CN115387644A

CN115387644A - System and method for constructing secondary hospital heating outpatient service by adopting container combination

Info

Publication number: CN115387644A
Application number: CN202210784712.1A
Authority: CN
Inventors: 李建广; 扈晓天; 郑虎; 张奇; 雷艳; 黄鑫; 雷明拯; 王臻; 王刚; 刘清胤
Original assignee: China Northwest Architecture Design and Research Institute Co Ltd
Current assignee: China Northwest Architecture Design and Research Institute Co Ltd
Priority date: 2022-07-05
Filing date: 2022-07-05
Publication date: 2022-11-25

Abstract

The invention relates to a system and a method for constructing a secondary hospital fever clinic by adopting a container combination, which comprises the following steps: the mounting platform is provided with a fixed sleeve plate which is vertical to the mounting platform, the inside of the fixed sleeve plate is of a hollow structure, a telescopic sleeve plate is slidably sleeved in the fixed sleeve plate, one end, far away from the mounting platform, of the telescopic sleeve plate is provided with a transverse plate which is parallel to the mounting platform, and the telescopic sleeve plate is connected with the fixed sleeve plate through a lifting mechanism; the transverse plate is movably provided with a hook along the length direction of the transverse plate, the hook is connected with a transverse moving component arranged on the transverse plate, and the transverse moving component is used for driving the hook to move in the length direction of the transverse plate; still be provided with on the diaphragm with the upset subassembly of elevating system linkage, the upset subassembly with the couple is connected, just the upset subassembly can be followed the sideslip subassembly motion to can order about the couple upset realizes the more accurate input to the container.

Description

System and method for constructing secondary hospital heating outpatient service by adopting container combination

Technical Field

The invention relates to the field of container combination, in particular to a system and a method for constructing a secondary hospital heating outpatient service by adopting container combination.

Background

In order to resist epidemic situations, the nation has clear design requirements on the fever clinic of the secondary hospital. Because the outpatient service that generates heat need be built alone, the former outpatient service that generates heat of a lot of second grade hospitals can not satisfy the requirement of setting up, and every second grade hospital is again different to the actual function demand of outpatient service that generates heat, consequently appear in the design many lines of seeing a doctor, medical care streamline overlength, the environment of waiting for a doctor is not good, and the health is passed and the waste of buffering space area, stays to observe and examine regional subregion thoroughly, phenomenon such as stream mutual interference. And the emergency capacity is limited in the face of sudden public health events.

In order to improve the emergency capacity of hospitals for dealing with emergent public health events, epidemic prevention places with modularization, standard process and high assembly rate need to be built so as to adapt to variable epidemic situations, wherein secondary hospitals built by adopting container combination are widely introduced.

In the process of combining the containers, large hoisting equipment is needed to be used for hoisting, most of the hoisting equipment adopts a steel cable for traction hoisting, and in actual construction, the fact that the containers are hoisted through the steel cable is found to be greatly influenced by external environments, if external wind power is too large, the containers are shaken in the hoisting process, and accidents are easily caused.

Disclosure of Invention

The invention aims to provide a system and a method for constructing a secondary hospital fever clinic by adopting a container combination, which aim to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a system for constructing a secondary hospital fever clinic using a combination of containers, comprising:

the plurality of containers are assembled to form an assembled building body, a buffer area, a potential pollution area, a pollution area and a cleaning area are formed on the inner side of the assembled building body, and the assembled building body is provided with a medical staff passage and a patient passage which are separately arranged;

an inner courtyard area is formed in the middle of the assembly body building body;

the prefabricated building further comprises a ceiling structure, and the ceiling structure is arranged at the top of the prefabricated building body.

The container comprises a modular structure, an outer wall, an inner wall and a bottom plate, wherein the modular structure is formed by assembling beams, columns, secondary beams and corner fittings, and the outer wall comprises a base layer and a surface layer;

the inner wall comprises a module inner wall, a surface layer and partition walls;

the bottom plate comprises a base layer formed by a high-strength cement fiberboard, a surface layer formed by floor tiles and an anti-static floor or floor leather.

