CN218528889U - Medical detection vehicle - Google Patents

Abstract

The utility model discloses a medical treatment detects car, medical treatment detects the car and includes: the device comprises a vehicle body, a first image detection chamber and a second image detection chamber, wherein the vehicle body is provided with an operation chamber, the first image detection chamber is internally provided with CT detection equipment and/or nuclear magnetic detection equipment, and the second image detection chamber is internally provided with ultrasonic detection equipment; the inflatable membrane has an inflated state and a deflated state, the inflatable membrane limits an operation space located outside the vehicle body in the inflated state, and the inflatable membrane is suitable for being stored in the medical detection vehicle in the deflated state. The medical treatment of this application detects the car and can go to and carry out the disease screening area to needs, and the patient need not go to the hospital and carries out relevant disease screening, can be suitable for many places wide range disease detection demand, the screening of the patient disease of being convenient for to, through setting up inflatable membrane, can detect the outside operating space that forms of car at the medical treatment, inflatable membrane can provide the extra medical space that accords with sanitary environment for medical personnel.

Description

Medical detection vehicle

Technical Field

The utility model belongs to the technical field of the disease detection and specifically relates to a car is detected in medical treatment is related to.

Background

People with diseases have few symptoms in the early stage of the disease, and people have corresponding symptoms when the disease is serious, and then go to a hospital for examination. For example: according to the latest cancer report data, the breast cancer exceeds the lung cancer for the first time, and becomes the most common cancer in the world, accounting for about 11.7% of new cancer cases, and remarkably, the lung cancer still accounts for about 18% of death rate of cancer death. The first five malignant tumors in China are lung cancer, colorectal cancer, gastric cancer, breast cancer and liver cancer in turn. The early cancer screening is to find early or asymptomatic cancer patients among healthy people, and by means of examination and early diagnosis, early treatment is found, 70% of malignant tumors can be avoided, 90% of malignant tumors can be cured, and appropriate treatment measures are taken to obtain good treatment effect. It is becoming increasingly important to discover early stage cancer through early disease screening.

In the related art, screened persons (hereinafter, referred to as patients) can only go to hospitals to perform disease examination, which is inconvenient for patient disease screening and cannot respond to the wide-range disease detection requirements. Moreover, some patients cannot actively go to the hospital for disease screening due to reasons such as distance and the like, and only go to the hospital for examination when the patients get ill, so that the patients easily miss the optimal treatment time and are not beneficial to the health of the patients.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide a medical treatment detects car, this medical treatment detects the car and can go to needs and carry out the disease screening area, and the patient need not go the hospital and carry out relevant disease screening, can be suitable for many places wide range disease detection demands, and the screening of the patient disease of being convenient for, simultaneously, aerify the membrane and can provide the extra medical space that accords with sanitary environment for medical personnel to the operable space of medical treatment detection car has been increased.

According to the utility model discloses a medical treatment detects car, include: the vehicle body is provided with an operation chamber, a first image detection chamber and a second image detection chamber, CT detection equipment and/or nuclear magnetic detection equipment are/is arranged in the first image detection chamber, ultrasonic detection equipment is arranged in the second image detection chamber, and the operation chamber is used for controlling the CT detection equipment and/or the nuclear magnetic detection equipment to work; an inflatable membrane having an inflated state in which the inflatable membrane defines an operating space located outside the vehicle body and a deflated state in which the inflatable membrane is adapted to be received in the medical examination vehicle.

According to the utility model discloses a medical treatment detects the car, can go and carry out the disease screening area to needs, the patient need not go to the hospital and carries out relevant disease screening, can be suitable for many places wide range disease detection demands, the screening of the patient disease of being convenient for, and, can screen out the patient and suffer from the disease in early stage, avoid the patient to miss best treatment time, be favorable to the patient healthy, and simultaneously, through setting up the inflatable membrane, can detect the outside operating space that forms of car at the medical treatment, the inflatable membrane can provide the extra medical space that accords with sanitary environment for medical personnel, thereby the operable space of car is detected in the medical treatment has been increased, and then promote medical personnel and patient and detect the flow and experience.

In some examples of the present invention, the vehicle body is provided with a storage space, and the inflatable membrane is stored in the storage space in the exhaust state.

In some examples of the present invention, a storage box is provided below the vehicle body, and the storage box defines the storage space.

In some examples of the present invention, the medical examination vehicle further comprises: an inflation device for inflating into the inflatable membrane such that the inflatable membrane defines the operating space.

In some examples of the invention, at least one side of the medical examination vehicle is provided with the inflatable membrane.

In some examples of the present invention, the side wall of the operation chamber and/or the side wall of the first image detection chamber and/or the side wall of the second image detection chamber is provided with an expansion chamber, the expansion chamber is communicated with the corresponding chamber.

In some examples of the present invention, at least one side wall of the first image detection chamber is provided with a movable wall, the movable wall is suitable for opening or closing the first image detection chamber, and the movable wall is in the height direction of the medical detection vehicle can be lifted.

In some examples of the invention, the side wall of the first image detection chamber is configured as a radiation shield.

In some examples of the present invention, the operation chamber is adjacent to the first image detection chamber, and the operation chamber is provided with an observation window between the first image detection chambers.

