CN215874682U - CT scanning control system based on intelligent wearable device - Google Patents

Abstract

The utility model belongs to the technical field of CT equipment, and particularly relates to a CT scanning control system based on intelligent wearable equipment. The system comprises intelligent wearable equipment and a CT automatic positioning system; the intelligent wearable equipment is in communication connection with the CT automatic positioning system; the intelligence wearing equipment includes: a main controller; a memory electrically connected to the main controller for storing patient personal information and scanning protocols; the first wireless signal transceiver is electrically connected with the main controller and is used for sending information to the CT control room or receiving information sent by the CT control room; and the calling device is electrically connected with the main controller and is used for carrying out remote calling when the queuing sequence of the patient is close. The utility model has the characteristics of being convenient for CT scanning, accelerating the speed and solving the scanning waiting problem.

Description

CT scanning control system based on intelligent wearable device

Technical Field

The utility model belongs to the technical field of CT equipment, and particularly relates to a CT scanning control system based on intelligent wearable equipment.

Background

A Computed Tomography (CT) system is a device that provides high resolution images of a cross-section of a human body, providing a large amount of accurate, often unavailable information for disease diagnosis. The CT machine is developed by an X-ray machine, and the resolution and the qualitative diagnosis accuracy are much higher than those of a general X-ray machine, so that the CT machine as an examination machine is widely applied to examination of all organic diseases, and can be used for examining and making qualitative diagnosis on organic space-occupying lesions with large density differences.

However, the existing CT scanning control system on the market has the following problems:

the CT needs to be connected by ECG equipment when scanning the heart, so that a plurality of cables are needed and the operation is inconvenient;

2. the scanning information needs to be informed manually;

3. manual positioning by an operator is required;

4. the scanned object is required to refer to the arrangement process by itself.

Therefore, it is necessary to design a CT scanning control system that can facilitate CT scanning, increase the speed, and solve the scanning waiting problem.

For example, the CT system operation control method and system described in chinese patent application No. CN201911120177.4 includes: information registration: registering information of an object to be detected, and selecting a scanning protocol group and a scanning body position; an inspection step of the object to be inspected: clicking a button of a registration interface of the object to be detected to enter an inspection interface of the object to be detected; scanning and reconstruction parameter editing: entering an inspection interface of an object to be inspected to edit scanning parameters and reconstruction parameters; moving the bed: after a scanning start button is clicked, entering a bed moving stage; a paying-off step: when the bed is moved to a specified position, the system sends out prompt information to carry out paying-off operation; and (3) reconstructing a graph: the CT system acquires data and reconstructs the image based on a reconstruction algorithm. Although the universality of the CT scanning process is realized by simplifying operation steps and optimizing back-end logic, the defects are that the CT still needs to be connected by an ECG device when scanning the heart, so that the problems of more cables and inconvenient operation exist, the scanning object still needs to refer to the arrangement process by self, and the problem of scanning waiting cannot be solved.

SUMMERY OF THE UTILITY MODEL

The utility model provides a CT scanning control system based on intelligent wearable equipment, which can conveniently carry out CT scanning, accelerate the speed and solve the scanning waiting problem, in order to overcome the problems of multiple cables, inconvenient operation, low scanning speed and the need of a scanning object to automatically refer to an arrangement process in the existing CT scanning control system in the prior art.

In order to achieve the purpose of the utility model, the utility model adopts the following technical scheme:

the CT scanning control system based on the intelligent wearable equipment comprises the intelligent wearable equipment and a CT automatic positioning system; the intelligent wearable equipment is in communication connection with the CT automatic positioning system; the intelligence wearing equipment includes:

a main controller;

a memory electrically connected to the main controller for storing patient personal information and scanning protocols;

the first wireless signal transceiver is electrically connected with the main controller and is used for sending information to the CT control room or receiving information sent by the CT control room;

and the calling device is electrically connected with the main controller and is used for carrying out remote calling when the queuing sequence of the patient is close.

Preferably, the smart wearable device further comprises an ECG sensor; the ECG sensor is electrically connected with the main controller and is used for acquiring ECG signals of a patient.

Preferably, the automatic CT positioning system is in communication connection with a first wireless signal transceiver in the intelligent wearable device.

Preferably, the CT automatic positioning system comprises a CT positioning controller, a movable bed frame in communication connection with the CT positioning controller; the movable bed frame is used for realizing CT positioning.

Preferably, a second wireless signal transceiver is arranged inside the CT swing controller.

Preferably, the appearance of the intelligent wearable device is in the shape of a watch or a bracelet.

Compared with the prior art, the utility model has the beneficial effects that: (1) according to the utility model, during cardiac scanning, R wave signals and other related information are read in real time through a wireless technology by using intelligent wearing equipment worn on a scanned object, and automatic tube current modulation control is automatically executed in the CT scanning process, so that complex ECG (electrocardiogram) connection preparation is not required, and CT scanning can be rapidly carried out; (2) the intelligent wearable equipment can record the information of a scanned object, and read the information recorded by the wearable equipment before scanning, so that the automatic positioning function of CT is realized; (3) the intelligent wearable device can automatically read the protocol to be scanned from the intelligent wearable device and send the protocol to the upper computer; (4) the utility model has the function of remote calling of the scanned object and can call the scanned object in real time for scanning.

Drawings

Fig. 1 is a schematic block diagram of a CT scanning control system based on an intelligent wearable device according to the present invention;

fig. 2 is a work flow chart of the CT scanning control system based on the intelligent wearable device according to the present invention.

