CN212592869U - Mobile medical cabin airtight connection structure - Google Patents

Abstract

The utility model discloses a remove medical cabin airtight connection structure, include: the inner cabin comprises an inner frame structure consisting of a bottom plate, a top plate, a left side plate and a right side plate; the outer chamber, the outer chamber includes the outer chamber skeleton that end skeleton, top skeleton and two side skeletons are constituteed, end skeleton is located the circumference outer wall of bottom plate, the circumference outer wall that the top skeleton is located the roof, and two side skeletons are located the circumference outer wall of left side board and the circumference outer wall of right side board respectively, and the flange frame is connected respectively in outer chamber front end and rear end. The medical cabin need not the welding and can guarantee the leakproofness, realize detachable connection through the flange frame between the adjacent skeleton, when needs equipment removes the medical cabin, only need with the flange frame between the adjacent skeleton pass through bolt locking can, on the same hand, when needs dismantle and remove the medical cabin, only need demolish the bolt, the flange frame between the adjacent skeleton is unpacked apart, can accomplish the dismantlement that removes the medical cabin, the dismouting, the transportation, the removal and the custody of the medical cabin of being convenient for.

Description

Mobile medical cabin airtight connection structure

Technical Field

The utility model relates to a remove medical cabin technical field, specifically speaking relates to a remove medical cabin airtight connection structure.

Background

The mobile medical cabin is a movable biological safety protection medical room, can be immediately sent to an epidemic area to detect patients when major sudden virulent infectious diseases occur, and does not need to transport the patients to a hospital in a centralized manner, so that the risk of infection of additional people is increased. When a patient receives treatment in the mobile medical cabin, in order to prevent virus leakage, the whole existing medical cabin adopts a welding mode to ensure that the medical cabin has high tightness, but the whole welding mode is inconvenient for dismounting, transporting, moving and storing the medical cabin.

SUMMERY OF THE UTILITY MODEL

In order to achieve the above object, the utility model discloses a mobile medical cabin airtight connection structure, include:

the inner cabin comprises an inner frame structure consisting of a bottom plate, a top plate, a left side plate and a right side plate;

the outer chamber, the outer chamber includes the outer chamber skeleton that end skeleton, top skeleton and two side skeletons are constituteed, end skeleton is located the circumference outer wall of bottom plate, the circumference outer wall that the top skeleton is located the roof, and two side skeletons are located the circumference outer wall of left side board and the circumference outer wall of right side board respectively, between end skeleton and two side skeletons all through the detachable connection of flange frame between top skeleton and two side skeletons.

Preferably, the method further comprises the following steps:

the reinforcing rib groups are respectively welded in the bottom framework, the top framework and the two side frameworks;

the skin is arranged on the outer surface of the outer cabin in a covering mode.

Preferably, the method further comprises the following steps:

the sealing plates are connected to the front end and the rear end of the inner cabin 1;

and the sealing door body is connected to the sealing plate.

Preferably, the sealing door body includes:

the fixing frame is of a C-shaped structure and is connected to the sealing plate, and the fixing frame comprises an upper fixing part, a lower fixing part and a vertical part;

the lower rail is positioned at the inner end of the lower fixing part;

the upper rail is positioned at the inner end of the upper fixing part;

the transmission chamber is arranged in the upper fixing part and is close to the upper rail;

the transmission motor is arranged in the transmission chamber and is far away from the vertical part;

the screw rod is positioned in the transmission chamber and is connected to the output end of the transmission motor;

the transmission nut is connected to the screw rod;

the sliding seat is connected in the upper rail in a sliding manner, and the top end of the sliding seat is connected with the transmission nut;

the top end of the door body is connected with the bottom end of the sliding seat;

the door body placing chamber is connected between the upper fixing part and the lower fixing part and is arranged far away from the vertical part;

the pulley block is connected in the lower rail in a sliding manner and is connected with the bottom end of the door body;

when the door body moves away from the vertical part, the door body slides into the door body placing chamber, and when the door body moves close to the vertical part, the door body and the door body placing chamber shield the inner end of the fixing frame.

