CN217744837U - Physical examination car - Google Patents

Abstract

A physical examination vehicle comprising: the vehicle body is provided with a wireless transmission module; a registration area and a check area are arranged in the vehicle body, the registration area is used for registering information of physical examination persons, and the medical detection equipment is arranged in the check area; the medical detection equipment is provided with a data acquisition module which is used for acquiring and outputting data detected by the medical detection equipment; the wireless transmission module is used for receiving the data output by the data acquisition module and wirelessly transmitting the data to the hospital cloud platform. The automobile body is inside to be equipped with various medical detection equipment, can realize that the completion chest of one-stop formula is passed through, inspection items such as supersound, heart electrograph, hematuria conventionality, blood pressure can carry out omnidirectional medical physical examination to the physical examination person, can satisfy the demand of developing different physical examination persons such as driver's card, health card, the physical examination of job, health physical examination and occupational health inspection. And data detected by the medical detection equipment can be wirelessly transmitted to a hospital cloud platform through the wireless transmission module for remote analysis and diagnosis, so that remote consultation is realized.

Description

Physical examination car

Technical Field

The invention relates to the technical field of mobile medical physical examination vehicles, in particular to a physical examination vehicle.

Background

In the traditional physical examination mode, a physical examiner needs to go to a hospital or a physical examination mechanism for physical examination, and a lot of inconvenience is brought to the physical examiner through the processes of long distance, scattered departments, long-time queuing and the like. For the physical examination persons who are busy in work, far away in residence and inconvenient in action, the physical examination vehicle is difficult to perform physical examination in a medical institution regularly, and compared with the traditional physical examination mode, the physical examination vehicle has stronger flexibility and can well assist the medical institution to provide high-quality and low-cost home medical service for the basic level.

At present, the on-vehicle medical equipment of physical examination car on the market is usually not complete enough, is difficult to satisfy the physical examination demand to, relevant physical examination car can not lead to repeated physical examination with physical examination person's physical examination information transmission, integration, increases physical examination person cost.

SUMMERY OF THE UTILITY MODEL

The invention mainly solves the technical problem of providing the physical examination vehicle which has complete medical detection equipment and can transmit integrated physical examination information, thereby not only meeting the physical examination requirements, but also reducing the cost of physical examiners.

The application provides a physical examination car includes:

the medical examination vehicle comprises a vehicle body, wherein a registration area and an examination area are arranged in the vehicle body, the registration area is used for registering information of a physical examinee, the examination area is provided with medical detection equipment, the medical detection equipment is provided with a data acquisition module, and the data acquisition module is used for acquiring and outputting data detected by the medical detection equipment;

the wireless transmission module is connected with the data acquisition module and used for receiving the data output by the data acquisition module and wirelessly transmitting the data to a hospital cloud platform;

the medical detection apparatus includes: the X-ray machine and the B-ultrasonic examination device are respectively arranged at two ends of the examination area, the height and weight instrument, the sphygmomanometer, the electrocardio examination device and the biochemical analyzer are arranged at one side of the examination area, and the lung function examination instrument, the blood globe and the urine analyzer are arranged at the other side of the examination area.

In one embodiment, the method further comprises: the input end of the data storage module is connected with the output end of the data acquisition module, the output end of the data storage module is connected with the input end of the wireless transmission module, and the data storage module is used for storing the data output by the data acquisition module.