In the figure: the intelligent wearable device comprises an intelligent wearable device 1, a main controller 2, a memory 3, a first wireless signal transceiver 4, a pager 5, an ECG sensor 6, a CT automatic positioning system 7, a CT positioning controller 8 and a movable bed frame 9.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention, the following description will explain the embodiments of the present invention with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the utility model, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort.

Example 1:

the CT scanning control system based on the intelligent wearable device shown in fig. 1 includes an intelligent wearable device 1 and a CT automatic positioning system 7; the intelligent wearable equipment is in communication connection with the CT automatic positioning system; the intelligence wearing equipment includes:

a main controller 2;

a memory 3 electrically connected with the main controller for storing personal information of the patient and scanning protocol;

the first wireless signal transceiver 4 is electrically connected with the main controller and is used for sending information to the CT control room or receiving information sent by the CT control room;

and the calling device 5 is electrically connected with the main controller and is used for making remote calling when the queuing sequence of the patient is close.

Wherein the personal information of the patient comprises the name, age, height, weight and scanning part of the patient.

Further, the intelligent wearable device further comprises an ECG sensor 6; the ECG sensor is electrically connected with the main controller and is used for acquiring ECG signals of a patient.

Further, the automatic CT positioning system is in communication connection with a first wireless signal transceiver in the intelligent wearable device.

Further, the CT automatic positioning system comprises a CT positioning controller 8 and a movable bed frame 9 which is in communication connection with the CT positioning controller; the movable bed frame is used for realizing CT positioning. A positioning control program is programmed in the CT positioning controller, the positioning control program controls the motion parameters of the movable bedstead, the movable bedstead receives a positioning signal of the positioning control program, and a connecting rod mechanism arranged in the movable bedstead drives the movable bedstead to swing in a corresponding direction.

Furthermore, a second wireless signal transceiver is arranged inside the CT swing controller. The second wireless signal transceiver is used for receiving information sent by the intelligent wearable device and feeding back the information to the intelligent wearable device.

Further, intelligence wearing equipment appearance adopts wrist-watch or bracelet shape. Wrist-watch, bracelet shape can make things convenient for the patient to wear and do not additionally increase the burden.

As shown in fig. 2, the work flow of the present invention is as follows:

step S1, obtaining a scanning protocol from a doctor, and sending the scanning protocol to the intelligent wearable device for storage;

step S2, the scanning requirement enters a queuing state, the scanning object (patient) waits for the calling of the intelligent wearing device, and the scanning object (patient) goes to the CT device after the calling;

step S3, before entering CT equipment, the intelligent wearable equipment automatically reads the personal information and scanning protocol of the scanned object (patient);

step S4, the intelligent wearable device sends information to enable the automatic CT positioning system to start operating and complete automatic CT positioning; automatically reading an ECG signal (ECG sensor acquisition) on the intelligent wearable device if the ECG scanning is needed;

in step S5, a CT normal scan procedure is started.

According to the utility model, during cardiac scanning, R wave signals and other related information are read in real time through a wireless technology by using intelligent wearing equipment worn on a scanned object, and automatic tube current modulation control is automatically executed in the CT scanning process, so that complex ECG (electrocardiogram) connection preparation is not required, and CT scanning can be rapidly carried out; the intelligent wearable equipment can record the information of a scanned object, and read the information recorded by the wearable equipment before scanning, so that the automatic positioning function of CT is realized; the intelligent wearable device can automatically read the protocol to be scanned from the intelligent wearable device and send the protocol to the upper computer; the utility model has the function of remote calling of the scanned object and can call the scanned object in real time for scanning.

The foregoing has outlined rather broadly the preferred embodiments and principles of the present invention and it will be appreciated that those skilled in the art may devise variations of the present invention that are within the spirit and scope of the appended claims.

Claims (6)

1. The CT scanning control system based on the intelligent wearable equipment is characterized by comprising the intelligent wearable equipment and a CT automatic positioning system; the intelligent wearable equipment is in communication connection with the CT automatic positioning system; the intelligence wearing equipment includes:

a main controller;

a memory electrically connected to the main controller for storing patient personal information and scanning protocols;

the first wireless signal transceiver is electrically connected with the main controller and is used for sending information to the CT control room or receiving information sent by the CT control room;

and the calling device is electrically connected with the main controller and is used for carrying out remote calling when the queuing sequence of the patient is close.

2. The intelligent wearable device-based CT scan control system of claim 1, wherein the intelligent wearable device further comprises an ECG sensor; the ECG sensor is electrically connected with the main controller and is used for acquiring ECG signals of a patient.

3. The CT scanning control system based on intelligent wearable equipment as claimed in claim 1, wherein the CT automatic positioning system is in communication connection with a first wireless signal transceiver in the intelligent wearable equipment.

4. The CT scanning control system based on intelligent wearable equipment as claimed in claim 1, wherein the CT automatic positioning system comprises a CT positioning controller, a movable bed frame in communication connection with the CT positioning controller; the movable bed frame is used for realizing CT positioning.

5. The CT scanning control system based on intelligent wearing equipment of claim 4, characterized in that, the inside second wireless signal transceiver that is equipped with of CT pendulum controller.

6. The CT scanning control system based on the intelligent wearable device as claimed in any one of claims 1-5, wherein the appearance of the intelligent wearable device is in the shape of a watch or a bracelet.

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