CN107951651A - Extension type mobile high-voltage oxygen cabin - Google Patents

Abstract

The invention discloses a kind of extension type mobile high-voltage oxygen cabin, including the bilge, scalable nacelle, hatchcover, stent, base, bed board, scalable nacelle is hollow structure, stent is annular, horizontally arranged stent is provided with above base, two supporting rods between the both ends of stent and base respectively by vertical direction are fixedly connected, one inner side of stent is fixedly connected with the bilge, another inner side of stent is fixedly connected with hatchcover, bed board that is horizontally arranged and extending to hatchcover is connected with the bilge, scalable nacelle parcel bed board is set, scalable nacelle one end is fixedly connected with the bilge, the scalable nacelle other end is used in combination with hatchcover, air inlet is provided through on hatchcover, gas outlet.It is an object of the invention to provide it is a kind of with flexible, removable, patient pass in and out that cabin is convenient, easy to operate, the extension type mobile high-voltage oxygen cabin be easily unfolded.

Description

Extension type mobile high-voltage oxygen cabin

Technical field

The invention belongs to technical field of medical equipment, and in particular to a kind of extension type mobile high-voltage oxygen cabin.

Background technology

Hyperbaric oxygentherapy refers in the environment of higher than one atmospheric pressure (hyperbaric oxygen chamber), breathe pure oxygen or high concentration oxygen with The method for treating ischemic disease and related disorders, it is therefore an objective to increase the oxygen content of blood and the physical dissolution in tissue, improve The disperse distance of oxygen within the organization, so as to treat the diseases such as ischemic disease, anthracemia, decompression sickness, wound be refractory.So And a part of such patient because bed, it is handicapped need horizontal high voltage oxygen therapy by bed, some patient need to promptly carry out height Oxygen therapy is pressed, therefore is badly in need of a kind of equipment available for hyperbaric oxygentherapy is carried out by Pre-hospital emergency and bed.To high pressure need to be carried out as early as possible The patient of oxygen therapy and need for hyperbaric oxygentherapy and home-bound patient, extension type movement soft cabin uses soft material It is optimum with the design concept that flatcar is combined, it can meet that high pressure oxygen emergency treatment and ward bedside hyperbaric oxygen are controlled before institute significantly The needs for the treatment of.At present, existing and once structure of some on soft cabin, also once designed many outstanding technical solutions.Such as The Decree of Patent Office of China in 2015 is declared by Zhang Dunxiao, and Authorization Notice No. is 203591408 U of CN, China Patent No. (Zl) For:201320731269.8 number utility model patent title be《Special-shaped soft cabin》Utility model patent, used skill Art scheme, it efficiently solves patient and carries out hyperbaric oxygentherapy on one's sick bed and the technology of deformation state during treatment can be kept to ask Topic.But still have some deficits, since nacelle internal ratio is narrow, it is very inconvenient to pass in and out cabin for patient.

The content of the invention

Therefore the technical problem to be solved in the present invention is to overcome patient of the prior art to pass in and out the defects of cabin is inconvenient.

For this reason, the technical solution used is, the present invention provides a kind of extension type mobile high-voltage oxygen cabin, including the bilge, can Flexible nacelle, hatchcover, stent, base, bed board, the scalable nacelle are hollow structure, and the stent is annular, the base Top is provided with the horizontally arranged stent, passes through vertical direction respectively between the both ends of the stent and the base Two supporting rods be fixedly connected, the stent one inner side be fixedly connected with the bilge, another inner side of the stent and The hatchcover is fixedly connected, and the bed board that is horizontally arranged and extending to the hatchcover, institute are connected with the bilge State scalable nacelle and wrap up the bed board setting, described scalable nacelle one end is fixedly connected with the bilge, described scalable The nacelle other end is used in combination with the hatchcover, and air inlet, gas outlet are provided through on the hatchcover.

In order to facilitate removing patient, preferable technical solution is to be provided with universal wheel on the base.