Preferably, the method further comprises the following steps:

the mounting chamber is arranged in the upper fixing part and close to the vertical part, and the end, far away from the transmission motor, of the screw rod is arranged in the mounting chamber in a penetrating manner;

the spring fixing seat is arranged in the mounting chamber and is fixedly connected to the screw rod;

the first helical gear is arranged in the mounting chamber, and the end, far away from the transmission motor, of the screw rod is arranged in the first helical gear in a penetrating manner;

the return springs are connected between the spring fixing seat and the first bevel gear;

the sliding groove is axially arranged on the first helical gear by taking the screw as a center and is far away from the transmission chamber;

the locking block is connected in the sliding groove in a sliding manner;

the rope body is connected with the locking block;

the rope winding wheel is arranged in the transmission chamber and is fixedly connected to the output end of the transmission motor, and the end, far away from the locking block, of the rope body penetrates through the end, far away from the transmission chamber, of the inner wall of the installation chamber and is connected to the rope winding wheel;

the steel bar is connected to the end, close to the vertical part, of the door body;

the magnetic seat is embedded in the inner end of the vertical part;

the magnetic strip is connected to the inner end, close to the vertical part, of the magnetic seat;

the magnetic rod is rotatably connected in the magnetic seat;

the rotating shaft is connected to the top end of the magnetic rod, and the end, far away from the magnetic rod, of the rotating shaft penetrates through the installation chamber;

and the second bevel gear is connected to the end, far away from the magnetic rod, of the rotating shaft, and is matched with the first bevel gear.

Preferably, the method further comprises the following steps:

the rope locking seat is installed on the inner wall of the installation chamber and far away from the end of the transmission chamber, and the rope body penetrates through the rope locking seat.

Preferably, the locking rope seat comprises:

the fixing pipe transversely penetrates through the inner wall of the installation chamber and is far away from the end of the transmission chamber;

the fixing ring is connected to the inner wall of the fixing pipe close to the end of the mounting chamber;

the transmission pipe is connected in the fixed pipe;

the internal thread is arranged on the inner wall of the fixed pipe and is far away from the position of the fixed ring;

the external thread is arranged on the outer wall of the transmission pipe and is meshed with the internal thread;

the spring sliding seat is positioned in the fixed pipe;

the inclined plane is circumferentially arranged on the inner wall of the transmission pipe close to the end of the fixed ring;

the first spring is arranged in the fixed pipe, one end of the first spring is connected with the fixed ring, and the other end of the first spring is connected with the spring sliding seat;

the L-shaped supporting plates are circumferentially connected to the end, far away from the fixed ring, of the spring sliding seat;

one end of the second spring is connected with the edge end of the spring sliding seat, and the other end of the second spring is connected with the inner end of the L-shaped supporting plate;

the clamping jaw is a wedge-shaped mechanism and is connected to the inclined plane in a sliding manner;

the external gear is connected to the outer wall of the transmission pipe;

the rotating motor is connected to the outer wall of the fixed pipe;

the rotating gear is connected to the output end of the rotating motor and meshed with the external gear;

wherein, the rope body wears to establish driving tube, spring sliding seat, first spring, solid fixed ring setting.

Preferably, the method further comprises the following steps:

the outer cabin is fixed on the vehicle body.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the installation of the sealing door body in the sealing plate of the present invention;

fig. 3 is a schematic structural view of the middle fixing frame of the present invention;

FIG. 4 is a diagram of the position relationship of the middle door body in the fixing frame of the present invention;

FIG. 5 is an enlarged view of reference character A in FIG. 4;

FIG. 6 is a diagram showing the relationship between the magnetic stripe and the magnetic rod in the magnetic base;

FIG. 7 is a diagram illustrating the engagement between the first helical gear and the second helical gear according to the present invention;

fig. 8 is a cross-sectional view of the lock cord holder.

