CN113766102A

CN113766102A - Internet of things remote monitoring equipment connected with automatic fire alarm control system

Info

Publication number: CN113766102A
Application number: CN202110820910.4A
Authority: CN
Inventors: 劳伟佳
Original assignee: Individual
Current assignee: China Merchants Jiyu Digital Technology Shenzhen Co ltd
Priority date: 2021-07-20
Filing date: 2021-07-20
Publication date: 2021-12-07
Anticipated expiration: 2041-07-20
Also published as: CN113766102B

Abstract

The invention discloses an Internet of things remote monitoring device connected with an automatic fire alarm control system, which solves the problem that a mounting structure is inconvenient for wiring of a wire and heat dissipation of an integrated circuit board; the invention discloses an Internet of things remote monitoring device connected with an automatic fire alarm control system, which belongs to the field of remote monitoring devices.

Description

Internet of things remote monitoring equipment connected with automatic fire alarm control system

Technical Field

The invention relates to the field of remote monitoring equipment, in particular to an Internet of things remote monitoring equipment accessed to an automatic fire alarm control system.

Background

The traditional automatic fire alarm control system is mainly connected with various fire sensors to judge and prompt fire alarm conditions; because the automatic fire alarm control system does not have the networking function of different brands, the remote monitoring of the sensor state cannot be realized, and the intercommunication is realized by adopting the Internet of things in the video monitoring, wherein the Internet of things refers to the real-time collection of any object or process needing monitoring, connection and interaction through various devices and technologies such as various information sensors, radio frequency identification technologies, global positioning systems, infrared sensors, laser scanners and the like;

the Chinese utility model has the patent application number of CN201721196233.9, and the patent name of the Internet of things gateway and the remote monitoring system are connected with an automatic fire alarm control system, and the gateway comprises a shell, wherein a circuit board is fixed in the shell, and a power module, a wireless Internet of things communication module, a wired Internet of things communication module, a local storage module, a functional interface module, a bus module and a main control module are integrated on the circuit board; the power supply module is electrically connected with the wireless internet of things communication module, the wired internet of things communication module, the local storage module, the functional interface module, the bus module and the main control module; the bus module receives a first signal transmitted by the automatic fire alarm control system through the functional interface module and transmits the first signal to the main control module, and the main control module transmits a second signal corresponding to the first signal to a cloud server through the wireless internet of things communication module or the wired internet of things communication module; the main control module receives a third signal transmitted by the cloud server and transmits a fourth signal corresponding to the third signal to the automatic fire alarm control system through the wireless internet of things communication module or the wired internet of things communication module;

in the matching use process of the remote monitoring equipment and the Internet of things gateway and the remote monitoring system which are connected into the automatic fire alarm control system, because the related equipment of the system needs to be integrally installed on the remote monitoring equipment, the existing installation structure is not only inconvenient for wiring of a wire, but also inconvenient for heat dissipation of an integrated circuit board, and the interface of the system is exposed to cause weak protective performance.

Disclosure of Invention

Technical problem to be solved

The invention mainly aims to provide an Internet of things remote monitoring device connected with an automatic fire alarm control system, which solves the problem that the installation structure is inconvenient for wiring of a wire and heat dissipation of an integrated circuit board.

(II) technical scheme

In order to solve the technical problem, the invention provides an internet of things remote monitoring device connected with an automatic fire alarm control system, which comprises a first connecting cover, a second connecting cover, a first connecting pipe and a transparent cover, wherein the lower end of the first connecting cover is provided with the second connecting cover, the upper end of the first connecting cover is provided with the first connecting pipe, the lower end of the second connecting cover is connected with the transparent cover, a camera is arranged in the transparent cover, a heat dissipation type connecting cover is arranged between the first connecting cover and the second connecting cover, the upper end of the first connecting pipe is connected with a mounting structure of a remote monitoring integrated circuit board, and a rotary structure is movably arranged in a groove on the side wall of the mounting structure of the remote monitoring integrated circuit board.

