Efficient installation and fixing structure of a boiler device
The innovative design of adjustable bottom support and rigid top constraint solves the structural defects of traditional boiler equipment installation and fixing methods, achieving stable installation and protection of boiler equipment, and improving safety and applicability.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHENZHEN HENGYIRAN NEW ENERGY ENVIRONMENTAL PROTECTION TECH CO LTD
- Filing Date
- 2025-06-18
- Publication Date
- 2026-06-09
AI Technical Summary
Traditional boiler equipment installation and fixing methods have structural defects, making it difficult to meet the stringent requirements of modern industry for safety and durability. In particular, they are prone to displacement or overturning under vibration, external impact and outdoor environments, and lack effective top fixing methods.
Employing an innovative design with adjustable bottom support and rigid top constraint, the combination of a saddle-type support and a top fixing assembly achieves stable installation of the boiler equipment. The sliding adjustment function of the bottom saddle-type support and the friction-enhancing effect of the rubber strip, along with the flexible clamping of the top fixing cover through a T-slot and threaded rod, overcome the shortcomings of traditional fixing methods that lack top support.
It significantly improves the installation safety and stability of boiler equipment, prevents equipment tilting and displacement, enhances the protective performance of the equipment, adapts to the installation needs of equipment of different sizes, and provides protection in outdoor environments.
Smart Images

Figure CN224340352U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of boiler equipment installation and protection technology, specifically to an efficient installation and fixing structure for boiler equipment. Background Technology
[0002] In the field of industrial production and energy supply, boiler equipment is a core power unit, and the reliability of its installation and fixation is directly related to production safety and equipment service life. However, the traditional installation and fixation methods of boiler equipment generally have structural defects, making it difficult to meet the stringent requirements of modern industry for safety and durability.
[0003] Traditional fixing methods mostly rely on bottom support structures, lacking effective top fixing means. This makes boiler equipment prone to displacement or overturning during operation due to vibration, external impact, and other factors. At the same time, some special-purpose boilers need to be exposed to the outdoor environment, and traditional fixing structures do not fully consider environmental corrosion issues. For example, rainwater, humid air, and corrosive gases can easily penetrate the fixing components, causing problems such as rust on the boiler equipment. In addition, traditional fixing structures cannot be adjusted, resulting in low applicability and versatility. Therefore, we propose a high-efficiency installation and fixing structure for boiler equipment. Utility Model Content
[0004] (a) Technical problems to be solved
[0005] To address the shortcomings of existing technologies, this utility model provides an efficient installation and fixing structure for boiler equipment, thus solving the aforementioned problems.
[0006] (II) Technical Solution
[0007] To achieve the above-mentioned objectives, this utility model provides the following technical solution: a high-efficiency installation and fixing structure for boiler equipment, comprising:
[0008] Mounting base, saddle support one and saddle support two. The bottom of the mounting base is provided with saddle support one and saddle support two. Saddle support one and saddle support two have the same structure. The bottom of saddle support one is connected to the mounting base by an adapter bolt.
[0009] The top fixing component is placed inside the mounting base, and the bottom of the top fixing component is the saddle support. The top fixing component is slidably connected to the inside of the mounting base.
[0010] Preferably, the mounting base has two axisymmetrically distributed sliding rods inside, and the sliding rods are slidably connected to the bottom of the saddle support. The end face of the sliding rods has a set of equidistant adjustment holes.
[0011] Preferably, the top of the mounting base is provided with support columns at both ends of the sliding rod, and a horizontal plate is welded between the two support columns. The support columns and the horizontal plate are distributed perpendicularly. Two T-shaped grooves are provided on the opposite side walls of the two support columns in an axisymmetrical arrangement. Two connecting holes are provided on the end face of the horizontal plate in an axisymmetrical arrangement. Two fixing foot holes are provided on the two opposite sides of the bottom of the mounting base in an axisymmetrical arrangement.
[0012] Preferably, the top of the saddle support is provided with an arc-shaped plate, and the curved surface of the top of the arc-shaped plate is provided with a set of rubber strips distributed at equal intervals. The bottom of the saddle support is provided with adjustment holes 2 at each of the four corners. The adjustment holes 2 are connected to the adjustment holes 1 by means of adapter bolts. The bottom end face of the saddle support is provided with two guide grooves distributed axially symmetrically. The guide grooves are connected to the slide rod in a sliding fit.
