CN111692474A

CN111692474A - Monitoring equipment for recognizing portrait for building automatic control system

Info

Publication number: CN111692474A
Application number: CN202010588169.9A
Authority: CN
Inventors: 黄功桥; 朱雅叶
Original assignee: Shenzhen Hongwei Time Automatic Control Co ltd
Current assignee: Shenzhen Hongwei Time Automatic Control Co ltd
Priority date: 2020-06-24
Filing date: 2020-06-24
Publication date: 2020-09-22
Anticipated expiration: 2040-06-24
Also published as: CN111692474B

Abstract

The invention belongs to the technical field of monitoring equipment, and particularly relates to a monitoring equipment for identifying a portrait for a building automatic control system, which comprises a vertical plate, a sliding plate and a camera body, wherein an installation plate is installed on the side of the vertical plate, a transverse plate is fixed in the middle of the installation plate, the transverse plate is welded with the installation plate, a first connecting shaft penetrates through the transverse plate, a first rotating shaft is connected to the end head of the first connecting shaft, one end of a first connecting rod is arranged on the outer side of the first rotating shaft, the other end of the first connecting rod is connected with a second connecting rod, a first sleeve plate is nested in the middle of the second connecting rod, an object placing groove is formed in the surface of the second connecting rod, and a first spring is arranged in the object placing groove. This building autonomous system is with supervisory equipment of discernment portrait, the in-process that the device was using, the limitation of collection is lower to be convenient for dismantle the maintenance to image acquisition unit, reduced the limitation that the device used.

Description

Monitoring equipment for recognizing portrait for building automatic control system

Technical Field

The invention relates to the technical field of monitoring equipment, in particular to a monitoring equipment for recognizing a portrait for a building automatic control system.

Background

The monitoring equipment is intelligent equipment with image acquisition function, and through monitoring equipment, people often can monitor whole block or whole building in a little control room, can restore the on-the-spot picture of whole building, play the effect of theftproof, improve the public security condition of building, along with the continuous development of science and technology, monitoring equipment's function is more and more comprehensive, and current building monitoring equipment has following problem nevertheless:

1. in the using process of the device, the automation is poor, the collection of pictures at different angles is inconvenient, and the use limitation is poor;

2. the stability of the installation of the camera shooting unit is poor, the camera shooting unit is not convenient to disassemble and overhaul after being used, and the working efficiency of the device is reduced.

In order to solve the problems, innovative design is urgently needed on the basis of the monitoring equipment for recognizing the portrait for the original building automatic control system.

Disclosure of Invention

The invention aims to provide a monitoring device for identifying a portrait for a building automatic control system, and aims to solve the problems that the existing monitoring device for identifying a portrait for the building automatic control system in the background art has large limitation on building picture acquisition, is inconvenient to rapidly disassemble and overhaul the monitoring device, and increases the use difficulty of the device.

In order to achieve the purpose, the invention provides the following technical scheme: a monitoring device for recognizing portrait for building automatic control system comprises a vertical plate, a sliding plate and a camera body, wherein a mounting plate is mounted at the side of the vertical plate, a transverse plate is fixed at the middle position of the mounting plate and is welded with the mounting plate, a first connecting shaft penetrates through the transverse plate, a first rotating shaft is connected at the end of the first connecting shaft, one end of a first connecting rod is arranged at the outer side of the first rotating shaft, the other end of the first connecting rod is connected with a second connecting rod, a first sleeve plate is nested at the middle position of the second connecting rod, an object placing groove is formed in the surface of the second connecting rod, a first spring is arranged inside the object placing groove, the end of the first spring is in bonding connection with the second connecting rod, a limiting groove is formed in the inner wall of the vertical plate, the sliding plate is fixed on the upper surface of the transverse plate, and a first sliding groove is formed in the upper surface of the sliding plate, one end of a supporting rod penetrates through the first sliding groove, the other end of the supporting rod is nested with a sleeve, the supporting rod is movably connected with the sleeve, the camera body is arranged above the sleeve, the bottom of the camera body is connected with a second rotating shaft, the bottom of the camera body is fixedly provided with a connecting plate, a second spring is arranged below the connecting plate, the outer side of the connecting plate is provided with a telescopic cylinder, the end of the telescopic cylinder is connected with a squeezing plate, a servo motor is arranged inside the vertical plate, a first gear is connected above the servo motor, a second gear is connected outside the first gear, a second connecting shaft is fixed in the middle of the second gear, a limit stop is fixed in the middle of the second connecting shaft, the limit stop and the second connecting shaft are welded and assembled, and a second sleeve plate is nested outside the sleeve, and the inner wall of second lagging is fixed with the fixture block to the outer wall of second lagging is fixed with the slider, the outside nestification of slider has the fixed plate, and the inside of fixed plate has seted up the second spout, the end department of camera body is provided with camera unit, and the internally mounted of camera body has electric power storage module, electric power storage module's the outside is connected with the control unit, and the outside of control unit is connected with central processing unit to central processing unit's the outside is connected with wireless transceiver module.