As a further scheme of the invention: still including the rigging equipment that is used for realizing the assembly of prefabricated building body, rigging equipment includes:

the mounting platform is provided with a fixed sleeve plate which is vertical to the mounting platform, the inside of the fixed sleeve plate is of a hollow structure, a telescopic sleeve plate is slidably sleeved in the fixed sleeve plate, one end, far away from the mounting platform, of the telescopic sleeve plate is provided with a transverse plate which is parallel to the mounting platform, and the telescopic sleeve plate is connected with the fixed sleeve plate through a lifting mechanism;

the transverse plate is movably provided with a hook along the length direction of the transverse plate, the hook is connected with a transverse moving component arranged on the transverse plate, and the transverse moving component is used for driving the hook to move in the length direction of the transverse plate;

the transverse plate is further provided with a turnover assembly which is linked with the lifting mechanism, the turnover assembly is connected with the hook, the turnover assembly can move along with the transverse moving assembly, and the hook can be driven to turn.

As a further scheme of the invention: a first driving device is fixedly installed on the telescopic sleeve plate, an output shaft of the first driving device penetrates through the telescopic sleeve plate and is connected with a maltese cross movement mechanism arranged on the telescopic sleeve plate, and the maltese cross movement mechanism is connected with the lifting mechanism and the overturning assembly;

the maltese cross core structure is installed including rotating on the flexible lagging and with the action wheel of a drive arrangement's output shaft, the action wheel is in with the symmetry setting from driving wheel and No. two driven wheel adaptations on the flexible lagging, no. one is connected from the driving wheel the upset subassembly, no. two are connected through flexible external member from the driving wheel elevating system.

As a still further scheme of the invention: the telescopic external member comprises a first connecting rod rotatably mounted on the second driven wheel, a second connecting rod is rotatably mounted at one end of the first connecting rod, which is far away from the second driven wheel, and the second connecting rod is connected with the lifting mechanism;

a connecting rod with the pivot junction of No. two connecting rods is provided with two coaxial belt pulleys, one of them the belt pulley is connected through a belt No. two from the driving wheel, another the belt pulley is connected through No. two belts elevating system.

As a still further scheme of the invention: the lifting mechanism comprises a belt transmission assembly arranged on the fixed sleeve plate and a jogged structure for connecting the belt transmission assembly and the telescopic sleeve plate;

the belt transmission assembly comprises two transmission wheels symmetrically arranged on the fixed sleeve plate, a transmission belt is sleeved on the two transmission wheels, and one of the transmission wheels is connected with the second belt.

As a still further scheme of the invention: the embedded structure comprises a connecting frame which penetrates through the fixed sleeve plate and is connected with the telescopic sleeve plate, a groove is formed in the connecting frame, and a first sliding block which is connected with the driving belt in a rotating mode is arranged in the groove in a sliding mode.

As a still further scheme of the invention: the transverse moving assembly comprises a second driving device fixedly arranged on the transverse plate, an output shaft of the second driving device is connected with a lead screw rotatably arranged on the transverse plate, and a threaded sleeve is arranged on the lead screw;

the transverse plate is further provided with a sliding groove, and the threaded sleeve is fixedly connected with a second sliding block which slides in the sliding groove.

As a still further scheme of the invention: the turnover assembly comprises a transmission rod arranged along the length direction of the transverse plate, the transmission rod penetrates through a mounting piece fixedly connected with the second sliding block and is in sliding sleeve fit with a follow-up sleeve rotatably mounted on the mounting piece, the transmission rod is coaxially connected with the first driven wheel, and the follow-up sleeve is connected with the hook through a pushing structure;

the transmission rod is symmetrically provided with limiting blocks, and the limiting blocks are symmetrically arranged on the inner wall of the follow-up sleeve in a sliding sleeved mode with limiting grooves.

As a still further scheme of the invention: the propelling movement structure include through No. three belts with follow-up muffjoint just rotates and installs bent axle on the installed part, the bent axle passes through the backup pad with the installation is in the flange on the couple is connected, the one end of backup pad with the bent axle rotates to be connected, the other end with the flange rotates to be connected.

A method for using the system for constructing a secondary hospital fever clinic by adopting the container combination comprises the following steps:

the method comprises the following steps: placing parts of the container on an installation platform, and assembling the container on the installation platform;

step two: starting a first driving device, driving the overturning assembly to work through a maltese cross machine core structure, enabling the hook to finish primary deflection, and hooking the assembled container;

step three: after the hook hooks the container, the maltese cross core structure drives the lifting mechanism to act through the telescopic sleeve piece, drives the telescopic sleeve plate to move upwards, and lifts the container upwards;

step four: when the container reaches the maximum height, the first driving device stops working, and then the container is conveyed to a specified position by controlling the transverse moving assembly;

step five: the first driving device continues to work and drives the container to descend to the ground through the lifting mechanism, and the rear deflection assembly drives the hook to deflect again so as to separate the hook from the container;

step six: the lifting mechanism drives the hook to restore to the initial height, and the transverse moving assembly drives the hook to restore to the initial position

Compared with the prior art, the invention has the beneficial effects that:

when the container lifting device is used, the hook can be driven to deflect through the deflection assembly, butt joint of the hook and the container is achieved, the container can be lifted through the lifting mechanism, and meanwhile, the container can be lifted through the transverse moving assembly.