[0013] Preferably, the top fixing component includes a fixing cover and four threaded connecting rods distributed symmetrically on an axis. The main body of the top fixing component is the fixing cover, and the four corners of the fixing cover are provided with threaded connecting rods.
[0014] Preferably, the fixing cover has an overall "human" shaped plate structure, and two T-shaped blocks are provided on both opposite axial ends of the fixing cover in an axisymmetrical manner. The T-shaped blocks are slidably connected to the inside of the T-shaped groove. Two connecting holes are provided on both opposite side end faces of the fixing cover in an axisymmetrical manner. The connecting holes correspond to the connecting holes. A rubber block is provided at the bottom of the fixing cover.
[0015] Preferably, the connecting threaded rod passes through both the connecting hole two and the connecting hole one.
[0016] (III) Beneficial Effects
[0017] Compared with the prior art, this utility model provides a high-efficiency installation and fixing structure for boiler equipment, which has the following beneficial effects:
[0018] This boiler equipment features an efficient installation and fixing structure. Through an innovative design of adjustable bottom support and rigid top constraint, it significantly improves the overall performance of boiler equipment installation. The sliding adjustment function of the bottom saddle support is compatible with equipment of different sizes. Rubber strips enhance friction and buffering effect, preventing loosening of the fixing caused by equipment vibration. The top fixing cover achieves flexible clamping through T-slots and threaded rods, making up for the lack of top support in traditional fixing methods. This effectively suppresses equipment tilting and displacement, and improves installation safety. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the efficient installation and fixing structure of the boiler equipment of this utility model;
[0020] Figure 2 This is a cross-sectional schematic diagram of the efficient installation and fixing structure of the boiler equipment of this utility model;
[0021] Figure 3 This is a schematic diagram of the mounting base of this utility model;
[0022] Figure 4 This is a schematic diagram of the saddle-type support of this utility model;
[0023] Figure 5 This is a schematic diagram of the fixing cover of this utility model.
[0024] In the diagram: 1. Mounting base; 2. Saddle support one; 3. Saddle support two; 4. Fixing cover; 5. Connecting threaded rod; 6. Sliding rod; 7. Adjusting hole one; 8. Support column; 9. T-slot; 10. Horizontal plate; 11. Connecting hole one; 12. Fixing foot post hole; 13. Arc plate; 14. Rubber strip; 15. Adjusting hole two; 16. Guide slide; 17. T-block; 18. Connecting hole two; 19. Rubber block. Detailed Implementation
[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0026] Please see Figure 1-5 A high-efficiency installation and fixing structure for boiler equipment, comprising:
[0027] Mounting base 1, saddle support 1 2 and saddle support 2 3. The bottom of the mounting base 1 is provided with saddle support 1 2 and saddle support 2 3. Saddle support 1 2 and saddle support 2 3 have the same structure, and the bottom of saddle support 1 2 is connected to the mounting base 1 by an adapter bolt.
[0028] The top fixing component is placed inside the mounting base 1, and the bottom of the top fixing component is a saddle support 2. The top fixing component is slidably connected to the inside of the mounting base 1.
[0029] Furthermore, the mounting base 1 has two axisymmetrically distributed sliding rods 6 inside, and the sliding rods 6 are slidably connected to the bottom of the saddle support 2. The end face of the sliding rod 6 has a set of equidistant adjustment holes 7. The mounting base 1 supports and fixes the saddle support 2 and the saddle support 3, and the sliding rods 6 facilitate the movement and adjustment of the two saddle supports.
[0030] Furthermore, the top of the mounting base 1 is provided with support columns 8 at both ends of the sliding rod 6, and a horizontal plate 10 is welded between the two support columns 8. The support columns 8 and the horizontal plate 10 are perpendicularly distributed. The two support columns 8 have two T-shaped grooves 9 that are symmetrically distributed on their opposite side walls, and the end face of the horizontal plate 10 has two symmetrically distributed connecting holes 11. The bottom of the mounting base 1 has two symmetrically distributed fixing foot holes 12 on its two opposite sides. The support columns 8 and the horizontal plate 10 provide support and connection for the top fixing components. The fixing foot holes 12 at the bottom of the mounting base 1 facilitate the fixing of the overall structural components and prevent shaking.
