Steel structure factory building with air conditioner wind pipe structure

By using a main air conditioning frame structure composed of steel pipe piles and beams in a steel structure factory building, and installing a protective netting mechanism at the air outlet, the problems of large space occupation and inconvenient cleaning of traditional duct systems are solved, achieving simple installation and automatic cleaning effect.

CN224396136UActive Publication Date: 2026-06-23SICHUAN JIAKE CURTAIN WALL ENG CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SICHUAN JIAKE CURTAIN WALL ENG CO LTD
Filing Date
2025-05-30
Publication Date
2026-06-23

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Abstract

The utility model relates to industrial plant technical field discloses a steel structure plant with air conditioner air pipe structure, including a plurality of steel pipe piles, and fixedly connected with first crossbeam between two steel pipe piles of same row, fixedly connected with second crossbeam between two steel pipe piles of same column, and cavity intercommunication between steel pipe pile and first crossbeam, second crossbeam, wherein one steel pipe pile still connects with external air conditioner air supply pipe through pipeline, fixedly connected with roof truss between a plurality of first crossbeams, a plurality of air outlets are arranged outside steel pipe pile, and air outlet is arranged along the contour of steel pipe pile outside circumference. Industrial plant main part adopts the main frame structure that steel pipe pile and first crossbeam, second crossbeam constitute, and the passageway intercommunication between steel pipe pile and first crossbeam, second crossbeam, and a plurality of air outlets are arranged outside a plurality of steel pipe piles, thereby not needing to lay air pipe additionally, realizing air conditioner air supply function, not occupying indoor space, make the indoor more simple and beautiful.
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Description

Technical Field

[0001] This utility model relates to the field of industrial plant technology, and in particular to a steel structure plant with its own air conditioning duct structure. Background Technology

[0002] The air conditioning equipment in the building generally adopts a split structure mode of "laying independent air ducts first and then installing air outlets on the air ducts". Although this traditional design can meet the basic ventilation needs, the traditional air ducts need to occupy the vertical space of the factory roof or walls for installation. For heavy industrial buildings with high ceilings, the bulky air duct system not only increases the load on the building structure, but also compresses the installation space of production equipment and the activity area of ​​operators.

[0003] In terms of installation and maintenance, the installation process of traditional duct systems is complex, involving multiple procedures such as pipe cutting, welding, and bracket fixing. The construction cycle is long and the requirements for the site environment are high. After long-term operation, the air outlets in industrial plants may have a certain amount of dust, which can cause blockages. Since the air outlets are installed at a high position, it is also inconvenient to clean the blockages. Utility Model Content

[0004] The purpose of this utility model is to provide a steel structure factory building with its own air conditioning duct structure, which can effectively solve the problems in the background art.

[0005] To achieve the above objectives, the technical solution adopted by this utility model is as follows:

[0006] A steel structure factory building with integrated air conditioning ductwork includes multiple steel pipe piles. A first crossbeam is fixedly connected between two steel pipe piles in the same row, and a second crossbeam is fixedly connected between two steel pipe piles in the same column. The steel pipe piles are connected to the cavities of the first and second crossbeams. One of the steel pipe piles is also connected to an external air conditioning duct via a pipe. A roof truss is fixedly connected between the multiple first crossbeams. Multiple air outlets are provided on the outer side of each steel pipe pile, arranged circumferentially along the outer contour of the steel pipe pile. A protective net is installed on the outer side of each steel pipe pile near the air outlet. The protective netting mechanism includes a lower fixed frame, an upper fixed frame, a lower movable frame, and an upper movable frame. The lower fixed frame is fixedly installed on the outside of a steel pipe pile located below the air outlet, and the upper fixed frame is fixedly installed on the outside of a steel pipe pile located above the air outlet. Multiple connecting shafts are fixedly connected between the lower fixed frame and the upper fixed frame. Multiple protective plates are fixedly connected between the lower movable frame and the upper movable frame. The lower movable frame and the upper movable frame are also respectively inserted and installed on the outside of the steel pipe pile. The upper movable frame is located below the upper fixed frame, and the lower movable frame is located below the lower fixed frame.