In some examples of the invention, the operation chamber and the second image detection chamber are configured as the same chamber.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic view of the medical inspection vehicle according to an embodiment of the present invention, in cooperation with an inflatable membrane when the medical inspection vehicle is a truck;

fig. 2 is another angle matching schematic diagram of the medical detection vehicle and the inflatable membrane when the medical detection vehicle is a truck according to the embodiment of the invention;

fig. 3 is another schematic view of the medical detection vehicle according to the embodiment of the present invention, which is a truck, and the inflatable membrane fitted at another angle;

fig. 4 is another schematic view of the medical inspection vehicle according to an embodiment of the present invention engaged with an inflatable membrane at an angle when the medical inspection vehicle is a truck;

fig. 5 is a schematic view of the inflatable membrane being stored in the medical examination vehicle when the medical examination vehicle is a truck according to an embodiment of the present invention;

fig. 6 is a schematic view of the inflatable membrane in an inflated state in cooperation with a medical examination vehicle according to an embodiment of the present invention;

fig. 7 is a schematic view of the medical examination vehicle according to the embodiment of the present invention, which is a bus, and the inflatable membrane;

fig. 8 is a schematic view of a medical inspection vehicle according to an embodiment of the present invention when the vehicle is a wagon;

fig. 9 is a schematic view of the internal structure of the medical examination vehicle according to the embodiment of the present invention;

fig. 10 is a side view of a medical examination vehicle according to an embodiment of the present invention when the medical examination vehicle is a wagon;

fig. 11 is a top view of a medical testing vehicle according to an embodiment of the present invention when the vehicle is a wagon;

fig. 12 is a top view of another embodiment of a medical inspection vehicle according to an embodiment of the present invention when the vehicle is a wagon;

fig. 13 is a top view of another embodiment of a medical testing vehicle according to an embodiment of the present invention;

fig. 14 is a schematic view of the internal structure of the medical examination cart according to the embodiment of the present invention;

fig. 15 is a top view of another embodiment of the medical examination vehicle according to the embodiment of the present invention;

fig. 16 is a top view of another embodiment of the medical examination cart according to an embodiment of the present invention;

fig. 17 is a schematic diagram of a vehicle and inflatable membrane fit in accordance with an embodiment of the invention.

Reference numerals are as follows:

a medical examination cart 100;

a vehicle body 10;

an operating chamber 11; an observation window 111; a third door body 112;

a first image detection chamber 12; a CT detection device 121; relief holes 122; a movable wall 123; a first door 124; a first sidewall 125;

a second image detection chamber 13; an ultrasonic detection device 131; a second door body 132; a second side wall 133;

a vehicle body 14;

an expansion shell 20; an expansion bin 21;

a drive assembly 30;

a storage box 40; a housing space 41; a storage box body 42; the door 43 is opened and closed;

an inflatable membrane 50; an operating space 51; an air column 52; a membrane body 53; a connection pipe 54; a notch 55; a ladder 56.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1-17, a medical examination vehicle 100 according to an embodiment of the present invention will be described, where the medical examination vehicle 100 may be a truck, and the medical examination vehicle 100 may also be a bus.

As shown in fig. 1 to 17, a medical examination cart 100 according to an embodiment of the present invention includes: the vehicle body 10 is mounted on a chassis of the medical examination vehicle 100, and the vehicle body 10 is mounted on the chassis. The vehicle body 10 defines an operation chamber 11, a first image detection chamber 12 and a second image detection chamber 13, a CT detection device 121 and/or a nuclear magnetic detection device are disposed in the first image detection chamber 12, that is, only the CT detection device 121 may be disposed in the first image detection chamber 12, only the nuclear magnetic detection device may be disposed in the first image detection chamber 12, and both the CT detection device 121 and the nuclear magnetic detection device may be disposed in the first image detection chamber 12. The operation of the CT detection device 121 and/or the nuclear magnetic detection device is controlled by the operation chamber 11, further, a control device (e.g., a host) is arranged in the operation chamber 11, the control device is used for controlling the CT detection device 121 and/or the nuclear magnetic detection device to work, further, office supplies such as tables and chairs are also arranged in the operation chamber 11, and a worker controls the CT detection device 121 and/or the nuclear magnetic detection device to work in the operation chamber 11 through the control device. Further, the operation chamber 11 and the second image detection chamber 13 are configured as the same chamber, and it can also be understood that the second image detection chamber 13 and the operation chamber 11 communicate such that the second image detection chamber 13 and the operation chamber 11 are configured as one chamber.

The CT detection device 121 may detect a disease that matches the function of the CT detection device 121, and the nuclear magnetic detection device may detect a disease that matches the nuclear magnetic detection device, for example: the CT detection device 121 can detect lung cancer, liver cancer, nasopharyngeal carcinoma, brain tumor, bone tumor and other diseases, and the nuclear magnetic resonance detection device (nuclear magnetic resonance detection device) can have excellent detection and diagnosis functions on brain, thyroid gland, liver, gallbladder, spleen, kidney, pancreas, adrenal gland, uterus, ovary, prostate and other parenchymal organs, heart and great vessels. The present application will be described with reference to the detection of cancer diseases. Further, the CT detection device 121 may be configured as a low dose helical CT, and the CT detection device 121 may be used for lung cancer detection.

An ultrasonic detection device 131 is arranged in the second image detection chamber 13, and the ultrasonic detection device 131 can detect diseases such as thyroid cancer, breast cancer, liver cancer, lymphoma, parotid gland cancer, pleural cancer, ovarian cancer, uterine cancer, kidney cancer, bladder cancer, prostate cancer and the like. Further, the ultrasonic detection device 131 may be configured as a remote ultrasonic MGIUS-R3 (i.e., a remote ultrasonic robot, an ultrasonic device capable of performing remote diagnosis on a patient) or a full-automatic breast ultrasonic scanner, and is used for detecting diseases such as liver cancer, breast cancer, thyroid cancer, and the like. The remote ultrasonic robot is divided into a doctor end and a patient end, and a doctor can conduct remote guidance and control, so that medical data are saved to a certain extent.

In the present application, the cancer detection is taken as an example for illustration, and the medical detection vehicle 100 can rapidly travel to remote areas such as urban areas, rural areas, frontier areas and the like where medical treatment is inconvenient, for example: the medical detection vehicle 100 is driven to a community, an office building, a business district and other areas for early disease screening, and the health degree of the whole community is improved. When a certain area needs disease (cancer) detection service, the medical detection vehicle 100 runs to the area needing disease screening, the medical detection vehicle 100 serves as a temporary building and can be put into use for several minutes without installation and construction, patients can carry out related disease detection in the first image detection chamber 12 and the second image detection chamber 13 of the medical detection vehicle 100, the patients do not need to go to a hospital to carry out related disease screening, the early screening of the diseases of the patients is facilitated, the diseases of the patients can be screened out in the early stage, the patients are prevented from missing the optimal treatment time, and the health of the patients is facilitated.

