A processing platform for ventilation ducts and ventilation duct
By designing the installation mechanism and reinforcing components for the ventilation ducts, the stability and efficient continuous installation of the ventilation ducts were achieved, solving the problems of obstructed ventilation and low installation efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 江苏晨达半导体科技有限公司
- Filing Date
- 2025-06-19
- Publication Date
- 2026-07-03
AI Technical Summary
Existing ventilation ducts are limited in length, hindering ventilation and making continuous installation inconvenient, resulting in low installation efficiency.
A ventilation duct was designed, including a ventilation mechanism and an installation mechanism. By setting up an installation plate, a limiting plate, connecting components, reinforcing components, and built-in components, a rapid stacking and reinforcement structure can be achieved, ensuring the stability and continuous installation of the ventilation duct body.
It improves the structural strength and installation efficiency of ventilation ducts, solves the problems of obstructed ventilation and inconvenient installation, and enhances the continuity and efficiency of installation.
Smart Images

Figure CN224454854U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of ventilation duct technology, and in particular to a processing platform and ventilation duct for ventilation ducts. Background Technology
[0002] During laboratory construction, various facilities such as air ducts, water pipes, and cable trays need to be installed in the ceiling. In order to meet the ventilation needs of the laboratory, the air ducts generally have a large cross-sectional size, which weakens the air ducts' resistance to deformation. After installation, they are prone to shrinkage and deformation. The common method is to reinforce the outer perimeter of the air ducts. However, reinforcement will compress the ceiling space of the laboratory, making the already cramped ceiling space even more confined, which is not conducive to the installation of other facilities.
[0003] In the prior art, patent (CN220016380U) proposes a ventilation duct, including a ventilation duct body, a first reinforcing frame and a second reinforcing frame. The second reinforcing frame is spaced around the first reinforcing frame. The first reinforcing frame includes four reinforcing angle steels, which are connected end to end to form a frame structure. The second reinforcing frame includes four reinforcing flat steels, which are connected end to end to form a frame structure. The four reinforcing angle steels are connected end to end to form a frame structure and are coaxially arranged on the inner wall of the ventilation duct body. This strengthens the ventilation duct body without occupying the laboratory ceiling space. Moreover, since the flat steels have a small thickness, the space occupied by the flat steels is small, which improves the space utilization rate within the ceiling.
[0004] However, in the aforementioned existing technologies, the ventilation duct has a limited length, which hinders the ventilation effect and makes continuous installation inconvenient, resulting in low installation efficiency. Utility Model Content
[0005] The purpose of this utility model is to provide a processing platform and ventilation duct for ventilation ducts, which solves the problems of limited length of ventilation duct body, obstructed ventilation effect, inconvenience for continuous installation, and low installation efficiency in the prior art.
[0006] To achieve the above objectives, this utility model provides a ventilation duct, including a ventilation mechanism and an installation mechanism. The installation mechanism includes two mounting plates, two upper limit plates, two lower limit plates, a connecting component, a reinforcing component, and a built-in component. The built-in component is fixedly connected to the reinforcing component and is located on the inner wall of the reinforcing component. The reinforcing component is fixedly connected to the ventilation mechanism and is located on the inner wall of the ventilation mechanism. The connecting component is fixedly connected to the two mounting plates and is located on the inner side of the two mounting plates. Each lower limit plate and each upper limit plate are fixedly connected to the corresponding mounting plate and are located on the upper and lower sides of the corresponding mounting plate, respectively. Both mounting plates are fixedly connected to the ventilation mechanism and are located at both ends of the ventilation mechanism.
[0007] The connecting assembly includes two frames and multiple connecting rods. The two ends of each connecting rod are fixedly connected to the corresponding frame and are located on one side of the corresponding frame. Both frames are fixedly connected to the ventilation mechanism and are located at both ends of the ventilation mechanism.
[0008] The reinforcing component includes an outer reinforcing frame and an inner reinforcing frame. The inner reinforcing frame is fixedly connected to the outer reinforcing frame and is located inside the outer reinforcing frame. The outer reinforcing frame is fixedly connected to the ventilation mechanism and is located on the inner wall of the ventilation mechanism.