Flexible cabin telescopic moving for convenience, and docked with hatchcover, preferable technical solution is to further include guider, The guider includes guide rod, sliding sleeve, connecting rod, is set along the scalable nacelle telescopic direction on the stent Guide rod is stated, the guide rod is set to two, is symmetrically distributed in the both sides of the scalable nacelle；The sliding sleeve is set to two, Correspondence is wrapped on two guide rods and is slidably connected with the guide rod, and the both ends of the connecting rod correspond to and two The sliding sleeve is fixedly connected, and the connecting rod is fixedly connected with the scalable nacelle close to the end of the hatchcover.

In order to slide over, movement is more smooth on guide rod, and preferable technical solution is, on the inner wall of the sliding sleeve It is provided with ball.

It is fixed in order to which flexible cabin is moved to predeterminated position, preferable technical solution is to further include fixing device, institute Stating fixing device includes fixed link, spring, is connected with groove body in the outer wall surface of the sliding sleeve, the groove body is remote The side of the sliding sleeve is provided with first through hole, be provided with the sliding sleeve with corresponding second through hole of the first through hole, Upper uniform intervals are provided with several first annular grooves to the guide rod along its length, and the fixed link sequentially passes through described First through hole, second through hole, and be installed in the first annular groove, close to the first through hole in the fixed link Place is provided with catch, and the catch and the groove body are provided with the spring between being equipped with a side of the first through hole.

In order to enable flexible cabin to be fitted closely with hatchcover at contact surface, ensure leakproofness during hyperbaric chamber work, Preferable technical solution is to further include pressing device, and the locking device includes the first screw rod, boss, rotating handles, the cabin Center of the lid away from the scalable nacelle side is provided with first screw rod, and the stent is set on the hatchcover side The boss is equipped with, the first threaded hole is provided with the boss, first screw rod extends to institute away from described hatchcover one end State in the first threaded hole, the hatchcover is evenly arranged with the rotation handle away from the scalable nacelle side is circumferentially spaced Hand.

Unexpected factors in order to prevent, hatchcover reversely rotate, and cause flexible cabin to depart from hatchcover contact surface, lose high compression ring Border, causes malpractice, and preferable technical solution is to further include locking device, and the locking device includes bull stick, the first locking Piece, the second lock sheet, the first fixed plate, the second fixed plate, the stent are provided with third through-hole at first screw rod, First screw rod is fixedly connected with the bull stick close to described boss one end, and the bull stick passes through the third through-hole, described Stent is provided with the first elastic supporting bar, first elastic supporting bar away from the boss side at the third through-hole Described third through-hole one end is provided with the first lock sheet described in half arc for wrapping up the bull stick, the stent is away from described Boss side be provided with second elastic supporting bar of first elastic supporting bar on the bull stick axisymmetrical, described Two elastic supporting bars are provided with the second lock sheet described in half arc for wrapping up the bull stick away from described third through-hole one end, described Stent away from the boss side on the bull stick axisymmetrical be respectively arranged with first fixed plate, second fix Plate, is respectively arranged with the second threaded hole, the 3rd threaded hole in first fixed plate, second fixed plate, the second screw rod is worn Cross second threaded hole to be in contact with first lock sheet, the 3rd screw rod is locked through the 3rd threaded hole and described second Tight piece is in contact.

In order to facilitate personnel's regulation locking device, preferable technical solution is that second screw rod is away from the described first lock Tight piece one end is provided with the first knob, and the 3rd screw rod is provided with the second knob away from described second lock sheet one end.

In order to improve the leakproofness in flexible cabin and hatchcover contact surface, preferable technical solution is, close to institute on the hatchcover State and annular convex platform be provided with scalable nacelle side, the scalable nacelle be provided with the end face on the hatchcover with The second annular groove that the annular convex platform matches, the scalable nacelle are recessed positioned at the described second annular close to the hatchcover Sealing strip is respectively arranged with the end face of groove both sides, on the second annular groove bottom surface.

In order to further improve the leakproofness in flexible cabin and hatchcover contact surface, preferable technical solution is, described scalable Reservoir chamber is provided with the second annular groove in nacelle, is set between the reservoir chamber and the second annular groove There is fourth hole connection, the fifth hole connected with the reservoir chamber, tracheae are provided with the outer wall of the scalable nacelle Extended to through the fifth hole in the reservoir chamber, the one end of the tracheae away from the reservoir chamber is connected with air bag.

