area of the handheld ultrasonic device 200 can be connected with the charging Corresponding to the position 103, an automatic calibration structure is set between the support surface 102 and the handheld ultrasonic device 200. The automatic calibration structure includes a first magnetic part 401 and a second magnetic part 402, and the first magnetic part 401 is arranged on the support surface 102 , the second magnetic part 402 is arranged on the handheld ultrasonic device 200, the charging position 103 and the battery area of the handheld ultrasonic device 200 just correspond to each other after the first magnetic part 401 and the second magnetic part 402 are magnetically connected to each other, so as to realize automatic positioning Calibration, when placing the handheld ultrasound device 200 on the charging stand 101, there is no need to deliberately adjust whether the placement position is aligned, which facilitates the operation of the operator and improves convenience. In a specific embodiment of the present invention, the first magnetic member 401 is arranged on the surface of the supporting surface 102 and is flush with the supporting surface 102, and the second magnetic member 402 is arranged on the surface of the palm ultrasonic device 200 and is in contact with the palm ultrasonic device. The surface of the shell of the device 200 is flush; in another specific embodiment of the present invention, a first positioning member is provided on the support surface 102, and a second positioning member matched with the first positioning member is provided on the handheld ultrasonic device 200. The first magnetic part 401 and the second magnetic part 402 are respectively arranged in the first positioning part and the second positioning part, and the first positioning part and the second positioning part can adopt a protrusion and a groove structure that cooperate with each other, Therefore, when the handheld ultrasonic device 200 is placed on the supporting surface 102 , the first positioning member, the second positioning member, the first magnetic member 401 and the second magnetic member 402 can simultaneously play the role of automatic calibration. The above-mentioned first magnetic member 401 and second magnetic member 402 adopt magnets that can attract each other.

As another specific embodiment of the present invention, the supporting surface 102 of the charging stand 101 is an inclined surface. In this case, when the handheld ultrasonic device 200 is placed on the supporting surface 102, in order to ensure that the battery area of the handheld ultrasonic device 200 can Corresponding to the charging position 103 , the above-mentioned automatic calibration structure also needs to be arranged between the support surface 102 and the handheld ultrasonic device 200 . At the same time, in order to protect the probe or housing of the handheld ultrasonic device 200 from colliding with the charging stand 101, a supporting part 107 is arranged on the charging stand 101 at the lower end of the supporting surface 102, and the supporting part 107 can support the palm Ultrasonic device 200, to prevent palm-held ultrasonic device 200 from slipping from charging stand 101; Said supporting part 107 outer side is provided with blocking part 108, and blocking part 108 can play a role in blocking and preventing palm-held ultrasonic device 200; And, said supporting The surface of the part 107 is made of soft material to play a buffer role and prevent the handheld ultrasonic device 200 from being damaged.

As a specific embodiment of the present invention, the charging interface 104 can provide power to the charging stand 101 by connecting the charger 105 to the power socket, so as to charge the handheld ultrasonic device 200 or the backup battery 300 of the handheld ultrasonic device 200 . As another specific embodiment of the present invention, a charging module is integrated in the charging stand 101, and the charging interface 104 is connected to a power socket through a power cord and a plug to provide power to the charging module.

The handheld ultrasonic device 200 is provided with a device charging interface 201 , as shown in FIG. 6 , the device charging interface 201 can be directly connected to a power socket through a charger 300 to charge the battery.