Drawings

FIG. 1 is a plan view of functional partitions of one embodiment of a system for assembling and constructing a secondary hospital heating clinic shipping container.

Figure 2 is an elevational view of one embodiment of a container system for the modular construction of a secondary hospital heating clinic.

Figure 3 is a cross-sectional view of one embodiment of a container system for the combined construction of a secondary hospital heating clinic.

Fig. 4 is a medical flow diagram of one embodiment of a system for building a shipping container for a secondary hospital heating clinic.

Fig. 5 is a schematic structural diagram of another embodiment of a system for constructing a secondary hospital fever clinic by using container combination.

Fig. 6 is a schematic structural diagram of another embodiment of a system for constructing a secondary hospital fever clinic by using container combination.

Fig. 7 is a schematic structural diagram of a telescopic sleeve plate and a fixed sleeve plate in another embodiment of a system for constructing a secondary hospital heating clinic by adopting a container combination.

Fig. 8 is a schematic structural diagram of a telescopic suite and a maltese cross movement structure in another embodiment of the system for constructing a secondary hospital fever clinic by adopting a container combination.

Fig. 9 is a schematic structural diagram of a belt drive structure in another embodiment of a system for constructing a secondary hospital fever clinic using a container assembly.

Fig. 10 is an enlarged view of the structure at a in fig. 9.

FIG. 11 is a schematic diagram of a traversing assembly in an alternative embodiment of a system for constructing a secondary hospital fever clinic using a container assembly.

Fig. 12 is a schematic diagram of the structure of a deflection assembly in another embodiment of a system for constructing a secondary hospital fever clinic using a container assembly.

Fig. 13 is a schematic structural diagram of a limiting block and a limiting groove in another embodiment of the system for constructing the secondary hospital heating outpatient service by adopting the container combination.

In the figure: 1. mounting a platform; 2. fixing the sleeve plate; 3. a telescopic sleeve plate; 4. a first driving device; 5. a driving wheel; 6. a driven wheel I; 7. a second driven wheel; 8. a first connecting rod; 9. a second connecting rod; 10. A first belt; 11. a second belt; 12. a driving wheel; 13. a transmission belt; 14. a first sliding block; 15. A connecting frame; 16. a trench; 17. a transverse plate; 18. a second driving device; 19. a screw rod; 20. a threaded sleeve; 21. a second sliding block; 22. a chute; 23. a mounting member; 24. a transmission rod; 25. a limiting block; 26. A follower sleeve; 27. a limiting groove; 28. a third belt; 29. a crankshaft; 30. a support plate; 31. hooking; 32. a convex plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, an element described herein as being "secured to" or "disposed on" another element may be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

According to the technical guidance of 'preliminary examination triage and fever outpatient Xinguan pneumonia epidemic situation prevention and control work guide', the research and development emphatically embody three characteristics of modularization, standard flow and high assembly rate, the standard containers are adopted as basic module units and are reliably connected and combined with each other, the functional space requirement and the construction speed requirement of fever whistle spots are met, the emergency requirement of emergent public health incidents is met, and the requirements of medical isolation observation and temporary treatment on fever patients in secondary hospitals are met. The standardized and modularized design mode has strong reproducibility, and the emergency capacity of the level hospital for dealing with the emergent public health events can be improved through the duplication of the module unit.

The development embodies three characteristics of modularization, standard flow and high assembly rate emphatically, and the standard container and the gallery box are used as basic module units and are reliably connected and combined with each other, so that the functional space requirement of the heating whistle point is met.

Example one

Referring to fig. 1-4, a container system for the combined construction of a secondary hospital fever clinic includes:

still include the ceiling structure, the ceiling mechanism is arranged in assembled building body top, the ceiling structure includes structural layer, heat preservation and furred ceiling surface course, and the structural layer adopts the roof frame sandalwood strip, and the heat preservation adopts polyurethane foam, glass silk cotton, rock wool or EPX extruded sheet, and the furred ceiling surface course adopts high-strength cement fiberboard, fire prevention gypsum board, scribbles glass magnesium board, aluminous gusset plate or the mineral wool board that is equipped with coating.