In one embodiment, the X-ray machine comprises: the X-ray shielding room comprises a ray shielding room, a first bulb tube assembly, a first detector assembly, a rotary driving mechanism, a second bulb tube assembly, a second detector assembly, a first lifting mechanism, a second lifting mechanism and a high-voltage generator, wherein the first bulb tube assembly, the first detector assembly, the rotary driving mechanism, the second bulb tube assembly, the second detector assembly, the first lifting mechanism, the second lifting mechanism and the high-voltage generator are arranged inside the ray shielding room; the first bulb tube assembly is arranged opposite to the first detector assembly, the first bulb tube assembly is installed at the power output end of the rotary driving mechanism, and the rotary driving mechanism is used for driving the first bulb tube assembly to rotate around the first detector assembly; the second bulb tube assembly and the second detector assembly are arranged oppositely, the second bulb tube assembly is installed at the power output end of the first lifting mechanism, the second detector assembly is installed at the power output end of the second lifting mechanism, the first lifting mechanism and the second lifting mechanism lift synchronously, the first bulb tube assembly and the second bulb tube assembly are both electrically connected with the high-voltage generator, and the high-voltage generator is used for providing high voltage for the first bulb tube assembly and the second bulb tube assembly; the first bulb tube assembly and the second bulb tube assembly are used for generating and emitting X-rays, the first detector assembly is used for receiving the X-rays emitted by the first bulb tube assembly, and the second detector assembly is used for receiving the X-rays emitted by the second bulb tube assembly.

In one embodiment, the X-ray machine further comprises: a transfer switch having a first transfer position and a second transfer position, the first transfer position being used to electrically connect the first bulb assembly with the high voltage generator, and the second bulb assembly not being electrically connected with the high voltage generator; the second switching gear is used for electrically connecting the second bulb tube assembly with the high-voltage generator, and the first bulb tube assembly is not electrically connected with the high-voltage generator.

In one embodiment, the X-ray machine further comprises: the height identification module is electrically connected with the first lifting mechanism and the second lifting mechanism and used for identifying the height of the physical examination person.

In one embodiment, the X-ray machine further comprises: the inspection bed, the inspection bed telescopic mechanism and the inspection bed lifting mechanism are arranged on the base; the inspection bed is arranged between the first bulb tube assembly and the first detector assembly, the inspection bed is installed at the power output end of the inspection bed telescopic mechanism, and the inspection bed telescopic mechanism is installed at the power output end of the inspection bed lifting mechanism; the inspection bed is provided with a plurality of inspection bed bodies which are mutually connected in a sliding manner, the inspection bed telescopic mechanism is used for providing power for the relative sliding of the plurality of inspection bed bodies, and the inspection bed lifting mechanism is used for outputting reciprocating motion in the vertical direction.

In one embodiment, the X-ray machine further comprises: the size identification module is electrically connected with the examination bed telescopic mechanism and the examination bed lifting mechanism; the size identification module is used for identifying the body length and the body thickness of the examiner.

In one embodiment, an openable or closable shield door is further disposed on the radiation shield room, and the shield door includes: the door body, door body locking module and door body unblock module, door body locking module is used for controlling the door body is closed, door body unblock module is used for controlling the door body is opened.

In one embodiment, the method further comprises: and the printer is connected with the data acquisition module and is used for printing the data output by the data acquisition module.

In one embodiment, a monitoring device is further arranged inside the vehicle body, the monitoring device is connected with the wireless transmission module, the monitoring device is used for monitoring the inside of the vehicle body, and the wireless transmission module is also used for transmitting information monitored by the monitoring device.

According to the physical examination car of above-mentioned embodiment, the automobile body is inside to be equipped with various medical detection equipment, can realize the completion examination items such as chest X-ray, supersound, heart electrograph, hematuria conventionality, blood pressure of one-stop formula, can carry out omnidirectional medical physical examination to physical examination person, can satisfy and develop different physical examination person's such as driver's card, health card, the physical examination of working in, health physical examination and occupational health examination demand. And data detected by the medical detection equipment can be wirelessly transmitted to a hospital cloud platform through the wireless transmission module for remote analysis and diagnosis, so that remote consultation is realized.

