CN113154280A

CN113154280A - Intelligent control device for corridor emergency lamp and implementation method

Info

Publication number: CN113154280A
Application number: CN202011628376.9A
Authority: CN
Inventors: 刘鹏
Original assignee: Jiangsu Research Institute Co Ltd of Dalian University of Technology
Current assignee: Changzhou Tianzheng Industrial Development Co ltd
Priority date: 2020-12-30
Filing date: 2020-12-30
Publication date: 2021-07-23
Anticipated expiration: 2040-12-30
Also published as: CN113154280B

Abstract

The invention discloses an intelligent control device for a corridor emergency lamp and an implementation method, and the intelligent control device comprises an intelligent control box main body, a silica gel heat-conducting plate, a rubber pressing plate, a fixing frame, a limiting groove, a limiting column, a protecting frame, a wire outlet hole, a fixing mounting plate, a positioning hole, a positioning column, a locking screw hole, a locking screw, a protecting sealing plate, a supporting groove, a supporting hole, a supporting column, a strip-shaped groove, a strip-shaped block, a silica gel heat-radiating base plate, a lamp bracket, a bayonet, a silica gel heat-conducting column, a heat-radiating hole, a fixing mounting hole, a wire inlet hole, a top groove and a top block; according to the invention, the control device is mounted on the wall body of the corridor, so that the connection firmness of the control device is improved, the falling risk of the control device in an emergency is reduced, the control device is ensured to carry out normal emergency lighting on the corridor, the heat dissipation performance of the control device is improved, the overheating and firing risk of the control device in the use process is reduced, the potential safety hazard is eliminated, and the working reliability of the control device is improved.

Description

Intelligent control device for corridor emergency lamp and implementation method

Technical Field

The invention relates to the technical field of emergency lamp devices, in particular to an intelligent control device for a corridor emergency lamp and an implementation method.

Background

The corridor emergency lamp is a lighting lamp for fire fighting emergency, is mainly used in the corridor of building facilities, automatically carries out emergency lighting on the corridor when power is off, ensures the safe passing of personnel, has the characteristics of low power consumption, high brightness, quick emergency, long service life and the like, is generally matched with an intelligent control device, a power switch and a safety exit indicator lamp for cooperative use, and is suitable for standby power failure emergency lighting in public places such as factories, hotels, schools, units and the like. At present, the corridor emergency lamp mainly provided with a power supply independent control type is generally used in China, a normal power supply is connected with a common lighting power supply loop and is charged for an emergency lamp power supply at ordinary times, and when the normal power supply is cut off, a standby power supply automatically supplies power.

However, traditional corridor emergency light intelligent control device is mostly only through simple installation on the wall body of screw, firm in connection nature is poor, meet emergency such as earthquake and drop easily, lead to the device to break away from the wall body, can't carry out normal emergency lighting to the corridor, the normal current of corridor has been influenced, and heat dispersion is not enough, can't lead to the wall body with the heat conduction of device, the device is overheated problem of catching fire easily appears in the use, there is certain potential safety hazard, the operational reliability of device has been reduced, packaging structure is simple simultaneously, and the proof strength is low, the device is damaged by external force easily in the use, the service life of device has been shortened, the maintenance that has increased corridor emergency light becomes.

Disclosure of Invention

The invention aims to provide an intelligent control device for a corridor emergency lamp and an implementation method, which aim to solve the problems in the background art.