Optionally, the mounting plate and the vertical plate are connected in a clamping manner, and the mounting plate and the transverse plate are arranged in a mutually perpendicular manner.

Optionally, the first connecting shafts are symmetrically arranged about the axis of the mounting plate, and a rotating mounting structure is formed between the first connecting shafts and the first connecting rods through first rotating shafts.

Optionally, the second connecting rods are distributed in the mounting plate at equal angles, a sliding mounting structure is formed between the second connecting rods and the mounting plate, and the outer diameters of the second connecting rods are the same as the inner diameter of the limiting groove.

Optionally, a sliding installation structure is formed between the support rod and the sliding plate through a first sliding chute, the first sliding chute is arranged in an arc shape, and the arc center of the first sliding chute coincides with the circle center of the second connecting shaft.

Optionally, a rotating mounting structure is formed between the sleeve and the camera body through a second rotating shaft, and a lifting mounting structure is formed between the sleeve and the supporting rod.

Optionally, the bottom of the extrusion plate is arranged in an inclined manner, and the bottom of the extrusion plate is tightly attached to the end of the connecting plate.

Optionally, the second sleeve plate is connected with the second connecting shaft in a clamping manner, and the second sleeve plate and the second connecting shaft are arranged in a mutually perpendicular manner.

Optionally, a sliding installation structure is formed between the second sleeve plate and the fixing plate through a second sliding chute, and an arc center of the second sliding chute coincides with a circle center of the second rotating shaft.

Compared with the prior art, the invention has the beneficial effects that: the monitoring equipment for recognizing the portrait for the building automatic control system has the advantages that the acquisition limitation is low in the using process of the device, the image acquisition unit is convenient to disassemble and overhaul, and the use limitation of the device is reduced;

1. in the using process of the device, the image is collected through the camera shooting unit, the servo motor works to drive the first gear to rotate during collection, the first gear can drive the second gear to rotate after rotating, the second gear is fixedly connected with the second connecting shaft, so that the second connecting shaft can rotate along with the second gear when the second gear rotates, and meanwhile, the second connecting shaft is connected with the second sleeve plate in a clamping manner, so that the camera body can be driven to rotate through the second sleeve plate when the second connecting shaft rotates, pictures at different angles can be collected, and in the collection process, the camera body can drive the sleeve and the supporting rod to slide in the first sliding groove by taking the second connecting shaft as the center of a circle, so that limited acting force cannot occur, and the device can be normally used and operated;

2. when the longitudinal angle of the camera body needs to be adjusted, the telescopic cylinder can drive the extrusion plate to move outwards, the bottom of the extrusion plate is arranged in an inclined manner, and the bottom of the extrusion plate is tightly attached to the connecting plate, so that when the telescopic cylinder drives the extrusion plate to move outwards, the connecting plate can be subjected to an extruded acting force, the camera body can rotate through the second rotating shaft to complete angle adjustment, meanwhile, the end of the camera body is provided with the fixing plate, a second sliding groove is formed in the fixing plate, the second sleeve plate can slide through the second sliding groove, a supporting and protecting effect is achieved, and the falling-off condition is avoided;

