CN219199389U - Assembled modularized ventilation system - Google Patents

Abstract

The utility model discloses an assembled modularized ventilation system, which belongs to the technical field of ventilation equipment and comprises a first pipeline, a second pipeline and a third pipeline, wherein connecting flanges I are respectively arranged at two ends of the first pipeline; the second pipeline is 1/4 cylindrical in shape, and connecting flanges II are respectively arranged at openings at two ends of the second pipeline; the third pipeline is 1/4 cylindrical in shape, and connecting flanges three are respectively arranged at openings at two ends of the third pipeline; the first connecting flange is respectively matched with the second connecting flange and the connecting flange in a three-phase manner; the sealing performance and the safety of the whole pipeline can be ensured by tightly connecting all flanges, the technical problems of inconvenient installation and high maintenance cost in the prior art are solved, and the flange is mainly applied to an assembled modularized ventilation and exhaust system in a hospital.

Description

Assembled modularized ventilation system

Technical Field

The utility model belongs to the technical field of ventilation equipment, and particularly relates to an assembled modularized ventilation system.

Background

The shelter hospital takes the field mobile medical system of the army as a template, fully utilizes the existing building, takes the shortest time and the lowest cost and meets the lowest protection requirement as a temporary treatment place, effectively relieves the problem of shortage of local medical resources, solves the problem of difficult treatment of a large number of light patients at present, and achieves the aims of effectively controlling the infectious sources and treating the patients to the maximum extent.

The building for reforming into shelter hospitals is generally arranged by depending on a single closed large-space building. The facility equipment such as plane arrangement, layer height, structural form, water supply and drainage, power supply and distribution and the like can meet the use requirement of shelter hospitals or have transformation conditions. At present, a exhibition hall and a conference center are preferentially selected, and then public large-space buildings such as stadiums, large-scale workshops or warehouses are selected.

In order to effectively control an infectious agent, realize regional management in the shelter, keep the indoor environment air quality good to the greatest extent and the discharged air quality safe to meet the emission standard, ensure that viruses do not leak, and protect the surrounding environment. Therefore, ventilation system modification is a serious problem in "shelter hospitals".

The current situation of the original building air conditioning ventilation system is checked through investigation, and the ventilation system is independently designed, constructed and installed according to the construction requirements and the use characteristics of the shelter hospital, so that the implementation progress is slow.

In the current shelter hospital ventilation system construction process, the ventilating duct hangs on the existing building hanging roof, and is great to former building destruction.

Shelter hospitals are used as temporary buildings, and are required to meet the characteristics of epidemic prevention combination and recover at any time. The existing ventilation and exhaust system modification process has large damage to the original building, high recovery cost and inapplicability to comprehensive popularization and application, and the ventilation and exhaust system capable of completing deployment for disease prevention and control in a short time is needed to replace the prior art to innovate so as to meet the social demands.

Disclosure of Invention

In order to solve the technical problems, the design provides an assembled modularized ventilation pipeline, which adopts the following technical scheme:

the utility model mainly comprises a first pipeline, a second pipeline and a third pipeline, wherein connecting flanges I are respectively arranged at two ends of the first pipeline; the second pipeline is 1/4 cylindrical in shape, and connecting flanges II are respectively arranged at openings at two ends of the second pipeline; the third pipeline is 1/4 cylindrical in shape, and connecting flanges three are respectively arranged at openings at two ends of the third pipeline; the first connecting flange is respectively matched with the second connecting flange and the connecting flange in a three-phase manner; the utility model relates to a ventilating pipeline which is formed by arbitrarily matching a first pipeline, a second pipeline and a third pipeline, wherein the pipelines can be arbitrarily combined to meet the standard of local facilities, so that the effect of rapidly installing a system is achieved.

Preferably: in order to make the utility model better applied, the first pipeline of the utility model is cuboid in shape, and is more convenient to install, and the model of the utility model can be adjusted according to the needs.

Preferably: in order to install the system more quickly, the first pipeline, the second pipeline and the third pipeline are fixed through the support frame, and the system is convenient to install and reduces the construction time in a mode of fixing the support frame.