[0007] As a further preferred embodiment of this utility model, the lower fixed frame has multiple through slots circumferentially provided, and a brush is fixedly installed on one side of each through slot. The opening of the through slots can provide displacement conditions for the protective plate to move down through the lower fixed frame, and the setting of the brush can clean the blockage in the holes of the protective plate when it passes through the through slots.

[0008] As a further preferred embodiment of this utility model, a plurality of first abutment strips are fixedly connected between the lower fixed frame and the upper fixed frame, and the first abutment strips are close to the through groove. The setting of the first abutment strips can make the protective plate and the steel pipe pile maintain a certain distance, thereby facilitating the stable radial movement of the protective plate in the through groove.

[0009] As a further preferred embodiment of this utility model, a plurality of handles are fixedly installed at the bottom of the lower movable frame, and two second abutment strips are fixedly installed on one side of the protective plate. One side of the second abutment strip abuts against the corresponding first abutment strip. The two second abutment strips are provided to cooperate with the corresponding first abutment strips.

[0010] As a further preferred embodiment of this utility model, the protective plate has multiple holes for allowing external air or cold air to enter the factory through the air outlet and the protective plate, and also for protecting the air outlet.

[0011] As a further preferred embodiment of this utility model, the upper movable frame is provided with multiple through holes, and the through holes are inserted and installed on the corresponding connecting shafts.

[0012] As a further preferred embodiment of this utility model, a compression spring is fitted on the outer side of the connecting shaft. The bottom of the compression spring abuts against the lower fixed frame, and the top of the compression spring abuts against the bottom of the upper movable frame. The cooperation between the connecting shaft and the compression spring can ensure the stable radial movement of the upper movable frame, the protective plate, and the lower movable frame, and provide the power conditions for the reset movement of the lower movable frame, the upper movable frame, and the protective plate.

[0013] Compared with the prior art, the present invention has the following beneficial effects:

[0014] 1. In this utility model, the main body of the industrial plant adopts a main frame structure composed of steel pipe piles and first and second crossbeams, and the channels between the steel pipe piles and the first and second crossbeams are connected. Multiple air outlets are opened on the outside of multiple steel pipe piles, so that there is no need to lay additional air ducts to realize the air conditioning function without occupying indoor space, making the interior more concise and beautiful.

[0015] 2. In this utility model, a protective net mechanism is set at the air outlet on the outside of the steel pipe pile. The protective net mechanism is composed of a lower fixed frame, an upper fixed frame, a connecting shaft, a lower movable frame, an upper movable frame, a protective plate, and other structures. The protective plate can protect the air outlet. At the same time, the lower movable frame and the upper movable frame can also realize the rapid vertical displacement of the protective plate, which facilitates the cleaning of dust and other blockages in the air holes inside the protective plate. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the main structure of this utility model;

[0017] Figure 2 for Figure 1 Enlarged view of point A in the middle;

[0018] Figure 3 This is a partial structural diagram of the steel pipe pile of this utility model;

[0019] Figure 4 This is a schematic diagram of the protective netting structure of this utility model;

[0020] Figure 5 This is a schematic diagram of the lower fixing frame and the upper fixing frame structure of this utility model;

[0021] Figure 6 for Figure 5 Enlarged view of point B in the middle;

[0022] Figure 7 This is a schematic diagram of the lower movable frame and the upper movable frame of this utility model.

[0023] In the diagram: 1. Steel pipe pile; 2. First crossbeam; 3. Second crossbeam; 4. Roof truss; 5. Air outlet; 6. Protective netting mechanism; 7. Lower fixed frame; 8. Upper fixed frame; 9. Connecting shaft; 10. Lower movable frame; 11. Upper movable frame; 12. Protective plate; 13. Through slot; 14. Brush; 15. First abutment strip; 16. Compression spring; 17. Handle; 18. Second abutment strip. Detailed Implementation

[0024] To make the technical means, creative features, objectives and effects of this utility model easier to understand, the present utility model will be further described below in conjunction with specific embodiments.

