CN114617718A - Vehicle-mounted shadowless lamp with built-in surgical field camera and life support type ambulance - Google Patents

Abstract

The invention relates to the technical field of medical equipment, in particular to a vehicle-mounted shadowless lamp with a built-in surgery field camera and a life support type ambulance with the vehicle-mounted shadowless lamp with the built-in surgery field camera. The invention relates to a vehicle-mounted shadowless lamp with a built-in operation field camera, which comprises a circular upper lamp holder and a circular lower lamp holder, wherein the upper lamp holder is detachably connected with the lower lamp holder, a camera mounting space is formed between the upper lamp holder and the lower lamp holder, a camera mounting bracket is arranged in the camera mounting space and is used for fixing the operation field camera, and a camera head of the operation field camera extends out of the center of the lamp disc side of the lower lamp holder to carry out video shooting.

Description

Vehicle-mounted shadowless lamp with built-in surgical field camera and life support type ambulance

Technical Field

The invention relates to the technical field of medical equipment, in particular to a vehicle-mounted shadowless lamp with a built-in surgery field camera and a life support type ambulance with the vehicle-mounted shadowless lamp with the built-in surgery field camera.

Background

A life support ambulance, called ambulance for short, is a vehicle for rescuing patients. Life support ambulances have changed tremendously over the past 40 years. The main task of life support ambulances until the late 60 s of the 20 th century was simply to transport people to hospitals as soon as possible from the accident scene. The space in the vehicle is very narrow, and only a few very basic emergency equipment exist. Modern life support ambulances are spacious on the inside, allowing the ambulance men sufficient space to take rescue treatments to the patient on the way to the hospital.

First aid equipment needed in life support ambulances includes surgical shadowless lights and surgical field cameras. Wherein, the operative field is the medical term, which means the scope reached by the vision during the operation. Generally, skin sterilization is carried out before an operation, then, a sterile towel is used for covering the part which cannot be involved in the operation, the part which needs to be exposed during the operation is reserved, the reserved part is the operation range, and before the skin is not cut, the exposed part is called an operation field. The surgical field is also changed deeply along with the skin incision. If the operation is performed under an endoscope, the field of view of the endoscope is the surgical field. Therefore, the surgical field is the same concept as the visual field, the irradiation field, and the like. The surgical field camera is therefore the camera that images the surgical field and is used to record the entire surgical procedure. The operation shadowless lamp is a lamp used for medical illumination in an operating room, and the shadowless lamp cannot be shadowless actually, and only reduces the original shadow, so that the original shadow is not obvious.

In the prior art, the existing camera system of the shadowless lamp for the operation is generally fixed, the angle can not be adjusted reasonably according to the working requirement, the camera effect is not comprehensive and ideal, the design is unreasonable, and the use is inconvenient. In order to solve the technical problem, the utility model patent with application number is CN201820992368.4 provides a shadowless lamp is used in operation with outer hanging camera, including fixed disc, the lower fixed surface of fixed disc is connected with the connecting block, the lower fixed surface of connecting block is connected with the axostylus axostyle, the surface rotation of axostylus axostyle is connected with the rotation axle sleeve, the lateral wall fixedly connected with linking arm of rotation axle sleeve, the surface sliding connection of linking arm has the sliding block, the lower fixed surface of sliding block is connected with fixed connection spare, fixed connection spare's lower extreme rotates and is connected with the extension arm, the upper end of extension arm rotates and is connected with the montant, the surface of montant has cup jointed the anchor block, the lower extreme fixedly connected with mount pad of montant, the lower fixed surface of mount pad is connected with outer hanging camera main part. This operation is with shadowless lamp with outer hanging camera uses, through operation shadowless lamp control box, control first shadowless lamp and second shadowless lamp, through the angle of handle and the reasonable peripheral lamp shade of regulation of handle, make going on that operation work is better, rotate the axle sleeve through rotating, make to rotate the axle sleeve and drive the linking arm, the sliding block, add the arm and carry out 360 degrees rotations with outer hanging camera main part, the sliding block can slide at the surface of linking arm simultaneously, conveniently adjust the angle of outer hanging camera main part. It can be seen that the shadowless lamp and the externally hung camera in the above patent technology need to be adjusted separately, which is inconvenient in operation.

Disclosure of Invention

In view of the shortcomings of the prior art, the present invention is directed to a vehicle-mounted shadowless lamp with a built-in surgical field camera and a life support type ambulance with the vehicle-mounted shadowless lamp with the built-in surgical field camera, so as to solve or improve at least one technical problem in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

on one hand, the invention provides a vehicle-mounted shadowless lamp with a built-in operation field camera, which comprises a circular upper lamp holder and a circular lower lamp holder, wherein the upper lamp holder and the lower lamp holder are detachably connected, a circle of lamp beads are arranged on the lamp panel side of the lower lamp holder, a camera mounting space is formed between the upper lamp holder and the lower lamp holder, a camera mounting support is arranged in the camera mounting space and used for fixing the operation field camera, and a camera of the operation field camera extends out of the center of the lamp panel side of the lower lamp holder to perform video shooting.

As an improvement of the vehicle-mounted shadowless lamp with the built-in operation field camera, the camera mounting space is also internally provided with a camera limiting seat, the lower lamp holder is provided with a mounting port, the camera limiting seat is arranged at the mounting port through a step structure, the camera limiting seat is used for axially limiting the operation field camera, and a camera of the operation field camera penetrates through the camera limiting seat and the mounting port.

The vehicle-mounted shadowless lamp with the built-in operation field camera is improved on one hand, and further comprises a camera control assembly, wherein the camera control assembly is fixed on the back side of the upper lamp holder and comprises a control module mounting seat and a control module cover plate matched with the control module mounting seat, the control module mounting seat is used for fixing the camera control module, the camera control module is connected with an aluminum alloy key, the control module cover plate is used for opening and closing the aluminum alloy key, and the camera control module is connected with the operation field camera.

The invention relates to a vehicle-mounted shadowless lamp with a built-in surgical field camera, which comprises a circular upper lamp holder and a circular lower lamp holder, the upper lamp holder is detachably connected with the lower lamp holder, a circle of lamp beads are arranged on the side of the lamp panel of the lower lamp holder, a camera mounting space is formed between the upper lamp holder and the lower lamp holder, a camera mounting bracket is arranged in the camera mounting space, the camera mounting bracket is used for fixing the surgical field camera, the camera of the surgical field camera extends out from the center of the lamp panel side of the lower lamp holder to carry out video shooting, by the structure, when the position of the shadowless lamp is adjusted, the built-in operation field camera can follow, therefore, the position of the surgical field camera does not need to be adjusted independently, compared with the prior art, the operation is more convenient, meanwhile, the camera of the operative field camera extends out from the center of the lamp holder side of the lower lamp holder to perform video shooting, so that a better visual field can be obtained.

On the other hand, the invention provides a life support ambulance, which comprises a chassis, and a cab and an ambulance carriage which are arranged on the chassis from front to back, wherein the ambulance carriage is a box-shaped structure formed by enclosing a front plate, a top plate, a left side plate, a right side plate, a tail plate and a floor, a row of hanging cabinets is arranged at the upper part of the front plate, two rows of left storage cabinet groups and right storage cabinet groups which are vertically arranged are arranged below the hanging cabinets, standby oxygen cylinders are arranged below the left storage cabinet groups, a medicine cabinet group which is vertically arranged is arranged below the right storage cabinet groups, two ends of the medicine cabinet groups are respectively abutted against the right storage cabinet groups and the floor, an interphone system and a transparent window are further arranged below the hanging cabinets, the interphone system and the transparent window are arranged from top to bottom and are positioned between the left storage cabinet groups and the right storage cabinet groups, a control cabinet and a folding seat which are in an L shape are arranged at the back side of the standby oxygen cylinders, be equipped with negative pressure system and end and put the air conditioner in the switch board, the end is put the air conditioner and is close to the left side board, negative pressure system is located the end put the air conditioner with between the nurse's folding seat chair, nurse's folding seat chair is located just be located on the front bezel transparent window below, be equipped with any one of above-mentioned scheme on the left side board the on-vehicle shadowless lamp of built-in art field camera.