In order to solve the technical problems, the invention provides the following technical scheme: an intelligent control device for corridor emergency lamps comprises an intelligent control box main body, a silica gel heat-conducting plate, a rubber pressing plate, a fixing frame, a limiting groove, a limiting column, a protective frame, a wire outlet hole, a fixing mounting plate, a positioning hole, a positioning column, a locking screw hole, a locking screw, a protective sealing plate, a supporting groove, a supporting hole, a supporting column, a strip-shaped groove, a strip-shaped block, a silica gel heat-radiating base plate, a lamp bracket, a bayonet, a silica gel heat-conducting column, a heat-radiating hole, a fixing mounting hole, a wire inlet hole, a top groove and a top block, wherein the back surface of the intelligent control box main body is contacted with the front surface of the silica gel heat-conducting plate, the front surface of the rubber pressing plate is contacted with the back surface of the pressing plate, the intelligent control box main body, the silica gel heat-conducting plate and the rubber pressing plate are all embedded in the fixing frame, the fixing frame is embedded in the protecting frame through the limiting groove and the limiting column, the wire outlet holes are formed in the centers of the tops of the fixed frame and the protective frame, the protective frame is arranged on the front inner edge of the fixed mounting plate, the front of the protective frame is fixedly connected with the outer edge of the back of the protective sealing plate through a positioning hole, a positioning column, a locking screw hole and a locking screw, supporting plates are arranged at the top ends and the bottom ends of the two sides of the protective sealing plate, the back of each supporting plate is movably clamped with the four corners of the front inner edge of the fixed mounting plate through a supporting groove, a supporting hole and a supporting column, the back of the fixed mounting plate is movably clamped with the front of the silica gel heat dissipation backing plate through a strip-shaped groove and a strip-shaped block, lamp brackets are arranged on the two sides of the front top end of the fixed mounting plate, and bayonets are formed in the front top ends of the lamp brackets; the top and the bottom at the silica gel heat-conducting plate back evenly are provided with a plurality of silica gel heat-conducting post, the silica gel heat-conducting post inlays the dress in the inside of louvre, the louvre evenly sets up respectively on the top and the bottom at the fixed mounting board and the back of silica gel heat dissipation backing plate, the fixed mounting hole has all been seted up in the four corners at the fixed mounting board and the back of silica gel heat dissipation backing plate, and the entrance hole has all been seted up at the center at the fixed mounting board, the back of silica gel heat dissipation backing plate and the back of silica gel heat-conducting plate.

An implementation method of an intelligent control device for a corridor emergency lamp comprises the following steps: step one, hanging; step two, embedding; step three, packaging; step four, heat dissipation;

in the first step, the strip-shaped blocks are embedded into the strip-shaped grooves to mount the silica gel radiating base plate on the fixed mounting plate, and the fixed mounting plate and the silica gel radiating base plate are fixedly hung on the wall of the corridor through the fixed mounting holes;

in the second step, the fixing frame is embedded into the protective frame by embedding the limiting columns into the limiting grooves, the silica gel heat-conducting plates are embedded into the fixing frame by embedding the silica gel heat-conducting columns into the heat dissipation holes, then the intelligent control box main body is embedded into the fixing frame, and the input electric wire and the output electric wire of the emergency lamp are respectively connected with the intelligent control box main body through the wire inlet hole and the wire outlet hole;

in the third step, the rubber pressing plate and the pressing plate are embedded into the fixed frame, and the protective sealing plate is installed on the protective frame by embedding the ejector block into the top groove, embedding the positioning column into the positioning hole and embedding the locking screw into the locking screw hole;

wherein in the fourth step, install the corridor emergency light on the lighting fixture through the bayonet socket to be connected with intelligent control case main part through the output wire, corridor emergency light throws light on the corridor when emergency appears, conducts the unnecessary heat of intelligent control case main part for the corridor wall body through silica gel heat-conducting plate, silica gel heat-conducting post, louvre and silica gel heat-dissipating backing plate simultaneously.

According to the technical scheme, the top grooves are formed in the center and the four corners of the front face of the pressing plate, the top blocks are embedded in the top grooves and are arranged at the center and the four corners of the back face of the protection sealing plate respectively.

According to the technical scheme, the limiting grooves are respectively formed in the four sides of the back face of the fixing frame, the limiting columns are embedded in the limiting grooves and are respectively arranged on the four sides of the inner wall of the protection frame.

According to the technical scheme, the positioning holes are respectively formed in the four sides of the front face of the protection frame, positioning columns are embedded in the positioning holes, and the positioning columns are respectively arranged on the four sides of the back face of the protection sealing plate.

According to the technical scheme, the locking screw holes are respectively formed in the four corners of the front face of the protection frame and the four corners of the front face of the protection sealing plate, and the locking screws are embedded in the locking screw holes.

According to the technical scheme, the supporting grooves are respectively arranged at four corners of the inner edge of the front surface of the fixed mounting plate, and one end of the supporting plate is embedded in the supporting grooves.

According to the technical scheme, the support holes are respectively formed in the centers of the back faces of the support plates, the support columns are embedded in the support holes, and the support columns are respectively arranged in the centers of the front faces of the support grooves.