Preferably, the mounting structure of the remote monitoring integrated circuit board comprises a cylinder body, a mounting cavity, a second connecting pipe, a convex cover, a connecting cavity, a barrier strip, a connecting hole, a ventilating plate, an opening, a top cover, a fixed pipe and a sealing ring, wherein the mounting cavity is formed in the upper end of the cylinder body, and the lower end of the cylinder body is provided with a second connecting pipe which is fixed with the first connecting pipe by a bolt, the first connecting pipe is communicated with the second connecting pipe, the wall of the installation cavity is provided with a convex cover, the outer wall of the convex cover is provided with a connecting cavity, the lower part of the wall of the installation cavity is provided with a barrier strip, the upper end of the barrier strip is provided with a connecting hole, the upper end of the barrier strip is provided with a ventilating plate, the side wall of the ventilating plate is provided with an opening, the upper end of the cylinder body is connected with a top cover, the upper end of the top cover is provided with a fixed pipe, the lower end of the top cover is provided with a sealing ring, and the lower end of the top cover and the groove on the outer wall of the barrel form a movable groove;

preferably, the cylinder body and the convex cover are integrally arranged, the cylinder body and the barrier strip are welded and fixed, a small hole is formed in the end face of the breathable plate, a remote monitoring integrated circuit board is installed at the upper end of the breathable plate, the breathable plate is matched with the barrier strip, the hole formed in the end face of the breathable plate is aligned with the connecting hole formed in the barrier strip, an interface of the remote monitoring integrated circuit board on the breathable plate is arranged in the interface cavity, the convex cover is fixedly connected with the interface, the breathable plate divides the installation cavity into an upper cavity and a lower cavity, the upper cavity and the lower cavity are communicated through the opening, and a lead of the remote monitoring integrated circuit board on the breathable plate penetrates through the opening and is inserted into the lower cavity;

preferably, the mounting structure of the remote monitoring integrated circuit board further comprises a through groove and a first heat conduction block, the side wall of the cylinder body is provided with the through groove, the first heat conduction block is mounted in the through groove, and the integrated circuit board remotely monitored on the air permeable plate is connected with the first heat conduction block through a heat conduction film;

preferably, the rotating structure comprises a rotating ring, a first embedding hole, a heat-conducting soft block, a heat-radiating aluminum block, a second embedding hole, a ring groove, a first sealing ring, a second sealing ring, a butt joint hole and a rubber plug, wherein the rotating ring is sleeved in a movable groove formed by the top cover and the barrel, the side wall of the rotating ring is provided with the first embedding hole, the heat-conducting soft block and the heat-radiating aluminum block are connected in the first embedding hole, the end face of the heat-radiating aluminum block is provided with the second embedding hole, the heat-conducting soft block protruding block is embedded into the second embedding hole, the upper lower part of the inner wall of the rotating ring is provided with the ring groove, the ring groove at the upper part of the rotating ring is embedded and connected with the first sealing ring, the ring groove at the inner wall of the rotating ring is embedded and connected with the second sealing ring, the side wall of the rotating ring is provided with the butt joint hole, and the butt joint hole is inserted and connected with the rubber plug;

preferably, the first sealing ring and the second sealing ring have the same structure, the first sealing ring is matched with the annular groove, the first sealing ring is bonded with the rotating ring, the rotating ring is fixedly connected with the heat-radiating aluminum base block, the heat-conducting soft block is arranged at a gap between the rotating ring and the heat-radiating aluminum base block, the protruding block in the middle of the heat-conducting soft block is inwards extruded, and the heat-conducting soft block is matched with the first heat-conducting block;

preferably, the heat dissipation type connecting cover comprises a first cover body, heat dissipation fins, a conduit, a second cover body and a notch, a first cover body is arranged in the second connecting cover, the side wall of the first cover body is provided with radiating fins, a conduit is arranged between the two radiating fins, the second cover body is sleeved outside the first cover body, the upper end of the second cover body is provided with a gap, the radiating fins are inserted into the gap, the first cover body is fixedly connected with the second cover body and the second connecting cover, the first cover body, the second cover body and the second connecting cover are arranged in a sealing way, the first cover body and the radiating fins are welded and fixed, the heat dissipation fins and the second cover body are arranged in a sealing way, a cavity formed by the first cover body and the second cover body is communicated with the first connecting pipe, the cavity formed by the first cover body and the second cover body is communicated with the inner cavity of the first cover body through a conduit;