The life support ambulance has all the technical effects of the vehicle-mounted shadowless lamp with the built-in surgical field camera in any one of the schemes, and simultaneously has a chassis, a cab and an ambulance carriage which are arranged on the chassis from front to back, wherein the ambulance carriage is of a box-shaped structure enclosed by a front plate, a top plate, a left side plate, a right side plate, a tail plate and a floor, a wall cabinet, a left storage cabinet group, a right storage cabinet group, a control cabinet and the like are arranged in the ambulance carriage, the upper space and the lower space of the ambulance carriage are fully utilized for arrangement, the arrangement is compact, unreasonable occupation of an effective space is favorably reduced, objects such as bandages, external application articles, air conditioners and the like can be better carried, and the space requirement for rescue treatment of a patient is better met.

As an improvement of one aspect of the life support ambulance of the present invention, a row of storage cabinets is provided on the upper portion of the left side plate, a plurality of bottom air conditioning outlets are provided on the upper top portion of the left side plate, an equipment rack is provided on the lower portion of the left side plate, the equipment rack is located on the rear side of the control cabinet, and the vehicle-mounted shadowless lamp with the built-in operation field camera is located between the storage cabinets and the equipment rack.

As an improvement of one aspect of the life support ambulance, a foldable table plate and an air sterilizer are arranged on the right side plate, the foldable table plate is positioned below the air sterilizer, a foldable rotating seat is arranged on the area, close to the right side plate, of the floor, the foldable rotating seat is arranged next to the foldable table plate, and ultraviolet disinfection lamps are respectively arranged on the upper parts of the front plate and the tail plate.

The life support ambulance as an improvement of one aspect of the invention comprises a first swing arm and a second swing arm, wherein one end of the first swing arm is hinged with the left side plate, the other end of the first swing arm is hinged with one end of the second swing arm, and the other end of the second swing arm is hinged with the vehicle-mounted shadowless lamp with the built-in operation field camera.

The multifunctional ECMO equipment transfer device comprises an ECMO transfer support and an ECMO transfer stretcher, the ECMO transfer support is used for fixing a centrifugal machine, a medical physical temperature raising and lowering instrument and an oxygen bottle, the ECMO transfer stretcher comprises a stretcher body, a lifting mechanism and a walking underframe, the walking underframe is used for driving the stretcher body to move, the lifting mechanism enables the stretcher body to be capable of lifting relative to the walking underframe, fixing plates are arranged on two sides of the bottom of the ECMO transfer support, support fixing frames are arranged on two sides of the stretcher body, and the ECMO transfer support is fixed above the stretcher body through the detachable connection of the fixing plates and the support fixing frames.

As an improvement of an aspect of the life support type ambulance of the present invention, the ambulance further comprises a stretcher transfer frame including a first transfer frame and a second transfer frame arranged in a front-rear direction, the first transfer frame is configured to be fixed to the floor, the second transfer frame is slidably connected to the first transfer frame, the second transfer frame is partially slidable to an outside of the ambulance compartment, the lifting mechanism is configured to be capable of lifting above the second transfer frame when driving the stretcher body to lift, and the stretcher body is detachably connected to the second transfer frame.

As an improvement of the life support ambulance in one aspect of the present invention, the fixing plate is bolted or snapped or riveted to the frame fixing frame.

As an improvement of one aspect of the life support ambulance of the present invention, the stretcher body is provided with guide rails extending along the longitudinal direction thereof at both sides thereof, and the support frame is slidably connected to the stretcher body through the guide rails.

As an improvement of an aspect of the life support ambulance of the present invention, the walking chassis includes a chassis body and a first walking mechanism provided below the chassis body, and a second walking mechanism is provided at a bottom of one end of the stretcher body.

As an improvement of one aspect of the life support ambulance of the present invention, the lifting mechanism comprises a slide rail, a slide block, a first lifting support, a second lifting support, and a telescopic driving mechanism, the slide rail is fixedly connected to the top of the walking chassis and extends along the length direction of the walking chassis, the slide block is slidably connected to the slide rail and can slide along the extending direction of the slide rail, one end of the first lifting support is rotatably connected to the slide block, the other end of the first lifting support is rotatably connected to the bottom of the stretcher body, one end of the second lifting support is rotatably connected to the top of the walking chassis, the other end of the second lifting support is rotatably connected to the bottom of the stretcher body, the first lifting support and the second lifting support are arranged to intersect in the length direction of the slide rail, one end of the telescopic driving mechanism is rotatably connected to the first lifting support, the other end of the telescopic driving mechanism is rotatably connected with the second lifting support.

As an improvement of an aspect of the life support ambulance of the present invention, the lifting mechanism enables the stretcher body to be lowered with respect to the traveling chassis to a position where the bottom ends of the first and second traveling mechanisms are flush.

As an improvement of an aspect of the life support ambulance of the present invention, the first lifting frame and/or the second lifting frame is an H-shaped structure.

As an improvement of the life support ambulance in one aspect of the present invention, the telescopic driving mechanism is an electric push rod or an air cylinder or an oil cylinder.

As an improvement of one aspect of the life support ambulance of the present invention, the ECMO transfer frame includes a third traveling mechanism, a support frame, a centrifugal separator, a thermal cycler separator, and a gas cylinder positioning plate, wherein the support frame is disposed on the third traveling mechanism, the centrifugal separator and the thermal cycler separator are disposed on the support frame and are spaced apart in parallel in an up-down direction, the centrifugal separator is disposed above the thermal cycler separator, the centrifugal separator is used to fix a centrifuge, the thermal cycler separator is used to fix the medical physical thermal cycler, the centrifugal separator is provided with a gas cylinder positioning hole for inserting an oxygen cylinder, an upper end of the gas cylinder positioning plate is connected to the centrifugal separator, a lower end of the gas cylinder positioning plate is connected to the thermal cycler separator, the gas cylinder positioning plate is shaped to fit the oxygen cylinder, and when the oxygen cylinder passes through the gas cylinder positioning hole and abuts against the thermal cycler separator, the gas cylinder locating plate is in contact with the oxygen cylinder, the fixing plate is located below the centrifugal partition plate and the temperature rising and reducing instrument partition plate, and the fixing plate is connected with the supporting frame.

As an improvement of one aspect of the life support ambulance, the support frame comprises two inverted U-shaped bent circular tubes, each bent circular tube comprises two vertical support tubes and a transverse support tube, the lower ends of the two vertical support tubes are respectively provided with the third travelling mechanism, the upper ends of the two vertical support tubes are respectively connected with the two ends of the transverse support tube in an arc shape, the two ends of the centrifugal partition plate and the temperature rising and lowering instrument partition plate are respectively connected with the vertical support tubes of the two bent circular tubes, the two ends of the fixing plate are respectively connected with the vertical support tubes, and the two vertical support tubes, the transverse support tube and the fixing plate form a square structure.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic view of a vehicle mounted shadowless lamp with a built-in surgical field camera in an embodiment of the invention;

FIG. 2 is a schematic view of a vehicle mounted shadowless lamp with a surgical field camera built in, in accordance with one embodiment of the invention;

FIG. 3 is a schematic view of a vehicle mounted shadowless lamp with a surgical field camera built in, in accordance with one embodiment of the invention;

FIG. 4 is a schematic structural view of a vehicle mounted shadowless lamp with a surgical field camera built in according to an embodiment of the invention;

FIG. 5 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 6 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 7 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 8 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 9 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 10 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 11 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 12 is a schematic diagram of a life support ambulance in accordance with one embodiment of the present invention;

FIG. 13 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 14 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 15 is a schematic illustration of a life support ambulance in accordance with an embodiment of the present invention;

FIG. 16 is a schematic diagram of the structure of an ECMO transport scaffold in accordance with one embodiment of the present invention;

fig. 17 is a schematic structural view of an ECMO transport stretcher according to an embodiment of the present invention;

FIG. 18 is a schematic diagram of the structure of an ECMO transport scaffold in accordance with one embodiment of the present invention;

FIG. 19 is a schematic diagram of the structure of an ECMO transport scaffold in accordance with one embodiment of the present invention;

fig. 20 is a schematic diagram of the structure of an ECMO transport scaffold according to an embodiment of the present invention.

In the drawings:

Detailed Description

The embodiments of the present invention are described below with reference to specific embodiments, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure of the present invention.