It should be noted that the operation chamber 11, the first image detection chamber 12, and the second image detection chamber 13 are all provided with corresponding medical equipment, office furniture (bed, table, chair, cabinet, etc.), office supplies, and the medical equipment is designed to be arranged according to the specification, so as to achieve high utilization of space. Other types of disease detection devices can be configured in the medical examination cart 100 of the present application, and the types of disease detection devices can be reasonably selected according to the types of diseases to be detected in the screening area. The CT detection device 121 can work at full load for 10-12 hours without an external charging source, and can be fully charged with an external residential power supply for 6 hours.

The medical examination cart 100 further includes: the inflatable membrane 50 has an inflated state and a deflated state, the inflatable membrane 50 defines an operation space 51 outside the vehicle body 10 when the inflatable membrane 50 is in the inflated state, and the inflatable membrane 50 is suitable for being stored in the medical examination vehicle 100 when the inflatable membrane 50 is in the deflated state. Specifically, when the medical examination vehicle 100 travels to a region where a disease screening needs to be performed, the inflatable membrane 50 is moved out of the medical examination vehicle 100, the inflatable membrane 50 is inflated to define an operation space 51 located outside the vehicle body 10, after the medical examination device is placed in the operation space 51, a medical worker can perform relevant disease detection work on a patient in the operation space 51, so that the detection efficiency of the medical examination vehicle 100 can be improved, the activity space of the medical examination vehicle 100 can also be increased, the operation space 51 can also be used as a space where the patient waits for examination, a chair can be placed in the operation space 51, when the patient queues up for treatment, the patient can sit on the chair for waiting examination in the operation space 51, and when the inflatable membrane 50 does not need to be used, gas in the inflatable membrane 50 is discharged, so that the inflatable membrane 50 is stored in the medical examination vehicle 100. Through setting up inflatable membrane 50, inflatable membrane 50 can provide the extra medical space that accords with sanitary environment for medical personnel to increased medical treatment and detected the operable space 51 of car 100, and then promoted medical personnel and patient and detected the flow and experience.

It should be noted that, as shown in fig. 2, the inflatable membrane 50 may include a plurality of inflatable pillars 52 and a membrane body 53, the plurality of inflatable pillars 52 may be communicated with each other, the plurality of inflatable pillars 52 are connected to the membrane body 53, the inflatable pillars 52 serve as a supporting framework of the inflatable membrane 50, when the plurality of inflatable pillars 52 are filled with gas, the plurality of inflatable pillars 52 may support the membrane body 53, so that the inflatable membrane 50 defines an operating space 51, when the gas in the plurality of inflatable pillars 52 is discharged, the inflatable membranes 50 are stacked together, and the inflatable membrane 50 may be accommodated in the medical examination vehicle 100.

From this, medical treatment of this application detects car 100 can go to and needs carry out the disease screening area, and the patient need not go to the hospital and carries out relevant disease screening, can be suitable for many places wide range disease detection demands, the screening of the patient disease of being convenient for to, can screen out the patient disease that the patient got early, avoid the patient to miss optimum treatment time, be favorable to the patient healthy, simultaneously, can furthest reduce treatment cost and improve the survival rate at the early discovery disease of cancer. Meanwhile, by arranging the inflatable membrane 50, the operation space 51 can be formed outside the medical detection vehicle 100, and the inflatable membrane 50 can provide an additional medical space meeting the sanitary environment for medical staff, so that the operable space of the medical detection vehicle 100 is increased, and the detection flow experience of the medical staff and patients is further improved.

In some embodiments of the present invention, as shown in fig. 5 and 6, the vehicle body 10 is provided with a housing space 41, and the inflatable membrane 50 is housed in the housing space 41 in the exhaust state. The arrangement can prevent the inflatable membrane 50 from being exposed outside the medical detection vehicle 100, and can prevent the inflatable membrane 50 from being scratched by other objects, so that the service life of the inflatable membrane 50 can be prolonged.

In some embodiments of the present invention, as shown in fig. 5 and fig. 6, a storage box 40 is disposed below the vehicle body 10, the storage box 40 defines a storage space 41, and further, the storage box 40 includes a storage box body 42 and an opening/closing door 43, the storage box body 42 defines the storage space 41 with one open end, the opening/closing door 43 is rotatably mounted on the storage box body 42, and the opening/closing door 43 is used for opening or closing the open end of the storage space 41. When the inflatable membrane 50 is required to be used, the opening and closing door 43 opens the open end of the accommodating space 41, the inflatable membrane 50 is moved out of the accommodating space 41, then the inflatable membrane 50 is inflated, so that the inflatable membrane 50 defines an operation space 51, when the inflatable membrane 50 is not required to be used, the gas in the inflatable membrane 50 is exhausted, the inflatable membrane 50 is placed in the accommodating space 41, and the opening and closing door 43 closes the open end of the accommodating space 41.

In some embodiments of the present invention, the medical examination cart 100 may further include: and an inflator (not shown) for inflating the inflatable membrane 50 so that the inflatable membrane 50 defines an operation space 51. Further, the inflator may be provided as an inflator, and preferably, the inflator is an automatic inflator. Further, as shown in fig. 2 and 6, a connection pipe 54 is connected between the inflator and the inflator 52, the connection pipe 54 is connected to the inflator and the inflator 52, the connection pipe 54 may be a flexible pipe, the connection pipe 54 may also be a rigid pipe (e.g., a metal pipe or a rigid plastic pipe), and the connection pipe 54 may also be defined by a film structure. When the medical detection vehicle 100 runs to a region where disease screening is needed, the inflatable membrane 50 moves out of the storage space 41, the automatic inflation pump inflates the inflatable column 52 through the connecting pipe 54, and the inflatable column 52 is filled with air and then is molded, so that the inflatable membrane 50 defines an operation space 51, and the movement space of the medical detection vehicle 100 is increased. By providing the inflator, the inflator 52 can be quickly filled with gas, and the operation space 51 can be quickly defined outside the medical examination vehicle 100.