The advantage of the invention is that：A kind of extension type mobile high-voltage oxygen cabin of the present invention, including the bilge, scalable cabin Body, hatchcover, stent, base, bed board, scalable nacelle are hollow structure, and stent is annular, and horizontal direction is provided with above base The stent of setting, two supporting rods between the both ends of stent and base respectively by vertical direction are fixedly connected, and the one of stent Inner side is fixedly connected with the bilge, and another inner side of stent is fixedly connected with hatchcover, be connected with the bilge it is horizontally arranged and The bed board extended to hatchcover, scalable nacelle parcel bed board are set, and scalable nacelle one end is fixedly connected with the bilge, scalable cabin The body other end is used in combination with hatchcover, and air inlet, gas outlet are provided through on hatchcover.Injury is not easy to limb motion Patient is placed on bed board, and scalable nacelle then is expanded to hatchcover, and is bonded with hatchcover, at this time, sealing state is in cabin. By carrying out pressurization oxygenation in air inlet, by gas outlet to carrying out decompression deoxygenation in cabin.Patient carries out hyperbaric oxygentherapy and terminates Afterwards, scalable nacelle is pulled open, patient is carried away into nacelle, just completes the treatment to patient so that patient passes in and out cabin and is more convenient.

Brief description of the drawings

Fig. 1 is the structure diagram of the present invention.

Fig. 2 is the structure diagram of guider of the present invention.

Fig. 3 is the structure diagram of fixing device of the present invention.

Fig. 4 is the structure diagram of pressing device and locking device of the present invention.

Fig. 5 is the side view of locking device of the present invention.

Fig. 6 is the structure diagram of sealing device of the present invention.

Fig. 7 is the structure diagram of electrical control gear of the present invention.

Wherein, the 1- bilge；The scalable nacelles of 2-；3- hatchcovers；4- stents；5- bases；6- bed boards；7- air inlets；8- outlets Mouthful；9- universal wheels；10- guide rods；11- sliding sleeves；12- connecting rods；13- balls；14- fixed links；15- springs；16- groove bodies； 17- first through hole；The second through holes of 18-；19- first annular grooves；20- catch；The first screw rods of 21-；22- boss；23- rotates handle Hand；24- bed boards；The first threaded holes of 25-；26- bull sticks；The first lock sheets of 27-；The second lock sheets of 28-；The first fixed plates of 29-； The second fixed plates of 30-；31- third through-holes；The first elastic supporting bars of 32-；The second elastic supporting bars of 33-；The second threaded holes of 34-； The 3rd threaded holes of 35-；The second screw rods of 36-；The 3rd screw rods of 37-；The first knobs of 38-；The second knobs of 39-；40- annular convex platform；41- Second annular groove；42- sealing strips；43- reservoir chambers；44- fourth holes；45- fifth holes；46- tracheaes；47- air bags；101- Air quick socket；102- pressure reducers；103- small-sized air compressors；104- air filters；105- first pressure sensors；106- lives Property carbon filter；107- pressurizing valves；108- mufflers；109- pressure reducing valves；110- oxygenerators；111- the first oxygen quick sockets； 112- oxygen gas bombs；113- oxygen pressure sensors；The first safety valves of 114-；115- oxygen supply damper valves；116- flow sensors； 117- oxygen bags；118- the second oxygen quick sockets；119- breathing regulators；120- oxygen uptake plugs；121- deoxygenation plugs；122- is arranged Oxygen valve；123- second pressure sensors；The second safety valves of 124-；125- oxygen concentration sensors.

Embodiment

Technical scheme is clearly and completely described below in conjunction with attached drawing, it is clear that described implementation Example is part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, ordinary skill Personnel's all other embodiments obtained without making creative work, belong to the scope of protection of the invention.

Embodiment 1

As shown in Figs. 1-5, a kind of extension type mobile high-voltage oxygen cabin of the invention, including the bilge 1, scalable nacelle 2, cabin Lid 3, stent 4, base 5, bed board 6, the scalable nacelle 2 are hollow structure, and the stent 4 is annular, the top of base 5 The horizontally arranged stent 4 is provided with, passes through vertical direction respectively between the both ends of the stent 4 and the base 5 Two supporting rods be fixedly connected, the stent 4 one inner side be fixedly connected with the bilge 1, another inner side of the stent 4 It is fixedly connected with the hatchcover 3, the bed that is horizontally arranged and extending to the hatchcover 3 is connected with the bilge 1 Plate 6, the scalable nacelle 2 are wrapped up the bed board 6 and are set, and described scalable 2 one end of nacelle is fixedly connected with the bilge 1, 2 other end of scalable nacelle is used in combination with the hatchcover 3, and air inlet 7, outlet are provided through on the hatchcover 3 Mouth 8.The scalable nacelle 2 can be reduced to the bilge when not in use, when in use, can extend to the hatchcover 3.