[0031] Furthermore, the top of the saddle support 12 is provided with an arc-shaped plate 13, and the curved surface of the top of the arc-shaped plate 13 is provided with a set of rubber strips 14 distributed at equal intervals. The bottom of the saddle support 12 is provided with adjustment holes 2 15 at each of the four corners. The adjustment holes 2 15 are connected to the adjustment holes 1 7 by means of matching bolts. The bottom end face of the saddle support 12 is provided with two guide grooves 16 distributed axially symmetrically. The guide grooves 16 are slidably connected to the slide rod 6. The arc-shaped plate 13 facilitates the support and placement of the boiler equipment, and the set of rubber strips 14 on the curved surface of the top of the arc-shaped plate 13 effectively increases the friction force, prevents the boiler equipment from axially moving, and improves the overall safety. The matching position of the adjustment holes 2 15 and the adjustment holes 1 7 can be flexibly changed according to the size of the boiler equipment to realize the practicality of this installation and fixing structure.
[0032] Furthermore, the top fixing assembly includes a fixing cover 4 and four threaded connecting rods 5 distributed symmetrically on an axis. The main body of the top fixing assembly is the fixing cover 4, and the four corners of the fixing cover 4 are provided with threaded connecting rods 5. The top fixing assembly can efficiently fix the top of the boiler equipment by adjusting the threaded connecting rods 5, preventing it from tilting or moving axially.
[0033] Furthermore, the fixing cover 4 has an overall "human" shaped plate structure, and two T-shaped blocks 17 are provided on both opposite axial ends of the fixing cover 4 in an axisymmetrical arrangement. The T-shaped blocks 17 are slidably connected to the T-shaped groove 9. Two connecting holes 18 are provided on both opposite side end faces of the fixing cover 4 in an axisymmetrical arrangement. The connecting holes 18 correspond to the connecting holes 11. A rubber block 19 is provided at the bottom of the fixing cover 4. The rubber block 19 can effectively protect the contact surface of the boiler equipment, and the fixing cover 4 can prevent rainwater from corroding the boiler equipment in outdoor environments, thus improving the protective performance of the boiler equipment.
[0034] Furthermore, the connecting threaded rod 5 passes through the connecting hole 18 and the connecting hole 11 respectively. The connecting threaded rod 5 connects and adjusts the fixed cover 4 and the mounting base 1, and at the same time, it efficiently installs and fixes the boiler equipment between the fixed cover 4 and the two saddle supports.
[0035] Structural Description:
[0036] Mounting base 1: Mounting base 1 is the basic support body for the fixed structure. The bottom is provided with fixing foot column holes 12 for overall fixation. The bottom of the interior is equipped with saddle supports 1 2 and 2 3, and the built-in sliding rod 6 is used for sliding adjustment of the saddle supports, providing a stable installation foundation for the boiler equipment.
[0037] Saddle support 12: Saddle support 12 has the same structure as saddle support 23. The bottom is slidably engaged with the slide rod 6 through the guide groove 16. The top is provided with an arc plate 13 and a rubber strip 14, which can adjust the spacing and support the boiler equipment to prevent axial movement.
[0038] Saddle support 2 3: Saddle support 2 3 is symmetrically arranged with saddle support 1 2. It is bolted to the adjustment hole 15 and the adjustment hole 17 of the slide rod 6. Together with the arc plate 13 and the rubber strip 14, it can achieve stable support and anti-slip for the boiler equipment.
[0039] Fixed cover 4: Fixed cover 4 is in the shape of a "human" plate, with rubber block 19 protective equipment at the bottom. T-shaped blocks 17 on both sides slide with the T-shaped groove 9 of the support column 8. It is connected to the horizontal plate 10 through the connecting threaded rod 5 to achieve the pressing and fixing of the top of the boiler and rain protection.
[0040] Threaded rod 5: Threaded rod 5 passes through connecting hole 2 18 and connecting hole 11, and is used to fix cover 4 and horizontal plate 10. By adjusting the nut, the fixed cover 4 is tightened, which applies restraint to the top of the boiler equipment and suppresses tilting and displacement.
