Search

CN-116421125-B - Receiving device for capsule endoscope and data transmission system

CN116421125BCN 116421125 BCN116421125 BCN 116421125BCN-116421125-B

Abstract

The disclosure describes a receiving device and a data transmission system for a capsule endoscope, wherein the receiving device comprises a power module, a first communication module, a storage module, a monitoring module, a second communication module and a control module, wherein the first communication module, the storage module, the monitoring module, the second communication module and the control module are respectively connected with the power module, the first communication module is used for receiving image data, the storage module is used for storing the image data, the second communication module is used for sending the image data to the outside, and the monitoring module is used for monitoring the electric quantity of the power module and disconnecting the second communication module from the outside by the control module when the electric quantity is lower than a preset threshold value. Thus, a receiving device for a capsule endoscope and a data transmission system which have relatively perfect functions and can improve the effectiveness and stability of data transmission can be provided.

Inventors

  • XIA RAN

Assignees

  • 深圳硅基智控科技有限公司

Dates

Publication Date
20260508
Application Date
20230414

Claims (8)

  1. 1. The receiving device for the capsule endoscope is used for acquiring image data in a tissue cavity of a person to be detected and is characterized by comprising a power supply module, a first communication module, a storage module, a monitoring module, a second communication module and a control module, wherein the first communication module, the storage module, the monitoring module, the second communication module and the control module are respectively connected with the power supply module, the first communication module is connected with the capsule endoscope and the storage module, the storage module is connected with the second communication module, the second communication module is connected to the outside, the monitoring module is connected with the control module, the control module is connected with the second communication module, the first communication module is used for receiving the image data, the storage module is used for storing the image data, the second communication module is used for sending the image data to the outside, the monitoring module is used for monitoring the electric quantity of the power supply module, when the electric quantity is higher than a second preset threshold value, the first communication module is directly connected with the second communication module, the second communication module is not connected with the second communication module, the image data can be directly disconnected from the second communication module through the second communication module and the storage module, and the image data can be directly connected with the storage module when the image data is not connected with the second communication module, and the image data can be directly connected with the storage module through the second communication module, and the image data can be stored in the storage module.
  2. 2. The receiving device according to claim 1, wherein, The system also comprises an alarm module, wherein the alarm module is connected with the control module, and the control module controls the alarm module to alarm when the monitoring module monitors that the electric quantity is lower than a first preset threshold value.
  3. 3. The receiving device according to claim 2, wherein, The second preset threshold is smaller than the first preset threshold.
  4. 4. The receiving device according to claim 2, wherein, The alarm module is an alarm lamp.
  5. 5. The receiving device according to claim 1, wherein, The storage module stores the image data transmitted by the first communication module in real time.
  6. 6. The receiving device according to claim 1, wherein, The receiving device is a wearable receiving device.
  7. 7. The receiving device according to claim 1, wherein, The power module is a rechargeable power supply.
  8. 8. A data transmission system for a capsule endoscope, characterized in that, Comprising a receiving device according to any of claims 1-7, and a data terminal and a remote center, said receiving device being communicatively connected to said data terminal or said remote center.

Description

Receiving device for capsule endoscope and data transmission system Technical Field The present disclosure relates generally to the field of medical instruments, and more particularly to a receiving device and data transmission system for a capsule endoscope. Background With the development of modern medical technology, the use of capsule endoscopes for examination has become a mature technology. The capsule endoscope can help medical workers acquire image data within the tissue cavity of the subject to help medical workers diagnose and treat the gastric cavity of the patient. However, existing capsule endoscopy is long (often requires 6 to 8 hours), and the image data it acquires needs to be extracted by medical staff after the end of the examination and takes a lot of time to view before a diagnostic report can be acquired. In application number 202020337002.0, the invention relates to a capsule endoscope data transmission terminal device and a capsule endoscope system, wherein a capsule endoscope recorder is connected with a capsule endoscope for receiving data of the capsule endoscope, and the capsule endoscope data transmission terminal device is connected with the capsule endoscope recorder to send the data of the capsule endoscope to the outside for medical workers to diagnose in time. However, in the above-described technique, the capsule endoscope recorder related thereto has only a function of receiving and transmitting data. In addition, when data transmission is affected by the outside, the data is usually lost, which often affects the effectiveness and stability of data transmission. Disclosure of Invention The present disclosure has been made in view of the above-described circumstances, and an object thereof is to provide a receiving device for a capsule endoscope and a data transmission system which have relatively perfect functions and can improve the effectiveness and stability of data transmission. To this end, a first aspect of the present disclosure provides a receiving apparatus for a capsule endoscope for acquiring image data in a tissue cavity of a subject, including a power module, a first communication module, a storage module, a monitoring module, a second communication module, and a control module, the first communication module, the storage module, the monitoring module, the second communication module, and the control module being respectively connected to the power module, the first communication module being connected to the capsule endoscope and the storage module, the storage module being connected to the second communication module, the second communication module being connected to the outside, the monitoring module being connected to the control module, the control module being connected to the second communication module, the first communication module being configured to receive the image data, the storage module being configured to store the image data, the second communication module being configured to transmit the image data to the outside, the monitoring module being configured to monitor an electric quantity of the power module and to disconnect the second communication module from the outside by the control module when the electric quantity is lower than a preset threshold. In a first aspect of the present disclosure, the receiving device receives image data based on the first communication module, stores the image data to the storage module, and then transmits the image data based on the second communication module. In this case, the image data can be stored in the receiving device, the image data loss caused by the image data in the transmission process can be reduced, the transmitted image data can be more complete, and the effectiveness and stability of the image data transmission can be improved. Meanwhile, when the electric quantity of the power supply module is lower than a preset threshold value, the connection between the receiving device and the outside can be disconnected, so that the residual electric quantity of the receiving device can meet the requirement of the receiving device for receiving image data, the stability of data transmission can be further improved, and the integrity of the image data received by the receiving device can be improved. In addition, in the receiving device according to the first aspect of the present disclosure, optionally, an alarm module is further included, and the alarm module is connected to the control module, and when the monitoring module detects that the electric quantity is lower than the preset threshold value, the control module controls the alarm module to alarm. In this case, the electric quantity of the receiving device can be alerted when it is lower than the preset threshold value, so that the operating state of the receiving device and the connection condition of the receiving device with the outside can be conveniently and timely adjusted. In addition, in the receiving device according to the first as