CN213155959U

CN213155959U - Movable telescopic CT clinical monitor

Info

Publication number: CN213155959U
Application number: CN202021060437.1U
Authority: CN
Inventors: 康红娜; 邓小兰; 张然; 冯军
Original assignee: Nanhua University
Current assignee: Nanhua University
Priority date: 2020-06-10
Filing date: 2020-06-10
Publication date: 2021-05-11
Anticipated expiration: 2030-06-10

Abstract

The utility model discloses a portable telescopic CT clinical monitoring appearance, this CT clinical monitoring appearance adopt miniaturized portable design, small and exquisite practicality, can solve the patient and not get out of bed, unmovable just can realize the CT detection function, reach quick, high-efficient patient that has effectively avoided being difficult to remove such as severe patient and bone injury patient and cause the secondary injury to the patient at the removal in-process, thereby this CT clinical monitoring appearance can realize high-efficient diversified diagnosis and treatment with doctor and nursing staff interconnection. The mechanical structure of the scanning motion is very flexible, the scanning head can scan from different directions and inclination angles, and the scanning head can slide relative to the whole machine, so that the longest distance scanning is ensured; the working efficiency of the whole machine can be improved and the service life can be prolonged by arranging the built-in power supply, the air outlet and the access cover.

Description

Movable telescopic CT clinical monitor

Technical Field

The utility model relates to a technical field of CT monitor especially relates to a portable telescopic CT clinical monitor of convenient removal and miniaturized design.

Background

At present, a CT machine used in medical institutions such as hospitals is generally a large-scale stationary device, can basically perform CT scanning on the brain or the whole of a human body, and has the defects of wide overall scanning performance, inconvenient movement, large occupied space for fixation and the like. Therefore, some mobile CT machines capable of performing CT scanning on local positions have appeared, and the currently used mobile CT machine is a mobile small-sized CT examination machine, which is based on the fact that a hospital critical patient and a bone fracture patient cannot move or need to perform CT detection on an affected part by means of external force during the moving process, because if the large-sized fixed CT machine is used, external force assistance is needed during the moving process of the patient or secondary damage may be caused to the patient during the moving process; therefore, the movable small CT machine can solve the problem that the patient is not suitable to leave a sickbed for examination due to uneven vital signs in the diagnosis and treatment process.

In the prior art, there is a need for a small-sized mobile CT machine, but there still exist many drawbacks, such as the following problems: (1) the lack of a built-in power supply requires external power connection, and the use scene and position are limited. (2) Parts with heating property such as power connection operation are arranged in the machine body to form a sealed space, so that heat dissipation of the parts is not facilitated, and the working efficiency is reduced or even burnt due to overhigh temperature of the parts. (3) The rotation of the scan head is limited and not flexible enough. (4) When the movable CT machine is locked at a certain position on the ground and is not moved, the scanning head can not be translated, the scanning of the maximum distance can not be realized, and the scanning range is narrow. (5) When the parts in the movable CT machine are in fault or damaged, the whole CT machine needs to be disassembled for maintenance, the maintenance is troublesome and time-consuming, the parts cannot be maintained or replaced as soon as possible, and the reuse of the CT machine is not facilitated.

Disclosure of Invention

The utility model aims at overcoming above-mentioned prior art's shortcoming, a portable telescopic CT clinical monitoring appearance is provided, this portable telescopic CT clinical monitoring appearance adopts miniaturized portable design, small and exquisite practicality can solve the patient and not get off the bed, unmovable CT detection function just can be realized, it is quick to reach, the high efficiency has effectively avoided patients that are difficult to remove such as severe patient and bone fracture patient to cause the secondary injury to the patient at the removal in-process, thereby this CT clinical monitoring appearance can realize high efficiency diversified diagnosis and treatment with doctor and nursing staff interconnection. The scanning motion mechanical structure of the movable telescopic CT clinical monitor is very flexible, the universal joint is used, the scanning head can flexibly rotate so as to scan from different directions and inclination angles, the sliding screw rod is arranged and installed at the bottom of the upright column to be matched with the track frame, so that the sliding of the integral upright column and the scanning head can be realized, and the longest distance scanning is ensured; the universal joint, the upright post, the sliding screw rod, the track frame and the like can realize three-dimensional CT scanning movement; the CT clinical monitor is provided with a built-in power supply, and can be applied to the CT clinical monitor in the environment that an external power supply cannot be used, so that the convenience and the range of use are improved; an air outlet is arranged on a shell of the CT clinical monitor and used for radiating parts, so that the temperature of the parts can be reduced, the influence of overhigh temperature on the parts is reduced, and the situations of inaccurate monitoring or data error and even burning caused by overhigh temperature of the parts are effectively prevented; the CT monitoring system is provided with the maintenance cover, so that the parts with faults can be conveniently maintained at any time, the maintenance is convenient, rapid and time-saving, the maintenance time and the maintenance difficulty are reduced, and the CT monitoring system can be ensured to return to a working post for use as soon as possible.