In some embodiments of the present invention, at least one side of the medical examination cart 100 is provided with the inflatable membrane 50, it should be noted that the medical examination cart 100 has a front side, a rear side, a left side, a right side and an upper side, and the front side and/or the rear side and/or the left side and/or the right side and/or the upper side of the medical examination cart 100 is provided with the inflatable membrane 50, for example: the right side of the medical examination vehicle 100 is provided with an inflatable membrane 50, and the inflatable membrane 50 may be disposed adjacent to the vehicle 100 in an inflated state of the inflatable membrane 50. The inflatable membrane 50 is prefabricated on the vehicle body 10, the inflatable membrane 50 can be directly carried by the medical detection vehicle 100 to different areas, the inflatable membrane 50 is suitable for different places, the requirement of the inflatable membrane 50 on the land base is low, and the inflatable membrane 50 can quickly limit the operation space 51.

It should be noted that the inflatable membrane 50 may be provided as an integral piece with the medical examination cart 100, and the inflatable membrane 50 may also be provided as a separate piece with the medical examination cart 100. The medical detection vehicle 100 can be provided with positive and negative pressure devices, the operation space 51 of the inflatable membrane 50 can be inflated or deflated by the positive and negative pressure devices, the pressure in the operation space 51 can be adjusted, the requirement of adjusting the positive and negative pressure in the operation space 51 can be realized, and the inflatable membrane 50 has the requirements of rain resistance, ultraviolet resistance, heat preservation and other medical environments.

Further, the medical examination apparatus is located in the vehicle body 10, and the medical examination vehicle 100 can be quickly put into use by simply moving and installing the apparatus when it is driven to a region where disease screening is required. The medical examination vehicle 100 is a special vehicle designed for the medical industry and capable of meeting the functions of routine physical examination, treatment, emergency medical rescue and the like, and the medical examination vehicle 100 can be further equipped with an X-ray machine, an electrocardio-ultrasonic examination device, a full-automatic biochemical analyzer, an examination bed, a freezer, an air conditioner, an ultraviolet disinfection lamp and other advanced medical instruments. The medical examination vehicle 100 can form modes of visiting medical services, establishing medical teams going down the country, establishing emergency medical plans in a short time when emergencies happen, and the like. The medical examination cart 100 may perform some routine examinations such as: the medical examination vehicle 100 can be used for chest X-ray examination, electrocardio examination, B-ultrasonic examination, biochemical examination, hearing test and other examinations, and as long as the medical examination equipment can be carried away by the medical examination vehicle 100, the medical examination equipment can be arranged in the medical examination vehicle 100, so that the medical examination vehicle 100 has more disease detection functions.

In some embodiments of the present invention, as shown in fig. 8-14, the side wall of the operation chamber 11 and/or the side wall of the first image detection chamber 12 and/or the side wall of the second image detection chamber 13 are provided with an extension chamber 21, further, the side wall of the operation chamber 11 and/or the side wall of the first image detection chamber 12 and/or the side wall of the second image detection chamber 13 are provided with an extension chamber 21 protruding from the vehicle body 10, the side wall of the operation chamber 11, the side wall of the first image detection chamber 12 and the side wall of the second image detection chamber 13 each include a circumferential side wall, a top wall and a bottom wall, the circumferential side wall is connected between the top wall and the bottom wall, the circumferential side wall may include a front side wall, a rear side wall, a left side wall and a right side wall, the extension chamber 21 may be disposed on the front side wall and/or the rear side wall and/or the left side wall and/or the right side wall and/or the top wall and/or the bottom wall of the corresponding chamber, the expanding chamber 21 is communicated with the corresponding chamber, and it can also be understood that when the expanding chamber 21 is arranged on the side wall of the operation chamber 11, the end part of the expanding chamber 21 opposite to the operation chamber 11 is arranged in an open manner, so that the expanding chamber 21 is communicated with the operation chamber 11, when the expanding chamber 21 is arranged on the side wall of the first image detection chamber 12, the end part of the expanding chamber 21 opposite to the first image detection chamber 12 is arranged in an open manner, so that the expanding chamber 21 is communicated with the first image detection chamber 12, and when the expanding chamber 21 is arranged on the side wall of the second image detection chamber 13, the end part of the expanding chamber 21 opposite to the second image detection chamber 13 is arranged in an open manner, so that the expanding chamber 21 is communicated with the second image detection chamber 13.

Further, as shown in fig. 8 to 14, an expansion bin 21 is disposed on a left side wall and/or a right side wall and/or a rear side wall of the first image detection chamber 12, an expansion bin 21 is disposed on a left side wall and/or a right side wall of the second image detection chamber 13, the expansion bin 21 can increase spaces of the first image detection chamber 12 and the second image detection chamber 13, and people in the chambers can walk in the expansion bin 21 to avoid collision between the people and equipment in the first image detection chamber 12 and the second image detection chamber 13, and corresponding equipment can be placed in the expansion bin 21, so that the number of equipment placed in the first image detection chamber 12 and the second image detection chamber 13 can be reduced, and the first image detection chamber 12 and the second image detection chamber 13 can be more spacious.

In some embodiments of the present invention, as shown in fig. 8 and 9, the sidewall of the operation chamber 11 and/or the sidewall of the first image detection chamber 12 and/or the sidewall of the second image detection chamber 13 are provided with the avoiding hole 122, and the expansion chamber 21 is disposed in the avoiding hole 122. Wherein, when the lateral wall of first image detection cavity 12 is provided with expansion bin 21, the lateral wall of first image detection cavity 12 is provided with dodge hole 122, when the lateral wall of second image detection cavity 13 is provided with expansion bin 21, the lateral wall of second image detection cavity 13 is provided with dodge hole 122, when the lateral wall of operation cavity 11 is provided with expansion bin 21, the lateral wall of operation cavity 11 is provided with dodge hole 122, expansion bin 21 sets up in dodging hole 122, the open end of expansion bin 21 corresponds the setting with dodge hole 122, the setting can realize the effect of expanding bin 21 and corresponding cavity intercommunication like this, can guarantee that expansion bin 21 has the effect of expanding the space.