The invention adopts a standard modular container house and applies a standardized flow design method to provide comfortable diagnosis and treatment environment and observation environment for the second-level hospital fever patients. The sewage cleaning partition is clear, and the medical streamline is convenient. The three-zone two-channel principle is strictly executed to arrange the functional rooms. The standardized production of modules and the modular combined construction are realized, the construction efficiency can be greatly improved, and the repeated combination of the modules can provide technical support for the design of the heating outpatient service of the secondary hospital with different requirements. The design and construction cost of a secondary hospital is reduced, the construction efficiency and the construction quality are improved, the medical flow is standardized, and the use quality is guaranteed.

The invention realizes the standardization and modularization of the assembly type building, meets different requirements of different secondary hospitals on the actual functions of the heating outpatient service, and solves various problems in the construction process of the heating outpatient service of the secondary hospitals: for example, the construction speed is low, the construction scale is uneven, the medical streamline is disordered and the like, and the method can be widely applied to the design and construction of the fever clinic of the second-level hospital.

The container comprises a modular structure, an outer wall, an inner wall and a bottom plate, wherein the modular structure is formed by assembling beams, columns, secondary beams and corner fittings, and the outer wall comprises a base layer made of cement fiber boards and a surface layer formed by integrated boards or clean boards;

the inner wall comprises a module inner wall, a surface layer formed by an integrated plate or a clean plate and a light steel keel partition wall;

the bottom plate includes surface course, basic unit, heat preservation, structural layer, dampproof course and the back cover that from the top down set gradually, the back cover adopts various steel sheet, dampproof ventilated membrane, structural layer adoption side pipe sandalwood strip, the heat preservation adopts polyester foaming, glass silk floss or rock wool, basic unit adoption high strength cement fibreboard or strenghthened type glass magnesium board, surface course adoption bottom plate leather, wood composite sheet, stone plastic floor, antistatic floor or ceramic tile, specifically can select or arrange according to actual demand.

The invention adopts 1 standard container module, and fully considers the integrated design of indoor decoration, equipment and pipeline arrangement, and the standard containers are 54, and the size is 3000 (width) X6000 (length) X2900 (height).

The single module is designed by taking the steel structure frame as a main structure, is assembled into a module building through reliable connection, and designs the whole building.

It should be noted that the indoor sanitary part includes an overhead layer, a waterproof layer, a floor surface layer and a wall surface layer, specifically, the overhead layer can adopt a square tube keel to realize a supporting function, and certainly, an access hole needs to be reserved; the waterproof layer can adopt two layers of waterproof polyurethane coating, waterproof coiled materials or water-releasing cloth; the floor surface layer can adopt anti-skid ceramic tiles, and the wall surface layer can adopt wall tiles, UV plates or decorative panels.

In the actual operation process, the floor joint, the wall joint and the roof joint need to be jointed, the joint needs to be sealed by adopting a sealing layer to improve the sealing performance after connection, and the sealing layer comprises adhesive tapes, glass silk floss, polyurethane foam and the like.

Example two

Referring to fig. 5 to 13, in an embodiment of the present invention, a system for constructing a secondary hospital fever clinic by using a container combination includes:

the mounting platform comprises a mounting platform 1, wherein a fixed sleeve plate 2 perpendicular to the mounting platform 1 is arranged on the mounting platform 1, the inside of the fixed sleeve plate 2 is of a hollow structure, a telescopic sleeve plate 3 is slidably sleeved in the fixed sleeve plate 2, a transverse plate 17 parallel to the mounting platform 1 is arranged at one end, away from the mounting platform 1, of the telescopic sleeve plate 3, and the telescopic sleeve plate 3 is connected with the fixed sleeve plate 2 through a lifting mechanism;

the lifting mechanism comprises a belt transmission assembly arranged on the fixed sleeve plate 2 and an embedded structure for connecting the belt transmission assembly and the telescopic sleeve plate 3;

the belt transmission assembly comprises two transmission wheels 12 symmetrically arranged on the fixed sleeve plate 2, and a transmission belt 13 is sleeved on the two transmission wheels 12;

the embedding structure comprises a connecting frame 15 which penetrates through the fixed sleeve plate 2 and is connected with the telescopic sleeve plate 3, a groove 16 is formed in the connecting frame 15, and a first sliding block 14 which is rotatably connected with the transmission belt 13 is arranged in the groove 16 in a sliding mode.