Please refer to the attached drawings. It should be understood that the structures, ratios, sizes, and the like shown in the drawings and described in the specification are only used for matching with the disclosure of the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions under which the present invention can be implemented, so that the present invention has no technical significance, and any structural modification, ratio relationship change, or size adjustment should still fall within the scope of the present invention without affecting the efficacy and the achievable purpose of the present invention.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

In the description of the present invention, it should be mentioned that, as the terms "upper", "lower", "front", "rear", "left", "right", etc. appear, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, but does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified and limited, the specific meanings of the above terms in the present invention can be specifically understood by those skilled in the art.

For convenience of description, it is defined herein that the side of the chassis 301 where the cab 302 is provided is the front, and the side of the chassis 301 where the ambulance compartment 303 is provided is the rear.

Referring to fig. 1 to 4, the invention provides a vehicle-mounted shadowless lamp 200 with a built-in operation field camera 204, which comprises a circular upper lamp holder 201 and a circular lower lamp holder 202, wherein the upper lamp holder 201 is detachably connected with the lower lamp holder 202, a circle of lamp beads are arranged on the lamp panel side of the lower lamp holder 202, a camera mounting space is formed between the upper lamp holder 201 and the lower lamp holder 202, a camera mounting bracket 203 is arranged in the camera mounting space, the camera mounting bracket 203 is used for fixing the operation field camera 204, and a camera head of the operation field camera 204 extends out from the center of the lamp panel side of the lower lamp holder 202 to perform video shooting. The upper lamp base 201 and the lower lamp base 202 can be connected through threads, can also be clamped and can also be connected through bolts.

The vehicle-mounted shadowless lamp 200 with the built-in operation field camera 204 comprises a circular upper lamp holder 201 and a circular lower lamp holder 202, wherein the upper lamp holder 201 is detachably connected with the lower lamp holder 202, a circle of lamp beads are arranged on the lamp panel side of the lower lamp holder 202, a camera mounting space is formed between the upper lamp holder 201 and the lower lamp holder 202, a camera mounting bracket 203 is arranged in the camera mounting space, the camera mounting bracket 203 is used for fixing the operation field camera 204, the camera of the operation field camera 204 extends out from the center of the lamp panel side of the lower lamp holder 202 for video shooting, by the structure, the built-in operation field camera 204 can follow the camera when the position of the shadowless lamp is adjusted, so that the position of the operation field camera 204 does not need to be independently adjusted, the operation field camera is more convenient and faster compared with the prior art, and meanwhile, the camera of the operation field camera 204 extends out from the center of the lamp panel side of the lower lamp holder 202 for video shooting, in this way a better field of view can be obtained.

It is specifically optional, still be equipped with the spacing seat of camera 205 in the camera installation space, be equipped with the installing port on the lamp stand 202 down, the spacing seat of camera 205 pass through the stair structure arrange in the installing port, spacing seat of camera 205 is used for right art field camera 204 carries out the axial spacing, art field camera 204's camera is worn to establish spacing seat of camera 205 with the installing port.

Specifically, optionally, the surgical field camera further comprises a camera control assembly, the camera control assembly is fixed to the back side of the upper lamp holder 201, the camera control assembly comprises a control module mounting seat 206 and a control module cover plate 207 matched with the control module mounting seat 206, the control module mounting seat 206 is used for fixing a camera control module 208, the camera control module 208 is connected with an aluminum alloy key 209, the control module cover plate 207 is used for opening and closing the aluminum alloy key 209, the camera control module 208 is connected with the surgical field camera 204, and the control module cover plate 207 and the control module mounting seat 206 can be connected through threads, can also be clamped and can also be connected through bolts.

In summary, the vehicle-mounted shadowless lamp 200 with the built-in operation field camera 204 comprises a circular upper lamp holder 201 and a circular lower lamp holder 202, wherein the upper lamp holder 201 is detachably connected with the lower lamp holder 202, a circle of lamp beads is arranged on the lamp panel side of the lower lamp holder 202, a camera mounting space is formed between the upper lamp holder 201 and the lower lamp holder 202, a camera mounting bracket 203 is arranged in the camera mounting space, the camera mounting bracket 203 is used for fixing the operation field camera 204, the camera of the operation field camera 204 extends out from the center of the lamp panel side of the lower lamp holder 202 for video shooting, by the structure, the built-in operation field camera 204 can follow up when the position of the shadowless lamp is adjusted, so that the position of the operation field camera 204 does not need to be adjusted independently, the operation field camera is more convenient and fast compared with the prior art, meanwhile, the camera of the operation field camera 204 extends out from the center of the lamp panel side of the lower lamp holder 202 for video shooting, in this way a better field of view can be obtained.

In addition, referring to fig. 1 to 20, the invention further provides a life support ambulance 300, which comprises a chassis 301, and a cab 302 and an ambulance compartment 303 which are arranged on the chassis 301 from front to back, wherein the ambulance compartment 303 is a box-shaped structure formed by enclosing a front plate, a top plate, a left side plate, a right side plate, a tail plate and a floor, a row of hanging cabinets 304 is arranged on the upper portion of the front plate, a switch panel is arranged at the right end of the hanging cabinets 304, two rows of left storage cabinet groups and right storage cabinet groups which are vertically arranged are arranged below the hanging cabinets 304, a standby oxygen cylinder 305 is arranged below the left storage cabinet group, a medicine cabinet group 306 which is vertically arranged is arranged below the right storage cabinet group, two ends of the medicine cabinet group 306 are respectively abutted against the right storage cabinet group and the floor, an interphone system 307 and a transparent window are further arranged below the hanging cabinets 304, and the interphone system 307 and the transparent window are provided below the interphone system 307, The transparent window from top to bottom arranges and is located between left side storing cabinet group and the right storing cabinet group, the rear side of reserve oxygen cylinder 305 is equipped with the switch board 308 and the nurse's folding seat 309 that are the L type, be equipped with negative pressure system 310 and bottom air conditioner 311 in the switch board 308, bottom air conditioner 311 is close to the left side board, negative pressure system 310 is located bottom air conditioner 311 with between the nurse's folding seat 309, nurse's folding seat 309 is located just be located on the front bezel the transparent window below, be equipped with any one in above-mentioned each scheme on the left side board built-in art field camera 204's on-vehicle shadowless lamp 200.

Wherein, left locker group and right locker group can be used for placing medical instrument etc. medicine cabinet group 306 can be used for placing bandage, external application articles for use etc.. The transparent window is arranged to allow the cab 302 and the ambulance car 303 to be seen through, thereby facilitating communication between the cab 302 and the ambulance car 303.

From the above, the life support ambulance 300 of the present invention, in addition to all the technical effects of the above-mentioned vehicle-mounted shadowless lamp 200 with the built-in surgical field camera 204, comprises a chassis 301, and a cab 302 and an ambulance compartment 303 which are arranged on the chassis 301 from front to back, wherein the ambulance compartment 303 is a box-shaped structure enclosed by a front plate, a top plate, a left plate, a right plate, a tail plate and a floor, a hanging cabinet 304, a left storage cabinet group, a right storage cabinet group, a control cabinet 308 and the like are arranged in the ambulance compartment 303, the upper space and the lower space of the ambulance compartment 303 are fully utilized for arrangement, the arrangement is compact, the unreasonable occupation of the effective space is reduced, articles such as bandages, external application articles, air conditioners and the like can be carried better, and the space requirement for rescue treatment of patients is better satisfied.

It is specifically optional, be arranged in the driver's cabin 302 two change-over switch, electrical apparatus centralized control box, 500w fill contravariant all-in-one [ socket power consumption ], 120A's storage battery, digital monitoring cockpit camera, navigation and back a car rearview and control all-in-one, air conditioner control panel, vehicle event data recorder, alarm host computer, the roof upper surface of driver's cabin 302 is equipped with long row's warning light. The dual-power-supply change-over switch, the electric appliance centralized control box, the 1500W special inverter (ECMO power consumption), the 500W charging and inverting all-in-one machine (socket power consumption), the 120A storage battery, the digital monitoring cockpit camera, the navigation and reversing rearview and monitoring all-in-one machine, the air conditioner control panel, the automobile data recorder, the alarm host, the long-distance alarm lamp, the 1500W special inverter (ECMO power consumption), and the like belong to the prior art or can be set by referring to the prior art, and the specific development is not made herein.