In some embodiments of the present invention, as shown in fig. 8-13, the medical examination cart 100 may further include: the expansion shell 20 defines an expansion chamber 21, and further, the expansion shell 20 defines an expansion chamber 21 with one open end. The expansion shell 20 is movably disposed on a sidewall of the operation chamber 11 and/or a sidewall of the first image detection chamber 12 and/or a sidewall of the second image detection chamber 13 so that the expansion shell 20 moves toward or away from the vehicle body 10. When the expansion shell 20 is movably disposed on the sidewall of the operation chamber 11, the expansion shell 20 may move toward or away from the operation chamber 11, when the expansion shell 20 is movably disposed on the sidewall of the first image detection chamber 12, the expansion shell 20 may move toward or away from the first image detection chamber 12, and when the expansion shell 20 is movably disposed on the sidewall of the second image detection chamber 13, the expansion shell 20 may move toward or away from the second image detection chamber 13.

It should be noted that, when the medical examination vehicle 100 does not perform disease examination, the expansion shell 20 is pushed towards the corresponding chamber, so that the size of the expansion shell 20 protruding out of the vehicle body 10 is reduced, the external size of the medical examination vehicle 100 can be reduced, and the risk of collision between the expansion shell 20 and an external object can be reduced. When the medical detection vehicle 100 is required to detect diseases, when the medical detection vehicle 100 runs to a disease screening area, the expansion shell 20 is drawn out in a direction away from the vehicle body 10, and the space of the corresponding cavity is increased, so that the requirement for the area in the corresponding cavity can be met.

Further, the expansion shell 20 can be automatically controlled to move towards or away from the vehicle body 10, specifically, the medical detection vehicle 100 can be provided with a driving device, the driving device is connected with the expansion shell 20, the driving device is connected with a controller of the medical detection vehicle 100, the controller is connected with a control switch, the control switch can be pressed to control the driving device to drive the expansion shell 20 to move towards or away from the vehicle body 10 through the controller, and the arrangement can prevent a person from manually pushing or pulling the expansion shell 20, so that the expansion shell 20 can be conveniently controlled to move towards or away from the vehicle body 10.

In some embodiments of the present invention, the side wall of the operation chamber 11 and/or the side wall of the first image detection chamber 12 and/or the side wall of the second image detection chamber 13 are provided with a first guiding structure, the expansion shell 20 is provided with a second guiding structure, and the first guiding structure and the second guiding structure are guided to cooperate to move the expansion shell 20 toward or away from the vehicle body 10. The sidewall of the first image detection chamber 12 is provided with the expansion shell 20, the sidewall of the first image detection chamber 12 is provided with the first guide structure, the expansion shell 20 is provided with the second guide structure, when the expansion shell 20 moves towards or away from the first image detection chamber 12, the expansion shell 20 can only move towards or away from the first image detection chamber 12 through the guide of the cooperation of the first guide structure and the second guide structure, and the expansion shell 20 can be prevented from moving towards other directions, so that the expansion shell 20 can be ensured to be smoothly inserted into or pulled out of the first image detection chamber 12.

Further, one of the first guide structure and the second guide structure is provided as a guide groove, and the other of the first guide structure and the second guide structure is provided as a guide block slidably mounted in the guide groove. Preferably, the first guide structure is provided with a guide block, the second guide structure is provided as a guide groove, the guide groove extends in the moving direction of the expansion shell 20, and when the expansion shell 20 moves towards or away from the first image detection chamber 12, the expansion shell 20 can stably move towards or away from the vehicle body 10 through the guide groove and the guide block in a matched guide manner.

In some embodiments of the present invention, the medical examination cart 100 may further include: the folding plate assembly, which has an unfolding position and a storage position, defines the expansion compartment 21 when in the unfolding position, and is stacked on the vehicle body 10 when in the storage position, may also be understood as being disposed on the vehicle body 10 by folding the folding plate assembly together. Further, the folding plate assembly may include a plurality of folding plates, and when the medical examination vehicle 100 does not perform disease detection, the plurality of folding plates are folded together and stacked on the vehicle body 10, so that the size of the expansion shell 20 protruding out of the vehicle body 10 is reduced, the external size of the medical examination vehicle 100 may be reduced, and the risk of collision between the expansion shell 20 and an external object may be reduced. When the medical detection vehicle 100 is required to detect diseases, when the medical detection vehicle 100 runs to a disease screening area, the folding plate assembly is opened to enable the plurality of folding plates to be opened to jointly define the expansion bin 21, and the corresponding chamber space is increased, so that the requirement for the area in the corresponding chamber can be met. It should be noted that the folding manner of the plurality of folding plates of the folding plate assembly is not limited as long as the plurality of folding plates can be stacked on the vehicle body 10, and the opening manner of the plurality of folding plates of the folding plate assembly is not limited as long as the plurality of folding plates are opened to define the extension cabin 21.

In some embodiments of the present invention, as shown in fig. 8 to 10, at least one side wall of the first image detection chamber 12 is provided with a movable wall 123, a partial structure of the side wall of the first image detection chamber 12 is configured as the movable wall 123, or a whole structure of the side wall of the first image detection chamber 12 is configured as the movable wall 123, preferably, a whole structure of the side wall of the first image detection chamber 12 is configured as the movable wall 123, the movable wall 123 is suitable for opening or closing the first image detection chamber 12, further, as shown in fig. 10, a rear side wall of the first image detection chamber 12 is configured as the movable wall 123, a rear end of the first image detection chamber 12 is open, the movable wall 123 is suitable for opening or closing the open end of the first image detection chamber 12, and when the movable wall 123 closes the open end of the first image detection chamber 12, the movable wall 123 may seal the first image detection chamber 12. Moreover, the movable wall 123 can be lifted in the height direction of the medical examination cart 100, and the movable wall 123 is used for supporting the patient so that the patient can conveniently enter the first image examination chamber 12.