When the second driven wheel 7 rotates, the driving wheel 12 connected with the second driven wheel is driven to rotate, the driving belt 13 sleeved between the two driving wheels 12 moves, and then the first sliding block 14 arranged on the driving belt 13 moves along with the driving belt 13, and the driving belt 13 is of a closed structure, so that the first sliding block 14 can do circular motion like that along with continuous rotation of the driving belt 13, and is matched with the connecting frame 15, so that the telescopic sleeve plate 3 can be lifted periodically, and further the hook 31 is driven to drive the container to lift, specifically, after the hook 31 hooks the container, the telescopic sleeve plate 3 can be lifted to the maximum height, and after the container reaches a specified installation position, the telescopic sleeve plate 3 moves downwards, and the container is attached to the horizontal ground.

In the initial state, the first sliding block 14 is not located at the lowest point of the transmission belt 13, but located at a position where the transmission belt 13 is far away from the lowest point, and along with the movement of the transmission belt 13, the first sliding block 14 can move upwards, which mainly considers that there is a certain height difference between the mounting platform 1 and the ground, in order to place the container on the ground stably, when the transmission belt 13 drives the first sliding block 14 to move to the lowest point, the bottom of the container is attached to the ground, and after the first pulley 14 is reset, the first sliding block can be hooked with the container placed on the mounting platform 1, that is, in the position, the hook 31 can better hook the container.

Further, the belt 13 has a two-layer structure, so the length of the groove 16 on the connecting frame 15 needs to be larger than the distance between two layers of the belt 13.

It should be noted that, since the driving wheel 5 rotates for one circle, the second driven wheel 7 rotates only 90 °, and 90 ° obviously cannot rotate the driving wheel 12 for several circles, the diameter of the driving pulley of the first belt 10 is larger than that of the driven pulley thereof, the diameter of the driving pulley of the second belt 11 is larger than that of the driven pulley thereof, and the driven pulley of the first belt 10 is coaxially and fixedly connected with the driving pulley of the second belt 11.

Referring to fig. 5, 6 and 11, a hook 31 is movably disposed on the transverse plate 17 along the length direction thereof, and the hook 31 is connected to a traverse component disposed on the transverse plate 17, and the traverse component is used for driving the hook 31 to move in the length direction of the transverse plate 17;

the transverse moving assembly comprises a second driving device 18 fixedly arranged on the transverse plate 17, an output shaft of the second driving device 18 is connected with a screw rod 19 rotatably arranged on the transverse plate 17, and a threaded sleeve 20 is arranged on the screw rod 19;

the transverse plate 17 is further provided with a sliding groove 22, and the threaded sleeve 20 is fixedly connected with a second sliding block 21 which slides in the sliding groove 22.

When the container lifting device is used, when the hook 31 hooks a traction hook on a container, the telescopic sleeve plate 3 drives the container to rise to a certain height, then the second driving device 18 is controlled to work to drive the screw rod 19 connected with the second driving device to rotate, the screw rod 19 is in threaded connection with the threaded sleeve 20, so that the threaded sleeve 20 can move in the axial direction of the screw rod 19 in the rotating process of the screw rod 19, the container is driven to move through the hook 31, and meanwhile, the second sliding block 21 slides in the sliding groove 22, so that the force on the hook 31 is shared by the second sliding block 21, the phenomenon that the screw rod 19 is pulled, bent and deformed due to the fact that the weight of the hook 31 and the weight of the container are too large is avoided, and due to the fact that the screw rod 19 and the threaded sleeve 20 are in threaded connection, on one hand, labor is saved, so that the output load of the second driving device 18 is reduced, on the other hand, the threaded connection has self-locking performance, when the screw rod 19 stops rotating, the threaded sleeve 20 cannot generate relative displacement on the screw rod 19, the container lifting device stability is improved, and compared with the existing container lifting device, after the hook 31 is connected with the container, the container movement direction and the container is provided for the container lifting device, so that the container lifting stroke is less, and the lifting risk is avoided.

