CN204766280U - A intelligent movement system for critical patient's actinoscopy - Google Patents

Abstract

The utility model relates to an intelligent mobile system for radiation examination of critically ill patients, including an information system, a hospital bed system, and an intelligent hydraulic lifting system; the information system includes a hospital general information system, a radiation information system of a department, and a radio frequency card; the hospital bed system includes the patient's hospital bed and the induction system installed on the hospital bed; the intelligent hydraulic lifting system is a system for adjusting the position of the patient's hospital bed. The utility model can directly communicate with the general information system of the hospital and the radiation information system of the department through the radio frequency card worn on the patient's body, which saves the patient's time, enables the patient to receive treatment in time and accurately, and at the same time can accurately transfer the patient from the ward The trolley or rescue trolley can be smoothly moved to the CT diagnosis bed, replacing the traditional manual lifting method, saving manpower and improving efficiency.

Description

An Intelligent Mobile System for Radiological Examination of Critically Ill Patients

technical field

The utility model relates to an intelligent mobile system, in particular to a radio frequency card worn on the patient's body, which can directly communicate with the general information system of the hospital and the radiation information system of the department, and can accurately push the patient from the ward or rescue it. It can be smoothly moved on the trolley to the CT diagnostic bed, replacing the traditional manual lifting method for the intelligent mobile system used for radiological examination of critically ill patients.

Background technique

With the rapid growth of the medical population in the hospital, the number of critically ill patients with acute stroke, elderly patients, and examination patients with obstacles in the movement of the lumbar and cervical spine is also increasing. (Here mainly refers to moving the patient safely from the bed trolley to the CT diagnosis bed). Especially when some group accidents occur (such as traffic accidents, falling from tall buildings, etc.), there will be more such patients. According to the understanding of radiologists in a general hospital in Pudong New District, Shanghai, about 8-10% of patients fall into the above-mentioned situations every day. Sometimes patients with cerebrovascular accidents also have the problem of lifting gently, and when encountering some heavy patients, the problem of movement is even more obvious. A hospital in Pudong, Shanghai once encountered a patient with a brain accident weighing more than 200 kilograms. It was difficult for six people in the CT diagnosis room to place it in an accurate position. Therefore, how to safely move these patients from the ward trolley or the rescue trolley to the CT diagnostic bed has always been a difficult problem to solve.

Radiology information system (RIS-radiology information system) is one of the most important information systems in the hospital. Together with PACS (Image Archiving and Communication System), it constitutes a medical imaging information environment. Workflow (workflow) to manage, control and operate.

Utility model content

In view of the above problems, the main purpose of this utility model is to provide a radio frequency card worn on the patient's body that can directly communicate with the general information system of the hospital and the radiation information system of the department, and can accurately push the patient from the ward or rescue it. It can be smoothly moved on the trolley to the CT diagnostic bed, replacing the traditional manual lifting method for the intelligent mobile system used for radiological examination of critically ill patients.

The utility model solves the above-mentioned technical problems through the following technical solutions: an intelligent mobile system for radiological examination of critically ill patients, the intelligent mobile system includes: an information system, a hospital bed system, and an intelligent hydraulic lifting system;

The information system includes the general information system of the hospital, the radiation information system of the department and the radio frequency card worn on the patient's body; the general information system of the hospital and the radiation information system of the department are connected by wired or wireless means, and the The radio frequency card is connected to the general information system of the hospital through wireless; at the same time, the radio frequency card worn on the patient's body is connected to the radiology information system of the department through wireless;

The bed system includes a patient's bed and an induction system installed on the bed;

The intelligent hydraulic lifting system is a system for adjusting the position of the patient's bed.

In a specific implementation example of the present utility model, the patient's bed includes: a movable bed board, a frame for installing the movable bed board, a bracket supporting the frame, a moving device under the bracket, and a movable intelligent hydraulic lifting system for lifting the movable bed board .

In a specific implementation example of the present utility model, the moving device is a roller.

In a specific implementation example of the present utility model, a damping spring is installed between the roller and the bracket.