3. when the camera body is damaged in use, the camera body is manually stretched upwards, the bottom transverse plate of the camera body keeps in a static state after the camera body is stretched upwards, the camera body can drive the second sleeve plate to be disconnected from the second connecting shaft, the middle position of the camera body can move upwards through the sleeve, the sleeve is connected with the supporting rod in a nested manner, the sleeve cannot fall off the supporting rod after moving upwards, then the first connecting shaft is rotated, the first connecting shaft can drive the first connecting rod to change the angle through the first rotating shaft after rotating, the second connecting rod can be stretched outwards after the angle of the first connecting rod is changed, so that the second connecting rod is disconnected from the limiting groove, and finally the transverse plate can be stretched outwards, so that the image acquisition unit can be disconnected from the vertical plate, and the camera body can be overhauled and maintained, the difficulty of dismantling is reduced when the installation is stable.

Drawings

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

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is an enlarged view of the structure at A in FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the connection structure of the mounting plate and the vertical plate according to the present invention;

FIG. 5 is a schematic view of a connection structure between a second connecting rod and a first sleeve according to the present invention;

FIG. 6 is a schematic flow chart of the present invention.

In the figure: 1. a vertical plate; 2. mounting a plate; 3. a transverse plate; 4. a first connecting shaft; 5. a first rotating shaft; 6. a first connecting rod; 7. a second connecting rod; 8. a first deck; 9. a storage groove; 10. a first spring; 11. a limiting groove; 12. a slide plate; 13. a first chute; 14. a support bar; 15. a sleeve; 16. a second rotating shaft; 17. a camera body; 18. a connecting plate; 19. a second spring; 20. a telescopic cylinder; 21. a pressing plate; 22. a servo motor; 23. a first gear; 24. a second gear; 25. a second connecting shaft; 26. a limit stop block; 27. a second deck; 28. a clamping block; 29. a slider; 30. a fixing plate; 31. a second chute; 32. an image pickup unit; 33. an electric storage module; 34. a control unit; 35. a central processing unit; 36. and a wireless transceiving module.

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. 1-6, the present invention provides a technical solution: a monitoring device for recognizing human figures for a building automatic control system comprises a vertical plate 1, a mounting plate 2, a transverse plate 3, a first connecting shaft 4, a first rotating shaft 5, a first connecting rod 6, a second connecting rod 7, a first sleeve plate 8, a storage groove 9, a first spring 10, a limiting groove 11, a sliding plate 12, a first sliding groove 13, a supporting rod 14, a sleeve 15, a second rotating shaft 16, a camera body 17, a connecting plate 18, a second spring 19, a telescopic cylinder 20, a squeezing plate 21, a servo motor 22, a first gear 23, a second gear 24, a second connecting shaft 25, a limiting stopper 26, a second sleeve plate 27, a clamping block 28, a sliding block 29, a fixing plate 30, a second sliding groove 31, a camera unit 32, an electric storage module 33, a control unit 34, a central processing unit 35 and a wireless transceiving module 36, wherein the mounting plate 2 is mounted on the side of the vertical plate 1, and the transverse plate 3 is fixed in the middle position of the mounting, the transverse plate 3 is connected with the mounting plate 2 by welding, a first connecting shaft 4 penetrates through the transverse plate 3, the end of the first connecting shaft 4 is connected with a first rotating shaft 5, the outer side of the first rotating shaft 5 is provided with one end of a first connecting rod 6, the other end of the first connecting rod 6 is connected with a second connecting rod 7, the middle position of the second connecting rod 7 is nested with a first sleeve plate 8, the surface of the second connecting rod 7 is provided with an object placing groove 9, the inside of the object placing groove 9 is provided with a first spring 10, the end of the first spring 10 is connected with the second connecting rod 7 by bonding, the inner wall of the vertical plate 1 is provided with a limiting groove 11, the sliding plate 12 is fixed on the upper surface of the transverse plate 3, the upper surface of the sliding plate 12 is provided with a first sliding groove 13, one end of a supporting rod 14 penetrates through the inside of the first sliding groove 13, and the other end of the supporting rod 14 is, the supporting rod 14 is movably connected with the sleeve 15, the camera body 17 is arranged above the sleeve 15, the bottom of the camera body 17 is connected with a second rotating shaft 16, the bottom of the camera body 17 is fixed with a connecting plate 18, a second spring 19 is arranged below the connecting plate 18, a telescopic cylinder 20 is arranged outside the connecting plate 18, the end of the telescopic cylinder 20 is connected with a squeezing plate 21, a servo motor 22 is arranged inside the vertical plate 1, a first gear 23 is connected above the servo motor 22, a second gear 24 is connected outside the first gear 23, a second connecting shaft 25 is fixed in the middle of the second gear 24, a limit stop 26 is fixed in the middle of the second connecting shaft 25, the limit stop 26 and the second connecting shaft 25 are assembled in a welding manner, a second sleeve plate 27 is nested outside the sleeve 15, and a clamping block 28 is fixed on the inner wall of the second sleeve plate 27, a sliding block 29 is fixed on the outer wall of the second sleeve plate 27, a fixed plate 30 is nested on the outer side of the sliding block 29, a second sliding groove 31 is formed in the fixed plate 30, a camera unit 32 is arranged at the end of the camera body 17, an electric storage module 33 is installed in the camera body 17, a control unit 34 is connected to the outer side of the electric storage module 33, a central processing unit 35 is connected to the outer side of the control unit 34, and a wireless transceiver module 36 is connected to the outer side of the central processing unit 35;