Referring to fig. 11, 12 and 13, the transverse plate 17 is further provided with a turning assembly linked with the lifting mechanism, the turning assembly is connected with the hook 31, and the turning assembly can move along with the traversing assembly and can drive the hook 31 to turn;

the overturning assembly comprises a transmission rod 24 arranged along the length direction of the transverse plate 17, the transmission rod 24 penetrates through a mounting part 23 fixedly connected with the second sliding block 21 and is in sliding sleeve fit with a follow-up sleeve 26 rotatably mounted on the mounting part 23, and the follow-up sleeve 26 is connected with the hook 31 through a pushing structure;

the transmission rod 24 is symmetrically provided with limiting blocks 25, and the limiting blocks 25 are sleeved with limiting grooves 27 symmetrically arranged on the inner wall of the follow-up sleeve 26 in a sliding manner;

the propelling movement structure include through No. three belts 28 with follow-up sleeve 26 is connected and is rotated and install bent axle 29 on the installed part 23, bent axle 29 is in through backup pad 30 with the installation the flange 32 on the couple 31 is connected, the one end of backup pad 30 with bent axle 29 rotates and is connected, the other end with flange 32 rotates and is connected.

When the first driven wheel 6 rotates, the driving rod 24 connected with the first driven wheel is driven to rotate, the driving rod 24 is in sliding fit with the follow-up sleeve 26, the follow-up sleeve 26 can be driven to rotate under the action of the limiting block 25 and the limiting groove 27, the follow-up sleeve 26 is connected with the driving crankshaft 29 through the third belt 28, the crankshaft 29 is driven to rotate, the hook 31 is driven to deflect through the supporting plate 30, and therefore the butt joint with a traction hook on a container is achieved.

Referring to fig. 6 and 8, a first driving device 4 is fixedly mounted on the telescopic sleeve plate 3, an output shaft of the first driving device 4 penetrates through the telescopic sleeve plate 3 and is connected to a maltese cross movement mechanism arranged on the telescopic sleeve plate 3, and the maltese cross movement mechanism is connected with the transmission rod 24 and the transmission wheel 12;

the maltese cross movement structure comprises a driving wheel 5 which is rotatably arranged on the telescopic sleeve plate 3 and connected with an output shaft of the first driving device 4, the driving wheel 5 is matched with a first driven wheel 6 and a second driven wheel 7 which are symmetrically arranged on the telescopic sleeve plate 3, the first driven wheel 6 is connected with the transmission rod 24 and coaxially connected, and the second driven wheel 7 is connected with the transmission wheel 12 through a telescopic sleeve;

the telescopic external member comprises a first connecting rod 8 which is rotatably arranged on the second driven wheel 7, a second connecting rod 9 is rotatably arranged at one end of the first connecting rod 8, which is far away from the second driven wheel 7, and the second connecting rod 9 is connected with the driving wheel 12;

the connecting rod 8 with the pivot junction of No. two connecting rods 9 is provided with two coaxial belt pulleys, and one of them belt pulley is connected through belt 10 No. two from driving wheel 7, and another belt pulley is connected through belt 11 No. two the drive wheel 12.

When the container lifting device is used, parts of a container are placed on the mounting platform 1, the container is assembled, the first driving device 4 is controlled to work after the first driving device 4 is controlled, the driving wheel 5 connected with an output shaft of the first driving device is driven to rotate, the driving wheel 5 is matched with the first driven wheel 6 and the second driven wheel 7 which are rotatably mounted on the telescopic sleeve plate 3 respectively, and the first driven wheel 6 and the second driven wheel 7 can be driven to rotate.

Because flexible lagging 3 can compare in mounting platform 1 and go up and down, and second install on flexible lagging 3 from driving wheel 7, if connect second from driving wheel 7 and drive wheel 12 through a belt this moment, along with the lift of flexible lagging 3, this belt relatively takes place to stretch over disconnected or lax phenomenon, and can't realize driven effect, consequently, set up connecting rod 8 here, connecting rod 9 No. two, belt 10 and No. two belts 11, can effectively solve this problem, guaranteed promptly that second from the kinetic energy of driving wheel 7 by effective transmission, the phenomenon that the belt stretches over disconnected or lax has appeared again been avoided.

As an embodiment of the present invention, there is also provided a method for using the system for constructing a secondary hospital fever clinic by using a container combination as described above, comprising the steps of:

the method comprises the following steps: placing parts of the container on the mounting platform 1, and assembling the container on the mounting platform 1;

step two: starting the first driving device 4, driving the overturning assembly to work through the maltese cross machine core structure, enabling the hook 31 to finish primary deflection, and hooking the assembled container;

step three: after the hook 31 hooks the container, the maltese cross core structure drives the lifting mechanism to act through the telescopic sleeve part, drives the telescopic sleeve plate 3 to move upwards, and lifts the container upwards;

step four: when the container reaches the maximum height, the first driving device 4 stops working, and then the container is conveyed to a specified position by controlling the transverse moving assembly;

step five: the first driving device 4 continues to work and drives the container to descend to the ground through the lifting mechanism, and the rear deflection component drives the hook 31 to deflect again to separate the container from the hook;

step six: the lifting mechanism drives the hook 31 to restore to the initial height, and simultaneously, the traversing assembly drives the hook 31 to restore to the initial position.