Operation principle：The patient that injury is not easy to limb motion is placed on bed board 6, and then scalable nacelle 2 is unfolded It is bonded to hatchcover 3, and with hatchcover 3, at this time, sealing state is in cabin.By carrying out pressurization oxygenation in air inlet 7, by going out Gas port 8 is to carrying out decompression deoxygenation in cabin.After patient carries out hyperbaric oxygentherapy, the scalable nacelle 2 is pulled open, patient is lifted Go out nacelle, just complete the treatment to patient so that patient passes in and out cabin and is more convenient, and unexpected injury, nacelle will not be caused to patient There is flexible, easy to operate, easy expansion.

In order to facilitate removing patient, preferable technical solution is to be provided with universal wheel 9 on the base 5, available for institute outside High pressure oxygen emergency treatment.

Flexible cabin telescopic moving for convenience, and docked with hatchcover, preferable technical solution is to further include guider, The guider includes guide rod 10, sliding sleeve 11, connecting rod 12, along scalable 2 telescopic direction of nacelle on the stent 4 The guide rod 10 is provided with, the guide rod 10 is set to two, is symmetrically distributed in the both sides of the scalable nacelle 2；It is described Sliding sleeve 11 is set to two, and correspondence is wrapped on two guide rods 10 and is slidably connected with the guide rod 10, the company The both ends of extension bar 12 correspond to and are fixedly connected with two sliding sleeves 11, and the connecting rod 12 is with the scalable nacelle 2 close to institute The end for stating hatchcover 3 is fixedly connected.Sliding sleeve 11 can slide on guide rod 10, and healthcare givers can easily push connecting rod very much 11 so that scalable nacelle 2 is bonded with the contact surface of hatchcover 3.

In order to slide over, movement is more smooth on guide rod, and preferable technical solution is the inner wall of the sliding sleeve 11 On be provided with ball 13.

It is fixed in order to which flexible cabin is moved to predeterminated position, preferable technical solution is to further include fixing device, institute Stating fixing device includes fixed link 14, spring 15, and groove body 16 is connected with the outer wall surface of the sliding sleeve 11, described recessed Side of the groove body 16 away from the sliding sleeve 11 is provided with first through hole 17, is provided with the sliding sleeve 11 and the first through hole 17 Corresponding second through hole 18, upper uniform intervals are provided with several first annular grooves to the guide rod 10 along its length 19, the fixed link 14 sequentially passes through the first through hole 17, second through hole 18, and is installed on the first annular groove In 19, catch 20, the catch 20 and the groove body 16 are provided with the fixed link 14 at the first through hole 17 The spring 15 is provided between a side equipped with the first through hole 17.In normal state, the elastic force of spring 15 causes Fixed link 14 is stuck in first annular groove 19, and fixed sliding sleeve 11 is immovable, and scalable nacelle 2 is close to one end of hatchcover 3 It is achieved that fixation, when needing to move scalable nacelle, fixed link 14 is extracted out of first annular groove 19, it is possible to move Scalable nacelle 2 is moved, when being moved to suitable position, trip spring 15, under the action of elastic force, fixed link 14 is stuck in the first ring Just scalable nacelle 2 is fixed again in connected in star 19.By fixing device the movement can be facilitated scalable Nacelle 2 is fixed close to one end telescopic moving to the suitable position of the hatchcover 3.