The utility model provides a technical scheme that its technical problem adopted is: a movable telescopic CT clinical monitor comprises a monitor cart base, a stand column standing on the monitor cart base, a scanning assembly arranged on the upper portion of the stand column, a plastic shell arranged on the monitor cart base, a control assembly and an image processing assembly arranged in the plastic shell, sliding wheels arranged on two sides of the monitor cart base and braking wheels with braking functions arranged on two sides of the rear portion of the monitor cart base; the scanning assembly comprises a scanning head bracket which is connected with the upright column in an installing way, and a scanning head which is arranged on the scanning head bracket, wherein an X-ray source and a front collimator are arranged in the scanning head, a multi-row detector array and a multi-row rear collimator array are also arranged in the scanning head, an included angle is formed between the front collimator and the multi-row detector array, and a CBS geometrical structure is formed between the front collimator and the multi-row detector array and the body part of the patient to be inspected; the control assembly comprises a host machine for measurement and control, a power supply case which is connected with the host machine and contains a UPS, an integrated circuit, a central processing unit and a memory which are arranged in the power supply case; the image processing assembly comprises an image workstation, an image archiving and transmission system and a laser camera; the front of the plastic shell is provided with an access cover corresponding to the control assembly and the image processing assembly, the front end of the top of the plastic shell is provided with a push-pull handle, and the rear end of the top of the plastic shell is provided with an air outlet for heat dissipation. The power supply case of the UPS is arranged in the host machine, namely a built-in power supply can be normally used under the condition that no power supply is provided outside; the internal parts can generate heat when the host machine works, and hot air can rise, so that the arranged air outlet can help the hot air to be discharged and dissipate heat in time; the front side of the plastic shell is provided with the access cover, so that the fault parts in the plastic shell can be conveniently and quickly maintained or replaced; the push-pull handle arranged on the front side of the plastic shell is larger than the position between the waists according to the height of a human body, so that the push-pull of an operator is facilitated.

Furthermore, the monitoring trolley base is provided with a track frame located behind the plastic shell, a sliding type screw rod which is matched with the track frame in an installing mode to achieve a sliding function is arranged in the track frame, and the stand column is fixedly arranged on the sliding type screw rod in a standing mode. The sliding screw rod is arranged at the bottom of the upright column and matched with the track frame, so that the integral upright column and the scanning head can slide, and the longest distance scanning is ensured.

Furthermore, the control assembly and the image processing assembly are both arranged in the plastic shell, a high-resolution display connected with the control assembly and the image processing assembly is arranged at the top of the plastic shell, and a touch screen for controlling various operation instructions is arranged on the high-resolution display or operation keys for controlling various operation instructions are arranged on the plastic shell.

Furthermore, the scanning head is also provided with a suspension arm, a scanning head support sleeve is arranged on the scanning head support, and the suspension arm and the scanning head support sleeve are hinged through a hinge joint to realize the left-right rotation of the whole scanning head relative to the scanning head support; a universal joint is arranged between the scanning head and the suspension arm to realize the three-dimensional scanning movement of the whole scanning head. The gimbal allows the scanning head to be flexibly rotated for scanning from different orientations and inclinations.

To sum up, the utility model discloses a portable telescopic CT clinical monitoring appearance adopts miniaturized portable design, and small and exquisite practicality can solve the patient and not get off the bed, and unmovable just can realize the CT detection function, reaches fast, high-efficient patient that has avoided being difficult to remove such as severe patient and bone injury patient and causes the secondary injury to the patient at the removal in-process, thereby this CT clinical monitoring appearance can realize high-efficient diversified diagnosis and treatment with doctor and nursing staff interconnection. The scanning motion mechanical structure of the movable telescopic CT clinical monitor is very flexible, the universal joint is used, the scanning head can flexibly rotate so as to scan from different directions and inclination angles, the sliding screw rod is arranged and installed at the bottom of the upright column to be matched with the track frame, so that the sliding of the integral upright column and the scanning head can be realized, and the longest distance scanning is ensured; the universal joint, the upright post, the sliding screw rod, the track frame and the like can realize three-dimensional CT scanning movement; the CT clinical monitor is provided with a built-in power supply, and can be applied to the CT clinical monitor in the environment that an external power supply cannot be used, so that the convenience and the range of use are improved; an air outlet is arranged on a shell of the CT clinical monitor and used for radiating parts, so that the temperature of the parts can be reduced, the influence of overhigh temperature on the parts is reduced, and the situations of inaccurate monitoring or data error and even burning caused by overhigh temperature of the parts are effectively prevented; the CT monitoring system is provided with the maintenance cover, so that the parts with faults can be conveniently maintained at any time, the maintenance is convenient, rapid and time-saving, the maintenance time and the maintenance difficulty are reduced, and the CT monitoring system can be ensured to return to a working post for use as soon as possible.

