Natural gas power generation device convenient to disassemble
The design of the clamping rod and the mounting bracket solves the problem of wall damage during the disassembly of the natural gas power generation unit, and achieves the effect of convenient disassembly and reusability of the mounting holes.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- STATE POWER INVESTMENT GRP JINGMEN LVDONG ENERGY CO LTD
- Filing Date
- 2025-08-22
- Publication Date
- 2026-06-09
AI Technical Summary
Existing natural gas power generation units are prone to damage to the walls during dismantling, causing the installation holes to lose their reuse value and become unusable.
The design employs a combination of clamping rods and mounting brackets. The clamping rods penetrate the fixing plate and snap into the mounting brackets to achieve fixation. During disassembly, the clamping rods move back to disengage from the fixing plate and mounting brackets, avoiding damage to the wall surface.
It enables convenient disassembly and assembly of natural gas power generation units, protects the integrity of the wall surface, and allows for the reuse of installation holes.
Smart Images

Figure CN224339069U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of natural gas power generation devices, specifically a natural gas power generation device that is easy to assemble and disassemble. Background Technology
[0002] As is well known, with the continuous optimization of the energy structure and the widespread application of natural gas resources, natural gas power generation units have become increasingly popular in industrial production, commercial venues, and home backup power supply scenarios due to their high efficiency and cleanliness. Currently, when installing and fixing existing natural gas power generation units, in order to achieve a firm connection, bolts are often directly drilled into the wall or ground for fixing. Specifically, installers will pre-set multiple installation points on the wall or ground according to the size and weight of the unit, and then drill holes at the installation points using tools such as electric drills. Bolts are then passed through the fixing bracket of the unit and screwed into the drilled holes to achieve a rigid connection between the unit and the installation foundation.
[0003] However, when this traditional installation method requires disassembly, repair, replacement, or relocation of the natural gas power generation unit, the strong friction and interlocking force between the bolts and the drilled holes in the wall or ground during the bolt removal process can easily cause the wall material around the drilled holes to crack and peel off, seriously damaging the integrity of the wall. More importantly, once the wall is damaged, the original installation holes will lose their reuse value due to deformation, enlargement, or damage to the surrounding structure. If the unit or other equipment needs to be installed again in the future, the original holes cannot be used for fixing. Summary of the Invention
[0004] In order to overcome the problem of inconvenient disassembly and assembly of existing natural gas power generation devices, this utility model provides a natural gas power generation device with easy disassembly and assembly.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a natural gas power generation device that is easy to assemble and disassemble, comprising a body, which is a natural gas power generation device; multiple sets of mounting brackets, the mounting brackets being located on one side of the body and pre-mounted on a wall for connecting the body; two sets of fixing plates, the fixing plates being disposed on one side of the body and positioned between the multiple sets of mounting brackets, the fixing plates being used to connect with the mounting brackets; and an assembly, the assembly including a support plate, the support plate being disposed on one side of the body, a slider and two sets of movable plates slidably disposed on one side of the support plate. Two sets of locking rollers are provided on one side. After the locking rollers move and penetrate the fixing plate and are locked into the mounting bracket, the machine body will be stably installed on multiple sets of mounting brackets. Thus, disassembly can be carried out without damaging the wall surface. At the same time, the mounting bracket can be reused. Two sets of push plates are slidably arranged inside the slider, and one side of the push plate is slidably arranged in the movable plate. The push plate is provided with a top roller inside. The support plate is provided with a top block on one side. The top block is elliptical. A pulley is rotatably arranged on one side of the push plate, and the outer side of the pulley contacts one side of the top block. A drive component is also provided. The drive component is arranged on one side of the support plate.
[0006] Preferably, the mounting bracket has bolt pre-drilled holes inside, and the fixing plate has two sets of through holes inside, with the through holes and bolt pre-drilled holes parallel to the clamping rod.
[0007] Preferably, one side of the support plate is provided with multiple sets of mounting plates, and one side of the mounting plate is provided with a first spring, the end of the first spring away from the mounting plate being fixedly disposed with the movable plate.
[0008] Preferably, a limit rod is provided on one side of the mounting plate, and the movable plate and the locking roller are both slidably disposed on the outside of the limit rod.
[0009] Preferably, the top block is elliptical, and the thickness of the top block is greater than the thickness of the pulley.
[0010] Preferably, a central shaft is provided on one side of the push plate, and a pulley is rotatably provided on the outer side of the central shaft, with the pulley located on the outer side of the slider.