Drawings

Fig. 1 is a schematic layout view of a physical examination vehicle provided by the present application;

fig. 2 is a schematic diagram of data transmission of a physical examination vehicle provided by the application;

fig. 3 is a schematic diagram of a data transmission principle of the physical examination vehicle provided by the application;

fig. 4 is a first schematic view of the X-ray machine in the physical examination vehicle provided by the present application;

fig. 5 is a schematic diagram of a second principle of the X-ray machine in the physical examination vehicle provided by the application;

fig. 6 is a schematic diagram of a third principle of the X-ray machine in the physical examination vehicle provided by the present application;

fig. 7 is a block diagram of a control circuit of a physical examination vehicle provided by the present application;

fig. 8 is a schematic view of a ray shielding door in an X-ray machine of the physical examination vehicle provided by the present application;

fig. 9 is a schematic diagram of the X-ray machine in the physical examination vehicle provided by the present application connected to a power supply;

fig. 10 is an exposure flowchart of the X-ray machine in the physical examination vehicle provided by the present application;

fig. 11 is a schematic structural view of an embodiment of an X-ray machine in the cart for physical examination provided by the present application;

FIG. 12 is an X-ray machine in the cart for physical examination provided by the present application;

figure 13 is a side schematic view of a physical examination vehicle as provided herein;

fig. 14 is a schematic structural view of an X-ray machine in the physical examination vehicle provided by the present application;

fig. 15 is a first schematic view of the detection principle of the X-ray machine in the physical examination vehicle provided by the present application;

fig. 16 is a schematic view illustrating a detection principle of the X-ray machine in the physical examination vehicle according to the present application;

fig. 17 is a third schematic diagram of the detection principle of the X-ray machine in the physical examination vehicle provided by the application.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the described features, operations, or characteristics may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of clearly describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where a certain sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The application provides a physical examination car, form to removing the physical examination center, the automobile body is inside to be equipped with various medical detection equipment, can realize that the completion chest of one-stop formula is passed through, inspection items such as supersound, heart electrograph, hematuria conventionality, blood pressure can carry out omnidirectional medical physical examination to the physical examination person, can satisfy the demand of developing different physical examination persons such as driver's card, health card, the physical examination of job, health physical examination and occupational health inspection. And data detected by the medical detection equipment can be wirelessly transmitted to a hospital cloud platform through the wireless transmission module for remote analysis and diagnosis, so that remote consultation is realized.

Referring to fig. 1-3, the present embodiment provides a physical examination vehicle, which mainly comprises: a vehicle body 10, a medical detection device, and a wireless transmission module 30.

The vehicle body 10 is a movable vehicle body, and the vehicle body 10 is further provided with a cab 11 to facilitate the operation of the travel of the vehicle body 10. In general, the vehicle body 10 is driven by an engine, a motor, or the like. Can realize a general examination room and meet the traveling of a large-batch external examination team.

A registration area for registering information of the physical examiner 200 and a check-in area are provided in the interior of the vehicle body 10, and in one embodiment, an information entry device 12 for entering information of the physical examiner is provided in the registration area. In one embodiment, the information entry device 12 is a computer on which a form of information is created to enter information about the physical examination person 200. For example, the name, sex, native place, etc. of the physical examination person are entered, and physical examination item examination result information may be created in a table and filled in after the item detected by the corresponding medical examination device.

The medical detection device is arranged in the examination area and is provided with a data acquisition module which is used for acquiring and outputting data detected by the medical detection device.

Wireless transmission module 30, wireless transmission module 30 is connected with the data acquisition module among the medical detection equipment, and wireless transmission module 30 is used for receiving the data that the medical detection equipment that data acquisition module exported detected to with this data wireless transmission for hospital cloud platform 100, so, can realize remote analysis and diagnosis.

In one embodiment, the wireless transmission module 30 may be at least one of a wifi signal, a 5G/6G network, and a 4G network. In this embodiment, the wireless transmission module 30 preferably employs a 5G network.

Referring to fig. 2, in an embodiment, the hospital cloud platform 100 may further transmit the data transmitted by the wireless transmission module 30 to the doctor visual terminal 101 and the specialist visual terminal 102, respectively, where the doctor visual terminal 101 may be used by a general doctor to view the physical examination result, and the specialist visual terminal 102 may be used by a specialist to view the physical examination result.