In the figure: 1. an inner chamber; 2. an outer chamber; 3. sealing the door body; 5. a magnetic base; 6. a rope locking seat; 11. a base plate; 12. a top plate; 13. a left side plate; 14. a right side plate; 21. a bottom skeleton; 22. a top frame; 23. a side frame; 24. a flange frame; 26. a sealing plate; 31. a fixing frame; 32. a lower rail; 33. an upper rail; 34. a transmission chamber; 35. a drive motor; 36. a screw; 37. a drive nut; 38. a sliding seat; 39. a door body; 30. a door body placing chamber; 41. a pulley block; 42. an installation chamber; 43. a spring fixing seat; 44. a first helical gear; 45. a return spring; 46. a chute; 47. a rope body; 48. a rope winding wheel; 49. a steel bar; 51. a magnetic strip; 52. a magnetic rod; 53. a rotating shaft; 54. a second helical gear; 61. a fixed tube; 62. a fixing ring; 63. a drive tube; 64. a spring sliding seat; 65. a first spring; 66. a second spring; 67. a slanted plane; 68. a claw; an L-shaped support plate; 60. an outer gear; 70. rotating the motor; 71. a rotating gear; 311. an upper fixing portion; 312. a lower fixing portion; 313. a vertical portion.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

The present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, the present embodiment provides a mobile medical treatment cabin airtight connection structure, including:

the inner cabin 1 comprises an inner frame structure consisting of a bottom plate 11, a top plate 12, a left side plate 13 and a right side plate 14;

outer chamber 2, outer chamber 2 includes the outer chamber skeleton that end skeleton 21, top skeleton 22 and two side skeletons 23 are constituteed, end skeleton 21 is located the circumference outer wall of bottom plate 11, top skeleton 22 is located the circumference outer wall of roof 12, and two side skeletons 23 are located the circumference outer wall of left side board 13 and the circumference outer wall of right side board 14 respectively, between end skeleton 21 and two side skeletons 23 all through the detachable connection of flange frame between top skeleton 22 and two side skeletons 23.

The working principle and the beneficial effects of the technical scheme are as follows:

the utility model discloses a mobile medical cabin airtight connection structure, the medical cabin can guarantee the leakproofness without welding, the outer cabin 2 is covered outside the inner cabin 1, the inner cabin 1 is composed of a bottom plate 11, a top plate 12, a left side plate 13 and a right side plate 14, the outer cabin 2 is composed of a bottom framework 21, a top framework 22 and two side frameworks 23, the bottom framework 21 is positioned on the circumferential outer wall of the bottom plate 11, the top framework 22 is positioned on the circumferential outer wall of the top plate 12, the two side frameworks 23 are respectively positioned on the circumferential outer wall of the left side plate 13 and the circumferential outer wall of the right side plate 14, the adjacent frameworks are detachably connected through flange frames, when the mobile medical cabin needs to be assembled, only the flange frames between the adjacent frameworks need to be locked through bolts, and in the same way, when the mobile medical cabin needs to be disassembled, only the bolts need to be disassembled, the flange frames between the adjacent frameworks are disassembled, and the movable medical cabin can be disassembled, is convenient for the disassembly, assembly, transportation, movement and storage of the medical cabin.

In one embodiment, further comprising:

the reinforcing rib groups are welded in the bottom framework 21, the top framework 22 and the two side frameworks 23 respectively;

and the skin is arranged on the outer surface of the outer cabin 2 in a covering mode.

The beneficial effects of the above technical scheme are:

the arrangement of the reinforcing rib group plays a reinforcing role for the outer cabin framework, and the skin is covered on the outer surface of the outer cabin 2, so that the inner cabin 1 is covered in the outer cabin 2.

As shown in fig. 2, in one embodiment, the method further includes:

sealing plates 26, the sealing plates 26 being connected to the front and rear ends of the inner compartment 1;

and a sealing door body 3, wherein the sealing door body 3 is connected to the sealing plate 26.

The beneficial effects of the above technical scheme are:

the sealing plate 26 is connected to the front end and the rear end of the inner cabin 1, so that the inner cabin 1 forms an inner sealing body, the circumferential outer wall of the sealing plate 26 is connected with an adjacent outer cabin framework through a flange frame, the sealing door body 3 is connected to the sealing plate 26, and the sealing door body 3 is convenient for doctors and patients to enter.