Drawings

Fig. 1 is a front view of a movable telescopic CT clinical monitor according to embodiment 1 of the present invention;

fig. 2 is a right side view of the movable telescopic CT clinical monitor according to embodiment 1 of the present invention;

fig. 3 is a top view of the movable telescopic CT clinical monitor according to embodiment 1 of the present invention;

fig. 4 is a perspective view of the movable telescopic CT clinical monitor according to embodiment 1 of the present invention;

fig. 5 is an exploded schematic diagram of a movable telescopic CT clinical monitor according to embodiment 1 of the present invention.

Detailed Description

Example 1

The movable telescopic CT clinical monitor described in this embodiment 1, as shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, includes a monitor cart base 1, a stand column 2 standing on the monitor cart base, a scanning assembly 3 mounted on the upper portion of the stand column, a plastic housing 4 mounted on the monitor cart base, a control assembly and an image processing assembly mounted in the plastic housing, sliding wheels 5 mounted on both sides of the monitor cart base, and braking wheels 6 with braking function mounted on both sides of the rear of the monitor cart base; the scanning assembly comprises a scanning head bracket 7 which is connected with the upright column in an installing way and a scanning head 8 which is arranged on the scanning head bracket, wherein an X-ray source (not shown in the figure) and a front collimator 9 are arranged in the scanning head, a multi-row detector array 10 and a multi-row rear collimator array (not shown in the figure) are also arranged in the scanning head, an included angle is formed between the front collimator and the multi-row detector array, and the front collimator and the multi-row detector array form a CBS geometrical structure with the body part of the patient to be detected; the control assembly comprises a host (not shown in the figure) responsible for measurement and control, a power supply case 11 which is connected with the host and contains a UPS, an integrated circuit (not shown in the figure) arranged in the power supply case, a central processing unit and a memory (not shown in the figure); the image processing assembly comprises an image workstation 13, an image archiving and transmission system (not shown), and a laser camera (not shown); the front of the plastic shell is provided with an access cover 14 corresponding to the control component and the image processing component, the front end of the top of the plastic shell is provided with a push-pull handle 15, and the rear end of the top of the plastic shell is provided with an air outlet 16 for heat dissipation. The power supply case of the UPS is arranged in the host machine, namely a built-in power supply can be normally used under the condition that no power supply is provided outside; the internal parts can generate heat when the host machine works, and hot air can rise, so that the arranged air outlet can help the hot air to be discharged and dissipate heat in time; the front side of the plastic shell is provided with the access cover, so that the fault parts in the plastic shell can be conveniently and quickly maintained or replaced; the push-pull handle arranged on the front side of the plastic shell is larger than the position between the waists according to the height of a human body, so that the push-pull of an operator is facilitated.

In this embodiment, the monitoring cart base is provided with a track frame 17 located behind the plastic casing, a sliding screw 18 installed and matched with the track frame to realize a sliding function is arranged in the track frame, and the upright post is fixed on the sliding screw. The sliding screw rod is arranged at the bottom of the upright column and matched with the track frame, so that the integral upright column and the scanning head can slide, and the longest distance scanning is ensured.

In this embodiment, the control component and the image processing component are both installed in the plastic housing, the top of the plastic housing is provided with a high-resolution display 19 connected with the control component and the image processing component, and the high-resolution display is provided with a touch screen for controlling various operation instructions.

In this embodiment, the scanning head is further provided with a suspension arm 20, the scanning head bracket is provided with a scanning head bracket sleeve 21, and the suspension arm and the scanning head bracket sleeve form a hinged installation through a hinged joint 22 to realize the left-right rotation of the whole scanning head relative to the scanning head bracket; a universal joint (not shown in the figure) is also arranged between the scanning head and the suspension arm to realize the three-dimensional scanning movement of the whole scanning head. The gimbal allows the scanning head to be flexibly rotated for scanning from different orientations and inclinations.