[0041] Slide rod 6: Slide rod 6 is symmetrically arranged inside the mounting base 1, allowing saddle supports 1 2 and 2 3 to slide and adjust the spacing through the guide groove 16. The adjustment hole 1 7 on the end face cooperates with the adjustment hole 2 15 of the saddle support to realize flexible adjustment of the fixed spacing.
[0042] Adjustment hole 17: Adjustment holes 17 are evenly distributed on the end face of slide rod 6 and are connected to adjustment hole 215 at the bottom of saddle support by bolts to fix the position of saddle support and adapt to the installation requirements of boiler equipment of different sizes.
[0043] Support column 8: The support column 8 is vertically installed on the top of the mounting base 1, with T-slots 9 on both sides for the T-blocks 17 of the fixing cover 4 to slide, and a horizontal plate 10 welded to the top to provide support and connection base for the top fixing components;
[0044] T-slot 9: T-slot 9 is formed on the opposite side wall of the support column 8 and slides with the T-block 17 of the fixed cover 4 to guide the fixed cover 4 to move up and down, so as to facilitate the adjustment of the fixed height and achieve top pressing.
[0045] Horizontal plate 10: The horizontal plate 10 is welded between the two support columns 8. The end face is provided with a connection hole 11 corresponding to the connection hole 18 of the fixed cover 4. The cover 4 is fixed by the connecting threaded rod 5 to enhance the structural rigidity of the top fixing component.
[0046] Connection hole 11: Connection holes 11 are symmetrically distributed on the end face of the horizontal plate 10 and are aligned with connection hole 18 of the fixed cover 4, allowing the threaded rod 5 to pass through, so as to realize the bolt connection and adjustment between the fixed cover 4 and the horizontal plate 10.
[0047] Fixed foot holes 12: Fixed foot holes 12 are provided on both sides of the bottom of the mounting base 1, and are used to insert anchor bolts to fix the entire fixed structure to the ground, prevent the equipment from shaking, and enhance the overall stability.
[0048] Arc plate 13: Arc plate 13 is located on the top of saddle supports 1-2 and 2-3, conforms to the bottom curved surface of the boiler equipment, and works with rubber strip 14 to increase contact friction, provide stable support and prevent the equipment from sliding and shifting.
[0049] Rubber strip 14: Rubber strip 14 is evenly distributed on the top curved surface of the arc plate 13. Through elastic contact, it increases the friction with the boiler equipment, buffers vibration and reduces rigid contact wear, and improves the reliability of fixing.
[0050] Adjustment hole 2 15: Adjustment hole 2 15 is located at the four corners of the bottom of saddle supports 1 2 and 2 3, and is connected to adjustment hole 1 7 of slide rod 6 by bolts. It adjusts the position of the saddle support on slide rod 6 to adapt to boiler equipment of different sizes.
[0051] Guide groove 16: The guide groove 16 is symmetrically arranged at the bottom of the saddle support and slides with the slide rod 6 to guide the saddle support to move smoothly and ensure the positional accuracy and stability of the saddle support during the adjustment process.
[0052] T-block 17: T-block 17 is symmetrically arranged at both ends of the fixed cover 4 and slides with the T-slot 9 of the support column 8 to restrict the movement trajectory of the fixed cover 4, while transmitting the clamping force of the connecting threaded rod 5 to the top of the boiler equipment.
[0053] Connection hole 2 18: Connection holes 2 18 are symmetrically distributed on both sides of the fixed cover 4, corresponding to connection hole 1 11 of the horizontal plate 10, for the threaded rod 5 to pass through, so as to realize the fixed connection between the fixed cover 4 and the horizontal plate 10 and the height adjustment.
[0054] Rubber block 19: Rubber block 19 is located at the bottom of the fixed cover 4 and fits against the top of the boiler equipment. It buffers the fixing pressure through elastic deformation to prevent damage to the surface of the equipment.