According to the technical scheme, the strip-shaped grooves are respectively formed in the four corners of the outer edge of the front face of the fixed mounting plate, the strip-shaped blocks are embedded in the strip-shaped grooves, and the strip-shaped blocks are respectively provided with the four corners of the outer edge of the front face of the silica gel radiating base plate.

Compared with the prior art, the invention has the following beneficial effects: the control device is mounted on the wall body of the corridor by adopting a split type structure, so that the connection firmness of the control device is improved, the falling risk of the control device in an emergency is reduced, the control device is ensured to carry out normal emergency lighting on the corridor, and the normal traffic of the corridor is ensured; the heat dissipation part is additionally arranged, so that the heat dissipation performance of the control device is improved, the risk of overheating and firing of the control device in the use process is reduced, potential safety hazards are eliminated, and the working reliability of the control device is improved; the packaging structure of the control device is optimized, so that the protection strength of the control device is improved, the damage of the control device in the using process is reduced, the service life of the control device is prolonged, and the maintenance cost of the corridor emergency lamp is reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a perspective view of the overall construction of the present invention;

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

FIG. 3 is a front view of the overall structure of the present invention;

FIG. 4 is a left side view of the overall construction of the present invention;

FIG. 5 is a top plan view of the overall structure of the present invention;

FIG. 6 is a flow chart of a method of the present invention;

in the figure: 1. an intelligent control box main body; 2. a silica gel heat-conducting plate; 3. a rubber press plate; 4. a compression plate; 5. a fixing frame; 6. a limiting groove; 7. a limiting column; 8. a protective frame; 9. a wire outlet hole; 10. fixing the mounting plate; 11. positioning holes; 12. a positioning column; 13. locking the screw hole; 14. locking the screw; 15. a protective seal plate; 16. a support plate; 17. a support groove; 18. a support hole; 19. a support pillar; 20. a strip-shaped groove; 21. a bar-shaped block; 22. a silica gel heat radiation backing plate; 23. a lamp holder; 24. a bayonet; 25. a silica gel heat-conducting column; 26. heat dissipation holes; 27. fixing the mounting hole; 28. a wire inlet hole; 29. a top groove; 30. and (7) a top block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an intelligent control device for corridor emergency lamps comprises an intelligent control box main body 1, a silica gel heat-conducting plate 2, a rubber pressing plate 3, a pressing plate 4, a fixing frame 5, a limiting groove 6, a limiting column 7, a protective frame 8, a wire outlet hole 9, a fixing mounting plate 10, a positioning hole 11, a positioning column 12, a locking screw hole 13, a locking screw 14, a protective sealing plate 15, a supporting plate 16, a supporting groove 17, a supporting hole 18, a supporting column 19, a strip-shaped groove 20, a strip-shaped block 21, a silica gel heat-radiating base plate 22, a lamp holder 23, a bayonet 24, a silica gel heat-conducting column 25, a heat-radiating hole 26, a fixing mounting hole 27, a wire inlet hole 28, a top groove 29 and a top block 30, wherein the back surface of the intelligent control box main body 1 is contacted with the front surface of the silica gel heat-conducting plate 2, the front surface of the intelligent control box main body 1 is contacted with the back surface of the rubber pressing plate 3, the front surface of the pressing plate 4 is contacted with the back surface, the center and four corners of the pressing plate 4 are all provided with the top groove 29, the jacking blocks 30 are embedded in the jacking grooves 29, and the jacking blocks 30 are respectively arranged at the center and four corners of the back surface of the protective sealing plate 15, so that the connection firmness of the control device is improved, the falling risk of the control device in an emergency is reduced, the control device is ensured to carry out normal emergency lighting on the corridor, and the normal traffic of the corridor is ensured; the pressure strip 4, the intelligent control box main body 1, the silica gel heat conducting plate 2 and the rubber pressure plate 3 are all embedded in the fixed frame 5, the fixed frame 5 is embedded in the protective frame 8 through a limit groove 6 and a limit post 7, the limit groove 6 is respectively arranged on four sides of the back surface of the fixed frame 5, the limit post 7 is embedded in the limit groove 6, the limit post 7 is respectively arranged on four sides of the inner wall of the protective frame 8, the top centers of the fixed frame 5 and the protective frame 8 are both provided with a wire outlet 9, the protective frame 8 is arranged on the inner edge of the front surface of the fixed mounting plate 10, the front surface of the protective frame 8 is fixedly connected with the outer edge of the back surface of the protective sealing plate 15 through a positioning hole 11, a positioning post 12, a locking screw 13 and a locking screw 14, the positioning holes 11 are respectively arranged on four sides of the front surface of the protective frame 8, the positioning posts 12 are embedded in the positioning hole 11, the positioning posts 12 are respectively arranged on four sides of the back surface of the protective sealing plate 15, locking screw holes 13 are respectively arranged at the four corners of the front surfaces of a protective frame 8 and a protective sealing plate 15, locking screws 14 are embedded in the locking screw holes 13, supporting plates 16 are respectively arranged at the top end and the bottom end of the two sides of the protective sealing plate 15, the back surface of each supporting plate 16 is movably clamped with the four corners of the inner edge of the front surface of the fixed mounting plate 10 through supporting grooves 17, supporting holes 18 and supporting columns 19, the supporting grooves 17 are respectively arranged at the four corners of the inner edge of the front surface of the fixed mounting plate 10, one end of each supporting plate 16 is embedded in each supporting groove 17, the supporting holes 18 are respectively arranged at the center of the back surface of each supporting plate 16, the supporting columns 19 are embedded in the supporting holes 18, the supporting columns 19 are respectively arranged at the center of the front surface of the supporting grooves 17, the back surface of the fixed mounting plate 10 is movably clamped with the front surface of a silica gel radiating base plate 22 through strip-shaped grooves 20 and strip-shaped blocks 21, the strip-shaped grooves 20 are respectively arranged at the four corners of the outer edge of the front surface of the fixed mounting plate 10, the strip-shaped blocks 21 are embedded in the strip-shaped grooves 20, the strip-shaped blocks 21 are respectively provided with the silica gel heat dissipation base plates 22 at four corners of the outer edge of the front surface, the lamp brackets 23 are arranged on two sides of the top end of the front surface of the fixed mounting plate 10, and the bayonets 24 are formed in the top ends of the front surfaces of the lamp brackets 23, so that the protection strength of the control device is improved, the damage of the control device in the use process is reduced, the service life of the control device is prolonged, and the maintenance cost of the corridor emergency lamp is reduced; the top and the bottom at the 2 backs of silica gel heat-conducting plate evenly are provided with a plurality of silica gel heat-conducting post 25, silica gel heat-conducting post 25 inlays the dress in the inside of louvre 26, louvre 26 evenly sets up respectively on the top and the bottom at the fixed mounting panel 10 and the 22 backs of silica gel backing plate, fixed mounting hole 27 has all been seted up in the four corners at the fixed mounting panel 10 and the 22 backs of silica gel backing plate, and fixed mounting panel 10, entrance hole 28 has all been seted up at the center at the 2 backs of silica gel backing plate 22 and silica gel heat-conducting plate, controlling means's heat dispersion has been improved, controlling means's overheated risk of catching fire in the use has been reduced, the potential safety hazard has been eliminated, controlling means's operational reliability has been improved.