preferably, a wire of the integrated circuit board remotely monitored on the ventilation board penetrates through the opening, the second connecting pipe, the first connecting pipe, the cavity formed by the first cover body and the second cover body, and the wire conduit in sequence and is inserted into the cavity of the first cover body.

(III) advantageous effects

The technical scheme of the invention has the following advantages:

the invention provides an internet of things remote monitoring device connected with an automatic fire alarm control system, a barrel, a convex cover and a vent plate can realize the fixed installation of an integrated circuit board for remote monitoring, the side wall of the vent plate is provided with an opening to facilitate the wiring of a lead, the convex cover is communicated with an installation cavity to realize the installation of an interface, as a first connecting cover is connected with an installation structure of the remote monitoring integrated circuit board by a connecting pipe, the connection can be selected according to the requirement and is convenient for a user to use, a heat conducting soft block of a rotary structure is inwards extruded and then contacts with a first heat conducting block, as the integrated circuit board for remote monitoring is connected with the first heat conducting block by a heat conducting soft sheet, the heat transmission of the integrated circuit board for remote monitoring is realized, the heat is radiated by a heat radiating aluminum block, as the rotary ring is movably connected, when the heat conducting soft block contacts with the first heat conducting block, a butt joint hole is in butt joint with an oral cavity, take off convenient outside USB interface behind the rubber end cap and be connected with interface chamber interface, the collection of the liquid of connecting pipe department seepage can be realized to the cavity that the first cover body, the second cover body formed, and the wire conduit is arranged in the cavity that the first cover body, the second cover body formed, makes things convenient for walking the line of wire, because the first cover body outer wall is provided with heat radiation fins, can realize the heat dissipation of the interior camera of the first cover body cover, improves the radiating efficiency to a certain extent.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an exploded view of the overall structure of the present invention;

FIG. 3 is an exploded view of the heat dissipation type connection cap of the present invention;

FIG. 4 is an exploded view of the mounting and rotation structure of the remote monitoring IC board of the present invention;

FIG. 5 is an exploded view of the mounting structure of the remote monitoring IC board of the present invention;

FIG. 6 is an exploded view of the cartridge of the present invention;

FIG. 7 is an enlarged view taken at A in FIG. 6 according to the present invention;

fig. 8 is an exploded view of the rotary structure of the present invention.

In the figure: 1. a first connection cover; 2. a heat-dissipating connecting cover; 201. a first cover body; 202. heat dissipation fins; 203. a conduit; 204. a second cover body; 205. a notch; 3. remotely monitoring the mounting structure of the integrated circuit board; 301. a barrel; 302. a mounting cavity; 303. a second connecting pipe; 304. a through groove; 305. a convex cover; 306. a mouth receiving cavity; 307. blocking strips; 308. connecting holes; 309. a first heat-conducting block; 310. a gas permeable plate; 311. an opening; 312. a top cover; 313. a fixed tube; 314. a seal ring; 4. a rotating structure; 401. a rotating ring; 402. a first insertion hole; 403. a heat-conducting soft block; 404. a heat-dissipating aluminum substrate; 405. a second insertion hole; 406. a ring groove; 407. a first seal ring; 408. a second seal ring; 409. a butt joint hole; 410. a rubber plug; 5. a first connecting pipe; 6. a second connecting cover; 7. a transparent cover.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

as shown in fig. 1-2, an internet of things remote monitoring device connected to an automatic fire alarm control system comprises a first connecting cover 1, a second connecting cover 6, a first connecting pipe 5 and a transparent cover 7, wherein the second connecting cover 6 is arranged at the lower end of the first connecting cover 1, the first connecting pipe 5 is arranged at the upper end of the first connecting cover 1, the lower end of the second connecting cover 6 is connected with the transparent cover 7, a camera is arranged in the transparent cover 7, a heat dissipation type connecting cover 2 is arranged between the first connecting cover 1 and the second connecting cover 6, the upper end of the first connecting pipe 5 is connected with a mounting structure 3 of a remote monitoring integrated circuit board, and a rotary structure 4 is movably arranged on a groove on the side wall of the mounting structure 3 of the remote monitoring integrated circuit board.