[0009] The built-in components include multiple triangular plates and multiple grid plates. Each grid plate has its two sides fixedly connected to the corresponding triangular plate and is located on one side of the corresponding triangular plate. Each triangular plate is fixedly connected to the inner reinforcing frame and is located on the inner wall of the inner reinforcing frame.
[0010] The ventilation mechanism includes a ventilation body, two side plates, and two hanging rods. The lower end of each hanging rod is fixedly connected to the corresponding side plate and is located above the corresponding side plate. Both side plates are fixedly connected to the ventilation body and are located on both sides of the ventilation body. The ventilation body is fixedly connected to the outer reinforcing frame and is located around the periphery of the outer reinforcing frame.
[0011] This utility model also provides a processing platform for ventilation ducts, for manufacturing ventilation ducts as described above, characterized in that...
[0012] It includes a processing table, two slide plates and multiple ear plates. Each ear plate is fixedly connected to the corresponding slide plate and is located on both sides of the corresponding slide plate. Both slide plates are fixedly connected to the processing table and are located inside the processing table.
[0013] This utility model discloses a processing platform and ventilation duct for ventilation ducts. The mounting plate has multiple holes. By attaching two adjacent mounting plates together, the upper limit plate abuts against the upper limit plate, and the lower limit plate abuts against the lower limit plate, realizing the rapid overlapping of the holes of the two mounting plates. While ensuring the structural strength of the ventilation mechanism, it reduces the time required for installation and splicing. This design solves the problems of limited ventilation duct length, obstructed ventilation effect, inconvenience for continuous installation, and low installation efficiency. Attached Figure Description
[0014] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0015] Figure 1 This is a schematic diagram of the overall structure of a ventilation duct according to this utility model.
[0016] Figure 2 This is a side view of a ventilation duct according to this utility model.
[0017] Figure 3 This is the utility model Figure 2 A sectional view along line AA.
[0018] Figure 4 This is the utility model Figure 3 Enlarged view of the local structure at point B.
[0019] Figure 5 This is a schematic diagram of the overall structure of a processing platform for ventilation ducts according to this utility model.
[0020] Figure 6 This is a side view of a processing platform for ventilation ducts according to this utility model.
[0021] 101-Ventilation mechanism, 102-Installation mechanism, 103-Installation plate, 104-Upper limit plate, 105-Lower limit plate, 106-Connecting component, 107-Reinforcing component, 108-Built-in component, 109-Frame, 110-Connecting rod, 111-Outer reinforcing frame, 112-Inner reinforcing frame, 113-Triangle plate, 114-Grate plate, 115-Ventilation body, 116-Side plate, 117-Hanging rod, 118-Processing table, 119-Slide plate, 120-Ear plate. Detailed Implementation
[0022] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0023] Please see Figures 1-4 ,in Figure 1 This is a schematic diagram of the overall structure of a processing platform for ventilation ducts and a ventilation duct according to this utility model. Figure 2 This is a side view of a processing platform for ventilation ducts and a ventilation duct according to the present invention. Figure 3 This is the utility model Figure 2 AA-line sectional view, Figure 4 This is the utility model Figure 3 Enlarged view of the local structure at point B.
[0024] This utility model provides a ventilation duct, including a ventilation mechanism 101 and an installation mechanism 102. The installation mechanism 102 includes two mounting plates 103, two upper limit plates 104, two lower limit plates 105, a connecting component 106, a reinforcing component 107, and an internal component 108. The connecting component 106 includes two surrounding frames 109 and multiple connecting rods 110. The reinforcing component 107 includes an outer reinforcing frame 111 and an inner reinforcing frame 112. The internal component 108 includes multiple triangular plates 113 and multiple grid plates 114. The ventilation mechanism 101 includes a ventilation body 115, two side plates 116, and two hanging rods 117.