Referring to fig. 3, in another embodiment, the doctor visual terminal 101 and the expert visual terminal 102 can transmit data to the physical examination person visual terminal 103 in a wireless or wired manner.

In this embodiment, the doctor visual terminal 101, the expert visual terminal 102, and the physical examiner visual terminal 103 may be mobile phones, tablet computers, etc., and are provided for different people to watch through corresponding client software.

The medical detection apparatus includes: an X-ray machine 21 and a B-ultrasonic examination device 22 which are respectively arranged at two ends of an examination area, a height and weight meter 23, a sphygmomanometer 24, an electrocardio examination device 25 and a biochemical analyzer 26 which are arranged at one side of the examination area, and a lung function examination instrument 27, a hematology instrument 28 and a urine analyzer 29 which are arranged at the other side of the examination area. The X-ray machine 21 can carry out chest radiography operation on a physical examiner, the B-ultrasonic examination device 22 can carry out ultrasonic radiography examination on the physical examiner, the height and weight meter 23 can carry out height and weight measurement on the physical examiner, the sphygmomanometer 24 can examine the blood pressure of the physical examiner, the electrocardiographic examination device 25 can carry out electrocardiographic examination on the physical examiner, the biochemical analyzer 26 can carry out analysis and detection on body fluid of the physical examiner, the pulmonary function tester 27 can carry out examination on the pulmonary function of the physical examiner, the blood globe 28 can analyze the blood of the physical examiner, and the urine analyzer 29 can analyze the urine of the physical examiner.

The body examination vehicle integrates an X-ray machine, a B-ultrasonic examination device 22, a height and weight instrument 23, a sphygmomanometer 24, an electrocardio examination device 25, a biochemical analyzer 26, a lung function examination instrument 27, a hematology instrument 28, a urine analyzer 29 and other medical detection equipment, can complete all-aspect examination on physical examiners, such as common routine examination items, gynecological examination items and the like, so as to meet the use requirements of different physical examiners.

In one embodiment, a toilet 12 is also provided within the body 10 for use by the examiner and the medical staff.

With continued reference to FIG. 1, the B-mode ultrasound examination apparatus 22 includes: a B-ultrasonic machine 221 and a B-ultrasonic examination couch 222. The electrocardiographic examination device 25 includes: an electrocardiograph 251 and an electrocardiograph table 252. A centrifuge 261 and a biochemical analyzer operation table 262 are provided on one side of the examination area inside the vehicle body 10, and a biochemical blood collection table 281 and a medical care table 291 are provided on the other side of the examination area inside the vehicle body 10.

In an embodiment, the physical examination vehicle provided by this embodiment further includes: and the input end of the data storage module is connected with the output end of the data acquisition module, the output end of the data storage module is connected with the input end of the wireless transmission module 30, and the data storage module is used for storing the data, which is output by the data acquisition module and detected by the medical detection equipment, and caching the data.

Referring to fig. 4-17, in one embodiment, the X-ray machine 21 includes: an X-ray machine control module 211, a ray shielding room 215, a first bulb tube assembly 212, a first detector assembly 214, a rotary driving mechanism 218, a second bulb tube assembly 212 ', a second detector assembly 214', a first lifting mechanism 216, a second lifting mechanism 217 and a high voltage generator 213 which are arranged in the ray shielding room 215. The X-ray machine control module 211 is disposed outside the radiation shielding room 215, as shown in fig. 15-17, the first tube assembly 212 is disposed opposite to the first detector assembly 214, and the first tube assembly 212 is mounted on the power output end of the rotary driving mechanism 218, and the rotary driving mechanism 218 is configured to drive the first tube assembly 212 to rotate around the first detector assembly 214, so as to perform helical CT scanning and cone beam CBCT scanning, thereby forming a CT function. The second ball tube assembly 212 'and the second detector assembly 214' are oppositely arranged, the second ball tube assembly 212 'is installed on the first lifting mechanism 216, the second detector assembly 214' is installed on the second lifting mechanism 217, and the first lifting mechanism 216 and the second lifting mechanism 217 can be lifted synchronously to form a DR function, so that the use requirements of physical examination people 200 with different heights can be met.