Example two:

as shown in fig. 4, 5, 6, and 7, a mounting structure of a remote monitoring integrated circuit board of an internet of things remote monitoring device accessing an automatic fire alarm control system, the mounting structure 3 of the remote monitoring integrated circuit board comprises a cylinder 301, a mounting cavity 302, a second connecting pipe 303, a convex cover 305, an interface cavity 306, a barrier bar 307, a connecting hole 308, a vent plate 310, an opening 311, a top cover 312, a fixing pipe 313, and a sealing ring 314, the mounting cavity 302 is opened at the upper end of the cylinder 301, the second connecting pipe 303 is arranged at the lower end of the cylinder 301, the second connecting pipe 303 is fixed with the first connecting pipe 5 by bolts, the first connecting pipe 5 is communicated with the second connecting pipe 303, the convex cover 305 is arranged on the wall of the mounting cavity 302, the connecting cavity 306 is opened on the outer wall of the convex cover 305, the barrier bar 307 is arranged at the lower part of the wall of the mounting cavity 302, the connecting hole 308 is opened at the upper end of the barrier bar 307, the vent plate 310 is arranged at the upper end of the barrier bar 307, the side wall of the ventilation plate 310 is provided with an opening 311, the upper end of the cylinder body 301 is connected with a top cover 312, the upper end of the top cover 312 is provided with a fixed pipe 313, the lower end of the top cover 312 is provided with a sealing ring 314, the lower end of the top cover 312 and the groove on the outer wall of the cylinder body 301 form a movable groove, the cylinder body 301 and the convex cover 305 are integrally arranged, the cylinder body 301 and the barrier strip 307 are welded and fixed, the end surface of the ventilation plate 310 is provided with a small hole, the upper end of the ventilation plate 310 is provided with a remote monitoring integrated circuit board, the ventilation plate 310 is matched with the barrier strip 307, the hole on the end surface of the ventilation plate 310 is aligned with the connecting hole 308 formed on the barrier strip 307, the interface of the remote monitoring integrated circuit board on the ventilation plate 310 is arranged in the connecting cavity 306, the convex cover 305 is fixedly connected with the interface, the ventilation plate 310 divides the installation cavity 302 into an upper cavity and a lower cavity, the upper cavity is communicated with the lower cavity through the opening 311, the conducting wire of the remote monitoring integrated circuit board on the ventilation plate 310 is inserted into the lower cavity through the opening 311, the barrel 301, the convex cover 305 and the air permeable plate 310 can realize the fixed installation of the integrated circuit board for remote monitoring, the side wall of the air permeable plate 310 is provided with an opening 311 for facilitating the wiring of a conducting wire, the convex cover 305 is communicated with the installation cavity 302, the installation of an interface can be realized, and the first connecting cover 1 and the installation structure 3 of the integrated circuit board for remote monitoring are connected by adopting a connecting pipe, so that the selection can be carried out as required, and the use by a user is facilitated;

example three:

as shown in fig. 5 and 6, in another mounting structure of a remote monitoring integrated circuit board of an internet of things remote monitoring device accessing an automatic fire alarm control system, a mounting structure 3 of the remote monitoring integrated circuit board further includes a through groove 304 and a first heat conduction block 309, a through groove 304 is formed in a side wall of a cylinder 301, the first heat conduction block 309 is mounted in the through groove 304, the integrated circuit board remotely monitored on a ventilation plate 310 is connected with the first heat conduction block 309 through a heat conduction soft sheet, and the mounting structure 3 of the remote monitoring integrated circuit board and a rotation structure 4 are matched with each other;