Preferably: the size of the through hole can be adjusted according to the requirement, the first pipeline is also provided with a vent, and the vent is provided with an adjustable shutter for adjusting the air quantity, so that the applicant does not need to describe the adjustable shutter in detail.

Preferably: in order to improve the service life of the product, the first pipeline, the second pipeline and the third pipeline are made of stainless steel, and the whole equipment can be stored when not used.

Preferably: for the convenience evacuation, still be equipped with the shielding plate, shielding plate and pipeline one, pipeline two and pipeline three vent pipe that the arbitrary cooperation was constituteed, shielding plate passes through the opening part of support mounting at pipeline one and shelters from, prevent that the rainwater from getting into to guarantee ventilation system normal work better.

Preferably: in order to ensure the service life of the equipment, the supporting frame is made of stainless steel.

The utility model has the following advantages:

the modularized assembled ventilation and exhaust system is an innovation of a ventilation and exhaust system of a shelter hospital. Aiming at the sudden nature of epidemic situation prevention and control, the deployment is completed in a short time, and the operation efficiency is improved.

The modularized assembly ventilation and exhaust system is convenient for temporary transition and temporary construction of shelter hospitals, and plays a continuous role in future governments in coping with sudden public health events.

The modularized assembly ventilation and exhaust system can be quickly installed and stored, can be combined in a peacetime and war, meets the requirements of the current epidemic situation, is extremely fast in installation speed, and can be installed in one day, so that the ventilation and exhaust system of a shelter hospital with 3000 square meters can meet the requirements of the epidemic situation in a real sense.

I will continuously improve the modular air ventilation system under the support of the building design institute in Lianyuang and the civil construction society in the heating and ventilation department. Through accumulation of practical experience and introduction of new technology, enterprise standards of products are gradually established, and the enterprise standards are actively popularized and implemented, so that contribution is made to establishment of shelter hospital standards.

Drawings

FIG. 1 is a front view of a module of the present utility model;

FIG. 2 is a side view of a module of the present utility model;

FIG. 3 is a top view of the module of the present utility model;

FIG. 4 is a front view of a module according to the present utility model;

FIG. 5 is a top view of a module II of the present utility model;

FIG. 6 is a front view of a module three of the present utility model;

FIG. 7 is a top view of a module three of the present utility model;

FIG. 8 is a three side view of the module of the present utility model;

FIG. 9 is a top view of the utility model in use;

FIG. 10 is a front view of the present utility model in use;

FIG. 11 is an enlarged view of a portion of FIG. 10 at A;

FIG. 12 is a diagram of the operational state of the present utility model;

FIG. 13 is a front view of a bracket portion of the present utility model;

fig. 14 is a side view of a portion of a bracket of the present utility model.

In the figure: 1, a shielding plate; 2, a first pipeline; 2-1 a first flange; 2-2 an air duct I; 3, a second pipeline; 3-1 of a second flange; 3-2 air channels II; 4, a third pipeline; a third flange 4-1; 4-2 air channels III; 5, ventilation openings; 5-1, adjusting the shutter; and 6, supporting a frame.

Detailed Description

Example 1

As shown in fig. 1-14:

the modular ventilation system is characterized by comprising a first pipeline 2, a second pipeline 3 and a third pipeline 4, wherein connecting flanges I2-1 are respectively arranged at two ends of the first pipeline 2; the second pipeline 3 is 1/4 cylindrical in shape, and connecting flanges 3-1 are respectively arranged at openings at two ends of the second pipeline; the shape of the pipeline III 4 is 1/4 cylinder, and the openings at the two ends are respectively provided with a connecting flange III 4-1; the first connecting flange 2-1 is matched with the second connecting flange 3-1 and the third connecting flange 4-1 respectively; the ventilating duct is formed by optionally matching a first pipeline 2, a second pipeline 3 and a third pipeline 4, the first pipeline 2 is cuboid, the first pipeline 2, the second pipeline 3 and the third pipeline 4 are fixed through a support frame 6, the first pipeline 2 is further provided with a ventilation opening 5, the ventilation opening 5 is provided with an adjustable louver 5-1 for adjusting the air quantity, the first pipeline 2, the second pipeline 3 and the third pipeline 4 are made of stainless steel, a shielding plate 1 is further arranged, the shielding plate 1 and the first pipeline 2, the second pipeline 3 and the third pipeline 4 are optionally matched to form the ventilating duct, and the support frame 6 is made of stainless steel.