In order to enable scalable cabin and hatchcover to be fitted closely at contact surface, ensure sealing during hyperbaric chamber work Property, preferable technical solution is to further include pressing device, and the locking device includes the first screw rod 21, boss 22, rotating handles 23, center of the hatchcover 3 away from scalable 2 side of nacelle is provided with first screw rod 21, and the stent 4 is close to institute State and the boss 22 is provided with 3 side of hatchcover, the first threaded hole 25 is provided with the boss 22, first screw rod 21 is remote Extended to from described 3 one end of hatchcover in first threaded hole 25, the hatchcover 3 is away from scalable 2 side of nacelle along week The rotating handles 23 is evenly arranged with to interval.After scalable nacelle 2, which is moved to suitable position, to be fixed, it is necessary to The hatchcover 3 and the contact face of scalable nacelle 2 are closely bonded, at this time, rotate rotating handles 23 so that hatchcover 3 rotate, and the first screw rod 21 and the first threaded hole 25 produce threading action, and promotion hatchcover movement is close to scalable nacelle 2, when connecing After contravention face paste is closed, then some power is added to rotate rotating handles 23 so that there are certain pretightning force, contact surface between contact face Closer, the good airproof performance in nacelle of fitting.

Unexpected factors in order to prevent, hatchcover reversely rotate, and cause flexible cabin to depart from hatchcover contact surface, lose high compression ring Border, causes malpractice, and preferable technical solution is to further include locking device, and the locking device is locked including bull stick 26, first Tight piece 27, the second lock sheet 28, the first fixed plate 29, the second fixed plate 30, the stent 4 are set at first screw rod 21 Third through-hole 31 is equipped with, first screw rod 21 is fixedly connected with the bull stick 26, the bull stick close to described 22 one end of boss 26 pass through the third through-hole 31, and the stent 4 is provided with away from 22 side of boss at the third through-hole 31 One elastic supporting bar 32, first elastic supporting bar 32 are provided with the parcel bull stick 26 away from described 31 one end of third through-hole Half arc described in the first lock sheet 27, the stent 4 away from 22 side of boss be provided with and described first resilient support Second elastic supporting bar 33 of the bar 32 on 26 axisymmetrical of bull stick, second elastic supporting bar 33 is away from the described 3rd 31 one end of through hole is provided with the second lock sheet 28 described in half arc for wrapping up the bull stick 26, and the stent 4 is away from the boss On 22 sides first fixed plate 29, the second fixed plate 30 are respectively arranged with 26 axisymmetrical of bull stick, described The second threaded hole 34, the 3rd threaded hole 35 are respectively arranged with one fixed plate 29, second fixed plate 30, the second screw rod 36 is worn Cross second threaded hole 34 to be in contact with first lock sheet 27, the 3rd screw rod 37 passes through the 3rd threaded hole 35 and institute The second lock sheet 28 is stated to be in contact.After scalable cabin and hatchcover can fit closely at contact surface, by rotating the second screw rod 36 and the 3rd screw rod 37 so that the first lock sheet 27 can not rotate 26 fixation of bull stick with the second lock sheet 28, prevent from cabin Lid 3 rotates, and avoids nacelle from being opened accidentally, the generation to cause the accident.

In order to facilitate personnel's regulation locking device, preferable technical solution is that second screw rod 36 is away from described first 27 one end of lock sheet is provided with the first knob 38, and the 3rd screw rod 37 is provided with second away from described second lock sheet, 28 one end Knob 39.

Embodiment 2

As shown in fig. 6-7, a kind of extension type mobile high-voltage oxygen cabin of the invention, can stretch close to described on the hatchcover 3 Be provided with annular convex platform 40 on 2 side of contracting nacelle, the scalable nacelle 2 be provided with the end face on the hatchcover 3 with The second annular groove 41 that the annular convex platform 40 matches, the scalable nacelle 2 are located at described second close to the hatchcover 3 On the end face of 41 both sides of annular groove, the second annular groove be respectively arranged with sealing strip 42 on 41 bottom surface.Pass through convex annular Platform 40 and the cooperation of second annular groove 41, add the area of hatchcover 3 and scalable 2 contact surface of nacelle, meanwhile, in contact surface Many places set sealing strip, can effectively improve the leakproofness of device, ensure the reliability of high device high-pressure work.