[0011] Preferably, the drive assembly includes a bearing, which is disposed on one side of the support plate. A threaded tube is disposed in the middle of the bearing, and a sleeve is screwed onto the outer side of the threaded tube. A connecting frame is disposed on the outer side of the sleeve. The side of the connecting frame away from the sleeve is fixedly disposed with the slider. A handle is disposed at the end of the threaded tube away from the bearing, and the handle is located on the outer side of the machine body. A gear is disposed on the outer side of the handle.
[0012] Preferably, a mounting base is provided on one side of the machine body, a balance block is slidably arranged inside the mounting base, a rack is provided on one side of the balance block, and two sets of second springs are provided between the rack and the mounting base, and the rack and gear mesh.
[0013] Beneficial effects
[0014] This easy-to-assemble and disassemble natural gas power generation unit works by using a clamping rod and a mounting frame. When the clamping rod moves laterally, it will pass through the fixing plate and lock into the mounting frame. At this point, the unit can be fixed in the current position by using the clamping rod to secure the fixing plate and the mounting frame. When disassembling, the return movement of the clamping rod will disengage it from the fixing plate and the mounting frame. At this point, the unit is no longer locked, and the operator can disassemble the unit without damaging the wall, thus avoiding damage to the wall. Attached Figure Description
[0015] Figure 1 This is a side view of the structure of this utility model;
[0016] Figure 2 This is a rear view of the structure of the body of this utility model;
[0017] Figure 3 This is a cross-sectional view of the protective cover of this utility model;
[0018] Figure 4 This is a schematic diagram of the installation component of this utility model;
[0019] Figure 5 This is a schematic diagram of the slider of this utility model;
[0020] Figure 6 This is a cross-sectional view of the slider and push plate of this utility model;
[0021] Figure 7 This is a schematic diagram of the structure of the drive component of this utility model;
[0022] Figure 8 This is a schematic diagram of the rack structure of this utility model.
[0023] In the diagram: 1. Body; 2. Mounting assembly; 201. Support plate; 202. Top block; 203. Movable plate; 204. Mounting plate; 205. First spring; 206. Limiting rod; 207. Clamping roller; 208. Slider; 209. Push plate; 210. Central shaft; 211. Top roller; 212. Pulley; 3. Drive assembly; 301. Bearing; 302. Sleeve; 303. Threaded pipe; 304. Handle; 305. Gear; 306. Connecting frame; 4. Mounting frame; 5. Protective cover; 6. Fixing plate; 7. Mounting base; 8. Balance block; 9. Rack; 10. Second spring. Detailed Implementation
[0024] 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.
[0025] See Figures 1-8 A natural gas power generation device that is easy to assemble and disassemble includes a body 1, which is a natural gas power generation device, four sets of mounting brackets 4, which are pre-installed on the wall for mounting the body 1. The mounting brackets 4 have bolt pre-drilled holes inside. Two sets of fixing plates 6 are bolted to the rear side of the body 1. The fixing plates 6 have two sets of through holes inside, and the through holes are parallel to the bolt pre-drilled holes. An installation component 2 is provided on the rear side of the body 1. A drive component 3 is provided on one side of the installation component 2, and one side of the drive component 3 is fixedly connected to one side of the installation component 2.
[0026] First, refer to Figures 2 to 6 In this embodiment, the mounting assembly 2 includes a support plate 201, which is bolted to the rear side of the body 1. A slider 208 and two sets of movable plates 203 are slidably connected to one side of the support plate 201. Two sets of locking rollers 207 are welded to one side of the movable plates 203, and the locking rollers 207 are parallel to the through holes on the fixed plate 6. Two sets of push plates 209 are slidably connected inside the slider 208. One side of the slider 208 is fixedly connected to one side of the drive assembly 3, and the side of the push plate 209 away from the slider 208 is slidably connected inside the movable plate 203. A pusher plate 209 has a pusher rod 211 welded inside, and both ends of the pusher rod 211 pass through the pusher plate 209. The outer side of the pusher rod 211 contacts one side of the movable plate 203. A central shaft 210 is welded to one side of the pusher plate 209. One end of the central shaft 210 passes through the slider 208. A pulley 212 is rotatably connected to the outer side of the central shaft 210, and the pulley 212 is located outside the slider 208. A top block 202 is welded to one side of the support plate 201, and the top block 202 is elliptical. The outer side of the pulley 212 contacts one side of the top block 202.
[0027] Specifically, in order to maintain the balance of the movable plate 203, four sets of mounting plates 204 are welded to one side of the support plate 201. Limiting rods 206 are welded to one side of the mounting plates 204. The movable plate 203 and the locking roller 207 are slidably connected to the outside of the limiting rods 206. Thus, on the one hand, the limiting rods 206 maintain the balance of the movable plate 203 during movement, preventing the movable plate 203 from becoming unbalanced and swaying during movement, and ensuring the normal displacement of the movable plate 203. On the other hand, the limiting rods 206 restrict the direction of the movable plate 203, preventing the device from failing due to misalignment of the movable plate 203, and ensuring the normal use of the device.