[0055] Working Principle: The boiler equipment is installed efficiently according to the diagram. During installation, first adjust the distance between saddle support 12 and saddle support 23 according to the dimensions of the boiler equipment. Loosen the matching bolts of adjustment hole 25 and adjustment hole 17, and push saddle support 12 and saddle support 23 to slide along slide rod 6. After adjusting to the appropriate position, fix them by passing bolts through adjustment hole 25 and adjustment hole 17. The arc-shaped plate 13 at the top of saddle support 12 and saddle support 23 fits against the bottom of the boiler equipment. The arc design adapts to the curved surface of the equipment. Rubber strip 14 increases friction and prevents axial movement of the equipment. The top fixing component constrains the top of the boiler equipment through fixing cover 4. Fixing cover 4 is shaped like a "..." The "human" shaped plate structure has a bottom rubber block 19 that fits against the top of the equipment, which not only buffers vibration but also prevents rigid contact damage to the equipment. The T-shaped blocks 17 on both sides of the fixed cover 4 are inserted into the T-shaped grooves 9 of the support column 8. The height of the fixed cover 4 is adjusted by sliding along the T-shaped grooves 9. After aligning the second connection hole 18 with the first connection hole 11 of the horizontal plate 10, the connecting threaded rod 5 is passed through the two holes and the nut is tightened. The adjustment action of the connecting threaded rod 5 causes the fixed cover 4 to press down on the top of the equipment, forming a double fixing structure of "bottom saddle support + top pressure plate constraint", which effectively suppresses the side tilt and vertical displacement of the equipment. For outdoor environments, the fixed cover 4 covers the top of the equipment, preventing rainwater from directly washing over the equipment and improving the protection and safety of the boiler equipment.
[0056] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A high-efficiency installation and fixing structure for boiler equipment, characterized in that: include: Mounting base (1), saddle support one (2) and saddle support two (3), the bottom of the mounting base (1) is provided with saddle support one (2) and saddle support two (3), the structure of saddle support one (2) and saddle support two (3) is the same, and the bottom of saddle support one (2) is connected to the mounting base (1) by adapter bolts; The top fixing component is placed inside the mounting base (1), and the bottom of the top fixing component is the saddle support (2). The top fixing component is slidably connected to the inside of the mounting base (1).
2. The efficient installation and fixing structure for boiler equipment according to claim 1, characterized in that: The mounting base (1) has two axisymmetrically distributed sliding rods (6) inside, and the sliding rods (6) are slidably connected to the bottom of the saddle support (2). The end face of the sliding rods (6) has a set of equidistant adjustment holes (7).
3. The boiler equipment high-efficiency installation and fixing structure according to claim 2, characterized in that: The top of the mounting base (1) is provided with support columns (8) at both ends of the sliding rod (6), and a horizontal plate (10) is welded between the two support columns (8). The support columns (8) and the horizontal plate (10) are vertically distributed. The two support columns (8) have two T-shaped grooves (9) that are symmetrically distributed on their opposite sidewalls. The end face of the horizontal plate (10) has two symmetrically distributed connecting holes (11). The bottom of the mounting base (1) has two symmetrically distributed fixing foot holes (12) on its two opposite sides.
4. The efficient installation and fixing structure for boiler equipment according to claim 1, characterized in that: The top of the saddle support (2) is provided with an arc plate (13), and the top curved surface of the arc plate (13) is provided with a set of rubber strips (14) distributed at equal intervals. The bottom four corners of the saddle support (2) are provided with adjustment holes (15), which are connected to the adjustment holes (7) by means of adapter bolts. The bottom end face of the saddle support (2) is provided with two guide grooves (16) distributed axially symmetrically, which are connected to the slide rod (6) in a sliding fit.
5. The efficient installation and fixing structure for boiler equipment according to claim 1, characterized in that: The top fixing assembly includes a fixing cover (4) and four threaded rods (5) that are symmetrically distributed on an axis. The main body of the top fixing assembly is the fixing cover (4), and the four corners of the fixing cover (4) are provided with threaded rods (5).
6. The efficient installation and fixing structure for boiler equipment according to claim 5, characterized in that: The fixing cover (4) is in the shape of a human-shaped plate. The fixing cover (4) has two T-shaped blocks (17) that are symmetrically distributed on both opposite axial ends. The T-shaped blocks (17) are slidably connected to the T-shaped groove (9). The fixing cover (4) has two connecting holes (18) that are symmetrically distributed on both opposite side ends. The connecting holes (18) correspond to the connecting holes (11). The fixing cover (4) has a rubber block (19) at the bottom.
7. The efficient installation and fixing structure for boiler equipment according to claim 5, characterized in that: The connecting threaded rod (5) passes through the connecting hole two (18) and the connecting hole one (11).