In a preferred embodiment, the upper top of the tail board is provided with a status information display screen, which can display the driving status words of the vehicle, such as left turn, right turn, and braking, and when the life support ambulance 300 is in the stationary status, the operation words can be displayed with a green warning color, and the operation words with a prohibited door opening are displayed with a red warning color.

In a preferable scheme, a row of storage cabinets 312 are arranged at the upper part of the left side plate, a plurality of bottom air-conditioning air outlets 313 are arranged at the upper top part of the left side plate, an equipment support 314 is arranged at the lower part of the left side plate, the equipment support 314 is positioned at the rear side of the control cabinet 308, and the vehicle-mounted shadowless lamp 200 of the built-in operation field camera 204 is positioned between the storage cabinets (312) and the equipment support (314). The storage cabinet 312 may also be used for carrying bandages, external application products, air conditioners, and other articles. A plurality of bottom air conditioning outlets 313 are located on the upper side of the storage cabinet 312 and are configured to deliver comfort air. The device holder 314 may be used to mount other devices. And a bus bar, a bottom air conditioner 311 display panel, a dispatching system, a warm air and oxygen terminal 2 (including a quick connector and a humidifying bottle, a socket and the like if a German style is adopted) are further arranged on the left side plate. It is understood that the bus bar, the display panel of the bottom air conditioner 311, the dispatching system, the warm air and oxygen terminals 2 [ e.g., german style, including the quick connector and the humidification bottle ], the socket, etc. are prior art or can be configured with reference to the prior art, and are not specifically developed herein.

Specifically, optionally, a foldable table 315 and an air sterilizer 316 are arranged on the right side plate, the foldable table 315 is located below the air sterilizer 316, a foldable swivel seat 317 and a medical floor are arranged in an area, close to the right side plate, of the floor, and the foldable swivel seat 317 is arranged close to the foldable table 315. In order to facilitate the disinfection in the ambulance compartment 303, the upper parts of the front board and the tail board are both provided with ultraviolet disinfection lamps 318, and the ultraviolet disinfection lamps 318 on the front board are arranged close to the interphone system 307.

In order to facilitate the adjustment of the position of the vehicle-mounted shadowless lamp 200 with the built-in surgical field camera 204, the vehicle-mounted shadowless lamp comprises a first swing arm 321 and a second swing arm 322, one end of the first swing arm 321 is hinged to the left side plate, the other end of the first swing arm 321 is hinged to one end of the second swing arm 322, and the other end of the second swing arm 322 is hinged to the vehicle-mounted shadowless lamp 200 with the built-in surgical field camera 204, so that the position of the vehicle-mounted shadowless lamp 200 with the built-in surgical field camera 204 in an ambulance compartment (303) can be adjusted through the first swing arm 321 and the second swing arm 322, and the left side plate, the first swing arm 321, the second swing arm 322 and the vehicle-mounted shadowless lamp 200 with the built-in surgical field camera 204 can be movably connected in a damping manner, and can also be limited through an additional limiting member. The setting of first swing arm 321 and second swing arm 322 is convenient for on the one hand with the on-vehicle shadowless lamp 200 horizontal swing of built-in art field camera 204 to the middle part of ambulance carriage (303), facilitates the use, and on the other hand is convenient for with the on-vehicle shadowless lamp 200 horizontal folding of built-in art field camera 204 pack up to left side board position, reduces its space when idle and occupies.

It is specific optional, be equipped with digital control medical cabin side door camera on the roof, camera before the digital control medical cabin, four indoor lighting lamps, two slide rail formula infusion holders, two-way scavenger fan, two handrails that extend along the fore-and-aft direction are established respectively in the left and right sides of two slide rail formula infusion holders, digital control medical cabin side door camera, camera before the digital control medical cabin, four indoor lighting lamps, two slide rail formula infusion holders, two-way scavenger fan, two handrails that extend along the fore-and-aft direction etc. belong to prior art or can refer to prior art and set up, do not specifically expand here.

Be equipped with instrument door and printing opacity window on the left side board, the instrument door with reserve oxygen cylinder 305's position corresponds, is convenient for take out and put into reserve oxygen cylinder 305, also be equipped with the printing opacity window on the right side board. The light-transmitting windows on the left and right side plates facilitate the outside lighting of the ambulance car 303. The right side plate is also provided with a side compartment door, the tail plate is provided with a side-by-side rear compartment door, and the opening direction of the rear compartment door faces outwards.

Preferably, still include alternative immigration and shift out the multi-functional ECMO equipment transfer device of ambulance carriage 303, multi-functional ECMO equipment transfer device includes ECMO transport support and ECMO transport stretcher, ECMO transport support is used for fixed centrifuge 5, medical physics rising and lowering temperature appearance 6 and oxygen cylinder 7, ECMO transports stretcher includes stretcher body 18, lifting mechanism and walking chassis, the walking chassis is used for driving stretcher body 18 removes, lifting mechanism makes stretcher body 18 can be relative walking chassis goes up and down, the both sides of ECMO transport support bottom are equipped with fixed plate 17, the both sides of stretcher body 18 are equipped with support mount 19, ECMO transports the support and is fixed in through fixed plate 17 and the dismantlement of support mount 19 is connected the top of stretcher body 18. In the above scheme, the fixing plate 17 and the bracket fixing frame 19 can be connected by bolts, can also be clamped and can also be connected by rivets. In order to facilitate the adjustment of the position of the ECMO transferring bracket on the ECMO transferring stretcher, in a preferred embodiment, two sides of the stretcher body 18 are provided with guide rails extending along the length direction of the stretcher body, the bracket fixing frame 19 is connected with the stretcher body 18 in a sliding manner through the guide rails, and the position of the ECMO transferring bracket on the ECMO transferring stretcher can be adjusted by changing the position of the bracket fixing frame 19. It should be noted that the support fixing frame 19 and the guide rail may be in damping sliding connection, or the support fixing frame 19 and the guide rail may be in non-damping sliding connection and limited by other limiting members.

In order to facilitate the immigration of multi-functional ECMO equipment transfer device and move out ambulance compartment 303 still includes stretcher transfer rack, stretcher transfer rack includes first transfer rack 319 and the second transfer rack 320 of arranging along the fore-and-aft direction, first transfer rack 319 is used for being fixed in on the floor, second transfer rack 320 with first transfer rack 319 sliding connection, second transfer rack 320 can partly slide to the outside of ambulance compartment 303, the drive of lifting mechanism can rise to when stretcher body 18 goes up and down the top of second transfer rack 320, stretcher body 18 with second transfer rack 320 can dismantle the connection. Wherein, the stretcher body can with the second shifts 320 joints, and the stretcher shifts the position of frame and two slide rail formula infusion holders and two handrails that extend along the fore-and-aft direction and corresponds. During the operation, with the second transfer frame 320 part slide extremely the outside of ambulance carriage 303, stretcher body 18 rises to the top of second transfer frame 320, then with multi-functional ECMO equipment transfer device move stretcher body 18 with the corresponding region in second transfer frame 320 position, descend stretcher body 18 to stretcher body 18 with second transfer frame 320 can dismantle the connection, then rise walking chassis to walking chassis and be close to second transfer frame 320, then multi-functional ECMO equipment transfer device just can get into ambulance carriage 303 along first transfer frame 319 together with second transfer frame 320, whole operation process is very laborsaving, when needs shift out multi-functional ECMO equipment transfer device when the ambulance carriage 303, the opposite operation of action process can.

In the above scheme, the ECMO transportation stretcher includes lifting mechanism, and lifting mechanism makes stretcher body 18 can be relative the walking chassis goes up and down, and lifting mechanism makes promptly stretcher body 18 distance the height-adjustable of walking chassis to through lifting mechanism drive stretcher body 18 rise or descend for the walking chassis, thereby change the terrain clearance of stretcher body 18. When needs remove the ECMO with the help of walking chassis and transport the stretcher, rise for walking chassis through lifting mechanism drive stretcher body 18, increase the holistic height of ECMO transportation stretcher, make things convenient for ECMO to transport the transition and the transportation of stretcher, when needing other equipment to remove the ECMO transportation stretcher, descend for walking chassis through lifting mechanism drive stretcher body 18, reduce the holistic height of ECMO transportation stretcher, thereby reduce the occupation space of ECMO transportation stretcher, conveniently utilize other equipment to remove the ECMO transportation stretcher like life support type ambulance 300.