In a specific implementation example of the present utility model, several protruding strips are installed on the movable bed board, and grooves matched with the above protruding strips are formed on the frame.

The positive and progressive effect of the utility model is that the intelligent mobile system used for the radiological examination of critically ill patients provided by the utility model has the following advantages: the utility model can directly communicate with the general information system of the hospital and the information of the department through the radio frequency card worn on the patient's body The communication of the radiation information system saves the time of the patient, enables the patient to receive timely and accurate treatment, and at the same time accurately and smoothly moves the patient from the trolley in the ward or the rescue trolley to the diagnostic bed of CT, replacing the traditional manual lifting way, saving manpower and improving efficiency.

Description of drawings

Fig. 1 is the overall structure schematic diagram of the present utility model.

Fig. 2 is a structural schematic diagram of the movable bed board in the utility model.

Fig. 3 is a schematic diagram of the structure of the movable bed in the utility model.

Fig. 4 is a structural schematic diagram of the intelligent hydraulic lifting system in the utility model.

Detailed ways

The preferred embodiments of the utility model are given below in conjunction with the accompanying drawings to describe the technical solution of the utility model in detail.

Figure 1 is a schematic structural diagram of the utility model, as shown in Figure 1, the utility model includes providing an intelligent mobile device suitable for these critically ill patients to safely and reliably perform CT examinations, updating and replacing the original processing flow of traditional manual lifting . The utility model combines an intelligent lifting system for image inspection based on RFID technology with a hospital information system. When the miniature electronic tag carried on the patient's wrist is associated with the pre-diagnosis information sent by the examination technician when entering the examination area, the sensor at the door of the consultation room receives the patient's information and sends three effective signals:

1: Open the door of the consultation room and put the patient into the examination room.

2: The information is associated with the Ris system and enters the Worklist in the inspection equipment, and the content to be inspected by the patient is displayed on the console, and enters the inspection preparation.

3: Start the intelligent lifting system, seamlessly link the hospital information system and the intelligent lifting and moving system, and move the patient from the cart to the CT diagnosis bed. It makes up for the various deficiencies in the previous manual lifting process, provides high-quality and safe mobile services for critically ill patients, and ensures the smooth progress of CT examinations. Improve the service level of departments and reduce unnecessary medical disputes.

In concrete implementation process, implementing the utility model needs three systems:

One is the information system, the other is the hospital bed system, and the third is the intelligent hydraulic lifting system;

The information system includes the general information system of the hospital, the radiation information system of the department and the radio frequency card worn on the patient's body; the general information system of the hospital and the radiation information system of the department are connected by wired or wireless means, and the radio frequency card worn on the patient It is connected to the general information system of the hospital through wireless; at the same time, the radio frequency card worn on the patient's body is connected to the radiation information system of the department through wireless.

The bed system includes a patient's bed and an induction system installed on the bed.

The intelligent hydraulic lifting system is a system for adjusting the position of the patient's bed.

1: Information system

Composed of the hospital information system and the RIS system of the department: the system is based on the hospital information management system (HIS), with advanced wireless local area network technology and RFID technology as the core, and the RFID radio frequency card reader installed on the intelligent mobile system , after the trolley in the ward enters the CT examination room, it automatically conducts a patient information docking test with the radio frequency card on the patient's wrist, and the data terminal performs unified management. After the recognition is complete, the system starts up. After a series of position corrections, the intelligent boosting system will accurately insert the lifting arm into the groove under the movable bed board to perform an upward movement. When the rising position reaches the sign that the ward trolley can be pushed out, the system will issue a prompt to withdraw the ward trolley , After the action is completed, the intelligent mobile system approaches the CT bed, puts the patient on the movable bed on the CT diagnosis bed, and through a series of fine-tuning, the CT imaging examination starts and completes after confirming the accuracy of the position.