example four:

as shown in fig. 4 and 8, a rotary structure of an internet of things remote monitoring device connected to an automatic fire alarm control system, wherein the rotary structure 4 comprises a rotary ring 401, a first insertion hole 402, a heat-conducting soft block 403, a heat-dissipating aluminum block 404, a second insertion hole 405, a ring groove 406, a first seal ring 407, a second seal ring 408, a butt joint hole 409 and a rubber plug 410, the rotary ring 401 is sleeved in a movable groove formed by a top cover 312 and a cylinder 301, the side wall of the rotary ring 401 is provided with the first insertion hole 402, the heat-conducting soft block 403 and the heat-dissipating aluminum block 404 are connected in the first insertion hole 402, the second insertion hole 405 is provided on the end surface of the heat-dissipating aluminum block 404, a protrusion block of the heat-conducting soft block is inserted into the second insertion hole 405, the ring grooves 406 are provided on the upper and lower parts of the inner wall of the rotary ring 401, the first seal ring 407 is connected in an embedded manner with the ring groove 406 on the upper part of the rotary ring 401, the ring 401 is connected in an embedded manner with the second seal ring 408, the side wall of the rotating ring 401 is provided with a butt joint hole 409, the butt joint hole 409 is inserted and connected with a rubber plug 410, the first sealing ring 407 and the second sealing ring 408 have the same structure, the first sealing ring 407 is matched with the ring groove 406, the first sealing ring 407 is bonded and connected with the rotating ring 401, the rotating ring 401 is fixedly connected with the heat dissipation aluminum base 404, the heat conduction soft block 403 is arranged at the gap between the rotating ring 401 and the heat dissipation aluminum base 404, a convex block in the middle of the heat conduction soft block 403 is inwards extruded, the heat conduction soft block 403 is matched with the first heat conduction block 309, the heat conduction soft block 403 of the rotating structure 4 is inwards extruded and then contacts the first heat conduction block 309, as the integrated circuit board for remote monitoring is connected with the first heat conduction block 309 through a soft sheet for transferring heat, the heat transfer of the integrated circuit board for remote monitoring is realized, then the heat dissipation is carried out through the heat dissipation aluminum base 404, as the rotating ring 401 is movably connected, when the heat conduction soft block 403 contacts the first heat conduction block 309, the butt joint hole 409 faces the interface cavity 306, and an external USB interface is conveniently connected with the interface of the interface cavity 306 after the rubber plug 410 is taken down;

example five:

as shown in fig. 3, a heat dissipation type connection cover of an internet of things remote monitoring device accessing an automatic fire alarm control system, the heat dissipation type connection cover 2 includes a first cover 201, heat dissipation fins 202, a conduit 203, a second cover 204 and a notch 205, a first cover 201 is disposed in the second connection cover 6, heat dissipation fins 202 are disposed on a side wall of the first cover 201, a conduit 203 is disposed between the two heat dissipation fins 202, the second cover 204 is sleeved outside the first cover 201, the notch 205 is disposed at an upper end of the second cover 204, the heat dissipation fins 202 are inserted into the notch 205, the first cover 201 is fixedly connected with the second cover 204 and the second connection cover 6, the first cover 201 is hermetically disposed with the second cover 204 and the second connection cover 6, the first cover 201 is welded and the heat dissipation fins 202, the heat dissipation fins 202 are hermetically disposed with the second cover 204, the first cover 201, the second cover 201, The cavity formed by the second cover body 204 is communicated with the first connecting pipe 5, and the first cover body 201, the cavity formed by the second cover body 204 is communicated with the inner cavity of the first cover body 201 through the wire conduit 203, the wire of the integrated circuit board remotely monitored on the vent plate 310 sequentially penetrates through the opening 311, the second connecting pipe 303, the first connecting pipe 5, the cavity formed by the first cover body 201 and the second cover body 204, the wire conduit 203 is inserted into the cavity of the first cover body 201, the collection of liquid leaked at the connecting pipe can be realized by the cavity formed by the first cover body 201 and the second cover body 204, the wire conduit 203 is arranged in the cavity formed by the first cover body 201 and the second cover body 204, the wiring of the wire is convenient, because the outer wall of the first cover body 201 is provided with the heat dissipation fins 202, the heat dissipation of the camera in the first cover body 201 can be realized, and the heat dissipation efficiency is improved to a certain extent.

