Intelligent fire-fighting collector
The design of the limiting mechanism and wedge block simplifies the installation process of the fire data collector, enabling rapid fixation and solving the problem of inconvenient disassembly and assembly in existing technologies.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGZHOU YIHUI INTELLIGENT TECHNOLOGY CO LTD
- Filing Date
- 2025-05-16
- Publication Date
- 2026-07-10
AI Technical Summary
The installation process of existing fire data acquisition devices is cumbersome, requiring the use of screws and other fasteners, which makes disassembly and assembly inconvenient.
The device employs a limit mechanism and a release mechanism, using wedge blocks and elastic connection components to achieve front and rear limit movement of the fire data collector, and utilizes the limit blocks to engage with the mounting holes on the frame for easy installation.
The installation process of the fire alarm data collector has been simplified, enabling quick and convenient fixing and avoiding the use of screws and other fasteners.
Smart Images

Figure CN224479495U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of fire data acquisition technology, and in particular to a smart fire data acquisition device. Background Technology
[0002] A smart fire monitoring data collector is an intelligent device used for fire monitoring and management. It primarily collects real-time environmental data related to fires (such as temperature, smoke, and gas concentration) and transmits the data to a fire control center or cloud platform via a network to enable fire early warning and emergency response. It can be installed in various scenarios, including but not limited to server racks, computer rooms, warehouses, factories, and office buildings. The core functions of a smart fire monitoring data collector include: environmental data acquisition, fire early warning, data transmission, remote monitoring, self-testing, and fault diagnosis.
[0003] In existing technologies, fire alarm data acquisition devices are usually installed on the front rack of the cabinet using screws and other fasteners. The installation process requires the use of screwdrivers, making the disassembly and assembly process quite cumbersome. Utility Model Content
[0004] The purpose of this invention is to address the problems existing in the background technology by proposing a smart fire protection data acquisition device.
[0005] The technical solution of this utility model, a smart fire protection data acquisition device, includes:
[0006] Fire data acquisition device;
[0007] The mounting bracket assembly is installed at the front end of the fire data acquisition device. Both ends of the mounting bracket assembly are provided with mounting slots. Both ends of the mounting bracket assembly are connected to limit plates, and the limit plates are provided with first limit blocks.
[0008] Two limiting mechanisms are symmetrically installed at both ends of the mounting bracket assembly. Each limiting assembly includes a first wedge block and an elastic connecting component. The end of the first wedge block is slidably installed in the mounting groove. The first wedge block and the mounting bracket assembly are elastically connected through the elastic connecting component.
[0009] Two release mechanisms are mounted on the mounting bracket assembly and are used to drive the movement of the first wedge blocks on both sides respectively.
[0010] Preferably, the mounting bracket assembly includes two symmetrically arranged first U-shaped frames, both of which are slidably mounted on the fire collector. The mounting bracket assembly is equipped with a drive component for driving the two first U-shaped frames to move closer or further apart from each other.
[0011] Preferably, the drive assembly includes a threaded rod and a knob mounted on the end of the threaded rod. The threaded rod is rotatably mounted on a first U-shaped frame on one side and threadedly connected to a first U-shaped frame on the other side.
[0012] Preferably, the two release limiting mechanisms are respectively installed at both ends of the mounting bracket assembly. The release limiting mechanism includes a push block, a second wedge block and a sliding block. The upper two ends of the mounting bracket assembly are provided with through holes, which are respectively connected to two mounting slots. The bottom end of the push block is slidably installed in the through hole on the corresponding side. The second wedge block is connected to the bottom end of the push block. The sliding block is connected to the inner end of the first wedge block. The sliding block is provided with a vertical hole.
[0013] Preferably, the rear end of the fire collector is slidably mounted with two rear frame assemblies, which are respectively connected to two first U-shaped frames; the outer ends of the two rear frame assemblies are connected with elastic ropes, and the ends of the elastic ropes are connected with second limiting blocks.
[0014] Preferably, the elastic connection assembly includes a guide rod and a spring. The guide rod is disposed inside the mounting groove, a slider is connected to the first wedge block, the slider is slidably mounted on the guide rod, and the spring is sleeved on the guide rod.
[0015] Compared with the prior art, the present invention has the following beneficial technical effects: the two limiting mechanisms set in the present technical solution can simplify the installation of the fire collector and realize the front and rear limiting of the fire collector. During the installation process, the first limiting block is inserted into the mounting hole of the frame to complete the left and right limiting and the up and down limiting. There is no need to use screws, bolts or other fasteners, and the installation process is more convenient and quick. Attached Figure Description
[0016] Figure 1 and Figure 2 All of these are schematic diagrams of the structure of this utility model.