In the above scheme, the ECMO transportation support is detachably connected with the support fixing frame 19 through the fixing plate 17 and is fixed above the stretcher body 18, and the ECMO transportation support is used for fixing the centrifuge 5, the medical physical temperature rising and lowering instrument 6 and the oxygen cylinder 7, so that the multifunctional ECMO equipment transportation device disclosed by the invention can be used for intensively arranging the physical temperature rising and lowering instrument, the centrifuge 5, the oxygen cylinder 7, transportation stretchers and other ECMO equipment, and thus the centralized transportation requirements of the physical temperature rising and lowering instrument, the centrifuge 5, the oxygen cylinder 7, the transportation stretchers and other ECMO equipment can be met conveniently.

Therefore, the multifunctional ECMO equipment transportation device of the present invention includes, on one hand, a lifting mechanism, which enables the stretcher body 18 to be lifted and lowered relative to the walking chassis, that is, the lifting mechanism enables the height of the stretcher body 18 from the walking chassis to be adjustable, so that the lifting mechanism drives the stretcher body 18 to be lifted or lowered relative to the walking chassis, thereby changing the height of the stretcher body 18 from the ground. When the multifunctional ECMO equipment transfer device needs to be moved by means of the walking chassis, the lifting mechanism drives the stretcher body 18 to ascend relative to the walking chassis, the overall height of the multifunctional ECMO equipment transfer device is increased, transition and transportation of the multifunctional ECMO equipment transfer device are facilitated, and when other equipment needs to move the multifunctional ECMO equipment transfer device, the lifting mechanism drives the stretcher body 18 to descend relative to the walking chassis, so that the overall height of the multifunctional ECMO equipment transfer device is reduced, the occupied space of the multifunctional ECMO equipment transfer device is reduced, and the multifunctional ECMO equipment transfer device is convenient to move by means of other equipment; on the other hand, the ECMO transferring support is detachably connected with the support fixing frame 19 through the fixing plate 17 and is fixed above the stretcher body 18, and the ECMO transferring support is used for fixing the centrifuge 5, the medical physical temperature rising and lowering instrument 6 and the oxygen cylinder 7, so that the multifunctional ECMO equipment transferring device can be used for intensively arranging the physical temperature rising and lowering instrument, the centrifuge 5, the oxygen cylinder 7, transferring stretcher and other ECMO equipment, and further can conveniently meet the centralized transferring requirements of the physical temperature rising and lowering instrument, the centrifuge 5, the oxygen cylinder 7, transferring stretcher and other ECMO equipment.

Preferably, the walking chassis comprises a chassis body 23 and a first walking mechanism 24 arranged below the chassis body 23, a second walking mechanism 25 is arranged at the bottom of one end of the stretcher body 18, the length of the stretcher body 18 is longer than that of the walking chassis, and the second walking mechanism 25 is arranged obliquely above the walking chassis. The second running gear 25 is located obliquely above the running chassis, i.e. the orthographic projection of the second running gear 25 does not fall on the running chassis.

The walking chassis comprises a chassis body 23 and a first walking mechanism 24 arranged below the chassis body 23, a second walking mechanism 25 is arranged at the bottom of one end of the stretcher body 18, the length of the stretcher body 18 is longer than that of the walking chassis, the second walking mechanism 25 is positioned obliquely above the walking chassis, and by the structure, when the multifunctional ECMO equipment transfer device needs to be transported to the life support type ambulance 300, two conditions exist, namely the situation that the stretcher transfer frame does not exist, firstly the second walking mechanism 25 is in contact with the floor of the life support type ambulance 300, then the lifting mechanism enables the stretcher body 18 to descend relative to the walking chassis, then the multifunctional ECMO equipment transfer device is integrally pushed into the life support type ambulance 300, then the first walking mechanism 24 is in contact with the floor of the life support type ambulance 300, in the whole process, rolling friction is adopted between the multifunctional ECMO equipment transfer device and the life support ambulance 300, so that the effect of labor saving can be achieved, in addition, the stretcher transfer frame is adopted, and at the moment, the second walking mechanism 25 can be in sliding fit with the first transfer frame 319.

Specifically, optionally, the lifting mechanism includes a slide rail, a slide block, a first lifting support 20, a second lifting support 21, and a telescopic driving mechanism 22, the slide rail is fixedly connected to the top of the walking chassis and extends along the length direction of the walking chassis, the slide block is slidably connected to the slide rail and can slide along the extending direction of the slide rail, one end of the first lifting support 20 is rotatably connected to the slide block, the other end of the first lifting support 20 is rotatably connected to the bottom of the stretcher body 18, one end of the second lifting support 21 is rotatably connected to the top of the walking chassis, the other end of the second lifting support 21 is rotatably connected to the bottom of the stretcher body 18, the first lifting support 20 and the second lifting support 21 are crosswise arranged in the length direction of the slide rail, one end of the telescopic driving mechanism 22 is rotatably connected to the first lifting support 20, the other end of the telescopic driving mechanism 22 is rotatably connected with the second lifting support 21. It should be noted that the width dimensions of the first lifting frame 20 and the second lifting frame 21 should be different so as to be staggered with each other, so as to prevent interference when the first lifting frame 20 and the second lifting frame 21 are arranged crosswise along the length direction of the slide rail. Optionally, the first lifting support 20 and the second lifting support 21 are both H-shaped, and the width of the first lifting support 20 is greater than the width of the second lifting support 21, or the width of the second lifting support 21 is greater than the width of the first lifting support 20. The telescoping drive mechanism 22 may be an electric ram, air cylinder, or oil cylinder.

During the use, flexible actuating mechanism 22 extension or shorten for first lifting support 20 rotates the one end of being connected with the slider and follows the slide rail slides, and because the other end of first lifting support 20 with the bottom of stretcher body 18 rotates and is connected, the one end of second lifting support 21 with the top of walking chassis rotates and is connected, the other end of second lifting support 21 with the bottom of stretcher body 18 rotates and is connected, first lifting support 20 all rotates with second lifting support 21, realizes that stretcher body 18 rises or descends for the walking chassis, thereby changes the terrain clearance of stretcher body 18.

Specifically, optionally, the first traveling mechanism 24 and the second traveling mechanism 25 may include a universal wheel bracket and a roller provided on the universal wheel bracket, and in addition, the first traveling mechanism 24 and the second traveling mechanism 25 may be provided with a brake device, and the brake device may be a foot brake or a hand brake. Since the universal wheel bracket, the brake device, and the like can be arranged with reference to the prior art or the prior art structure, they are not specifically developed here.

The lifting mechanism enables the stretcher body 18 to descend relative to the walking chassis until the bottom end of the first walking mechanism 24 and the bottom end of the second walking mechanism 25 are flush or approximately flush or the bottom end of the first walking mechanism 24 is lower than the bottom end of the second walking mechanism 25, by the above structure, when the multifunctional ECMO equipment transferring device needs to be transported to the life support ambulance 300, the second walking mechanism 25 is firstly enabled to be in contact with the floor of the life support ambulance 300, then the lifting mechanism enables the stretcher body 18 to descend relative to the walking chassis until the bottom end of the first walking mechanism 24 and the bottom end of the second walking mechanism 25 are flush, then the multifunctional ECMO equipment transferring device is pushed into the life support ambulance 300 integrally, and in the whole process, rolling friction is generated between the multifunctional ECMO equipment transferring device and the life support ambulance 300, can play a role in saving labor.

In order to realize the automatic lifting of the lifting mechanism, it is preferable that the lifting mechanism further includes a control device, the control device is in communication connection with the telescopic driving mechanism 22, the control device is used for controlling the telescopic driving mechanism 22 to extend or shorten, the control device includes a control panel and a controller, and a control switch on the control panel may be a touch screen, a control knob, or a control button.

In order to provide structural stability of the lifting mechanism, the middle part of the first lifting bracket 20 and the middle part of the second lifting bracket 21 are pivotally connected.