Because flexible lagging 3 can compare in mounting platform 1 and go up and down, and No. two install on flexible lagging 3 from driving wheel 7, if connect No. two from driving wheel 7 and drive wheel 12 through a belt this moment, along with the lift of flexible lagging 3, this belt relatively takes place to strain absolutely or lax phenomenon, and can't realize driven effect, consequently, set up connecting rod 8 here, no. two connecting rod 9, belt 10 and No. two belt 11, can effectively solve the problem, guaranteed that No. two is effectively transmitted from the kinetic energy of driving wheel 7 promptly, the phenomenon that the belt has strained absolutely or lax has avoided appearing again.

When the container lifting device is used, when the hook 31 hooks a traction hook on a container, the telescopic sleeve plate 3 drives the container to rise to a certain height, then the second driving device 18 is controlled to work to drive the screw rod 19 connected with the second driving device to rotate, the screw rod 19 is in threaded connection with the threaded sleeve 20, so that the threaded sleeve 20 can move in the axial direction of the screw rod 19 in the rotating process of the screw rod 19, the container is driven to move through the hook 31, and meanwhile, the force on the hook 31 is shared by the first slider 14 due to the fact that the first slider 14 slides in the sliding groove 22, the phenomenon that the screw rod 19 is pulled, bent and deformed due to the fact that the weight of the hook 31 and the weight of the container are too large is avoided, and due to the fact that the screw rod 19 and the threaded sleeve 20 are in threaded connection, the threaded connection has a labor-saving effect on one hand, so that the output load of the second driving device 18 is reduced, on the other hand, the threaded connection has self-locking performance, when the screw rod 19 stops rotating, the threaded sleeve 20 cannot generate relative displacement on the screw rod 19, the stability of the device is improved, and compared with the existing container lifting device, after the hook 31 is connected with the container, the movement direction of the container, the container is provided for the container lifting device, and the lifting risk of a smaller stroke is avoided, and the lifting risk of the container is avoided.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. A system for constructing a secondary hospital fever clinic by adopting a container combination is characterized by comprising: the plurality of containers are assembled to form an assembled building body, a buffer area, a potential pollution area, a pollution area and a cleaning area are formed on the inner side of the assembled building body, and the assembled building body is provided with a medical staff passage and a patient passage which are separately arranged;

the inner wall comprises a module inner wall, a surface layer and a partition wall;

the bottom plate comprises a base layer formed by a high-strength cement fiberboard and a surface layer formed by floor tiles, anti-static floors or floor leathers.

2. The system for constructing a secondary hospital fever clinic using container sets as claimed in claim 1, further comprising assembling facilities for assembling the prefabricated building body, said assembling facilities comprising:

the mounting platform comprises a mounting platform (1), wherein a fixed sleeve plate (2) perpendicular to the mounting platform (1) is arranged on the mounting platform (1), the fixed sleeve plate (2) is of a hollow structure, a telescopic sleeve plate (3) is slidably sleeved in the fixed sleeve plate, a transverse plate (17) parallel to the mounting platform (1) is arranged at one end, away from the mounting platform (1), of the telescopic sleeve plate (3), and the telescopic sleeve plate (3) is connected with the fixed sleeve plate (2) through a lifting mechanism;

the transverse plate (17) is movably provided with a hook (31) along the length direction of the transverse plate, the hook (31) is connected with a transverse moving component arranged on the transverse plate (17), and the transverse moving component is used for driving the hook (31) to move in the length direction of the transverse plate (17);

the transverse plate (17) is further provided with a turnover assembly which is linked with the lifting mechanism, the turnover assembly is connected with the hook (31), the turnover assembly can move along with the transverse moving assembly, and the hook (31) can be driven to turn over.

3. The system for constructing the secondary hospital fever clinic by adopting the container combination as recited in claim 2, wherein a first driving device (4) is fixedly installed on the telescopic sleeve plate (3), an output shaft of the first driving device (4) penetrates through the telescopic sleeve plate (3) and is connected with a maltese cross movement mechanism arranged on the telescopic sleeve plate (3), and the maltese cross movement mechanism is connected with the lifting mechanism and the overturning component;

malta's cross core structure is including rotating the installation flexible lagging (3) go up and with action wheel (5) that the output shaft of a drive arrangement (4) is connected, action wheel (5) are in with the symmetry setting flexible lagging (3) on one from driving wheel (6) and No. two from driving wheel (7) adaptation, a connect from driving wheel (6) upset subassembly, no. two connect through flexible external member from driving wheel (7) elevating system.