The standard parts used by the invention can be purchased from the market, the special-shaped parts can be customized according to the description and the description of the attached drawings, the specific connection mode of each part adopts conventional means such as bolts, rivets, welding and the like mature in the prior art, the machines, the parts and equipment adopt conventional models in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, so that the detailed description is omitted.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides an access conflagration automatic alarm control system's thing allies oneself with remote monitering equipment, includes first connecting cover (1), second connecting cover (6), first connecting pipe (5) and translucent cover (7), the lower extreme of first connecting cover (1) is provided with second connecting cover (6), and the upper end of first connecting cover (1) is provided with first connecting pipe (5), the lower extreme of second connecting cover (6) is connected with translucent cover (7), and the camera arranges in translucent cover (7) cover, its characterized in that: be provided with heat dissipation type connecting cover (2) between first connecting cover (1) and second connecting cover (6), the upper end of first connecting pipe (5) is connected with mounting structure (3) of remote monitoring integrated circuit board, and mounting structure (3) lateral wall recess activity of remote monitoring integrated circuit board is provided with revolution mechanic (4).

2. The internet of things remote monitoring device accessed to the automatic fire alarm control system according to claim 1, wherein: the mounting structure (3) of the remote monitoring integrated circuit board comprises a cylinder body (301), a mounting cavity (302), a second connecting pipe (303), a convex cover (305), an interface cavity (306), a barrier strip (307), a connecting hole (308), a breathable plate (310), an opening (311), a top cover (312), a fixed pipe (313) and a sealing ring (314), wherein the mounting cavity (302) is formed in the upper end of the cylinder body (301), the second connecting pipe (303) is arranged at the lower end of the cylinder body (301), the second connecting pipe (303) is fixed with a first connecting pipe (5) through a bolt, the first connecting pipe (5) is communicated with the second connecting pipe (303), the convex cover (305) is arranged on the wall of the mounting cavity (302), the connecting hole (306) is formed in the outer wall of the convex cover (305), the barrier strip (307) is arranged on the lower portion of the wall of the mounting cavity (302), and the connecting hole (308) is formed in the upper end of the barrier strip (307), the upper end of blend stop (307) is provided with ventilative board (310), and opening (311) have been seted up to the lateral wall of ventilative board (310), the upper end of barrel (301) is connected with top cap (312), and the upper end of top cap (312) is provided with fixed pipe (313), the lower extreme of top cap (312) is provided with sealing ring (314), and top cap (312) lower extreme and barrel (301) outer wall recess form the activity groove.

3. The internet of things remote monitoring device connected to the automatic fire alarm control system according to claim 2, wherein: barrel (301) and protruding cover (305) an organic whole set up, and barrel (301) and blend stop (307) welded fastening, the aperture is seted up to the terminal surface of ventilative board (310), and the integrated circuit board of remote monitoring is installed to the upper end of ventilative board (310), ventilative board (310) and blend stop (307) adaptation, and ventilative board (310) terminal surface trompil and blend stop (307) set up connecting hole (308) and align, the interface of the integrated circuit board of remote monitoring is placed in and is connect oral cavity (306) intracavity on ventilative board (310), and protruding cover (305) and interface fixed connection, ventilative board (310) are separated installation cavity (302) for epicoele and cavity, and epicoele and cavity pass through opening (311) intercommunication, the wire of the integrated circuit board of remote monitoring on ventilative board (310) runs through opening (311) and inserts into the cavity.