The high voltage generator 213 is connected to both the first bulb tube assembly 212 and the second bulb tube assembly 212 ', and the high voltage generator 213 is used for providing high voltage to the first bulb tube assembly 212 and the second bulb tube assembly 212'; the first tube assembly 212 is adapted to generate and emit X-rays and the first detector assembly 214 is adapted to receive X-rays emitted by the first tube assembly 212. The second bulb assembly 212 ' is adapted to generate and emit X-rays, and the second detector assembly 214 ' is adapted to receive X-rays emitted by the second bulb assembly 212 '. The X-ray emitted by the bulb assembly penetrates the physical examiner 200 and is received by the detector assembly, and the X-ray received by the detector assembly is processed into a picture by the image processing software and is displayed by the display, so that the physical examiner can be subjected to chest radiography.

Of course, the pictures processed by the image processing software may also be transmitted to the hospital cloud platform 100 through the wireless transmission module 30.

In the present embodiment, the first bulb assembly 212 and the second bulb assembly 212' are provided with beam splitters to confine X-rays. The first detector assembly 214 and the second detector assembly 214' are flat panel detectors, which may be wireless flat panels, or wireless or wired dynamic flat panels, so as to realize fluoroscopy or pneumoconiosis examination for special industries (e.g. mine operation).

As shown in fig. 10, in the exposure process of the X-ray machine, the voltage and current of the first bulb assembly 212 or the second bulb assembly 212' are set by the high voltage generator 213, and it is determined whether the voltage and current are within the set range, if so, the X-ray machine is exposed to the X-ray, if not, the X-ray machine is warned to reset until the voltage and current are within the set range.

As shown in FIG. 11, the X-rays received by the detector assembly are processed by an image processing module 41, wherein image processing software is stored in the image processing module 41 and the image can be displayed by a display 40.

In one embodiment, as shown in fig. 7, an operation room for operating the X-ray machine is further disposed inside the vehicle body, and an operation room display module is disposed in the operation room.

With continued reference to fig. 7, after the first lifting mechanism 216 is lifted to the preset height, the first lifting mechanism locks the module, and when the first lifting mechanism needs to be restarted, the first lifting mechanism unlocks the module. After the second lifting mechanism 217 is lifted to a preset height, the locking module is locked through the second lifting mechanism, and when the second lifting mechanism needs to be restarted, the unlocking module is unlocked through the second lifting mechanism. The first lifting mechanism 216 and the second lifting mechanism 217 control synchronous lifting through the first/second lifting mechanism synchronous lifting module. The rotation driving mechanism 218 drives the second ball tube assembly 212' to rotate to a predetermined position, and then locks the locking module by the rotation driving mechanism, and unlocks the unlocking module by the rotation driving mechanism when restarting is required. The examination bed lifting mechanism drives the examination bed to lift to a preset height, then the examination bed is locked through the examination bed lifting locking module, and when the examination bed is required to be restarted, the examination bed is unlocked through the examination bed lifting unlocking module. The examination bed telescopic mechanism is locked through the examination bed telescopic mechanism locking module after driving the examination bed to stretch to a preset length, and is unlocked through the examination bed telescopic mechanism unlocking module when the examination bed is required to be restarted.

In one embodiment, the first lifting mechanism locking module, the first lifting mechanism unlocking module, the second lifting mechanism locking module, the second lifting mechanism unlocking module, the first/second lifting mechanism synchronous lifting module, the rotary driving mechanism locking module, the rotary driving mechanism unlocking module, the examining bed lifting mechanism locking module, the examining bed lifting unlocking module, the examining bed telescopic mechanism locking module and the examining bed telescopic mechanism unlocking module are all connected with the main control module 300 of the body inspection vehicle, wherein the main control module 300 can control the control of the vehicle body.