As shown in fig. 3, in one embodiment, the sealing door 3 includes:

a fixing frame 31, the fixing frame 31 having a C-shaped structure, the fixing frame 31 being connected to the sealing plate 26, the fixing frame 31 including an upper fixing portion 311, a lower fixing portion 312, and a vertical portion 313;

a lower rail 32, the lower rail 32 being located at an inner end of the lower fixing portion 312;

an upper rail 33, the upper rail 33 being located at an inner end of the upper fixing portion 311;

a transmission chamber 34, the transmission chamber 34 being provided in the upper fixing portion 311 and being disposed adjacent to the upper rail 33;

the transmission motor 35 is arranged in the transmission chamber 34, and the transmission motor 35 is arranged far away from the vertical part 313;

the screw rod 36, the said screw rod 36 locates in the drive chamber 34, and the said screw rod 36 is connected to the output end of the drive motor 35;

a drive nut 37, said drive nut 37 being attached to the screw 36;

the sliding seat 38 is connected in the upper rail 33 in a sliding manner, and the top end of the sliding seat 38 is connected with the transmission nut 37;

the top end of the door body 39 is connected with the bottom end of the sliding seat 38;

a door seating chamber 30, the door seating chamber 30 being connected between the upper fixing portion 311 and the lower fixing portion 312, and the door seating chamber 30 being disposed apart from the vertical portion 313;

the pulley block 41 is connected in the lower rail 32 in a sliding manner, and the pulley block 41 is connected with the bottom end of the door body 39;

when the door 39 moves away from the vertical portion 313, the door 39 slides into the door receiving chamber 30, and when the door 39 moves close to the vertical portion 313, the door 39 and the door receiving chamber 30 shield the inner end of the fixed frame 31.

The working principle and the beneficial effects of the technical scheme are as follows:

the fixed frame 31 is of a C-shaped structure, the fixed frame 31 is mounted on the sealing plate 26, when the door body 39 needs to be opened and closed, the transmission motor 35 is started, the screw rod 36 connected to the output end of the transmission motor 35 rotates in the transmission chamber 34, and then the transmission nut 37 sleeved on the screw rod 36 is driven to move in the transmission chamber 34, the transmission nut 37 drives the sliding seat 38 connected in the upper rail 33 in a sliding manner to slide along the length direction of the screw rod 36, and then the door body 39 connected with the sliding seat 38 is driven to slide in the fixed frame 31, the bottom end of the door body 39 slides in the lower rail 32 through the pulley block 41, wherein when the door body 39 moves in the direction close to the transmission motor 35 in the fixed frame 31, the door body 39 slides into the door body placing chamber 30, the sealed door body 3 is opened, when the sealed door body 3 needs to be closed, the transmission motor 35 rotates, the inside of the fixing frame 31 is sealed, thereby completing the closing of the sealing door 3.

As shown in fig. 4 to 6, in one embodiment, the method further includes:

the mounting chamber 42 is arranged in the upper fixing part 311 close to the vertical part 313, and the end, far away from the transmission motor 35, of the screw 36 is arranged in the mounting chamber 42 in a penetrating way;

the spring fixing seat 43 is arranged in the mounting chamber 42, and the spring fixing seat 43 is fixedly connected to the screw rod 36;

the first bevel gear 44 is arranged in the mounting chamber 42, and the end of the screw rod 36 far away from the transmission motor 35 is arranged in the first bevel gear 44 in a penetrating way;

a plurality of return springs 45 connected between the spring fixing base 43 and the first bevel gear 44;

a slide groove 46, wherein the slide groove 46 is axially opened on the first bevel gear 44 with the screw 36 as a center and is far away from the transmission chamber 34;

a locking piece slidably connected in the chute 46;

the rope body 47, the said rope body 47 is connected with lock block;

the rope winding wheel 48 is arranged in the transmission chamber 34 and is fixedly connected to the output end of the transmission motor 35, and the end, far away from the locking block, of the rope body 47 penetrates through the inner wall of the installation chamber 42 and is far away from the end, far away from the transmission chamber 34, of the rope body 48 and is connected to the rope winding wheel 48;

a steel bar 49, wherein the steel bar 49 is connected to the end, close to the vertical part 313, of the door body 39;

the magnetic seat 5 is embedded at the inner end of the vertical part 313;

the magnetic strip 51 is connected to the inner end, close to the vertical part 313, of the magnetic seat 5;

the magnetic rod 52 is rotatably connected in the magnetic base 5;

the rotating shaft 53 is connected to the top end of the magnetic rod 52, and the end of the rotating shaft 53, far away from the magnetic rod 52, penetrates through the installation chamber 42;

and the second bevel gear 54 is connected to the end, away from the magnetic rod 52, of the rotating shaft 53, and the second bevel gear 54 is matched with the first bevel gear 44.