Referring to fig. 6, the present invention provides a technical solution: an implementation method of an intelligent control device for a corridor emergency lamp comprises the following steps: step one, hanging; step two, embedding; step three, packaging; step four, heat dissipation;

in the first step, the strip-shaped blocks 21 are embedded into the strip-shaped grooves 20 to mount the silica gel radiating base plates 22 on the fixed mounting plates 10, and then the fixed mounting plates 10 and the silica gel radiating base plates 22 are fixedly hung on the wall of the corridor through the fixed mounting holes 27;

in the second step, the fixing frame 5 is embedded into the protective frame 8 by embedding the limiting column 7 into the limiting groove 6, the silica gel heat-conducting column 25 is embedded into the heat-radiating hole 26 to embed the silica gel heat-conducting plate 2 into the fixing frame 5, then the intelligent control box main body 1 is embedded into the fixing frame 5, and the input wire and the output wire of the emergency lamp are respectively connected with the intelligent control box main body 1 through the wire inlet hole 28 and the wire outlet hole 9;

in the third step, the rubber pressure plate 3 and the pressure plate 4 are embedded into the fixing frame 5, the top block 30 is embedded into the top groove 29, the positioning column 12 is embedded into the positioning hole 11, and the locking screw 14 is embedded into the locking screw hole 13, so that the protective sealing plate 15 is installed on the protective frame 8;

in the fourth step, the corridor emergency lamp is installed on the lamp bracket 23 through the bayonet 24 and is connected with the intelligent control box body 1 through the output wire, the corridor emergency lamp illuminates the corridor when an emergency occurs, and meanwhile, redundant heat of the intelligent control box body 1 is conducted to the wall body of the corridor through the silica gel heat conduction plate 2, the silica gel heat conduction columns 25, the heat dissipation holes 26 and the silica gel heat dissipation base plate 22.