[0025] like Figures 1-7As shown, this utility model provides a steel structure factory building with a built-in air conditioning duct structure, including multiple steel pipe piles 1. A first crossbeam 2 is fixedly connected between two steel pipe piles in the same row, and a second crossbeam 3 is fixedly connected between two steel pipe piles in the same column. The steel pipe piles 1 are connected to the cavities of the first and second crossbeams 2 and 3. One of the steel pipe piles 1 is also connected to an external air conditioning duct via a pipe. A roof truss 4 is fixedly connected between the multiple first crossbeams 2. Multiple air outlets 5 are provided on the outer side of the steel pipe piles 1, arranged circumferentially along the outer contour of the steel pipe piles 1. A protective netting mechanism is installed on the outer side of the steel pipe piles 1 near the air outlets 5. 6. The protective netting mechanism 6 includes a lower fixed frame 7, an upper fixed frame 8, a lower movable frame 10, and an upper movable frame 11. The lower fixed frame 7 is fixedly installed on the outside of the steel pipe pile 1 located below the air outlet 5. The upper fixed frame 8 is fixedly installed on the outside of the steel pipe pile 1 located above the air outlet 5. Multiple connecting shafts 9 are fixedly connected between the lower fixed frame 7 and the upper fixed frame 8. Multiple protective plates 12 are fixedly connected between the lower movable frame 10 and the upper movable frame 11. The lower movable frame 10 and the upper movable frame 11 are also respectively inserted and installed on the outside of the steel pipe pile 1. The upper movable frame 11 is also located below the upper fixed frame 8, and the lower movable frame 10 is located below the lower fixed frame 7.

[0026] like Figures 4-6 As shown, the lower fixed frame 7 has multiple through slots 13 circumferentially opened. A brush 14 is fixedly installed on one side of the through slot 13. The opening of the through slot 13 provides displacement conditions for the protective plate 12 to move down through the lower fixed frame 7. The setting of the brush 14 allows the protective plate 12 to clean the blockage in the holes of the protective plate 12 when passing through the through slot 13. Multiple first abutment strips 15 are also fixedly connected between the lower fixed frame 7 and the upper fixed frame 8. The first abutment strips 15 are close to the through slot 13. The setting of the first abutment strips 15 allows the protective plate 12 to maintain a certain distance from the steel pipe pile 1, thereby facilitating the stable radial movement of the protective plate 12 in the through slot 13.

[0027] like Figure 4 , Figure 7As shown, multiple handles 17 are fixedly installed at the bottom of the lower movable frame 10. Two second abutment strips 18 are fixedly installed on one side of the protective plate 12. One side of the second abutment strip 18 abuts against the corresponding first abutment strip 15. The two second abutment strips 18 are designed to cooperate with the corresponding first abutment strip 15. Multiple holes are opened in the protective plate 12 to allow external air or cold air to enter the factory through the air outlet 5 and the protective plate 12, and to protect the air outlet 5. Multiple through holes are opened in the upper movable frame 11, and the through holes are inserted and installed on the corresponding connecting shaft 9. A compression spring 16 is fitted on the outside of the connecting shaft 9. The bottom of the compression spring 16 abuts against the lower fixed frame 7, and the top of the compression spring 16 abuts against the bottom of the upper movable frame 11. The cooperation between the connecting shaft 9 and the compression spring 16 can ensure the stable radial movement of the upper movable frame 11, the protective plate 12, and the lower movable frame 10, and provide the power conditions for the reset movement of the lower movable frame 10, the upper movable frame 11, and the protective plate 12.

[0028] It should be noted that this utility model is a steel structure factory building with its own air conditioning duct structure. The internal cavities of the steel pipe pile 1, the first crossbeam 2, and the second crossbeam 3 are interconnected to form the main channel for air conditioning air supply. One of the steel pipe piles 1 is connected to the external air conditioning air supply duct through a pipe to serve as a fresh air inlet. Multiple air outlets 5 are opened on the outer side of the steel pipe pile 1 along the circumference. The air is blown out evenly from the air outlets 5 through the cavity channel to cover the interior space of the factory building.