The working principle and the beneficial effects of the technical scheme are as follows:

when the door body 3 needs to be sealed and closed, the transmission motor 35 rotates, the door body 39 slides out from the door body placing chamber 30 and moves reversely to the position close to the vertical part 313, at this time, the screw 36 connected with the output end of the transmission motor 35 rotates to drive the spring fixing seat 43 connected with the screw 36 and the first bevel gear 44 connected with the spring fixing seat 43 through the reset spring 45 to rotate in the mounting chamber 42, synchronously, the rope winding wheel 48 connected with the output end of the transmission motor 35 rotates synchronously with the spring fixing seat 43 and the first bevel gear 44, the end, far away from the locking block, of the rope body 47 penetrates through and is wound on the rope winding wheel 48 from the end, far away from the transmission chamber 34, of the inner wall of the mounting chamber 42, when the first bevel gear 44 rotates circumferentially, the end, close to the locking block, of the rope body 47 connected with the sliding groove 46 is unchanged, the reset spring 45 is pulled up, the first bevel gear 44 moves to, when the end of the door 39 provided with the steel bar 49 moves to be close to the inner end of the vertical portion 313, the rope 47 pulls the return spring 45 to the maximum length, the first bevel gear 44 is engaged with the second bevel gear 54, as shown in fig. 7, so that the first bevel gear 44 drives the second bevel gear 54 to rotate in the mounting chamber 42, the second bevel gear 54 drives the rotating shaft 53 and the magnetic rod 52 connected with the rotating shaft 53 to rotate in the magnetic base 5, in an initial state, the two poles of the magnetic rod 52 are opposite to the two poles of the magnetic bar 51, the magnetic lines of force of the magnetic bar 51 are converged and transmitted into the magnetic rod 52, at this time, the magnetic bar 51 is nonmagnetic, when the magnetic rod 52 rotates in the magnetic base 5 under the engagement of the first bevel gear 44 and the second bevel gear 54, because the two poles of the magnetic rod 52 and the two poles of the magnetic bar 51 tend to be the same, at this time, the magnetic lines of force of the magnetic bar 51 gradually diverge, the magnetic bar 51 generates magnetism, and attracts, the door body 39 is airtight, when the two polar directions of the magnetic pole 52 and the two polar directions of the magnetic strip 51 are the same, the magnetic line of force of the magnetic strip 51 is completely put outward, the magnetism of the magnetic strip 51 reaches the maximum, the door body 39 is sucked, the transmission motor 35 stops rotating, the first bevel gear 44 and the second bevel gear 54 are matched to drive the magnetic pole 52 to complete quick 180-degree rotation, in the rotating process, the deformation quantity of the rope body 47 is utilized, the rope body 47 is partially elongated, the transmission motor 35 continuously rotates, 180-degree rotation of the magnetic pole 52 is completed, the magnetic base 5 is arranged, the sealing performance of the sealing door body 3 is further ensured, and the sealing performance of the movable medical cabin is further improved.

As shown in fig. 8, in one embodiment, the method further includes:

the rope locking seat 6 is arranged at the end, far away from the transmission chamber 34, of the inner wall of the installation chamber 42, and the rope body 47 penetrates through the rope locking seat 6.

The working principle and the beneficial effects of the technical scheme are as follows:

when the sealing door body 3 needs to be opened again, the transmission motor 35 rotates reversely, at this time, the rope locking seat 6 locks the rope 47, although the end of the rope 47 close to the rope winding wheel 48 is gradually loosened, the end of the rope 47 close to the lock block is still kept tight, so that the reset spring 45 is still kept in the longest stretching state, the first helical gear 44 is still meshed with the second helical gear 54, the first helical gear 44 drives the second helical gear 54 to rotate reversely, so as to drive the rotating shaft 53 connected with the second helical gear 54 and the magnetic rod 52 connected with the end of the rotating shaft 53 far from the second helical gear 54 to rotate reversely in the magnetic base 5, the directions of the two poles of the magnetic rod 52 and the directions of the two poles of the magnetic strip 51 tend to be opposite, the magnetic strip 51 is gradually converged, the magnetism of the magnetic strip 51 is gradually weakened, when the directions of the two poles of the magnetic rod 52 and the directions of the two poles of the magnetic strip 51 are completely opposite, meanwhile, the rope locking seat 6 stops locking the rope body 47, the reset spring 45 restores to the original state and drives the first bevel gear 44 connected with the reset spring 45 to move towards the direction close to the spring fixing seat 43, the first bevel gear 44 is separated from the second bevel gear 54, the second bevel gear 54 stops rotating, and then the rotating shaft 53 connected with the second bevel gear 54 and the magnetic rod 52 connected with the end of the rotating shaft 53 far away from the second bevel gear 54 are driven to stop rotating in the magnetic seat 5, when the reset spring 45 restores to the original state, the rope body 47 is pulled to be close to the end of the rope winding wheel 48 to be tightened again, when the magnetic strip 51 loses magnetism gradually, the transmission motor 35 rotates reversely and then drives the screw rod 36 connected with the output end of the transmission motor and the transmission nut 37 sleeved on the screw rod 36 to move towards the direction close to the transmission motor 35 in the transmission chamber 34, the door body 39 is provided with a steel rod 49 end which is, in the process of gradually opening the door body 39, the magnetic strip 51 gradually loses magnetism synchronously, when the magnetic strip 51 loses magnetism completely, the rope locking seat 6 stops locking the rope body 47 close to the end of the locking block, and the arrangement of the rope locking seat 6 enables the magnetic strip 51 to recover the state of losing magnetism again when the door body 39 is opened.

In one embodiment, the locking cord holder 6 comprises:

the fixing pipe 61 is transversely arranged on the end, away from the transmission chamber 34, of the inner wall of the mounting chamber 42 in a penetrating manner;

a fixing ring 62, wherein the fixing ring 62 is connected to the end, close to the mounting chamber 42, of the inner wall of the fixing tube 61;

a transmission pipe 63, the transmission pipe 63 being connected to the inside of the fixed pipe 61;

the internal thread is arranged on the inner wall of the fixed tube 61 and far away from the fixed ring 62;

the external thread is arranged on the outer wall of the transmission pipe 63 and is meshed with the internal thread;

a spring sliding seat 64, the spring sliding seat 64 being located inside the fixed tube 61;

the inclined plane 67 is circumferentially arranged on the inner wall of the transmission pipe 63 and close to the end of the fixing ring 62;

the first spring 65 is arranged in the fixed tube 61, one end of the first spring 65 is connected with the fixed ring 62, and the other end of the first spring 65 is connected with the spring sliding seat 64;

a plurality of L-shaped supporting plates 69, wherein the L-shaped supporting plates 69 are circumferentially connected to the end, away from the fixed ring 62, of the spring sliding seat 64;

one end of the second spring 66 is connected with the edge end of the spring sliding seat 64, and the other end of the second spring 66 is connected with the inner end of the L-shaped supporting plate 69;

the clamping jaw 68 is provided with a wedge-shaped mechanism, and the clamping jaw 68 is slidably connected to the inclined plane 67;

an external gear 60, the external gear 60 being connected to an outer wall of the transmission pipe 63;

a rotating motor 70, wherein the rotating motor 70 is connected to the outer wall of the fixed pipe 61;

a rotating gear 71, wherein the rotating gear 71 is connected to the output end of the rotating motor 70, and the rotating gear 71 is meshed with the external gear 60;

the rope 47 is disposed through the transmission tube 63, the spring sliding seat 64, the first spring 65, and the fixing ring 62.

The working principle and the beneficial effects of the technical scheme are as follows:

when the first bevel gear 44 and the second bevel gear 54 are engaged, the return spring 45 is pulled up to the maximum extension length within the allowable range, in order to prevent the return spring 45 from being pulled up too much, the service life of the return spring 45 is reduced, the rope body 47 needs to be locked near the end of the lock block, when the rope body 47 needs to be locked, the rotating motor 70 rotates to further drive the rotating gear 71 connected to the output end of the rotating gear 71 to rotate, the rotating gear 71 drives the external gear 60 engaged with the rotating gear 71 to rotate, so that the transmission pipe 63 connected with the external gear 60 moves in the direction close to the fixed ring 62 in the fixed pipe 61, the fixed pipe 61 and the transmission pipe 63 are driven by the internal thread and the external thread engaged with each other, when the fixed pipe 61 moves in the direction close to the fixed ring 62, the first spring 65 contracts, and the claw 68 engaged with the inclined platform 67 moves to the end close to the center line of the transmission pipe 63, and the rope body 47 is clamped, on the contrary, when the clamping of the rope body 47 needs to be released, the rotating motor 70 rotates reversely, the transmission pipe 63 moves in the direction away from the fixed ring 62 in the fixed pipe 61, the first spring 62 extends, the acting force of the first spring 62 on the spring sliding seat 64 is weakened, the second spring 62 extends, the claw 68 moves towards the end far away from the center line of the transmission pipe 63, and the thickness of the external gear 60 is larger than that of the rotating gear 71, so that the displaced external gear 60 is always kept meshed with the rotating gear 71.