[0017] Figure 3 This is a structural diagram showing the connection between the fire data acquisition device and the upper rack of the cabinet in this utility model.
[0018] Figure 4 This is a cross-sectional view of the first U-shaped frame in this utility model.
[0019] Figure 5 for Figure 4 A magnified schematic diagram of the structure at point A.
[0020] Reference numerals: 1. Fire sensor; 2. Mounting bracket assembly; 21. Limiting plate; 201. Mounting slot; 3. Rear frame assembly; 4. First limiting block; 5. Elastic rope; 6. Second limiting block; 7. Threaded rod; 8. First wedge block; 9. Push block; 10. Second wedge block; 11. Sliding block; 111. Vertical hole; 12. Guide rod; 13. Spring. Detailed Implementation
[0021] Example 1
[0022] like Figures 1-5 As shown in the figure, the intelligent fire protection data acquisition device proposed in this embodiment includes a fire protection data acquisition device 1, a mounting bracket assembly, two limiting mechanisms, and two releasing limiting mechanisms.
[0023] The mounting bracket assembly is installed at the front end of the fire collector 1. Both ends of the mounting bracket assembly are provided with mounting slots 201. Both ends of the mounting bracket assembly are connected to limit plates 21, and the limit plates 21 are provided with first limit blocks 4.
[0024] Two limiting mechanisms are symmetrically installed at both ends of the mounting bracket assembly 2. Each limiting assembly includes a first wedge block 8 and an elastic connecting component. The end of the first wedge block 8 is slidably installed in the mounting groove 201. The first wedge block 8 and the mounting bracket assembly 2 are elastically connected through the elastic connecting component. The elastic connecting component includes a guide rod 12 and a spring 13. The guide rod 12 is set in the mounting groove 201. A slider is connected to the first wedge block 8. The slider is slidably installed on the guide rod 12. The spring 13 is sleeved on the guide rod 12.
[0025] Both release mechanisms are mounted on the mounting bracket assembly and are used to drive the first wedge blocks 8 on both sides to move. The two release mechanisms are respectively mounted at both ends of the mounting bracket assembly 2. Each release mechanism includes a push block 9, a second wedge block 10, and a sliding block 11. The upper ends of the mounting bracket assembly 2 are provided with through holes, which communicate with two mounting slots 201 respectively. The bottom end of the push block 9 is slidably installed in the corresponding through hole. The second wedge block 10 is connected to the bottom end of the push block 9 and slides... Block 11 is connected to the inner end of the first wedge block 8. A vertical hole 111 is provided on the sliding block 11. When the mounting bracket assembly needs to be disassembled or assembled, the push block 9 is pressed down to drive the second wedge block 10 to move. The inclined surface of the second wedge block 10 contacts the upper inner side of the vertical hole 111. As the second wedge block 10 continues to move, it drives the sliding block 11 to move towards the inner side of the mounting groove 201, so that the first wedge block 8 moves out from the rear side of the frame, thereby releasing the front and rear limiting work of the mounting bracket assembly.
[0026] Specifically, the fire data acquisition device 1 is an intelligent device used for fire monitoring and management. It integrates multiple sensors and can collect fire-related environmental data in real time, such as temperature, smoke, and gas concentration. It transmits the data to the cloud or fire control center via the network to realize fire early warning, monitoring, and emergency response.
[0027] When installing the fire alarm data collector 1, first align the limiting plates 21 on both sides of the mounting bracket assembly with the two racks at the front of the inner side of the cabinet, and align the first limiting block 4 with the corresponding mounting holes on the rack. Then, push the fire alarm data collector 1 and the mounting bracket assembly into the cabinet. At this time, the inclined surfaces of the two first wedge blocks 8 contact the sides of the racks on both sides, causing the two first wedge blocks 8 to move inward synchronously. During this process, the first limiting blocks 4 on both sides respectively engage with the mounting holes on the corresponding racks. It should be noted that... The first limiting block 4 is clearance-fitted with the mounting hole on the frame. When the mounting bracket assembly is pushed to the limited position, the first wedge block 8 passes over the inner side of the frame. Under the elastic force of the spring 13, the first wedge block 8 is driven to reset. The setting of the first wedge block 8 and the limiting plate 21 can realize the front and rear limit of the fire collector 1. The first limiting block 4 is inserted into the mounting hole of the frame, thereby completing the upper and lower limit and left and right limit of the fire collector 1, thus realizing the fixation of the fire collector 1. The installation is completed in one step, optimizing the installation process.