[0025] In this specific embodiment, the built-in component 108 is fixedly connected to the reinforcing component 107, the reinforcing component 107 is fixedly connected to the ventilation mechanism 101, the connecting component 106 is fixedly connected to the two mounting plates 103, each lower limit plate 105 and each upper limit plate 104 is fixedly connected to the corresponding mounting plate 103, both mounting plates 103 are fixedly connected to the ventilation mechanism 101, both ends of each connecting rod 110 are fixedly connected to the corresponding enclosure frame 109, both enclosure frames 109 are fixedly connected to the ventilation mechanism 101, the inner reinforcing frame 112 is fixedly connected to the outer reinforcing frame 111, the outer reinforcing frame 111 is fixedly connected to the ventilation mechanism 101, and both sides of each grille plate 114 are fixedly connected to the corresponding triangular plate 113. Each of the triangular plates 113 is fixedly connected to the inner reinforcing frame 112, and the lower end of each of the hanging rods 117 is fixedly connected to the corresponding side plate 116. Both side plates 116 are fixedly connected to the ventilation body 115, and the ventilation body 115 is fixedly connected to the outer reinforcing frame 111. The mounting plate 103 has multiple holes. By having two adjacent mounting plates 103 fit together, the upper limit plate 104 abuts against the upper limit plate 104, and the lower limit plate 105 abuts against the lower limit plate 105, thus achieving rapid overlap of the holes of the two mounting plates 103. While ensuring the structural strength of the ventilation mechanism 101, the time required for installation and splicing is reduced. This design solves the problems of limited ventilation pipe length, obstructed ventilation effect, inconvenience for continuous installation, and low installation efficiency.
[0026] The built-in component 108 is located on the inner wall of the reinforcing component 107, the reinforcing component 107 is located on the inner wall of the ventilation mechanism 101, the connecting component 106 is located on the inner side of the two mounting plates 103, each lower limit plate 105 and each upper limit plate 104 are located on the upper and lower sides of the corresponding mounting plate 103, and the two mounting plates 103 are located at both ends of the ventilation mechanism 101. Each mounting plate 103 has multiple mounting holes. After the upper limit plate 104 and the lower limit plate 105 abut against each other, the holes of the two mounting plates 103 can be aligned, thereby improving installation efficiency.
[0027] Secondly, the two ends of each connecting rod 110 are located on one side of the corresponding enclosure 109, and the two enclosures 109 are located at the two ends of the ventilation mechanism 101. The inner reinforcing frame 112 is located inside the outer reinforcing frame 111, and the outer reinforcing frame 111 is located on the inner wall of the ventilation mechanism 101. The upper limit plate 104 and the lower limit plate 105 are not on the same horizontal line. During the connection and installation of two adjacent mounting plates 103, the upper limit plate 104 abuts against the corresponding upper limit plate 104, and the lower limit plate 105 abuts against the corresponding lower limit plate 105. After they abut against each other, they are located on the center line of the mounting plate 103. This provides a reference for the workers and also reduces the degree of shaking of the two adjacent mounting plates 103, thus facilitating better installation.
[0028] Meanwhile, each of the grid plates 114 has its two sides located on one side of the corresponding triangular plate 113. Each triangular plate 113 is located on the inner wall of the inner reinforcing frame 112. The lower end of each hanging rod 117 is located above the corresponding side plate 116. The two side plates 116 are located on both sides of the ventilation body 115. The ventilation body 115 is located on the periphery of the outer reinforcing frame 111. The outer reinforcing frame 111 and the inner reinforcing frame 112 are fixedly installed on the inner wall of the ventilation body 115. The installation of the two reinforcing frames ensures the stability and strength of the ventilation body 115 structure. The inner wall of the inner reinforcing frame 112 is again provided with multiple triangular plates 113 and multiple grid plates 114 to reinforce the deflection point of the inner reinforcing frame 112. Since the triangular plate 113 is triangular, it has stability and can ensure that the deflection angle of the ventilation body 115 will not deform.