Based on the above, the present invention has the advantages that, when the present invention is used, the silica gel heat radiation cushion plate 22 is installed on the fixed installation plate 10 by embedding the strip-shaped block 21 into the strip-shaped groove 20, the fixed installation plate 10 and the silica gel heat radiation cushion plate 22 are fixedly hung on the wall of the corridor through the fixed installation hole 27, the fixed frame 5 is embedded into the protective frame 8 by embedding the limit post 7 into the limit groove 6, the silica gel heat conduction plate 2 is embedded into the fixed frame 5 by embedding the silica gel heat conduction post 25 into the heat radiation hole 26, the intelligent control box body 1 is embedded into the fixed frame 5, the input wire and the output wire of the emergency lamp are respectively connected with the intelligent control box body 1 through the wire inlet hole 28 and the wire outlet hole 9, the rubber press plate 3 and the press plate 4 are embedded into the fixed frame 5, the top block 30 is embedded into the top groove 29, and the positioning post 12 is embedded into the positioning hole 11, Locking screw 14 imbeds in the locking screw 13, will protect on shrouding 15 installs protective frame 8, install corridor emergency light on lighting fixture 23 through bayonet 24 at last, and be connected with intelligent control case main part 1 through the output electric wire, corridor emergency light throws light on the corridor when emergency appears, simultaneously through silica gel heat-conducting plate 2, silica gel heat-conducting post 25, louvre 26 and silica gel heat-radiating base plate 22 conduct the unnecessary heat of intelligent control case main part 1 for the corridor wall body, adopt split type structure to carry controlling means to the corridor wall body on, thereby controlling means's firm in connection has been improved, controlling means's the risk of dropping under the emergency has been reduced, ensure that controlling means carries out normal emergency lighting to the corridor, the normal current of corridor has been ensured.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a corridor emergency light intelligent control device, including intelligent control case main part (1), silica gel heat-conducting plate (2), rubber pressing plate (3), pressure strip (4), fixed frame (5), spacing groove (6), spacing post (7), protective frame (8), wire hole (9), fixed mounting panel (10), locating hole (11), reference column (12), locking screw (13), locking screw (14), protection shrouding (15), backup pad (16), support groove (17), support hole (18), support column (19), bar groove (20), bar piece (21), silica gel heat dissipation backing plate (22), lighting fixture (23), bayonet socket (24), silica gel heat-conducting post (25), louvre (26), fixed mounting hole (27), entrance hole (28), apical groove (29) and kicking block (30), its characterized in that: the back of intelligent control case main part (1) contacts with the front of silica gel heat-conducting plate (2), and the front of intelligent control case main part (1) contacts with the back of rubber clamp plate (3), the front of rubber clamp plate (3) contacts with the back of pressure strip (4), intelligent control case main part (1), silica gel heat-conducting plate (2) and rubber clamp plate (3) all inlay the inside of inlaying at fixed frame (5), fixed frame (5) inlays the inside at protective frame (8) through spacing groove (6) and spacing post (7), and the top center of fixed frame (5) and protective frame (8) has all seted up wire outlet (9), protective frame (8) set up at the positive inner edge of fixed mounting panel (10), and protective frame (8) openly pass through locating hole (11), reference column (12), locking screw (13) and locking screw (14) and the outer fringe fixed connection at protective frame (15) back, the protective sealing plate is characterized in that supporting plates (16) are arranged at the top ends and the bottom ends of the two sides of the protective sealing plate (15), the back of each supporting plate (16) is movably clamped with four corners of the front inner edge of the fixed mounting plate (10) through a supporting groove (17), a supporting hole (18) and a supporting column (19), the back of the fixed mounting plate (10) is movably clamped with the front of a silica gel radiating base plate (22) through a strip-shaped groove (20) and a strip-shaped block (21), lamp brackets (23) are arranged on the two sides of the front top end of the fixed mounting plate (10), and bayonets (24) are formed in the front top end of each lamp bracket (23); the top and the bottom at the back of silica gel heat-conducting plate (2) evenly are provided with a plurality of silica gel heat-conducting post (25), silica gel heat-conducting post (25) inlays the inside of inlaying at louvre (26), louvre (26) evenly set up respectively on the top and the bottom at the back of fixed mounting panel (10) and silica gel heat-radiating backing plate (22), fixed mounting hole (27) have all been seted up in the four corners at the back of fixed mounting panel (10) and silica gel heat-radiating backing plate (22), and entrance hole (28) have all been seted up at the center at the back of fixed mounting panel (10), silica gel heat-radiating backing plate (22) and silica gel heat-conducting plate (2).