This portable telescopic CT clinical monitoring appearance adopts miniaturized portable design, and small and exquisite practicality can realize that the patient does not leave the ward and just can carry out the CT and detect, reaches quick, high-efficient patient that has effectively avoided being difficult to remove such as severe patient and bone fracture patient and causes the secondary injury to the patient at the removal in-process, thereby this CT clinical monitoring appearance can realize high-efficient diversified diagnosis and treatment with doctor and nursing staff interconnection. The scanning motion mechanical structure of the movable telescopic CT clinical monitor is very flexible, the universal joint is used, the scanning head can flexibly rotate so as to scan from different directions and inclination angles, the sliding screw rod is arranged and installed at the bottom of the upright column to be matched with the track frame, so that the sliding of the integral upright column and the scanning head can be realized, and the longest distance scanning is ensured; the universal joint, the upright post, the sliding screw rod, the track frame and the like can realize three-dimensional CT scanning movement; the CT clinical monitor is provided with a built-in power supply, and can be applied to the CT clinical monitor in the environment that an external power supply cannot be used, so that the convenience and the range of use are improved; an air outlet is arranged on a shell of the CT clinical monitor and used for radiating parts, so that the temperature of the parts can be reduced, the influence of overhigh temperature on the parts is reduced, and the situations of inaccurate monitoring or data error and even burning caused by overhigh temperature of the parts are effectively prevented; the CT monitoring system is provided with the maintenance cover, so that the parts with faults can be conveniently maintained at any time, the maintenance is convenient, rapid and time-saving, the maintenance time and the maintenance difficulty are reduced, and the CT monitoring system can be ensured to return to a working post for use as soon as possible.

When the system works, X rays emitted by an X ray source of a scanning head form X ray beams through a front collimator, back scattering X ray beams generated when the X ray beams reach an examination part of a patient to be examined reach a multi-row detector array through a multi-row rear collimator array, signals are collected by a transmission electronic system and are sent to a host, output signals are sent to an integrated circuit (ASIC) of the host for amplification, low-frequency high-frequency noise suppression and level conversion, then analog signal conversion and multi-channel pulse amplitude analysis are carried out, and then the output signals are sent to a central processing assembly to finish other corresponding control processing functions; the processed data is sent back to the host computer for CT image reconstruction, displayed by a high-resolution display, further processed by an image workstation, and finally driven to shoot a CT image and stored by an image archiving and transmission system.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the structure of the present invention in any way. Any simple modification, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention all still fall within the scope of the technical solution of the present invention.

Claims

1. A movable telescopic CT clinical monitor is characterized by comprising a monitor cart base, a stand column standing on the monitor cart base, a scanning assembly arranged on the upper part of the stand column, a plastic shell arranged on the monitor cart base, a control assembly and an image processing assembly arranged in the plastic shell, sliding wheels arranged on two sides of the monitor cart base and braking wheels with braking functions arranged on two sides of the rear part of the monitor cart base; the scanning assembly comprises a scanning head bracket which is connected with the upright column in an installing way, and a scanning head which is arranged on the scanning head bracket, wherein an X-ray source and a front collimator are arranged in the scanning head, and a multi-row detector array and a multi-row rear collimator array are also arranged in the scanning head; the control assembly comprises a host machine for measurement and control, a power supply case which is connected with the host machine and contains a UPS, an integrated circuit, a central processing unit and a memory which are arranged in the power supply case; the image processing assembly comprises an image workstation, an image archiving and transmission system and a laser camera; the front of the plastic shell is provided with an access cover corresponding to the control assembly and the image processing assembly, the front end of the top of the plastic shell is provided with a push-pull handle, and the rear end of the top of the plastic shell is provided with an air outlet for heat dissipation.

2. The movable telescopic CT clinical monitor according to claim 1, wherein the monitor cart base is provided with a rail frame located behind the plastic casing, the rail frame is provided with a sliding screw rod which is installed and matched with the rail frame to realize a sliding function, and the upright post is fixed on the sliding screw rod.

3. A movable telescopic CT clinical monitor according to claim 2, wherein the control module and the image processing module are both mounted in a plastic housing, a high resolution display connected to both the control module and the image processing module is provided on the top of the plastic housing, and a touch screen for controlling various operation commands is provided on the high resolution display or operation keys for controlling various operation commands are provided on the plastic housing.

4. The movable telescopic CT clinical monitor according to claim 3, wherein the scanner head further comprises a suspension arm, the scanner head support is provided with a scanner head support sleeve, the suspension arm and the scanner head support sleeve are hinged by a hinge joint to realize the left and right rotation of the whole scanner head relative to the scanner head support; a universal joint is arranged between the scanning head and the suspension arm to realize the three-dimensional scanning movement of the whole scanning head.