4. The system for building the secondary hospital fever clinic by adopting the container combination as set forth in claim 3, wherein the telescopic kit comprises a first connecting rod (8) rotatably mounted on the second driven wheel (7), a second connecting rod (9) is rotatably mounted at one end of the first connecting rod (8) far away from the second driven wheel (7), and the second connecting rod (9) is connected with the lifting mechanism;

a connecting rod (8) with the pivot junction of No. two connecting rods (9) is provided with two coaxial belt pulleys, one of them the belt pulley is connected through a belt (10) No. two from driving wheel (7), another the belt pulley is connected through No. two belt (11) elevating system.

5. The system for the combined construction of secondary hospital fever clinics by containers as claimed in claim 4, wherein the lifting mechanism comprises a belt transmission component arranged on the fixed nest plate (2) and a jogged structure connecting the belt transmission component and the telescopic nest plate (3);

the belt transmission assembly comprises two transmission wheels (12) symmetrically arranged on the fixed sleeve plate (2), a transmission belt (13) is sleeved on the two transmission wheels (12), and one of the transmission wheels (12) is connected with the second belt (11).

6. The system for building the secondary hospital fever clinic by the container combination as recited in claim 5, characterized in that said engaging structure comprises a connecting frame (15) penetrating through said fixed board (2) and connected with said telescopic board (3), said connecting frame (15) is provided with a groove (16), and a first slide block (14) rotatably connected with said driving belt (13) is slidably arranged in said groove (16).

7. The system for building the secondary hospital fever clinic by adopting the container combination as recited in claim 3, wherein the traversing assembly comprises a second driving device (18) fixedly installed on the transverse plate (17), the output shaft of the second driving device (18) is connected with a screw rod (19) rotatably installed on the transverse plate (17), and a threaded sleeve (20) is arranged on the screw rod (19);

the transverse plate (17) is further provided with a sliding groove (22), and the threaded sleeve (20) is fixedly connected with a second sliding block (21) which slides in the sliding groove (22).

8. The system for building the secondary hospital fever clinic by adopting the container combination as set forth in claim 7, wherein the overturning assembly comprises a transmission rod (24) arranged along the length direction of the cross plate (17), the transmission rod (24) penetrates through a mounting part (23) fixedly connected with the second slider (21) and is slidably sleeved with a follow-up sleeve (26) rotatably mounted on the mounting part (23), the transmission rod (24) is coaxially connected with the first driven wheel (6), and the follow-up sleeve (26) is connected with the hook (31) through a pushing structure;

the transmission rod (24) is symmetrically provided with a limiting block (25), and the limiting block (25) is symmetrically arranged on the inner wall of the follow-up sleeve (26) in a sliding sleeved mode through a limiting groove (27).

9. The system for constructing the secondary hospital fever clinic with the container combination as recited in claim 8, wherein said pushing structure comprises a crankshaft (29) connected with said follower sleeve (26) through a third belt (28) and rotatably installed on said installation member (23), said crankshaft (29) is connected with a convex plate (32) installed on said hook (31) through a support plate (30), one end of said support plate (30) is rotatably connected with said crankshaft (29), and the other end is rotatably connected with said convex plate (32).

10. A method of using the system for constructing a secondary hospital fever clinic using a container set as claimed in claim 3, comprising the steps of:

the method comprises the following steps: placing parts of the container on the mounting platform (1), and assembling the container on the mounting platform (1);

step two: starting a first driving device (4), driving the overturning assembly to work through a maltese cross machine core structure, enabling the hook (31) to finish primary deflection, and hooking the assembled container;

step three: after the hook (31) hooks the container, the maltese cross core structure drives the lifting mechanism to act through the telescopic sleeve piece, drives the telescopic sleeve plate (3) to move upwards, and lifts the container upwards;

step four: when the container reaches the maximum height, the first driving device (4) stops working, and then the container is conveyed to a specified position by controlling the transverse moving component;

step five: the first driving device (4) continues to work, drives the container to descend to the ground through the lifting mechanism, and drives the hook (31) to deflect again through the rear deflection assembly so as to separate the container from the hook;

step six: the lifting mechanism drives the hook (31) to restore to the initial height, and simultaneously, the transverse moving component drives the hook (31) to restore to the initial position.