阅读说明：本技术 一种超声成像系统 (Ultrasonic imaging system ) 是由 朱子俨 于 2018-08-27 设计创作，主要内容包括：一种超声成像系统,包括主机(40)、控制面板(50)、显示器(60)和可移动探头装置,主机(40)包括壳体(41)和收容在壳体(41)内的数据处理单元(42),控制面板(50)连接到主机(40),显示器(60)连接到主机(40),可移动探头装置包括支撑装置(10)和探头(20),探头(20)安装在支撑装置(10)上,支撑装置(10)与主机(40)相互独立设置,探头(20)与主机(40)通过有线或无线通信。由于探头(20)安装在独立于主机(40)的支撑装置(10)上,探头(20)具有更大的移动空间,并且支撑装置(10)起到支撑和牵引移动探头(20)的作用,方便了操作者使用,也解放了操作者,并保证了病人的安全。(An ultrasonic imaging system comprises a host (40), a control panel (50), a display (60) and a movable probe device, wherein the host (40) comprises a shell (41) and a data processing unit (42) accommodated in the shell (41), the control panel (50) is connected to the host (40), the display (60) is connected to the host (40), the movable probe device comprises a supporting device (10) and a probe (20), the probe (20) is installed on the supporting device (10), the supporting device (10) and the host (40) are arranged independently, and the probe (20) and the host (40) are in wired or wireless communication. Because the probe (20) is arranged on the supporting device (10) which is independent of the host (40), the probe (20) has larger moving space, and the supporting device (10) plays a role in supporting and dragging the moving probe (20), thereby being convenient for operators to use, freeing the operators and ensuring the safety of patients.)

An ultrasound imaging system, comprising:

the host comprises a shell and a data processing unit accommodated in the shell;

a control panel connected to the host;

a display connected to the host;

the movable probe device comprises a probe moving device, a supporting device and a probe, wherein the probe is installed on the supporting device, the probe moving device is arranged at the bottom of the supporting device, the supporting device and the host are mutually independent and can independently move relative to the host through the probe moving device, the probe is in wired or wireless communication with the host, the data processing unit receives and processes data from the probe to generate an ultrasonic image, and the display displays the ultrasonic image.

The ultrasonic imaging system of claim 1, wherein the supporting device comprises a vertical column, a first cantilever and a second cantilever, one end of the first cantilever is a supporting end, the other end of the first cantilever is a connecting end, one end of the second cantilever is a connecting end, the other end of the second cantilever is a suspending end, the supporting end of the first cantilever is used for supporting and fixing, the connecting end of the first cantilever is rotatably connected with the connecting end of the second cantilever, and the supporting end of the first cantilever is inserted on the vertical column in a lifting and rotating manner.

The ultrasound imaging system of claim 2, wherein the suspended end of the second boom is mounted with a gimbal for connecting a probe.

The ultrasound imaging system of claim 2, wherein the first and second cantilevers are of a folded configuration, the support end of the first cantilever and the suspended end of the second cantilever are vertically disposed, and the connection end of the first cantilever and the connection end of the second cantilever are horizontally disposed.

The ultrasonic imaging system of claim 2, wherein the probe moving means is disposed at a lower end of the upright.

The ultrasonic imaging system of claim 5, wherein the lower end of the upright is further fitted with a probe locking device.

The ultrasound imaging system of claim 2, wherein a hook for receiving a cable and a slot for receiving a plug of the probe are provided on a rear side of the pillar.

The ultrasonic imaging system of claim 2, wherein the post is provided with a slot for engaging the probe.

The ultrasonic imaging system of claim 6, wherein the mast has a mast handle at an upper end and a brake pad at a lower end, the mast handle or brake pad being coupled to the probe locking device.

The ultrasonic imaging system of any one of claims 2 to 9, wherein the supporting device further comprises a lifting drive mechanism, the lifting drive mechanism is mounted in the upright, an output end of the lifting drive mechanism is connected with the supporting end of the first cantilever, and the lifting drive mechanism is used for driving the lifting of the first cantilever.

The ultrasound imaging system of claim 10, further comprising a drive mechanism controller in signal communication with the lift drive mechanism, the drive mechanism controller for controlling the lifting of the first boom.

The ultrasonic imaging system of any of claims 2 to 9, wherein the support device further comprises a first rotational drive mechanism and a second rotational drive mechanism; the first rotary driving mechanism is installed in the upright column, and the output end of the first rotary driving mechanism is connected with the supporting end of the first cantilever and used for driving the first cantilever to rotate relative to the upright column; the second rotary driving mechanism is installed at the connecting end of the first cantilever, and the output end of the second rotary driving mechanism is connected with the connecting end of the second cantilever and used for driving the second cantilever to rotate relative to the first cantilever.

The ultrasound imaging system of claim 12, further comprising a drive mechanism controller in signal connection with the first and/or second rotational drive mechanisms, the drive mechanism controller for controlling rotation of the first and/or second cantilevers.

The ultrasonic imaging system of any one of claims 2 to 9, wherein the support device further comprises a universal drive mechanism mounted at the suspended end of the second boom, the output of the universal drive mechanism being adapted for connection to a probe for driving the probe to rotate and oscillate relative to the second boom.

The ultrasound imaging system of claim 14, further comprising a drive mechanism controller in signal communication with the gimbaled drive mechanism, the drive mechanism controller for controlling the rotation and oscillation of the probe.

The ultrasonic imaging system of claim 1, wherein the upper end of the probe is provided with a probe handle for manually driving the probe to move.

The ultrasonic imaging system of claim 16, wherein the probe handle has a plurality of control buttons thereon.

The ultrasound imaging system of claim 17, wherein the control keys comprise start and stop keys, lock and unlock keys, and pressure release keys.

The ultrasonic imaging system of claim 2, wherein the movable probe means further comprises a cable of the probe, one end of the cable being adapted to connect to the host and the other end of the cable passing through the post, the first boom and the second boom to connect to the probe.

The ultrasonic imaging system of any one of claims 11 to 15, wherein the movable probe means further comprises a touch panel rotatably mounted on the second boom, the touch panel being in communication with the probe and/or the drive mechanism controller.

The ultrasound imaging system of claim 20, wherein the touch panel is provided with an interactive interface that mates with a mouse and a keyboard.

The ultrasonic imaging system of claim 1, wherein an acoustic window detection mechanism is provided within the probe for detecting whether the acoustic window is in place.

The ultrasonic imaging system of claim 1, wherein the bottom of the host is further provided with a host moving device, and the host can move independently relative to the movable probe device through the host moving device.

The ultrasonic imaging system is characterized by comprising a host and a movable probe device, wherein the movable probe device comprises a supporting device and a probe, the probe is installed on the supporting device, the supporting device and the host are arranged independently, the supporting device is used for supporting and drawing the probe to move, and the probe is in wired or wireless communication with the host.