It is specifically optional, the support is transported to the ECMO includes third running gear 1, support frame, centrifugal separator 2, temperature rising and dropping appearance baffle 3 and gas cylinder locating plate 4, the support frame is established on third running gear 1, centrifugal separator 2 and temperature rising and dropping appearance baffle 3 set up on the support frame and along the parallel interval setting of upper and lower direction, centrifugal separator 2 is located the top of temperature rising and dropping appearance baffle 3, centrifugal separator 2 is used for fixed centrifuge 5, temperature rising and dropping appearance baffle 3 is used for fixing medical physics temperature rising and dropping appearance 6, be equipped with the gas cylinder locating hole that is used for wearing to establish oxygen cylinder 7 on centrifugal separator 2, the upper end of gas cylinder locating plate 4 with centrifugal separator 2 is connected, the lower extreme of gas cylinder locating plate 4 with temperature rising and dropping appearance baffle 3 is connected, the shape of gas cylinder locating plate 4 with oxygen cylinder 7 adaptation, when the oxygen cylinder 7 passes through the gas cylinder positioning hole and abuts against the temperature rising and reducing instrument separation plate 3, the gas cylinder positioning plate 4 is in contact with the oxygen cylinder 7, the fixing plate 17 is located below the centrifugal separation plate 2 and the temperature rising and reducing instrument separation plate 3, and the fixing plate 17 is connected with the support frame.

Wherein, in order to transport when the support breaks away from the ECMO transportation stretcher at ECMO, the removal of support is transported to the ECMO of being convenient for, and is specifically optional, third running gear 1 can include the universal wheel support and establish the gyro wheel on the universal wheel support, in addition, can be equipped with brake equipment on the third running gear 1, and brake equipment can be service brake or manual brake. Since the universal wheel bracket, the brake device, and the like can be arranged with reference to the prior art or the prior art structure, they are not specifically developed here.

During the use, be fixed in centrifuge 5 on centrifugal separator 2, medical physics temperature rising and dropping appearance 6 is fixed in on the temperature rising and dropping appearance baffle 3, the gas storage end of oxygen cylinder 7 pass behind the gas cylinder locating hole with temperature rising and dropping appearance baffle 3 butt and with the contact of gas cylinder locating plate 4, so realized concentrating the ECMO equipment such as physics temperature rising and dropping appearance, centrifuge 5, oxygen cylinder 7 and arrange on the support is transported to the ECMO to satisfy the concentrated demand of transporting of ECMO equipment such as physics temperature rising and dropping appearance, centrifuge 5, oxygen cylinder 7. Therefore, according to the ECMO transferring support, the centrifugal partition plate 2 and the temperature rising and reducing instrument partition plate 3 are arranged in parallel at intervals in the vertical direction, the centrifugal partition plate 2 can be used for fixing the centrifuge 5, the temperature rising and reducing instrument partition plate 3 can be used for fixing the medical physical temperature rising and reducing instrument 6, the centrifugal partition plate 2 is provided with the gas cylinder positioning hole for penetrating the oxygen cylinder 7, the upper end of the gas cylinder positioning plate 4 is connected with the centrifugal partition plate 2, the lower end of the gas cylinder positioning plate 4 is connected with the temperature rising and reducing instrument partition plate 3, and the gas cylinder positioning hole, the gas cylinder positioning plate 4 and the temperature rising and reducing instrument partition plate 3 are matched with the oxygen cylinder 7 for positioning, so that the ECMO devices such as the physical temperature rising and reducing instrument, the centrifuge 5 and the oxygen cylinder 7 are integrally arranged on the ECMO transferring support, and the centralized transferring requirements of the ECMO devices such as the physical temperature rising and reducing instrument, the centrifuge 5 and the oxygen cylinder 7 are met by means of the third travelling mechanism 1.

Specifically, optionally, the gas cylinder positioning plate 4 is of an arc-shaped structure. In order to match the oxygen cylinder 7 with more sizes, in an optimal implementation mode, the gas cylinder positioning plate 4 comprises a first positioning plate, a second positioning plate and a third positioning plate which are sequentially connected in a bending mode, the upper ends of the first positioning plate, the second positioning plate and the third positioning plate are respectively connected with the centrifugal partition plate 2, the lower ends of the first positioning plate, the second positioning plate and the third positioning plate are respectively connected with the temperature rising and lowering instrument partition plate 3, an included angle between the first positioning plate and the second positioning plate is an obtuse angle, and an included angle between the second positioning plate and the third positioning plate is an obtuse angle. Wherein, first locating plate, second locating plate and third locating plate can be solitary board, be welded connection between first locating plate, second locating plate and the third locating plate this moment, and of course, first locating plate, second locating plate and third locating plate also can integrated into one piece, if can adopt a steel sheet bending type to form. In the preferred embodiment, the gas cylinder positioning plate 4 is formed by sequentially bending and connecting a first positioning plate, a second positioning plate and a third positioning plate, an included angle between the first positioning plate and the second positioning plate is an obtuse angle, and an included angle between the second positioning plate and the third positioning plate is an obtuse angle, so that oxygen cylinders 7 with more sizes can be matched, and the application range of the ECMO transfer bracket is widened. More preferably, oxygen cylinder 7 pass the gas cylinder locating hole and with when going up and down the 3 butts of temperature appearance baffle, first locating plate, second locating plate and third locating plate respectively with oxygen cylinder 7 contacts, first locating plate, second locating plate and third locating plate simultaneously with oxygen cylinder 7 contacts, can better fix a position oxygen cylinder 7, reduce rocking of oxygen cylinder 7.

In a preferred embodiment, the support frame includes two pipe 8 of bending that are the type of falling U, and every pipe 8 of bending includes two vertical stay tubes and a horizontal stay tube, and the lower extreme of two vertical stay tubes sets up respectively third running gear 1, the upper end of two vertical stay tubes is connected with the both ends arc of horizontal stay tube respectively, the both ends of centrifugal separator 2 and lift thermoscope baffle 3 are connected with the vertical stay tube of two pipe 8 of bending respectively. In this preferred embodiment, the one end of centrifugal separator 2 and two vertical stay tubes of two pipe 8 of bending in the pipe 8 of bending are connected, the other end of centrifugal separator 2 and two vertical stay tubes of two pipe 8 of bending in the pipe 8 of bending are connected, four vertical stay tubes form four corners bearing structure to centrifugal separator 2, improve the stability of structure, equally, the one end of going up and down the thermoscope baffle 3 is connected with two vertical stay tubes of two pipe 8 of bending in the pipe 8 of bending, the other end of going up and down the thermoscope baffle 3 and two vertical stay tubes of two pipe 8 of bending in the pipe 8 of bending are connected, four vertical stay tubes also form four corners bearing structure to going up and down the thermoscope baffle 3. The transverse supporting pipe is positioned above the centrifugal partition board 2 and the temperature rising and reducing instrument partition board 3 and can be used as a pushing hand in daily use, the transverse supporting pipe can be wrapped with a flexible sleeve, and the flexible sleeve can be made of coarse cloth or flexible materials or silica gel.

Wherein the support frame includes that two are the pipe 8 of bending of the type of falling U, and every pipe 8 of bending includes two vertical stay tubes and a horizontal stay tube, and the lower extreme of two vertical stay tubes sets up respectively third running gear 1, the upper end of two vertical stay tubes are connected with the both ends arc of horizontal stay tube respectively, when centrifugal separator 2 and the both ends of rising and falling thermoscope baffle 3 are connected with two vertical stay tubes of pipe 8 of bending respectively, fixed plate 17 is located centrifugal separator 2 and the below of rising and falling thermoscope baffle 3, and the both ends of fixed plate 17 are connected with vertical stay tube respectively, and two vertical stay tubes and a horizontal stay tube and a fixed plate 17 form a mouthful style of calligraphy structure. The fixing plate 17 can be connected with the bracket fixing frame 19 through bolts, can also be clamped, and can also be detachably connected in other structural forms. In an embodiment, the fixing plate 17 is provided with a sliding slot matching with the bracket fixing frame 19, and the fixing plate 17 is slidably connected with the bracket fixing frame 19 in a damping manner, or the fixing plate 17 is slidably connected with the bracket fixing frame 19 in a non-damping manner and is limited by other limiting members.

When lying ill or ill on the transfer stretcher, the body of ill or ill can pass through the region between the ECMO transfer support and the stretcher body 18, and the ECMO equipment such as the physical temperature rising and lowering instrument, the centrifuge 5, the oxygen cylinder 7 and the transfer stretcher is integrated and arranged on a transfer system, and then the centralized transfer requirements of the ECMO equipment such as the physical temperature rising and lowering instrument, the centrifuge 5, the oxygen cylinder 7 and the transfer stretcher are met by means of the walking underframe.