2. An implementation method of an intelligent control device for a corridor emergency lamp comprises the following steps: step one, hanging; step two, embedding; step three, packaging; step four, heat dissipation; the method is characterized in that:

in the first step, the strip-shaped blocks (21) are embedded into the strip-shaped grooves (20) to mount the silica gel radiating base plates (22) on the fixed mounting plates (10), and then the fixed mounting plates (10) and the silica gel radiating base plates (22) are fixedly hung on the wall of the corridor through the fixed mounting holes (27);

in the second step, the fixing frame (5) is embedded into the protective frame (8) by embedding the limiting column (7) into the limiting groove (6), the silica gel heat conducting column (25) is embedded into the heat dissipation hole (26) to embed the silica gel heat conducting plate (2) into the fixing frame (5), then the intelligent control box main body (1) is embedded into the fixing frame (5), and the input wire and the output wire of the emergency lamp are respectively connected with the intelligent control box main body (1) through the wire inlet hole (28) and the wire outlet hole (9);

in the third step, the rubber pressure plate (3) and the pressure plate (4) are embedded into the fixed frame (5), and the protective sealing plate (15) is installed on the protective frame (8) by embedding the top block (30) into the top groove (29), embedding the positioning column (12) into the positioning hole (11) and embedding the locking screw (14) into the locking screw hole (13);

among them in the fourth step, install corridor emergency light on lighting fixture (23) through bayonet socket (24) to be connected with intelligent control case main part (1) through output wire, corridor emergency light throws light on the corridor when emergency appears, passes through silica gel heat-conducting plate (2), silica gel heat-conducting post (25), louvre (26) and silica gel heat-radiating backing plate (22) simultaneously with the unnecessary heat conduction of intelligent control case main part (1) for the corridor wall body.

3. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: top grooves (29) are formed in the center and four corners of the front face of the pressing plate (4), top blocks (30) are embedded in the top grooves (29), and the top blocks (30) are arranged at the center and four corners of the back face of the protection sealing plate (15) respectively.

4. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: the limiting grooves (6) are respectively arranged on four sides of the back surface of the fixing frame (5), limiting columns (7) are embedded in the limiting grooves (6), and the limiting columns (7) are respectively arranged on four sides of the inner wall of the protective frame (8).

5. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: the positioning holes (11) are respectively formed in the four sides of the front face of the protection frame (8), positioning columns (12) are embedded in the positioning holes (11), and the positioning columns (12) are respectively formed in the four sides of the back face of the protection sealing plate (15).

6. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: the locking screw holes (13) are respectively formed in four corners of the front faces of the protective frame (8) and the protective sealing plate (15), and locking screws (14) are embedded in the locking screw holes (13).

7. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: the supporting grooves (17) are respectively arranged at four corners of the inner edge of the front surface of the fixed mounting plate (10), and one end of the supporting plate (16) is embedded in the supporting grooves (17).

8. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: the supporting holes (18) are respectively formed in the centers of the back surfaces of the supporting plates (16), supporting columns (19) are embedded in the supporting holes (18), and the supporting columns (19) are respectively arranged in the centers of the front surfaces of the supporting grooves (17).

9. The intelligent control device for the corridor emergency lamp according to claim 1, wherein: the strip-shaped grooves (20) are respectively arranged at four corners of the front outer edge of the fixed mounting plate (10), strip-shaped blocks (21) are embedded in the strip-shaped grooves (20), and the strip-shaped blocks (21) are respectively provided with silica gel radiating base plates (22) at four corners of the front outer edge.