In one embodiment, further comprising:

and the outer cabin 2 is fixed on the vehicle body.

The beneficial effects of the above technical scheme are:

due to the arrangement of the vehicle body, the mobility of the mobile medical cabin is improved.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (8)

1. A mobile medical capsule airtight connection structure, characterized by comprising:

the inner cabin (1) comprises an inner frame structure consisting of a bottom plate (11), a top plate (12), a left side plate (13) and a right side plate (14);

outer chamber (2), outer chamber (2) are including the outer chamber skeleton that end skeleton (21), top skeleton (22) and two side skeletons (23) are constituteed, end skeleton (21) are located the circumference outer wall of bottom plate (11), top skeleton (22) are located the circumference outer wall of roof (12), and two side skeletons (23) are located the circumference outer wall of left side board (13) and the circumference outer wall of right side board (14) respectively, between end skeleton (21) and two side skeletons (23) all through the detachable connection of flange frame between top skeleton (22) and two side skeletons (23).

2. The portable medical capsule sealing connection structure as claimed in claim 1, further comprising:

the reinforcing rib groups are respectively welded in the bottom framework (21), the top framework (22) and the two side frameworks (23);

the skin is arranged on the outer surface of the outer cabin (2) in a covering mode.

3. The portable medical capsule sealing connection structure as claimed in claim 1, further comprising:

the sealing plates (26), the sealing plates (26) are connected to the front end and the rear end of the inner cabin (1);

and the sealing door body (3), the sealing door body (3) is connected to the sealing plate (26).

4. The mobile medical treatment cabin airtight connection structure of claim 3, wherein said sealing door body (3) comprises:

a fixing frame (31), wherein the fixing frame (31) is of a C-shaped structure, the fixing frame (31) is connected to the sealing plate (26), and the fixing frame (31) comprises an upper fixing part (311), a lower fixing part (312) and a vertical part (313);

a lower rail (32), the lower rail (32) being located at an inner end of a lower fixing portion (312);

an upper rail (33), the upper rail (33) being located at an inner end of the upper fixing portion (311);

a transmission chamber (34), the transmission chamber (34) being provided in the upper fixing portion (311) and being disposed close to the upper rail (33);

the transmission motor (35), the transmission motor (35) is arranged in the transmission chamber (34), and the transmission motor (35) is far away from the vertical part (313);

the screw rod (36), the screw rod (36) is positioned in the transmission chamber (34), and the screw rod (36) is connected to the output end of the transmission motor (35);

a drive nut (37), said drive nut (37) being connected to the screw (36);

the sliding seat (38) is connected in the upper rail (33) in a sliding mode, and the top end of the sliding seat (38) is connected with the transmission nut (37);

the top end of the door body (39) is connected with the bottom end of the sliding seat (38);

the door body placing chamber (30), the door body placing chamber (30) is connected between the upper fixing part (311) and the lower fixing part (312), and the door body placing chamber (30) is far away from the vertical part (313);

the pulley block (41), the pulley block (41) is connected in the lower rail (32) in a sliding manner, and the pulley block (41) is connected with the bottom end of the door body (39);

when the door body (39) moves to a position far away from the vertical part (313), the door body (39) slides into the door body placing chamber (30), and when the door body (39) moves to a position near the vertical part (313), the door body (39) and the door body placing chamber (30) shield the inner end of the fixing frame (31).