Wherein, when the movable wall 123 closes the open end of the first image detection chamber 12, the movable wall 123 may be parallel to the height direction of the medical detection vehicle 100, and when the movable wall 123 opens the open end of the first image detection chamber 12, the movable wall 123 may be parallel to the horizontal plane, when a patient with inconvenient actions needs to enter the first image detection chamber 12, for example: when a patient takes a wheelchair to enter the first image detection chamber 12, the movable wall 123 is controlled to open the open end of the first image detection chamber 12, the movable wall 123 is made to be parallel to the horizontal plane, the height of the movable wall 123 is controlled to fall, then the wheelchair is moved onto the movable wall 123, the movable wall 123 supports the wheelchair, the height of the movable wall 123 is controlled to rise, the height of the movable wall 123 is made to be the same as or approximately the same as that of the bottom wall of the first image detection chamber 12, then the patient takes the wheelchair to enter the first image detection chamber 12, and after the patient takes the wheelchair to enter the first image detection chamber 12, the movable wall 123 can be controlled to close the open end of the first image detection chamber 12. So set up can be convenient for the inconvenient patient of action and the convenient patient of action gets into first image and detects cavity 12, can promote medical treatment and detect car 100 and use and experience to promote patient's satisfaction.

In some embodiments of the present invention, as shown in fig. 10, the medical examination cart 100 may further include: and the driving component 30, the driving component 30 is used for driving the movable wall 123 to open or close the first image detection chamber 12, and the driving component 30 is also used for driving the movable wall 123 to ascend and descend. Further, the driving assembly 30 is connected to a controller of the medical examination vehicle 100, the controller is connected to a control key, the control key can be pressed to control the driving assembly 30 to drive the movable wall 123 to open or close the first image detection chamber 12 through the controller, and the control key can also be pressed to control the driving assembly 30 to drive the movable wall 123 to lift through the controller, so that the movable wall 123 can be automatically controlled to open or close the first image detection chamber 12, and the movable wall 123 can also be automatically controlled to lift. It should be noted that the driving assembly 30 may be disposed on the chassis of the vehicle body 10 or the medical examination vehicle 100, the specific structure of the driving assembly 30 is not limited, and the driving assembly 30 may be configured as a hydraulic cylinder assembly, for example, as long as the above-mentioned functions can be achieved by the driving assembly 30.

In some embodiments of the present invention, the sidewall of the first image detection chamber 12 is configured as a radiation-proof member, and it can be understood that the sidewall defining the first image detection chamber 12 is configured as a radiation-proof member, for example: first image detection cavity 12 is the tetragonal structure, and the preceding lateral wall, back lateral wall, left side wall, right side wall, go up lateral wall (roof) and lower lateral wall (diapire) of first image detection cavity 12 all construct the piece of protecting against radiation, and the piece of protecting against radiation can be made as the material by lead skin, industry barium sulfate, iron sheet that purity is high, and furtherly, the piece of protecting against radiation sets up to the stereotype, and the stereotype is injectd first image detection cavity 12, and the thickness of stereotype can be specifically selected according to actual conditions.

After the CT detection device 121 and/or the nuclear magnetic detection device are installed in the first image detection chamber 12, the first image detection chamber 12 needs to have an anti-radiation function, so that the staff operating the chamber 11 and other staff near the first image detection chamber 12 are protected from the harm of the X-ray. Through all setting up the lateral wall with first image detection cavity 12 into the radiation protection piece in this application, can make first image detection cavity 12 possess the isolation radiation function, make first image detection cavity 12 have the antiradiation ability, avoid the radiation that CT check out test set 121 and/or nuclear magnetic detection equipment during operation produced to leak.

Further, install in the expansion shell 20 or the folding plate subassembly of the lateral wall of first image detection cavity 12 and all set up to the piece of protecting against radiation, further, expand shell 20, the folding plate subassembly is made by the stereotype, so set up and to promote the radioresistance ability of first image detection cavity 12 further, can further avoid the radiation that CT check out test set 121 and/or nuclear magnetic detection equipment during operation produced to leak.

Further, the inner surface of the upper side wall of the first image detection chamber 12 may be provided with a ceiling, and a comic or landscape pattern may be provided on the ceiling, so that when a patient lies on the bed in the first image detection chamber 12 for examination, the patient is required to lie on his back in the ward, and by providing the comic or landscape pattern on the ceiling, the patient can be relieved from bad mood after seeing the comic or landscape pattern.

In some embodiments of the present invention, as shown in fig. 9-16, the operation chamber 11 is disposed adjacent to the first image detection chamber 12, and an observation window 111 is disposed between the operation chamber 11 and the first image detection chamber 12, and the observation window 111 may be made of lead glass. An operator can observe the patient condition in the first image detection chamber 12 through the observation window 111, and can also observe the operation condition of the CT detection device 121 and/or the nuclear magnetic detection device in the first image detection chamber 12, so that the operator can conveniently control the CT detection device 121 and/or the nuclear magnetic detection device to work.

In some embodiments of the present invention, as shown in fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14 and fig. 16, the operation chamber 11 is located between the first image detection chamber 12 and the second image detection chamber 13, further, in the front-back direction of the medical examination cart 100, the operation chamber 11 is disposed between the first image detection chamber 12 and the second image detection chamber 13, the second image detection chamber 13 may be disposed at the front side of the operation chamber 11, the first image detection chamber 12 may be disposed at the rear side of the operation chamber 11, or the first image detection chamber 12 may be disposed at the front side of the operation chamber 11, the second image detection chamber 13 may be disposed at the rear side of the operation chamber 11, preferably, the first image detection chamber 12, the second image detection chamber 13 and the operation chamber 11 are all disposed as one, the second image detection chamber 13 is disposed at the front side of the operation chamber 11, and the first image detection chamber 12 is disposed at the rear side of the operation chamber 11. A first sidewall 125 of the first image detection chamber 12 opposite to the operation chamber 11 is configured as a sidewall of the operation chamber 11, and a second sidewall 133 of the second image detection chamber 13 opposite to the operation chamber 11 is configured as a sidewall of the operation chamber 11. It should be noted that the front side wall (i.e., the first side wall 125) of the first image detection chamber 12 is configured as the rear side wall of the operation chamber 11, and the rear side wall (i.e., the second side wall 133) of the second image detection chamber 13 is configured as the front side wall of the operation chamber 11, so that the first image detection chamber 12 and the operation chamber 11 can share one side wall, and the second image detection chamber 13 and the operation chamber 11 can share one side wall, and the space in the front-rear direction of the medical detection cart 100 can be saved.