In order to facilitate quick disassembly and quick release of the physical temperature rising and lowering instrument, the centrifugal machine 5 and the oxygen cylinder 7, a plurality of binding belt buckles 9 are arranged on the peripheries of the centrifugal partition plate 2 and the temperature rising and lowering instrument partition plate 3; and one side of the gas cylinder positioning plate 4, which is back to the oxygen cylinder 7, is also provided with a plurality of binding buckles 9, when the gas cylinder positioning plate 4 comprises a first positioning plate, a second positioning plate and a third positioning plate, the first positioning plate, the second positioning plate and the third positioning plate are all provided with the binding buckles 9, in the preferred embodiment, the centrifuge 5, the oxygen cylinder 7 and the medical physical temperature rising and reducing instrument 6 are all fixed by adopting bamboo-shoot-type binding bands, can be rapidly clamped and fixed, and can be installed and disassembled at any time.

Specifically, optionally, the ECMO transport rack further comprises a plurality of vertical rods 10, the upper ends of the vertical rods 10 are respectively connected with the centrifugal partition plates 2, the lower ends of the vertical rods 10 are respectively connected with the partition plates 3 of the temperature rising and reducing instrument, as shown in fig. 1 to 7, the number of the vertical rods 10 is four, and the structural stability of the ECMO transport rack provided by the invention can be improved due to the addition of the vertical rods 10. Preferably, the upper end of the vertical rod 10 penetrates through the centrifugal partition plate 2 and is connected with a hanging ring 11, and the hanging ring 11 is arranged, so that the ECMO transportation bracket or the multifunctional ECMO equipment transportation device provided by the invention can be conveniently hoisted by using hoisting equipment.

Specifically, optionally, a position-clamping hole and a line-passing hole 12 for clamping the centrifuge 5 are formed in the centrifugal partition plate 2, a barrel fixing hole for fixing the sharps barrel 13 is further formed in the centrifugal partition plate 2, the lower end of the sharps barrel 13 penetrates through the centrifugal partition plate 2 and extends downwards relative to the centrifugal partition plate 2, the sharps barrel 13 is a barrel body for containing the sharps of the scissors scalpel, an opening and closing door capable of being opened and closed can be arranged at the upper end of the sharps barrel 13, and the number of the sharps barrel 13 can be multiple, such as two. In order to hang an infusion bottle conveniently, be equipped with the flexible transfusion rod 14 of formula of falling right on centrifugal partition 2, it can stretch out and draw back and stand up, and is specific, the one end of the flexible transfusion rod 14 of formula of falling right rotates with centrifugal partition 2 and is connected, through rotating the flexible transfusion rod 14 of formula of falling right, the other end of the flexible transfusion rod 14 of formula of falling right is alternative is close to and keeps away from centrifugal partition 2, when the other end of the flexible transfusion rod 14 of formula of falling right is kept away from centrifugal partition 2, the flexible transfusion rod 14 of formula of falling right is the form of standing up, can hang the infusion bottle this moment, and when the other end of the flexible transfusion rod 14 of formula of falling right is close to centrifugal partition 2, the flexible transfusion rod 14 of formula of falling right wholly pastes the surface of centrifugal partition 2, and at this moment, reduces the occupation space of the flexible transfusion rod 14 of formula of falling right, makes things convenient for the transition and transportation. Preferably, the gas cylinder positioning hole is arranged close to one of the two bending circular tubes 8, the clamping hole for clamping the centrifuge 5 is arranged close to the other bending circular tube 8 of the two bending circular tubes 8, the inverted telescopic infusion rod 14 and the sharps barrel 13 are respectively arranged at two ends of the gas cylinder positioning hole and the clamping hole for clamping the centrifuge 5, the number of the wire passing holes 12 on the centrifugal partition plate 2 is four, the four wire passing holes are arranged at four corners of the centrifugal partition plate 2 and surround the gas cylinder positioning hole, the clamping hole for clamping the centrifuge 5, the inverted telescopic infusion rod 14 and the sharps barrel 13, and the arrangement is compact, the balance weight of the ECMO transfer bracket is more reasonable, and the stability of the ECMO transfer bracket or the multifunctional ECMO equipment transfer device in transportation at a workshop is ensured.

Be equipped with the screens hole that is used for the 6 screens of medical physics rising temperature appearance on the rising temperature appearance baffle 3 and cross line hole 12 and lightning protection and prevent that surge socket 15, the lightning protection is prevented surge socket 15 and is located between gas cylinder locating plate 4 and the screens hole that is used for 6 screens of medical physics rising temperature appearance, the quantity of crossing line hole 12 on the rising temperature appearance baffle 3 is four, lays at four corners of rising temperature appearance baffle 3, encircles and prevent surge socket 15 gas cylinder locating plate 4 with be used for the screens hole of 6 screens of medical physics rising temperature appearance. The partition plate 3 of the temperature rising and reducing instrument can be further provided with a power cord rolling-up machine 16 for rolling up the power cord.

In the technical scheme of the invention, the assembly parts can be assembled in the form of bolts, rivets or clamping positions and the like according to requirements; the bending round tube 8 can be formed by bending ∅ 30 x 2.0mm stainless steel tubes (304 materials) and adding welding nuts; the upright rod 10 can be formed by welding nuts with ∅ 30 x 2.0mm stainless steel pipes (304 material); other parts can be cut and bent by adopting a stainless steel plate (304 material) with the thickness of 2.0 mm.

In the technical scheme of the invention, the number of the upright stanchions 10 and the third travelling mechanism 1 is four, the total number of the wire through holes 12 is eight, the number of the binding belt buckles 9 can be 40, and the number of the hanging rings 11 can be four. Specifically, optionally, the ECMO transportation support frame further comprises a fixing plate 17, the fixing plate 17 is located below the centrifugal partition plate 2 and the temperature rising and reducing instrument partition plate 3, two ends of the fixing plate 17 are respectively connected with the vertical supporting tubes, the two vertical supporting tubes, the transverse supporting tube and the fixing plate 17 form a square structure, the structural stability of the ECMO transportation support frame is further improved, and meanwhile, the fixing plate 17 can be used for fixing other accessories and is not specifically unfolded here.

In summary, the life support ambulance 300 of the present invention comprises a chassis 301, and a cab 302 and an ambulance compartment 303 which are arranged on the chassis 301 from front to back, wherein the ambulance compartment 303 is a box-shaped structure enclosed by a front plate, a top plate, a left side plate, a right side plate, a tail plate and a floor, a wall cabinet 304, a left storage cabinet group, a right storage cabinet group, a control cabinet 308, etc. are arranged in the ambulance compartment 303, and the space of the upper part and the lower part of the ambulance compartment 303 is fully utilized for arrangement, so that the arrangement is compact, thereby being beneficial to reducing unreasonable occupation of an effective space, better carrying articles such as bandages, external application articles, air conditioners, etc., and better meeting the space requirement for rescue treatment of patients.

Finally, the above embodiments are only intended to illustrate the technical solution of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solution of the present invention without departing from the spirit and scope of the technical solution, and all of them shall fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a built-in art field camera's on-vehicle shadowless lamp (200), its characterized in that: including circular shape last lamp stand (201) and lower lamp stand (202), go up lamp stand (201) and can dismantle the connection with lower lamp stand (202), the lamp panel side of lamp stand (202) is equipped with round lamp pearl down, it is formed with camera installation space to go up between lamp stand (201) and lower lamp stand (202), be equipped with camera installing support (203) in the camera installation space, camera installing support (203) are used for fixed art wild camera (204), the camera of art wild camera (204) stretches out in order to carry out video camera from the center department of the lamp panel side of lamp stand (202) down.

2. The vehicle-mounted shadowless lamp (200) of a built-in surgical field camera of claim 1, wherein: still be equipped with spacing seat of camera (205) in the camera installation space, be equipped with the installing port on lamp stand (202) down, spacing seat of camera (205) through the stair structure arrange in the installing port, spacing seat of camera (205) be used for right the open-air camera of art (204) carry out the axial spacingly, the camera of the open-air camera of art (204) is worn to establish spacing seat of camera (205) with the installing port.

3. The onboard shadowless lamp (200) of a built-in surgical field camera of claim 1 or 2, wherein: still include camera control assembly, camera control assembly is fixed the back side of going up lamp stand (201), camera control assembly include control module mount pad (206) and with control module mount pad (206) complex control module apron (207), control module mount pad (206) are used for fixed camera control module (208), camera control module (208) are connected with aluminum alloy button (209), control module apron (207) are used for opening and closing aluminum alloy button (209), camera control module (208) with art field camera (204) are connected.