In some embodiments, the X-ray machine further comprises: the first lifting mechanism 216, the second lifting mechanism 217, the rotary drive mechanism 216, the examination bed telescoping mechanism 2104, and the examination bed lifting mechanism 2105 can be controlled by a remote controller.

In one embodiment, the X-ray machine 21 further includes: a switch 219, the switch 219 having a first shift position 2191 and a second shift position 2192, the first shift position 2191 being used to electrically connect the first ball tube assembly 21 with the high voltage generator 213, and the second ball tube assembly 212' not being electrically connected with the high voltage generator 213. The second shift position 2192 is used to electrically connect the second bulb assembly 212' with the high voltage generator 213, and the first bulb assembly 212 is not electrically connected with the high voltage generator 213. In other words, by switching the switch 219, while the high voltage generator 213 is connected with one of the bulb assemblies, the other bulb assembly is not connected with the high voltage generator.

As shown in fig. 5, the X-ray machine 21 further includes: the height identification module 2101, the height identification module 2101 is connected with first elevating system 216 and second elevating system 217 electricity, and the height identification module 2101 is used for discerning the height of physical examination person to rise first bulb subassembly 212 and first detector subassembly 214 to the height that adapts to the physical examination person's height through first elevating system 216 and second elevating system 217 respectively.

Referring to fig. 6 and 13, the X-ray machine 21 further includes: an examination bed 2103, an examination bed telescoping mechanism 2104, and an examination bed lifting mechanism 2105; the examination bed 2103 is arranged between the first bulb tube assembly 212 and the first detector assembly 214, the examination bed 2103 is installed at the power output end of the examination bed telescopic mechanism 2104, and the examination bed telescopic mechanism 2104 is installed at the power output end of the examination bed lifting mechanism 2105; the examining table 2103 has a plurality of examining table bodies which are connected with each other in a sliding manner, the examining table telescoping mechanism 2104 is used for providing power for the relative sliding of the examining table bodies, and the examining table lifting mechanism 2105 is used for outputting reciprocating motion in the vertical direction.

In one embodiment, as shown in fig. 6, the X-ray machine 21 further includes: the size recognition modules 2102, wherein the size recognition modules 2102 are electrically connected with the examination bed telescoping mechanism 2104 and the examination bed lifting mechanism 2105; the size recognition module 2102 is configured to recognize the body length and the body thickness of the examiner, and thus, the examination bed 2103 is driven to extend and retract to a length suitable for the body length of the examiner by the examination bed extending and retracting mechanism 2104, and the examination bed 2103 is driven to be raised to a suitable height by the examination bed elevating mechanism 2105 according to the result recognized by the size recognition module 2102.

An openable or closable shield door is further provided on the radiation shielding room 215, and as shown in fig. 8, the shield door includes: the door body, door body locking module 2151 to and door body unblock module 2152, door body locking module 2151 is used for controlling the door body to lock closed, and door body unblock module 2152 is used for controlling the door body to unblock and open. In one embodiment, the barrier door further comprises: door body start control module 2153 and door body emergency control module 2154, door body start control module 2153 and door body emergency control module 2154 are connected with the door body similarly, door body start control module 2153 is used for connecting or disconnecting the connection between the door body and the power supply to start or close the door body, and door body emergency control module 2154 is used for displaying abnormity or alarming in emergency.

Referring to fig. 12, after the radiation shielding door is closed, the door locking module 2151 is triggered to lock the door, and after the door is in a swing position, the X-ray machine control module 211 controls the rotation driving mechanism to drive the first bulb tube assembly 212 to rotate to a proper angle, or the X-ray machine control module 211 controls the first lifting mechanism 216 to drive the first bulb tube assembly 212 to lift to a preset height, and controls the second lifting mechanism 217 to drive the first detector assembly 21 to lift to a preset height synchronously, or the X-ray machine control module 211 controls the inspection bed telescoping mechanism 2104 to drive the inspection bed 2103 to stretch to a preset length, and controls the inspection bed lifting mechanism 2105 to drive the inspection bed 2103 to lift to a preset height. In the process of inputting the radiography conditions, the high voltage generator 213 controls the bulb assembly to reach the voltage and current required by the exposure through the X-ray machine control module 211, and after the exposure, the image information is processed through the image processing module 41 and then transmitted to the display 40, and then transmitted to the hospital cloud platform 100 through the wireless transmission module 30.