As shown in FIG. 7 , it is a schematic diagram of another embodiment of the handheld ultrasonic device directly using a charger for charging. The charger 105 of the present invention is provided with a monitoring module 1051, and the monitoring module 1051 includes a first display component, a second display component and a control component; the first display component is used to display the charging type, and the charging type includes: wireless charging , wired charging and dual charging with/wireless; the second display component is used to display the battery power of the handheld ultrasonic device and the remaining time expected to complete the charging, so that the operator can adjust the charging speed according to the demand; the control component is used to control Charging speed, for example, by setting different charging current and voltage to speed up the charging speed (fast charging mode), it needs to be understood that the set charging parameters (such as charging voltage and current) will also be displayed in the second display component, select After the fast charging mode, the remaining charging time is also displayed in the second display unit. The monitoring module 1051 of the present invention also includes a parameter reading component, which is used to read the official charging current and charging voltage of the battery of the handheld ultrasonic device. The control component can make the charger 105 adaptable by setting the charging parameters of the charger 105 Different handheld ultrasonic device batteries can also prevent operators from misoperation, using a large current that exceeds safety to charge the handheld ultrasonic device battery, and reduce the service life of the applause ultrasonic device battery.

Finally, it should be noted that the above specific embodiments are only used to illustrate the technical solutions of the present invention without limitation, although the present invention has been described in detail with reference to examples, those of ordinary skill in the art should understand that the technical solutions of the present invention can be carried out Modifications or equivalent replacements without departing from the spirit and scope of the technical solution of the present invention shall be covered by the claims of the present invention.

Claims (10)

1. A handheld ultrasonic charging device, characterized in that it includes a charging bracket (101), a charging interface (104) for providing a power interface is provided on the charging bracket (101), and a charging interface (104) is provided on the charging bracket (101) for placing The supporting surface (102) of the handheld ultrasonic device (200), the charging position (103) corresponding to the battery area of the handheld ultrasonic device (200) is set on the supporting surface (102), and the charging position (103) is opposite to the handheld ultrasonic device ( 200) is charged via wired or wireless means. 2. The handheld ultrasonic charging device according to claim 1, characterized in that: the charging position (103) is provided with a wireless charging module, and correspondingly the battery of the handheld ultrasonic device (200) adopts a battery with a wireless charging function; The wireless charging module is arranged inside the charging stand (101). 3. The handheld ultrasonic charging device according to claim 1 or 2, characterized in that: the charging stand (101) is also provided with a battery charging socket (106). 4. The handheld ultrasonic charging device according to claim 1, characterized in that: an automatic calibration structure is set between the support surface (102) and the handheld ultrasonic device (200), and the automatic calibration structure includes a first magnetic part (401 ) and the second magnetic piece (402), the first magnetic piece (401) is set on the support surface (102), the second magnetic piece (402) is set on the handheld ultrasonic device (200), the first magnetic piece (401) The charging position (103) and the battery area of the handheld ultrasonic device (200) correspond to each other after being connected with the second magnetic member (402) through magnetism. 5. The handheld ultrasonic charging device according to claim 4, characterized in that: the first magnetic part (401) is arranged on the surface of the supporting surface (102) and is flush with the supporting surface (102), and the second magnetic part (402) is arranged on the shell surface of the handheld ultrasonic device (200) and is flush with the surface of the handheld ultrasonic device (200). 6. The handheld ultrasonic charging device according to claim 4, characterized in that: a first positioning piece is set on the support surface (102), and a handy positioning piece matching the first positioning piece is set on the handheld ultrasonic device (200). The second positioning part, the first magnetic part (401) and the second magnetic part (402) are respectively arranged in the first positioning part and the second positioning part. 7. The handheld ultrasonic charging device according to claim 1, characterized in that: a supporting part (107) for supporting the handheld ultrasonic equipment (200) is provided at one end of the supporting surface (102); A blocking portion (108) is provided outside the supporting portion (107). 8. The handheld ultrasonic charging device according to claim 1, characterized in that: the charging interface (104) is connected to a power socket through a charger (105); or, a charging module is integrated in the charging stand (101) , the charging interface (104) is connected to the power socket through a power cord and a plug. 9. The handheld ultrasonic charging device according to claim 8, characterized in that: the charger (105) is provided with a monitoring module (1051), and the monitoring module (1051) includes: A display component for displaying the charging type, battery level, estimated remaining time to complete charging, and charging parameters; And a control component for controlling the charging speed. 10. A handheld ultrasonic charging system, characterized by comprising the handheld ultrasonic charging device (100) according to any one of claims 1-9.