4. The internet of things remote monitoring device connected to the automatic fire alarm control system according to claim 2, wherein: the mounting structure (3) of the remote monitoring integrated circuit board further comprises a through groove (304) and a first heat-conducting block (309), the side wall of the barrel body (301) is provided with the through groove (304), the first heat-conducting block (309) is mounted in the groove of the through groove (304), and the integrated circuit board of the remote monitoring on the breathable plate (310) is connected with the first heat-conducting block (309) through a heat-conducting soft sheet.

5. The remote monitoring equipment of an internet of things accessing an automatic fire alarm control system according to any one of claims 1 to 4, wherein: the rotating structure (4) comprises a rotating ring (401), a first embedding hole (402), a heat-conducting soft block (403), a heat-radiating aluminum block (404), a second embedding hole (405), a ring groove (406), a first sealing ring (407), a second sealing ring (408), a butt joint hole (409) and a rubber plug (410), wherein the rotating ring (401) is sleeved in a movable groove formed by a top cover (312) and a cylinder body (301), the side wall of the rotating ring (401) is provided with the first embedding hole (402), the heat-conducting soft block (403) and the heat-radiating aluminum block (404) are connected in the hole of the first embedding hole (402), the end face of the heat-radiating aluminum block (404) is provided with the second embedding hole (405), the protruding block of the heat-conducting soft block (403) is embedded into the second embedding hole (405), the upper lower part of the inner wall of the rotating ring (401) is provided with the ring groove (406), and the ring groove (406) at the upper part of the rotating ring (401) is embedded and connected with the first sealing ring (407), rotatory ring (401) inner wall annular (406) embedding is connected with second sealing washer (408), and the lateral wall of rotatory ring (401) has seted up butt joint hole (409), butt joint hole (409) insert and are connected with rubber end cap (410).

6. The internet of things remote monitoring device connected to the automatic fire alarm control system according to claim 5, wherein: the first sealing ring (407) and the second sealing ring (408) are identical in structure, the first sealing ring (407) is matched with the ring groove (406), the first sealing ring (407) is in adhesive connection with the rotating ring (401), the rotating ring (401) is fixedly connected with the heat-radiating aluminum base block (404), the heat-conducting soft block (403) is arranged at a gap between the rotating ring (401) and the heat-radiating aluminum base block (404), a protruding block in the middle of the heat-conducting soft block (403) is pressed inwards, and the heat-conducting soft block (403) is matched with the first heat-conducting block (309).

7. The internet of things remote monitoring device connected to an automatic fire alarm control system according to claim 6, wherein: the heat dissipation type connecting cover (2) comprises a first cover body (201), heat dissipation fins (202), a wire guide pipe (203), a second cover body (204) and a notch (205), a first cover body (201) is arranged in the second connecting cover (6), the heat dissipation fins (202) are arranged on the side wall of the first cover body (201), the wire guide pipe (203) is arranged between the two heat dissipation fins (202), the second cover body (204) is sleeved outside the first cover body (201), the notch (205) is formed in the upper end of the second cover body (204), the heat dissipation fins (202) are inserted into the notch (205), the first cover body (201) is fixedly connected with the second cover body (204) and the second connecting cover (6), the first cover body (201) is hermetically arranged with the second cover body (204) and the second connecting cover (6), and the first cover body (201) is welded and fixed with the heat dissipation fins (202), and the heat dissipation fins (202) and the second cover body (204) are arranged in a sealing manner, a cavity formed by the first cover body (201) and the second cover body (204) is communicated with the first connecting pipe (5), and the cavity formed by the first cover body (201) and the second cover body (204) is communicated with the inner cavity of the first cover body (201) through a conduit (203).

8. The internet of things remote monitoring device accessed to the automatic fire alarm control system according to claim 7, wherein: the lead of the integrated circuit board remotely monitored on the ventilation plate (310) sequentially penetrates through the opening (311), the second connecting pipe (303), the first connecting pipe (5), the cavity formed by the first cover body (201) and the second cover body (204), and the lead pipe (203) to be inserted into the cavity of the first cover body (201).