In this embodiment, the medical detection device inside the vehicle body may be powered by the mains, or may be powered by a generator, or may be powered by a rechargeable power source. The present embodiment is described by taking a rechargeable power supply as an example. Referring to fig. 9, the power supply is connected to a distribution box, and a primary disconnection switch and a system emergency switch are arranged in the distribution box. A shielding door safety switch is also arranged in the shielding door between the ray shields in the X-ray machine. An operation table is arranged outside the ray shielding room, and the operation room can be operated in a display module mode, so that medical personnel can conveniently watch and operate the operation room.

In an embodiment, the physical examination car that this application provided still includes: the printer is connected with the data acquisition module and can be used for printing the data output by the data acquisition module.

Referring to fig. 13, in the present embodiment, at least two supports 13 are further provided at the bottom of the vehicle body 10, and the supports 13 are used for supporting the vehicle body 10 in a stationary state.

In this embodiment, the supporting member 13 may be a hydraulic supporting member or a jack to support the vehicle body.

In some embodiments, the vehicle body 10 is further provided with an inclined ladder 14 for a user to get up and down into the vehicle body 10.

In some embodiments, a smoke alarm, ultraviolet disinfection and an acoustic horn can be further arranged inside the vehicle body, and functions of face recognition payment, receipt printing and the like can be provided by combining application software.

In an embodiment, a monitoring device is further disposed inside the vehicle body, the monitoring device is connected to the wireless transmission module, the monitoring device is configured to monitor the inside of the vehicle body, and the wireless transmission module 30 is further configured to transmit information monitored by the monitoring device, for example, a corresponding monitoring client is installed on a mobile phone, a computer, and the like, and the information monitored by the monitoring device is transmitted to the mobile phone, the computer, and the like through the wireless transmission module 30.

In conclusion, the physical examination vehicle provided by the application has the advantages that various medical detection devices are arranged in the vehicle body, so that one-stop examination items such as chest X-rays, ultrasound, electrocardiograms, hematuria routine and blood pressure can be completed, all-around medical examination can be performed on physical examiners, and the requirements of different physical examiners such as driving licenses, health certificates, enrollment physical examination, health examination and occupational health examination can be met. And data detected by the medical detection equipment can be wirelessly transmitted to a hospital cloud platform through the wireless transmission module for remote analysis and diagnosis, so that remote consultation is realized.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. A physical examination vehicle, comprising:

the medical examination vehicle comprises a vehicle body, wherein a registration area and an examination area are arranged in the vehicle body, the registration area is used for registering information of a physical examiner, the examination area is provided with medical detection equipment, the medical detection equipment is provided with a data acquisition module, and the data acquisition module is used for acquiring and outputting data detected by the medical detection equipment;

the wireless transmission module is connected with the data acquisition module and used for receiving the data output by the data acquisition module and wirelessly transmitting the data to a hospital cloud platform;

the medical detection apparatus includes: the X-ray machine and the B-ultrasonic examination device are respectively arranged at two ends of the examination area, the height and weight instrument, the sphygmomanometer, the electrocardio examination device and the biochemical analyzer are arranged at one side of the examination area, and the lung function examination instrument, the blood globe and the urine analyzer are arranged at the other side of the examination area.

2. A physical examination vehicle as claimed in claim 1, further comprising: the input end of the data storage module is connected with the output end of the data acquisition module, the output end of the data storage module is connected with the input end of the wireless transmission module, and the data storage module is used for storing the data output by the data acquisition module.