2: Hospital bed system

Fig. 2 is a structural schematic diagram of the movable bed board in the utility model. Fig. 3 is a schematic diagram of the structure of the movable bed in the utility model. Fig. 4 is a structural schematic diagram of the intelligent hydraulic lifting system in the utility model. As shown in Figure 2-4: the hospital bed in the utility model is basically similar to the ordinary bed, and the movable bed board above includes: a movable bed board 1, a frame 2 for installing the movable bed board 1, a bracket 3 for supporting the frame 2, and the bottom of the bracket The mobile device 4, the movable intelligent hydraulic lifting system 5 of the lifting movable bed board 1. In a specific implementation process, the moving device may generally be a roller. The utility model considers that lying on the pushcart is all some critically ill patients, and shock-absorbing springs (not shown in the figure) are specially installed between the rollers and the support 3. A plurality of protruding strips 101 are installed on the movable bed board 1, and grooves 201 matched with the above protruding strips 101 are opened on the frame 2. The bed board is designed with high-quality engineering plastics, which will not affect the penetration of rays and will not cause artifacts. After the inspection by the quality control department, it will not affect the image quality at all to ensure the diagnosis of clinicians.

3: Intelligent hydraulic lifting system

The maximum load capacity is designed to be 250kg, and the position automatic adjustment control is designed on the front of the system. When the patient trolley enters the CT room, the infrared system starts to work and drives the position stepping motor to automatically adjust the height to the bed. When the same height is reached, the lifting arm starts to work. When the movable bed is raised above 3-8CM, the system sends out a prompt to move the bed away. After the bed is moved away, the hydraulic lifting system works close to the CT diagnosis bed, and the patient can be moved smoothly. Put it on the CT diagnosis bed together with the movable bed; then return to the original position and stand by. The patient then entered the CT examination procedure.

The intelligent mobile system creates a more superior CT examination environment, and the radio frequency contactless function of RFID and the reconfirmation of patient information by the wireless transmission system further reduce possible medical errors. It provides a more reliable guarantee for the diagnosis of CT examination patients. The intelligent mobile system provides a technologically advanced, safe, reliable and practical solution for the CT diagnosis of critically ill patients, and creates a new mode of position handling for CT diagnosis of critically ill patients. , so that all the hospital's patient-centered high-quality service concepts have been fully reflected.

The basic principles and main features of the present utility model and the advantages of the present utility model have been shown and described above. Those skilled in the art should understand that the utility model is not limited by the above-mentioned embodiments. The above-mentioned embodiments and descriptions only illustrate the principle of the utility model. Without departing from the spirit and scope of the utility model, the utility model The new model also has various changes and improvements, and these changes and improvements all fall within the scope of the claimed utility model, and the claimed protection scope of the utility model is defined by the appended claims and their equivalents.

Claims (5)

1. An intelligent mobile system for radiological examination of critically ill patients, characterized in that: the intelligent mobile system includes: an information system, a hospital bed system, and an intelligent hydraulic lifting system; The information system includes the general information system of the hospital, the radiation information system system of the department and the radio frequency card worn on the patient's body; the general information system of the hospital and the radiation information system of the department are connected by wired or wireless means, and the radio frequency The card is connected to the general information system of the hospital by wireless; at the same time, the radio frequency card worn on the patient's body is connected to the radiation information system of the department by wireless; The bed system includes a patient's bed and an induction system installed on the bed; The intelligent hydraulic lifting system is a system for adjusting the position of the patient's bed. 2. The intelligent mobile system for radiological examination of critically ill patients according to claim 1, characterized in that: the patient's bed comprises: a movable bed board, a frame for installing the movable bed board, a bracket supporting the frame, and a mobile device under the bracket , A mobile intelligent hydraulic lifting system that lifts and lowers the movable bed board. 3. The intelligent mobile system for radiological examination of critically ill patients according to claim 1, characterized in that: the mobile device is a roller. 4. The intelligent mobile system for radiological examination of critically ill patients according to claim 3, characterized in that: a damping spring is installed between the roller and the support. 5. The intelligent mobile system for radiological examination of critically ill patients according to claim 1, characterized in that: several raised strips are installed on the movable bed plate, and grooves matching the raised strips are opened on the frame .