5. The ambulatory medical capsule containment coupling structure as set forth in claim 4, further comprising:

the mounting chamber (42) is arranged in the upper fixing part (311) and close to the vertical part (313), and the end, far away from the transmission motor (35), of the screw rod (36) penetrates through the mounting chamber (42);

the spring fixing seat (43) is arranged in the mounting chamber (42) and fixedly connected to the screw rod (36);

the first bevel gear (44) is arranged in the mounting chamber (42), and the end, far away from the transmission motor (35), of the screw (36) is arranged in the first bevel gear (44) in a penetrating manner;

a plurality of return springs (45), wherein the return springs (45) are connected between the spring fixing seat (43) and the first bevel gear (44);

the sliding groove (46) is axially arranged on the first bevel gear (44) by taking the screw (36) as a center and is far away from the transmission chamber (34);

the locking block is connected in the sliding groove (46) in a sliding manner;

the rope body (47), the rope body (47) is connected with the locking block;

the rope winding wheel (48) is arranged in the transmission chamber (34) and is fixedly connected to the output end of the transmission motor (35), and the end, far away from the locking block, of the rope body (47) penetrates through the inner wall of the installation chamber (42) and is far away from the transmission chamber (34) and connected to the rope winding wheel (48);

the steel bar (49), the steel bar (49) is connected to the end, close to the vertical part (313), of the door body (39);

the magnetic seat (5), the said magnetic seat (5) is embedded in the inner end of the vertical part (313);

the magnetic strip (51), the magnetic strip (51) is connected to the inner end, close to the vertical part (313), of the magnetic seat (5);

the magnetic rod (52), the said magnetic rod (52) is connected to the magnetic base (5) rotatably;

the rotating shaft (53) is connected to the top end of the magnetic rod (52), and the end, far away from the magnetic rod (52), of the rotating shaft (53) penetrates through the installation chamber (42);

and the second bevel gear (54) is connected to the end, far away from the magnetic rod (52), of the rotating shaft (53), and the second bevel gear (54) is matched with the first bevel gear (44).

6. The ambulatory medical capsule containment coupling structure as set forth in claim 5, further comprising:

the rope locking seat (6), the rope locking seat (6) install in transmission room (34) end is kept away from to installation room (42) inner wall, the rope body (47) wear to locate in the rope locking seat (6).

7. An ambulatory medical capsule obturator connection according to claim 6, characterised in that said tether holder (6) comprises:

the fixing pipe (61), the fixing pipe (61) transversely penetrates through the inner wall of the mounting chamber (42) and is far away from the end of the transmission chamber (34);

the fixing ring (62), the said fixing ring (62) is connected to the end of the inner wall of the fixed tube (61) close to the installation chamber (42);

a transmission pipe (63), wherein the transmission pipe (63) is connected to the inside of the fixed pipe (61);

the internal thread is arranged on the inner wall of the fixed pipe (61) and is far away from the position of the fixed ring (62);

the external thread is arranged on the outer wall of the transmission pipe (63) and is meshed with the internal thread;

a spring sliding seat (64), the spring sliding seat (64) being located inside the fixed tube (61);

the inclined plane (67) is arranged on the inner wall of the transmission pipe (63) in the circumferential direction and is close to the end of the fixing ring (62);

the first spring (65), the first spring (65) is arranged in the fixed pipe (61), one end of the first spring (65) is connected with the fixed ring (62), and the other end of the first spring (65) is connected with the spring sliding seat (64);

the L-shaped supporting plates (69) are circumferentially connected to the end, away from the fixing ring (62), of the spring sliding seat (64);

one end of the second spring (66) is connected with the edge end of the spring sliding seat (64), and the other end of the second spring (66) is connected with the inner end of the L-shaped supporting plate (69);

the clamping jaw (68) is provided with a wedge-shaped mechanism, and the clamping jaw (68) is connected to the inclined plane (67) in a sliding mode;

the external gear (60), the said external gear (60) is connected to the outer wall of the drive tube (63);

the rotating motor (70), the said rotating motor (70) is connected to the outer wall of the fixed tube (61);

the rotating gear (71), the rotating gear (71) is connected to the output end of the rotating motor (70), and the rotating gear (71) is meshed with the external gear (60);

the rope body (47) penetrates through the transmission pipe (63), the spring sliding seat (64), the first spring (65) and the fixing ring (62).

8. The portable medical capsule sealing connection structure as claimed in claim 1, further comprising:

the outer cabin (2) is fixed on the vehicle body.

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