[0028] Meanwhile, in order to enable the movable plate 203 to move back quickly, a first spring 205 is welded to one side of the mounting plate 204. The end of the first spring 205 away from the mounting plate 204 is welded to one side of the movable plate 203. Thus, when the movable plate 203 is pushed, the first spring 205 will be stretched by the movable plate 203, and when the movable plate 203 is no longer pushed, the first spring 205 will bounce the movable plate 203 back quickly.
[0029] When slider 208 is pushed, it will cause push plate 209 to move longitudinally. The movement of push plate 209 will cause pulley 212 to move longitudinally by driving central shaft 210. When pulley 212 is displaced, it will be pushed by top block 202, thereby causing pulley 212 to drive push plate 209 to move laterally by driving central shaft 210. The lateral movement of push plate 209 will cause top rod 211 to move laterally. The lateral movement of top rod 211 will push movable plate 203 to move laterally. The lateral movement of movable plate 203 will cause clamping rod 207 to move. At this time, the clamping rod 207 will move. The rod 207 will pass through the through hole on the fixed plate 6 and be inserted into the bolt pre-drilled hole on the mounting bracket 4. In this way, the machine body 1 can be secured by the rod 207 to the fixed plate 6 and the mounting bracket 4, so that the machine body 1 is fixed on the four sets of mounting brackets 4. When the slider 208 moves back, the top block 202 no longer pushes the pulley 212. At this time, the first spring 205 will bounce the movable plate 203 back quickly. The back movement of the movable plate 203 will drive the rod 207 back. At this time, the rod 207 no longer secures the machine body 1, and the operator can easily remove the machine body 1.
[0030] In addition, see Figure 2 , Figure 3 and Figure 7In this embodiment, the drive assembly 3 includes a bearing 301, which is fixedly mounted on one side of the support plate 201. A threaded tube 303 is fixedly mounted in the middle of the bearing 301. A sleeve 302 is screwed onto the outer side of the threaded tube 303. A threaded hole that matches the threaded tube 303 is opened inside the sleeve 302. A connecting frame 306 is welded to the outer side of the sleeve 302. The side of the connecting frame 306 away from the sleeve 302 is welded to the slider 208. A protective cover 5 is bolted to one side of the support plate 201. The protective cover 5 is located outside the threaded tube 303, thereby protecting the threaded tube 303. A handle 304 is provided at the end of the threaded tube 303 away from the bearing 301, and the handle 304 is located outside the protective cover 5, thereby facilitating the rotation of the threaded tube 303 through the handle 304. A gear 305 is provided on the outer side of the handle 304.
[0031] When the handle 304 is turned, the handle 304 will drive the threaded tube 303 to rotate. The rotation of the threaded tube 303 will drive the sleeve 302 to move linearly. The displacement of the sleeve 302 will drive the connecting bracket 306 to move. The movement of the connecting bracket 306 will push the slider 208 to move longitudinally.
[0032] Finally, see Figure 3 and Figure 8 In this embodiment, a mounting base 7 is welded to one side of the body 1. A balance block 8 is slidably arranged inside the mounting base 7. A rack 9 is welded to one side of the balance block 8. Two sets of second springs 10 are welded between the rack 9 and the mounting base 7. The rack 9 meshes with the gear 305. Thus, when the rack 9 and the gear 305 or the rack 9 jams the gear 305, the handle 304 will be stuck and cannot be rotated. When the rack 9 is moved to disengage from the gear 305, the handle 304 will no longer be stuck. At this time, the operator can easily rotate the handle 304.
[0033] This easy-to-assemble and disassemble natural gas power generation unit, through the cooperation between the clamping roller 207 and the mounting frame 4, allows the clamping roller 207 to pass through the fixing plate 6 and be inserted into the mounting frame 4 when it moves laterally. At this time, the unit body 1 can be fixed in the current position by clamping the fixing plate 6 and the mounting frame 4 with the clamping roller 207. When disassembling, the return movement of the clamping roller 207 will disengage it from the fixing plate 6 and the mounting frame 4. At this time, the unit body 1 is no longer clamped, and the operator can disassemble the unit body 1 without damaging the wall, thus avoiding damage to the wall.