In order to further improve the leakproofness in flexible cabin and hatchcover contact surface, preferable technical solution is, described scalable Reservoir chamber 43, the reservoir chamber 43 and the second annular groove are provided with nacelle 2 at the second annular groove 41 Fourth hole 44 is provided between 41 to connect, and is provided with what is connected with the reservoir chamber 43 on the outer wall of the scalable nacelle 2 Fifth hole 45, tracheae 46 extended in the reservoir chamber 43 through the fifth hole 45, and the tracheae 46 is away from described One end of reservoir chamber 43 is connected with air bag 47.Pass through extruding gasbag 47 so that the water in reservoir chamber 43 is flowed into hatchcover 3 with that can stretch In 2 contact surface of contracting nacelle, gap small on contact surface can be filled so that the leakproofness of device is further strengthened.

In the application, applicant have also been devised electrical control gear, and second pressure sensing is respectively arranged with the hatchcover 3 Device 123, the second safety valve 124；Oxygen concentration sensor 125, the second pressure sensor 123 are used for monitoring the gas in nacelle Pressure, second safety valve 124 are used for when hypertonia in nacelle, open valve and are reduced to safe pressure.It is described to stretch Oxygen bag 117 is provided with contracting nacelle 2 at the hatchcover 3, oxygen bag 117 connects the second oxygen quick socket 118, and breathing is adjusted Section device 119 is connected with the second oxygen quick socket 118, and the breathing regulator 119 is connected with oxygen uptake plug, is treated for patient When use, the scalable nacelle 2 is provided outside oxygen gas bomb 112, and oxygen pressure is respectively arranged with the oxygen gas bomb 112 Sensor 113, the first safety valve 114, the oxygen gas bomb 112 are connected with the oxygen bag 117 by tracheae, are the oxygen Gas bag 117 provides oxygen, and oxygen supply is provided with the connecting tube between the oxygen gas bomb 112 and the oxygen bag 117 and is adjusted Valve 115 and flow sensor 117, for control monitor oxygen flow, the oxygen gas bomb 112 connect respectively oxygenerator 110, First oxygen quick socket 111, can supply oxygen usable hospital's wall oxygen supply, can also make oxygen by oneself.Also set up in the scalable nacelle 2 Have air manifold, and muffler 108 be provided with the gas outlet of the air manifold, the air manifold with it is described Air quick socket 101, small-sized air compressor 103 outside scalable nacelle 2 connect, the tracheae exit of the air quick socket 101 Pressure reducer 102 is provided with, the tracheae exit of the small-sized air compressor 103 is provided with air filter, the air manifold On be disposed with first pressure sensor 105, charcoal filter 106, pressurizing valve 107, for air input pressure supervise The functions such as survey, filtering, pressurization.Deoxygenation plug 112 and the row outside the scalable nacelle 2 are provided with the scalable nacelle 2 Oxygen valve 122 connects, for exhausting the oxygen in cabin.Described state is additionally provided with pressure reducing valve outside scalable nacelle 2, for reducing in ginseng Pressure.Powered using 220V, have UPS, can off-line operation 2 it is small when.Hospital's wall oxygen supply can be used in oxygen supply, can make oxygen by oneself. Hospital's wall supply can be used in supply, can make gas by oneself.Intelligent Single-Chip Based controls whole therapeutic process, and each valve is by controller control System.

Claims (8)