The working principle of the utility model is as follows:

firstly, construction planning is carried out, the positions where ventilation and exhaust systems are required to be installed are planned firstly, then, simulation operation is carried out to calculate the number of the first pipeline 2, the second pipeline 3, the third pipeline 4 and the supporting frame 6, then, 5% -10% of the first pipeline 2, the second pipeline 3, the third pipeline 4 and the supporting frame 6 are additionally provided for standby, then, the first pipeline 2, the second pipeline 3 and the third pipeline 4 are connected in a flange mode, after connection, the first pipeline 2, the second pipeline 3 and the third pipeline 4 are fixed through the supporting frame 6, the whole construction process is convenient and fast, and the method is suitable for comprehensive popularization and application, and the shape of the ventilation and exhaust pipelines can be realized through the design of the utility model, and the method is particularly shown in fig. 9, fig. 10 and fig. 12. The first pipeline 2 is internally provided with a first air channel 2-2, the second pipeline 3 is internally provided with a second air channel 3-2, the third pipeline 4 is internally provided with a third air channel 4-2, and the first air channel 2-2, the second air channel 3-2 and the third air channel 4-2 are communicated together for ventilation and exhaust.

When the temporary square cabin needs to be dismantled, the ventilation system adopting the structural design of the utility model does not damage the appearance of the original building, thereby reducing the construction maintenance cost, saving the construction time, and being capable of being stored and reused when needed next time after being dismantled.

On the premise of meeting ventilation design requirements of shelter hospitals, the utility model realizes large-scale and industrialization of ventilation module production by designing the basic module, improves production efficiency and reduces material cost.

Through the free assembly and free folding of the ventilation and exhaust module, the ventilation and exhaust system can be used repeatedly, split and used for a long time.

The steel frame structure is used for supporting, so that the damage to the original building structure is reduced, the recovery cost is reduced to the minimum, and the plague combination is truly realized.

The foregoing is merely a preferred embodiment of the utility model, and it should be noted that modifications could be made by those skilled in the art without departing from the principles of the utility model, which modifications would also be considered to be within the scope of the utility model.

Claims (7)

1. The assembled modularized ventilation system is characterized by comprising a first pipeline (2), a second pipeline (3) and a third pipeline (4),

the two ends of the first pipeline (2) are respectively provided with a first connecting flange (2-1);

the second pipeline (3) is 1/4 cylindrical in shape, and connecting flanges (3-1) are respectively arranged at openings at two ends of the second pipeline; the pipeline III (4) is 1/4 cylindrical in shape, and connecting flanges III (4-1) are respectively arranged at openings at two ends of the pipeline III; the first connecting flange (2-1) is matched with the second connecting flange (3-1) and the third connecting flange (4-1) respectively;

the ventilating duct is formed by optionally matching a first pipeline (2), a second pipeline (3) and a third pipeline (4).

2. The modular ventilation system of claim 1, wherein the first conduit (2) is rectangular in shape.

3. The modular ventilation system of claim 1, wherein the first conduit (2), the second conduit (3) and the third conduit (4) are secured by a support bracket (6).

4. The assembly type modularized ventilation system according to claim 1, wherein the first pipeline (2) is further provided with a ventilation opening (5), and the ventilation opening (5) is provided with an adjustable shutter (5-1) for adjusting the air quantity.

5. The modular ventilation system of claim 1, wherein the first (2), second (3) and third (4) conduits are stainless steel.

6. The modular ventilation system according to claim 1, further comprising a shielding plate (1), wherein the shielding plate (1) is optionally matched with the first pipeline (2), the second pipeline (3) and the third pipeline (4) to form a ventilation pipeline.

7. A modular ventilation system according to claim 3, characterized in that the material of the support frame (6) is stainless steel.

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