[0029] In this embodiment, the mounting plate 103 has multiple mounting holes. Adjacent mounting plates 103 can be aligned by the mutual abutment of the upper limit plate 104 and the lower limit plate 105, improving installation efficiency. The upper limit plate 104 and the lower limit plate 105 are not on the same horizontal line. During the connection and installation of adjacent mounting plates 103, the upper limit plate 104 abuts against its corresponding upper limit plate 104, and the lower limit plate 105 abuts against its corresponding lower limit plate 105. After mutual abutment, they are positioned in the middle of the mounting plate 103. The line, while providing a reference for the staff, also reduces the shaking degree of the two adjacent mounting plates 103, making installation easier. The outer reinforcing frame 111 and the inner reinforcing frame 112 are fixedly installed on the inner wall of the ventilation body 115. The two reinforcing frames ensure the stability and strength of the ventilation body 115 structure. The inner wall of the inner reinforcing frame 112 is further provided with multiple triangular plates 113 and multiple grid plates 114 to reinforce the deflection point of the inner reinforcing frame 112. Since the triangular plate 113 is triangular, it has stability and can ensure that the deflection angle of the ventilation body 115 will not deform.
[0030] This utility model also provides a processing platform for ventilation ducts, for manufacturing ventilation ducts as described above, characterized in that...
[0031] It includes a processing table 118, two slide plates 119 and multiple ear plates 120. Each ear plate 120 is fixedly connected to the corresponding slide plate 119 and is located on both sides of the corresponding slide plate 119. Both slide plates 119 are fixedly connected to the processing table 118 and are located on the inner side of the processing table 118.
[0032] In this specific embodiment, the sliding plate 119 is designed to facilitate the passage of the mounting plate 103. The width of two adjacent mounting plates 103 is exactly the same as the distance between the two sliding plates 119. Below the sliding plate 119, there is a groove of the same size as the upper limit plate 104 and the lower limit plate 105. Thus, after the two mounting plates 103 are attached, they can be quickly spliced by sliding the groove below the sliding plate 119 and by positioning the mounting bolts through the ear plate 120. The operation is convenient and quick.
[0033] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A ventilation duct, comprising a ventilation mechanism, characterized in that, It also includes an installation mechanism, which comprises two mounting plates, two upper limit plates, two lower limit plates, a connecting component, a reinforcing component, and a built-in component. The built-in component is fixedly connected to the reinforcing component and is located on the inner wall of the reinforcing component. The reinforcing component is fixedly connected to the ventilation mechanism and is located on the inner wall of the ventilation mechanism. The connecting component is fixedly connected to the two mounting plates and is located on the inner side of the two mounting plates. Each lower limit plate and each upper limit plate are fixedly connected to the corresponding mounting plate and are located on the upper and lower sides of the corresponding mounting plate, respectively. Both mounting plates are fixedly connected to the ventilation mechanism and are located at both ends of the ventilation mechanism, respectively.
2. The ventilation duct as described in claim 1, characterized in that, The connecting assembly includes two frames and multiple connecting rods. The two ends of each connecting rod are fixedly connected to the corresponding frame and are located on one side of the corresponding frame. Both frames are fixedly connected to the ventilation mechanism and are located at both ends of the ventilation mechanism.
3. The ventilation duct as described in claim 2, characterized in that, The reinforcing component includes an outer reinforcing frame and an inner reinforcing frame. The inner reinforcing frame is fixedly connected to the outer reinforcing frame and is located inside the outer reinforcing frame. The outer reinforcing frame is fixedly connected to the ventilation mechanism and is located on the inner wall of the ventilation mechanism.
4. The ventilation duct as described in claim 3, characterized in that, The built-in components include multiple triangular plates and multiple grid plates. Each grid plate has its two sides fixedly connected to the corresponding triangular plate and is located on one side of the corresponding triangular plate. Each triangular plate is fixedly connected to the inner reinforcing frame and is located on the inner wall of the inner reinforcing frame.
5. The ventilation duct as described in claim 4, characterized in that, The ventilation mechanism includes a ventilation body, two side plates, and two hanging rods. The lower end of each hanging rod is fixedly connected to the corresponding side plate and is located above the corresponding side plate. Both side plates are fixedly connected to the ventilation body and are located on both sides of the ventilation body. The ventilation body is fixedly connected to the outer reinforcing frame and is located around the periphery of the outer reinforcing frame.
6. A processing platform for ventilation ducts, for manufacturing the ventilation duct as described in claim 1, characterized in that, It includes a processing table, two slide plates and multiple ear plates. Each ear plate is fixedly connected to the corresponding slide plate and is located on both sides of the corresponding slide plate. Both slide plates are fixedly connected to the processing table and are located inside the processing table.