1. A kind of 1. extension type mobile high-voltage oxygen cabin, it is characterised in that：Including the bilge (1), scalable nacelle (2), hatchcover (3), Stent (4), base (5), bed board (6), the scalable nacelle (2) is hollow structure, and the stent (4) is annular, the bottom The horizontally arranged stent (4) is provided with above seat (5), is divided between the both ends of the stent (4) and the base (5) It is not fixedly connected by two supporting rods of vertical direction, an inner side of the stent (4) is fixedly connected with the bilge (1), Another inner side of the stent (4) is fixedly connected with the hatchcover (3), be connected with the bilge (1) it is horizontally arranged simultaneously And wrap up the bed board (6) to the bed board (6) that the hatchcover (3) extends, the scalable nacelle (2) and set, it is described can Flexible nacelle (2) one end is fixedly connected with the bilge (1), and scalable nacelle (2) other end matches with the hatchcover (3) Close and use, air inlet (7), gas outlet (8) are provided through on the hatchcover (3).
2. A kind of 2. extension type mobile high-voltage oxygen cabin according to claim 1, it is characterised in that：Set on the base (5) It is equipped with universal wheel (9).
3. A kind of 3. extension type mobile high-voltage oxygen cabin according to claim 1, it is characterised in that：Further include guider, The guider includes guide rod (10), sliding sleeve (11), connecting rod (12), along the scalable nacelle on the stent (4) (2) telescopic direction is provided with the guide rod (10), and the guide rod (10) is set to two, is symmetrically distributed in the scalable cabin The both sides of body (2)；The sliding sleeve (11) is set to two, it is corresponding be wrapped on two guide rods (10) and with the guiding Bar (10) is slidably connected, and the both ends of the connecting rod (12) are corresponded to be fixedly connected with two sliding sleeves (11), the connecting rod (12) it is fixedly connected with the scalable nacelle (2) close to the end of the hatchcover (3).
4. A kind of 4. extension type mobile high-voltage oxygen cabin according to claim 3, it is characterised in that：The sliding sleeve (11) it is interior Ball (13) is provided with wall.
5. A kind of 5. extension type mobile high-voltage oxygen cabin according to claim 3, it is characterised in that：Further include fixing device, The fixing device includes fixed link (14), spring (15), and groove body is connected with the outer wall surface of the sliding sleeve (11) (16), side of the groove body (16) away from the sliding sleeve (11) is provided with first through hole (17), is set on the sliding sleeve (11) The second through hole (18) corresponding with the first through hole (17) is equipped with, the guide rod (10) goes up uniform intervals along its length Several first annular grooves (19) are provided with, the fixed link (14) sequentially passes through the first through hole (17), described second Through hole (18), and be installed in the first annular groove (19), close to the first through hole (17) on the fixed link (14) Place is provided with catch (20), and the catch (20) and the groove body (16) are equipped between a side of the first through hole (17) It is provided with the spring (15).
6. A kind of 6. extension type mobile high-voltage oxygen cabin according to claim 1, it is characterised in that：Further include pressing device, The locking device includes the first screw rod (21), boss (22), rotating handles (23), and the hatchcover (3) is away from described scalable The center of nacelle (2) side is provided with first screw rod (21), and the stent (4) is set on the hatchcover (3) side There is the boss (22), the first threaded hole (25) is provided with the boss (22), first screw rod (21) is away from the cabin Lid (3) one end is extended in first threaded hole (25), and the hatchcover (3) is away from scalable nacelle (2) side along week The rotating handles (23) is evenly arranged with to interval.
7. A kind of 7. extension type mobile high-voltage oxygen cabin according to claim 6, it is characterised in that：Further include locking device, The locking device is consolidated including bull stick (26), the first lock sheet (27), the second lock sheet (28), the first fixed plate (29), second Fixed board (30), the stent (4) are provided with third through-hole (31), first screw rod (21) close to the first screw rod (21) place The bull stick (26) is fixedly connected with close to the boss (22) one end, the bull stick (26) passes through the third through-hole (31), The stent (4) is provided with the first elastic supporting bar away from the boss (22) side close to the third through-hole (31) place (32), first elastic supporting bar (32) is provided with the half of the parcel bull stick (26) away from the third through-hole (31) one end First lock sheet (27) described in arc, the stent (4) are provided with away from the boss (22) side and are propped up with the described first elasticity Second elastic supporting bar (33) of the strut (32) on the bull stick (26) axisymmetrical, second elastic supporting bar (33) are remote It is provided with from the third through-hole (31) one end and wraps up the second lock sheet (28) described in half arc of the bull stick (26), the branch On the remote boss (22) side of frame (4) first fixed plate is respectively arranged with the bull stick (26) axisymmetrical (29), the second fixed plate (30), are respectively arranged with the second screw thread on first fixed plate (29), second fixed plate (30) Hole (34), the 3rd threaded hole (35), the second screw rod (36) pass through second threaded hole (34) and first lock sheet (27) It is in contact, the 3rd screw rod (37) is in contact through the 3rd threaded hole (35) with second lock sheet (28).
8. A kind of 8. extension type mobile high-voltage oxygen cabin according to claim 7, it is characterised in that：Second screw rod (36) Described first lock sheet (27) one end is provided with the first knob (38), the 3rd screw rod (37) is away from the described second locking Piece (28) one end is provided with the second knob (39).