[0029] The protective net mechanism 6 is installed on the outside of the air outlet 5 and consists of components such as the lower fixed frame 7, the upper fixed frame 8, the connecting shaft 9, the lower movable frame 10, the upper movable frame 11, and the protective plate 12. It has both protective and self-cleaning functions. When cleaning the holes in the protective plate 12, the handle 17 at the bottom of the lower movable frame 10 can be pulled manually to move the protective plate 12 downward along the connecting shaft 9. When the protective plate 12 moves down through the through groove 13, the bristles 14 scrape away the dust and other blockages in the holes of the protective plate 12 to achieve automatic cleaning. After releasing the handle 17, the compression spring 16 releases its elastic potential energy, pushes the upper movable frame 11 to move the protective plate 12 upward to reset it to the initial protective state.

[0030] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A steel structure factory building with air conditioning duct structure, characterized in that: The utility model provides a kind of steel pipe pile air conditioning system, including multiple steel pipe piles (1), and the first crossbeam (2) is fixedly connected between two steel pipe piles (1) of same row, the second crossbeam (3) is fixedly connected between two steel pipe piles (1) of same column, and the cavity of steel pipe pile (1) and first crossbeam (2), second crossbeam (3) is communicated, wherein one steel pipe pile (1) is also connected with outside air conditioning air supply pipe by pipeline, multiple first crossbeam (2) is fixedly connected with roof truss (4) between, multiple air outlet (5) are arranged on the outside of steel pipe pile (1), air outlet (5) is arranged along the outside profile of steel pipe pile (1) circumferentially, protective screen mechanism (6) is provided at the outside of steel pipe pile (1) close to air outlet (5), and protective screen mechanism (6) includes lower fixed frame (7), upper fixed frame (8) and lower movable frame (10), upper movable frame (11), lower fixed frame (7) is fixedly installed at the outside of steel pipe pile (1) below air outlet (5), upper fixed frame (8) is fixedly installed at the outside of steel pipe pile (1) above air outlet (5), multiple connecting shafts (9) are fixedly connected between lower fixed frame (7) and upper fixed frame (8), multiple protective plates (12) are fixedly connected between lower movable frame (10) and upper movable frame (11), and lower movable frame (10) and upper movable frame (11) are also respectively installed in the outside of steel pipe pile (1), and upper movable frame (11) is also located below upper fixed frame (8), and lower movable frame (10) is located below lower fixed frame (7).

2. The steel structure plant building with air conditioning duct structure according to claim 1, characterized in that: Multiple through slots (13) are arranged circumferentially in lower fixed frame (7), and bristles (14) are fixedly installed on one side in through slot (13).

3. The steel structure plant building with air conditioning duct structure according to claim 2, characterized in that: Multiple first contact strips (15) are fixedly connected between lower fixed frame (7) and upper fixed frame (8), and first contact strip (15) is close to through slot (13).

4. The steel structure plant building with air conditioning duct structure according to claim 3, characterized in that: Multiple handles (17) are fixedly installed on the bottom of lower movable frame (10), two second contact strips (18) are fixedly installed on one side of protective plate (12), and second contact strip (18) is in contact with corresponding first contact strip (15) on one side.

5. The steel structure plant building with air conditioning duct structure according to claim 1, characterized in that: Multiple holes are arranged in protective plate (12).

6. The steel structured factory building with air duct structure of air conditioner according to claim 1, characterized in that: Multiple through holes are arranged in upper movable frame (11), and the through hole is installed on corresponding connecting shaft (9).

7. The steel structure plant building with air conditioning duct structure according to claim 6, characterized in that: Compression spring (16) is sleeved on the outside of connecting shaft (9), the bottom of compression spring (16) is in contact with lower fixed frame (7), and the top of compression spring (16) is in contact with the bottom of upper movable frame (11).