[0028] Example 2
[0029] like Figures 1-3 As shown in this embodiment, compared to Embodiment 1, the smart fire data acquisition device proposed in this embodiment includes two symmetrically arranged first U-shaped frames. Both first U-shaped frames are slidably mounted on the fire data acquisition device 1. The mounting frame assembly is equipped with a drive component for driving the two first U-shaped frames to move closer or further apart. The drive component includes a threaded rod 7 and a knob 71 mounted on the end of the threaded rod 7. The threaded rod 7 is rotatably mounted on one side of the first U-shaped frame and threadedly connected to the other side of the first U-shaped frame. By adjusting the rotation direction of the threaded rod 7, the telescopic length of the mounting frame assembly can be adjusted, making the mounting frame assembly suitable for installation in cabinets of different widths.
[0030] Example 3
[0031] like Figures 1-3 As shown in the figure, this embodiment proposes a smart fire alarm data collector. Compared with embodiment two, in this embodiment, two rear tail frame assemblies 3 are slidably installed at the rear end of the fire alarm data collector 1. The two rear tail frame assemblies 3 are respectively connected to two first U-shaped frames. The outer ends of the two rear tail frame assemblies 3 are connected to elastic ropes 5, and the ends of the elastic ropes 5 are connected to second limiting blocks 6. In this technical solution, the two rear tail frame assemblies 3 can move with the movement of the two first U-shaped frames. After the mounting frame assembly is installed, the second limiting block 6 passes through the mounting hole on the frame and is located above the mounting frame assembly. Then, the second limiting block 6 is rotated 90 degrees. At this time, the elastic ropes 5 are in a taut state. Refer to the attached figure. Figure 3This enables support for the tail of the fire collector 1, preventing concentrated stress on the front end of the fire collector 1. It should be noted that the mounting holes on the frame are rectangular, and the second limit block 6 is also rectangular.
[0032] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited thereto. Various changes can be made within the scope of knowledge possessed by those skilled in the art without departing from the spirit of the present invention.
Claims
1. A smart fire protection data acquisition device, characterized in that, include: Fire data collector (1); The mounting bracket assembly is installed at the front end of the fire collector (1). Both ends of the mounting bracket assembly are provided with mounting slots (201). Both ends of the mounting bracket assembly are connected to limit plates (21), and the limit plates (21) are provided with first limit blocks (4). Two limiting mechanisms are symmetrically installed at both ends of the mounting bracket assembly (2). Each limiting assembly includes a first wedge block (8) and an elastic connection component. The end of the first wedge block (8) is slidably installed in the mounting groove (201). The first wedge block (8) and the mounting bracket assembly (2) are elastically connected through the elastic connection component. Two release mechanisms are installed on the mounting bracket assembly and are used to drive the movement of the first wedge blocks (8) on both sides respectively.
2. The intelligent fire protection data acquisition device according to claim 1, characterized in that, The mounting bracket assembly includes two symmetrically arranged first U-shaped frames, both of which are slidably mounted on the fire collector (1). The mounting bracket assembly is equipped with a drive assembly for driving the two first U-shaped frames to move closer or further apart from each other.
3. The intelligent fire protection data acquisition device according to claim 2, characterized in that, The drive assembly includes a threaded rod (7) and a knob (71) mounted on the end of the threaded rod (7). The threaded rod (7) is rotatably mounted on a first U-shaped frame on one side and threadedly connected to the first U-shaped frame on the other side.
4. The intelligent fire protection data acquisition device according to claim 1, characterized in that, Two release mechanisms are respectively installed at both ends of the mounting bracket assembly (2). The release mechanism includes a push block (9), a second wedge block (10) and a sliding block (11). The upper two ends of the mounting bracket assembly (2) are provided with through holes, which are connected to two mounting slots (201) respectively. The bottom end of the push block (9) is slidably installed in the through hole on the corresponding side. The second wedge block (10) is connected to the bottom end of the push block (9). The sliding block (11) is connected to the inner end of the first wedge block (8). A vertical hole (111) is provided on the sliding block (11).
5. A smart fire protection data acquisition device according to claim 3, characterized in that, Two rear frame assemblies (3) are slidably installed at the rear end of the fire collector (1). The two rear frame assemblies (3) are respectively connected to two first U-shaped frames. The outer ends of the two rear frame assemblies (3) are connected to elastic ropes (5), and the ends of the elastic ropes (5) are connected to second limit blocks (6).
6. The intelligent fire protection data acquisition device according to claim 1, characterized in that, The elastic connection assembly includes a guide rod (12) and a spring (13). The guide rod (12) is disposed inside the mounting groove (201). A slider is connected to the first wedge block (8). The slider is slidably mounted on the guide rod (12). The spring (13) is sleeved on the guide rod (12).