3. The physical examination vehicle according to claim 1, wherein the X-ray machine comprises: the X-ray shielding room comprises a ray shielding room, a first bulb tube assembly, a first detector assembly, a rotary driving mechanism, a second bulb tube assembly, a second detector assembly, a first lifting mechanism, a second lifting mechanism and a high-voltage generator, wherein the first bulb tube assembly, the first detector assembly, the rotary driving mechanism, the second bulb tube assembly, the second detector assembly, the first lifting mechanism, the second lifting mechanism and the high-voltage generator are arranged inside the ray shielding room; the first bulb tube assembly is arranged opposite to the first detector assembly, the first bulb tube assembly is installed at the power output end of the rotary driving mechanism, and the rotary driving mechanism is used for driving the first bulb tube assembly to rotate around the first detector assembly; the second bulb tube assembly and the second detector assembly are arranged oppositely, the second bulb tube assembly is installed at the power output end of the first lifting mechanism, the second detector assembly is installed at the power output end of the second lifting mechanism, the first lifting mechanism and the second lifting mechanism lift synchronously, the first bulb tube assembly and the second bulb tube assembly are both electrically connected with the high-voltage generator, and the high-voltage generator is used for providing high voltage for the first bulb tube assembly and the second bulb tube assembly; the first bulb tube assembly and the second bulb tube assembly are used for generating and emitting X-rays, the first detector assembly is used for receiving the X-rays emitted by the first bulb tube assembly, and the second detector assembly is used for receiving the X-rays emitted by the second bulb tube assembly.

4. A physical examination vehicle according to claim 3, wherein the X-ray machine further comprises: a transfer switch having a first transfer position and a second transfer position, the first transfer position being used to electrically connect the first bulb assembly with the high voltage generator, and the second bulb assembly not being electrically connected with the high voltage generator; the second switching gear is used for electrically connecting the second bulb tube assembly with the high-voltage generator, and the first bulb tube assembly is not electrically connected with the high-voltage generator.

5. A physical examination vehicle according to claim 3, wherein the X-ray machine further comprises: the height identification module is electrically connected with the first lifting mechanism and the second lifting mechanism and used for identifying the height of the physical examination person.

6. A physical examination vehicle according to claim 3, wherein the X-ray machine further comprises: the inspection bed, the inspection bed telescopic mechanism and the inspection bed lifting mechanism are arranged on the base; the inspection bed is arranged between the first bulb tube assembly and the first detector assembly, the inspection bed is installed at the power output end of the inspection bed telescopic mechanism, and the inspection bed telescopic mechanism is installed at the power output end of the inspection bed lifting mechanism; the inspection bed is provided with a plurality of inspection bed bodies which are mutually connected in a sliding manner, the inspection bed telescopic mechanism is used for providing power for the relative sliding of the plurality of inspection bed bodies, and the inspection bed lifting mechanism is used for outputting the reciprocating motion in the vertical direction.

7. The physical examination vehicle according to claim 6, wherein the X-ray machine further comprises: the size identification modules are electrically connected with the examination bed telescopic mechanism and the examination bed lifting mechanism; the size identification module is used for identifying the body length and the body thickness of the examiner.

8. A physical examination vehicle as claimed in claim 3, wherein the radiation shielding room is further provided with an openable or closable shielding door, the shielding door comprising: the door body, door body locking module and door body unblock module, door body locking module is used for controlling the door body is closed, door body unblock module is used for controlling the door body is opened.

9. A physical examination vehicle as claimed in claim 1, further comprising: and the printer is connected with the data acquisition module and is used for printing the data output by the data acquisition module.

10. The physical examination vehicle of claim 1, wherein a monitoring device is further arranged inside the vehicle body, the monitoring device is connected with the wireless transmission module, the monitoring device is used for monitoring the inside of the vehicle body, and the wireless transmission module is also used for transmitting information monitored by the monitoring device.

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