Further, the vehicle body 10 may include a vehicle body 14, a first side wall 125 and a second side wall 133, the vehicle body 14 defines an accommodation space, the first side wall 125 and the second side wall 133 are disposed in the accommodation space, the first side wall 125 and the second side wall 133 are disposed at a distance in the front-rear direction of the medical examination vehicle 100, the first side wall 125 is disposed at the rear side of the second side wall 133, the first side wall 125 and the second side wall 133 divide the accommodation space into the operation chamber 11, the first image examination chamber 12, and the second image examination chamber 13, and the manufacturing material of the vehicle body 14 and the second side wall 133 defining the second image examination chamber 13 may be designed according to the use of the ground climate conditions, for example: the vehicle body 14 and the second side wall 133 defining the second image sensing chamber 13 may be made of an aluminum plate, a steel plate, an iron plate, or the like. The material of construction of the left and right side walls defining the operating chamber 11 can be designed according to the climatic conditions of use, for example: the left and right side walls defining the operation chamber 11 may be made of an aluminum plate, a steel plate, an iron plate, or the like.

In some embodiments of the present invention, as shown in fig. 15, in this embodiment, the first image detection chamber 12 is disposed between the operation chamber 11 and the second image detection chamber 13, the operation chamber 11 is disposed in front of the first image detection chamber 12, and the second image detection chamber 13 is disposed in back of the first image detection chamber 12.

In some embodiments of the present invention, as shown in fig. 10-16, the medical examination cart 100 may further include: the first door body 124 has a radiation protection function, and further, the first door body 124 may be an electric door, and the first door body 124 may be made of lead glass. The first side wall 125 is provided with a first passage, and the first door 124 is used for opening or closing the first passage. When personnel in the first image detection chamber 12 need to enter the operation chamber 11, or when personnel in the operation chamber 11 need to enter the first image detection chamber 12, the first door 124 opens the first passage, and the personnel can move between the first image detection chamber 12 and the operation chamber 11, and when the personnel in the first image detection chamber 12 do not need to enter the operation chamber 11, or when the personnel in the operation chamber 11 do not need to enter the first image detection chamber 12, the first door 124 is used for sealing the first passage, so that the first passage is sealed, and when the CT detection equipment 121 and/or the nuclear magnetic detection equipment work, radiation leakage generated when the CT detection equipment 121 and/or the nuclear magnetic detection equipment work can be further avoided, and further, the workers in the operation chamber 11 and other personnel near the first image detection chamber 12 are prevented from being damaged by X-rays.

Note that the main beam of the CT inspection apparatus 121 and/or the nuclear magnetic inspection apparatus is disposed to be offset from the first channel, and further, the main beam of the CT inspection apparatus 121 and/or the nuclear magnetic inspection apparatus is disposed to be offset from the observation window 111.

In some embodiments of the present invention, as shown in fig. 9-13, the medical examination cart 100 may further include: the second door 132 and the second side wall 133 are provided with a second channel, and the second door 132 is used for opening or closing the second channel, further, the second door 132 may be provided as an electric door. When personnel in the second image detection chamber 13 need to enter the operation chamber 11, or when personnel in the operation chamber 11 need to enter the second image detection chamber 13, the second door 132 opens the second channel, and the personnel can walk between the second image detection chamber 13 and the operation chamber 11, and when the personnel in the second image detection chamber 13 do not need to enter the operation chamber 11, or when the personnel in the operation chamber 11 do not need to enter the second image detection chamber 13, the second door 132 is used for closing the second channel, so that the second image detection chamber 13 is separated from the operation chamber 11, and the interference between the personnel in the second image detection chamber 13 and the personnel in the operation chamber 11 is avoided.

In some embodiments of the present invention, as shown in fig. 10-16, the first image detection chamber 12 and/or the second image detection chamber 13 and/or the operation chamber 11 are provided with a third door 112, further, the third door 112 of the first image detection chamber 12 is used to open and close the first image detection chamber 12, the third door 112 of the second image detection chamber 13 is used to open and close the second image detection chamber 13, the third door 112 of the operation chamber 11 is used to open and close the operation chamber 11, and a person can enter the corresponding chamber through the third door 112. Preferably, the third door body 112 is arranged on the left side wall or the right side wall of the operation chamber 11, and a person can enter the operation chamber 11 through the third door body 112 of the operation chamber 11, and then the person enters the first image detection chamber 12 and the second image detection chamber 13 in the operation chamber 11, so that the structure of the vehicle body 10 can be simplified, the production and the manufacture of the vehicle body 10 can be facilitated, and the production efficiency of the medical detection vehicle 100 can be improved.

In some embodiments of the present invention, as shown in fig. 17, the right side of the vehicle 100 is provided with the inflatable membrane 50, the inflatable membrane 50 is provided with a notch 55 corresponding to the third door 112, a ladder is provided in the second operating space 51, and when the third door 112 opens the corresponding chamber, the person can enter the corresponding chamber through the ladder 56.

In some embodiments of the present invention, the vehicle body 10 is provided with support legs (not shown) for supporting the vehicle body 10. Further, the lower surface of the vehicle body 10 is provided with supporting legs, the supporting legs are connected with a hydraulic control system of the medical detection vehicle 100, when the medical detection vehicle 100 runs to a region where a disease screening needs to be performed, the hydraulic control system of the medical detection vehicle 100 drives the supporting legs to extend out, so that the lower ends of the supporting legs are in contact with the ground, the supporting legs are supported between the vehicle body 10 and the ground, and the medical detection vehicle 100 is stably stopped in the disease screening region.