4. A life support ambulance, characterized by: the medical ambulance comprises a chassis (301), and a cab (302) and an ambulance compartment (303) which are arranged on the chassis (301) from front to back, wherein the ambulance compartment (303) is of a box-shaped structure enclosed by a front plate, a top plate, a left side plate, a right side plate, a tail plate and a floor, a row of hanging cabinets (304) is arranged on the upper portion of the front plate, two rows of left storage cabinet groups and right storage cabinet groups which are vertically arranged are arranged below the hanging cabinets (304), a standby oxygen cylinder (305) is arranged below the left storage cabinet groups, a vertically arranged medicine cabinet group (306) is arranged below the right storage cabinet groups, two ends of the medicine cabinet group (306) are respectively abutted against the right storage cabinet groups and the floor, an interphone system (307) and a transparent window are further arranged below the hanging cabinets (304), the interphone system (307) is arranged from top to bottom and is positioned between the left storage cabinet groups and the right storage cabinet groups, the rear side of reserve oxygen cylinder (305) is equipped with the switch board (308) and the folding seat of nurse (309) that are the L type, be equipped with negative pressure system (310) and bottom air conditioner (311) in switch board (308), bottom air conditioner (311) is close to the left side board, negative pressure system (310) are located between bottom air conditioner (311) and the folding seat of nurse (309), folding seat of nurse (309) are located on the front bezel and are located the transparent window below, be equipped with the on-vehicle shadowless lamp (200) of built-in art field camera of any claim 1-3 on the left side board.

5. The life support ambulance of claim 4, wherein: a row of storage cabinets (312) are arranged at the upper part of the left side plate, a plurality of bottom air-conditioning air outlets (313) are arranged at the upper top part of the left side plate, an equipment support (314) is arranged at the lower part of the left side plate, the equipment support (314) is positioned at the rear side of the control cabinet (308), and the vehicle-mounted shadowless lamp (200) with the built-in operating field camera is positioned between the storage cabinets (312) and the equipment support (314); and/or, be equipped with collapsible table (315), air sterilizing machine (316) on the right side board, collapsible table (315) are located the below of air sterilizing machine (316), the region that the floor is close to the right side board is equipped with collapsible swivel seat (317), collapsible swivel seat (317) next-door neighbour collapsible table (315) set up, the upper portion of front bezel and tailboard is equipped with ultraviolet ray disinfection lamp (318) respectively.

6. The life support ambulance of claim 4, wherein: including first swing arm (321) and second swing arm (322), the one end of first swing arm (321) with the left side board is articulated, the other end of first swing arm (321) and the one end of second swing arm (322) with articulated, the other end of second swing arm (322) with on-vehicle shadowless lamp (200) of built-in operation field camera are articulated.

7. The life support ambulance of any one of claims 4-6, wherein: also comprises a multifunctional ECMO equipment transfer device which can be selectively moved into and out of the ambulance compartment (303), the multifunctional ECMO equipment transferring device comprises an ECMO transferring bracket and an ECMO transferring stretcher, the ECMO transferring bracket is used for fixing a centrifuge (5), a medical physical temperature rising and lowering instrument (6) and an oxygen cylinder (7), the ECMO transfer stretcher comprises a stretcher body (18), a lifting mechanism and a walking underframe, the walking underframe is used for driving the stretcher body (18) to move, the lifting mechanism enables the stretcher body (18) to lift relative to the walking underframe, fixing plates (17) are arranged on two sides of the bottom of the ECMO transferring bracket, bracket fixing frames (19) are arranged on two sides of the stretcher body (18), the ECMO transferring bracket is detachably connected with a bracket fixing frame (19) through a fixing plate (17) and is fixed above the stretcher body (18).

8. The life support ambulance of claim 7, wherein: still include stretcher transfer frame, stretcher transfer frame includes first transfer frame (319) and second transfer frame (320) of arranging along the fore-and-aft direction, first transfer frame (319) are used for being fixed in on the floor, second transfer frame (320) with first transfer frame (319) sliding connection, second transfer frame (320) can partly slide extremely the outside of ambulance compartment (303), the drive of lifting mechanism can rise to when stretcher body (18) goes up and down the top of second transfer frame (320), stretcher body (18) with second transfer frame (320) can dismantle the connection.

9. The life support ambulance of claim 7, wherein: the fixing plate (17) is connected with the bracket fixing frame (19) through bolts or in a clamping or riveting manner; and/or guide rails extending along the length direction of the stretcher body (18) are arranged on two sides of the stretcher body, and the bracket fixing frame (19) is connected with the stretcher body (18) in a sliding manner through the guide rails; and/or, the walking chassis includes chassis body (23) and locates first running gear (24) of chassis body (23) below, the bottom of stretcher body (18) one end is equipped with second running gear (25), lifting mechanism makes stretcher body (18) can be relative the walking chassis descends to the position that the bottom of first running gear (24) and the bottom of second running gear (25) flushed.

10. The life support ambulance of claim 7, wherein: the lifting mechanism comprises a sliding rail, a sliding block, a first lifting support (20), a second lifting support (21) and a telescopic driving mechanism (22), the sliding rail is fixedly connected to the top of the walking chassis and extends along the length direction of the walking chassis, the sliding block is connected with the sliding rail in a sliding manner and can slide along the extending direction of the sliding rail, one end of the first lifting support (20) is connected with the sliding block in a rotating manner, the other end of the first lifting support (20) is connected with the bottom of the stretcher body (18) in a rotating manner, one end of the second lifting support (21) is connected with the top of the walking chassis in a rotating manner, the other end of the second lifting support (21) is connected with the bottom of the stretcher body (18) in a rotating manner, and the first lifting support (20) and the second lifting support (21) are arranged in a crossed manner in the length direction of the sliding rail, one end of the telescopic driving mechanism (22) is rotatably connected with the first lifting support (20), and the other end of the telescopic driving mechanism (22) is rotatably connected with the second lifting support (21); the first lifting support (20) and/or the second lifting support (21) are of an H-shaped structure; the telescopic driving mechanism (22) is an electric push rod or an air cylinder or an oil cylinder; the support is transported to ECMO includes third running gear (1), support frame, centrifugal separator (2), temperature rising and dropping appearance baffle (3) and gas cylinder locating plate (4), the support frame is established on third running gear (1), centrifugal separator (2) and temperature rising and dropping appearance baffle (3) set up on the support frame and along the parallel interval setting of upper and lower direction, centrifugal separator (2) are located the top of temperature rising and dropping appearance baffle (3), centrifugal separator (2) are used for fixed centrifuge (5), temperature rising and dropping appearance baffle (3) are used for fixing medical physics temperature rising and dropping appearance (6), be equipped with the gas cylinder locating hole that is used for wearing to establish oxygen cylinder (7) on centrifugal separator (2), the upper end of gas cylinder locating plate (4) with centrifugal separator (2) are connected, the lower extreme of gas cylinder locating plate (4) with temperature rising and dropping appearance baffle (3) are connected, the shape of the gas cylinder positioning plate (4) is matched with that of the oxygen cylinder (7), when the oxygen cylinder (7) penetrates through a gas cylinder positioning hole and is abutted to the temperature rising and reducing instrument partition plate (3), the gas cylinder positioning plate (4) is contacted with the oxygen cylinder (7), the fixing plate (17) is positioned below the centrifugal partition plate (2) and the temperature rising and reducing instrument partition plate (3), and the fixing plate (17) is connected with the support frame; the support frame includes that two are the pipe (8) of bending of the type of falling U, and every pipe (8) of bending includes two vertical stay tubes and a horizontal stay tube, and the lower extreme of two vertical stay tubes sets up respectively third running gear (1), the upper end of two vertical stay tubes is connected with the both ends arc of horizontal stay tube respectively, the both ends of centrifugation baffle (2) and temperature rising and falling appearance baffle (3) are connected with the vertical stay tube of two pipe (8) of bending respectively, and the both ends of fixed plate (17) are connected with vertical stay tube respectively, and two vertical stay tubes and a horizontal stay tube and a fixed plate (17) form a mouthful style of calligraphy structure.

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