[0034] Working principle:
[0035] This easy-to-assemble and disassemble natural gas power generation unit is used by first installing the mounting bracket 4 in the desired position, and then installing the unit body 1. Specifically, the unit body 1 is installed on the four sets of mounting brackets 4. At this time, the fixing plate 6 will be locked between two sets of mounting brackets 4, with the through hole and bolt pre-drilled hole parallel. Then, the handle 304 is turned to rotate the threaded pipe 303. The rotation of the threaded pipe 303 will cause the sleeve 302 to move linearly. The displacement of the sleeve 302 will cause the connecting bracket 306 to move. The movement of the connecting bracket 306 will push the slider 208 to move longitudinally. When the slider 208 is pushed, it will cause the push plate 209 to move longitudinally. The movement of the push plate 209 will drive the pulley 212 to move longitudinally by driving the central shaft 210. When the pulley 212 moves, it will be pushed by the top block 202, thereby causing the slide... Wheel 212 drives push plate 209 to move laterally by driving central shaft 210. The lateral movement of push plate 209 will drive top roller 211 to move laterally. The lateral movement of top roller 211 will push movable plate 203 to move laterally. The lateral movement of movable plate 203 will drive clamping roller 207 to move. At this time, clamping roller 207 will pass through the through hole on fixed plate 6 and be inserted into the bolt reserved hole on mounting bracket 4. Thus, the machine body 1 can be fixed by clamping fixed plate 6 and mounting bracket 4 by clamping clamping roller 207, so that the machine body 1 is fixed on the four sets of mounting brackets 4. When slider 208 moves back, top block 202 no longer pushes pulley 212. At this time, first spring 205 will bounce movable plate 203 to move back quickly. The movement of movable plate 203 will drive clamping roller 207 to move back. At this time, clamping roller 207 no longer clamps the machine body 1, and the operator can easily remove the machine body 1.
[0036] 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 natural gas power generation unit that is easy to assemble and disassemble, characterized in that, include: Body (1); Multiple sets of mounting brackets (4) are located on one side of the body (1); Two sets of fixing plates (6) are provided on one side of the body (1), and the two sets of fixing plates (6) are located between multiple sets of mounting brackets (4); The mounting assembly (2) includes a support plate (201) disposed on one side of the body (1). A slider (208) and two sets of movable plates (203) are slidably disposed on one side of the support plate (201). Two sets of locking rollers (207) are disposed on one side of the movable plates (203). Two sets of push plates (209) are slidably disposed inside the slider (208), and one side of the push plate (209) is slidably disposed inside the movable plate (203). A top roller (211) is disposed inside the push plate (209). A top block (202) is disposed on one side of the support plate (201). A pulley (212) is rotatably disposed on one side of the push plate (209), and the outer side of the pulley (212) contacts one side of the top block (202). A drive assembly (3) is disposed on one side of a support plate (201).
2. The easily disassembled natural gas power generation unit according to claim 1, characterized in that, The mounting bracket (4) has bolt pre-drilled holes inside, and the fixing plate (6) has two sets of through holes inside, and the through holes and bolt pre-drilled holes are parallel to the clamping rod (207).
3. The easily disassembled natural gas power generation unit according to claim 1, characterized in that, The support plate (201) has multiple sets of mounting plates (204) on one side, and a first spring (205) is provided on one side of the mounting plate (204). The end of the first spring (205) away from the mounting plate (204) is fixedly disposed with the movable plate (203).
4. The easily disassembled natural gas power generation unit according to claim 3, characterized in that, A limiting rod (206) is provided on one side of the mounting plate (204), and the movable plate (203) and the locking rod (207) are both slidably disposed on the outside of the limiting rod (206).
5. The easily disassembled natural gas power generation unit according to claim 1, characterized in that, The top block (202) is elliptical, and the thickness of the top block (202) is greater than the thickness of the pulley (212).
6. The easily disassembled natural gas power generation unit according to claim 1, characterized in that, A central shaft (210) is provided on one side of the push plate (209), and a pulley (212) is rotatably provided on the outer side of the central shaft (210), and the pulley (212) is located on the outer side of the slider (208).
7. The easily disassembled natural gas power generation unit according to claim 1, characterized in that, The drive assembly (3) includes a bearing (301), which is disposed on one side of the support plate (201). A threaded tube (303) is disposed in the middle of the bearing (301). A sleeve (302) is screwed onto the outside of the threaded tube (303). A connecting frame (306) is disposed on the outside of the sleeve (302). The side of the connecting frame (306) away from the sleeve (302) is fixedly disposed with the slider (208). A handle (304) is disposed at the end of the threaded tube (303) away from the bearing (301). The handle (304) is located on the outside of the body (1). A gear (305) is disposed on the outside of the handle (304).
8. The easily disassembled natural gas power generation unit according to claim 7, characterized in that, A mounting base (7) is provided on one side of the body (1). A balance block (8) is slidably provided inside the mounting base (7). A rack (9) is provided on one side of the balance block (8). Two sets of second springs (10) are provided between the rack (9) and the mounting base (7), and the rack (9) meshes with the gear (305).