Further, the medical detection vehicle 100 may be provided with a sewage treatment system for treating sewage generated during detection, thereby preventing the sewage from being discharged to the external polluted environment of the medical detection vehicle 100. Further, the medical detection vehicle 100 may further be provided with a fresh air filtering system, the first image detection chamber 12 and/or the second image detection chamber 13 and/or the operation chamber 11 are provided with an air inlet and an air outlet, when external air flows into the corresponding chamber through the air inlet, the fresh air filtering system may filter the air flowing into the chamber, so as to ensure cleanness of the first image detection chamber 12, the second image detection chamber 13 and the operation chamber 11, when the air in the first image detection chamber 12 and/or the second image detection chamber 13 and/or the operation chamber 11 flows out of the medical detection vehicle 100 from the air outlet, the fresh air filtering system may filter the air flowing out of the chamber, may reduce the radiation amount in the first image detection chamber 12, the second image detection chamber 13 and the operation chamber 11, and may also ensure that the air is discharged to the outside after being subjected to a harmless treatment.

Further, the medical detection vehicle 100 can be equipped with a dual-power system, and can selectively carry a new energy power or a conventional fuel power dual-system according to different use scenes, so that the total distance of the round trip driving can be more than 600 kilometers. The medical detection vehicle 100 can be further provided with an intelligent management system, the intelligent management system can achieve unified management of sample data, the medical detection vehicle 100 has a 5G network transmission technology, and the intelligent management system can transmit data to a cloud disk in real time, so that information safety guarantee is improved.

As shown in fig. 9, in this embodiment, the medical examination cart 100 is a wagon, the rear side wall of the expansion case 20 disposed in the first image examination chamber 12 is configured as a movable wall 123, and a first door 124, a second door 132, and a third door 112 are disposed. As shown in fig. 10, in this embodiment, the medical examination cart 100 is a wagon, the rear side wall of the first image examination chamber 12 is configured as a movable wall 123, and a first door 124, a second door 132 and a third door 112 are provided. As shown in fig. 11, in this embodiment, the medical examination vehicle 100 is a truck, the rear side wall of the first image examination chamber 12 is provided with an expansion shell 20, the left side wall and the right side wall of the second image examination chamber 13 are provided with expansion shells 20, and a first door 124, a second door 132 and a third door 112 are provided. As shown in fig. 12, in this embodiment, the medical examination cart 100 is a truck, the left and right side walls of the first image examination chamber 12 are provided with the expansion shells 20, the left and right side walls of the second image examination chamber 13 are provided with the expansion shells 20, and the first door 124, the second door 132, and the third door 112 are provided. As shown in fig. 13, in this embodiment, the medical examination cart 100 is a truck, the left side wall, the right side wall and the rear side wall of the first image examination chamber 12 are all provided with the expansion shells 20, the left side wall and the right side wall of the second image examination chamber 13 are provided with the expansion shells 20, and the first door 124, the second door 132 and the third door 112 are provided.

As shown in fig. 14, in this embodiment, the medical examination vehicle 100 is a bus vehicle, and is not provided with the expansion case 20, and is provided with the first door 124 and the third door 112. As shown in fig. 15, in this embodiment, the medical examination cart 100 is a bus cart, the expansion shell 20 is not provided, the first door 124 is provided, and the third doors 112 are provided in the first image detection chamber 12, the second image detection chamber 13, and the operation chamber 11. As shown in fig. 16, in this embodiment, the medical examination cart 100 is a bus cart, the expansion shell 20 is not provided, the first door 124 is provided, and the third doors 112 are provided in the first image detection chamber 12, the second image detection chamber 13, and the operation chamber 11.

In the description of the present specification, reference to the description of "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A medical examination cart, comprising:

the detection device comprises a vehicle body, a detection device and a control module, wherein the vehicle body is provided with an operation chamber, a first image detection chamber and a second image detection chamber, CT detection equipment and/or nuclear magnetic detection equipment are arranged in the first image detection chamber, ultrasonic detection equipment is arranged in the second image detection chamber, and the operation chamber is used for controlling the CT detection equipment and/or the nuclear magnetic detection equipment to work;

an inflatable membrane having an inflated state in which the inflatable membrane defines an operating space outside the vehicle body and a deflated state in which the inflatable membrane is adapted to be received in the medical examination vehicle;

the medical detection vehicle is provided with a driving device, the driving device is connected with the expansion shell, the driving device is connected with a controller of the medical detection vehicle, the controller is connected with a control switch, and the control switch is pressed to control the driving device to drive the expansion shell to move towards or away from the vehicle body.

2. The medical examination vehicle according to claim 1, wherein the vehicle body is provided with a housing space in which the inflatable membrane is housed in the exhaust state.

3. The medical examination vehicle according to claim 2, wherein a storage box is provided below the vehicle body, and the storage box defines the storage space.

4. The medical examination cart of claim 1, further comprising: an inflation device for inflating into the inflatable membrane such that the inflatable membrane defines the operating space.

5. The medical examination cart of claim 1, wherein at least one side of the medical examination cart is provided with the inflatable membrane.

6. The medical examination cart of claim 1, wherein the side walls of the operating chambers and/or the side walls of the first image detection chambers and/or the side walls of the second image detection chambers are provided with expansion chambers, the expansion chambers being in communication with the corresponding chambers.

7. The medical detection vehicle according to claim 1, wherein at least one side wall of the first image detection chamber is provided with a movable wall, the movable wall is suitable for opening or closing the first image detection chamber, and the movable wall can be lifted in the height direction of the medical detection vehicle.

8. The medical examination cart of claim 1 wherein the side walls of the first image examination chamber are configured as radiation shields.

9. The medical examination vehicle of claim 1, wherein the operation chamber is disposed adjacent to the first image detection chamber, and a viewing window is disposed between the operation chamber and the first image detection chamber.

10. The medical examination cart of claim 1, wherein the operating chamber and the second image examination chamber are configured as the same chamber.

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