the mounting plate 2 and the vertical plate 1 are in clamping connection, the mounting plate 2 and the horizontal plate 3 are arranged vertically, the clamping connection can reduce the difficulty of dismounting the mounting plate 2 and can reduce the difficulty of dismounting the mounting plate 2, and the mutually vertical arrangement indirectly improves the mounting stability of the camera body 17;

the first connecting shafts 4 are symmetrically arranged about the axis of the mounting plate 2, and a rotating mounting structure is formed between the first connecting shafts 4 and the first connecting rods 6 through the first rotating shafts 5, when the mounting plate 2 needs to be disassembled, the first connecting shafts 4 are rotated, the first connecting shafts 4 can drive the first connecting rods 6 to stretch outwards after rotating, and the first connecting shafts 5 are connected, so that limited acting force can be avoided, the angle of the first connecting rods 6 can be driven to change, and the limited situation can not occur;

the second connecting rods 7 are distributed in the mounting plate 2 at equal angles, a sliding mounting structure is formed between the second connecting rods 7 and the mounting plate 2, the outer diameter of the second connecting rods 7 is the same as the inner diameter of the limiting groove 11, when the first connecting rods 6 are driven to change angles, the second connecting rods 7 can be stretched outwards under the influence of the torsion of the first connecting rods 6, so that the second connecting rods 7 can be separated from the inside of the limiting groove 11, when the first connecting shaft 4 is not rotated, the first springs 10 can drive the second connecting rods 7 to reset and penetrate into the inside of the limiting groove 11 again, and the mounting plate 2 and the vertical plate 1 are fixed;

a sliding installation structure is formed between the supporting rod 14 and the sliding plate 12 through the first sliding chute 13, the first sliding chute 13 is arranged in an arc shape, the arc center of the first sliding chute 13 is overlapped with the circle center of the second connecting shaft 25, when the angle of the camera body 17 is driven to change, the supporting rod 14 can play a role of continuous supporting, the supporting rod 14 can rotate by taking the second connecting shaft 25 as the circle center, and the arc center of the first sliding chute 13 is overlapped with the circle center of the second connecting shaft 25, so that the situation that the supporting rod is limited cannot occur;

a rotating installation structure is formed between the sleeve 15 and the camera body 17 through the second rotating shaft 16, a lifting installation structure is formed between the sleeve 15 and the supporting rod 14, when the angle of the camera body 17 needs to be adjusted longitudinally, the sleeve 15 and the camera body 17 can move through the second rotating shaft 16, so that the limiting force can be avoided, and the camera body 17 cannot be adjusted normally;

the bottom of the extrusion plate 21 is arranged in an inclined manner, the bottom of the extrusion plate 21 is tightly attached to the end of the connecting plate 18, and when the extrusion plate 21 arranged in the inclined manner is driven by the telescopic cylinder 20 to move outwards, the connecting plate 18 can be subjected to an extruded acting force, and the camera body 17 can be driven to change the angle;

for the block connection between second lagging 27 and the second connecting axle 25, and adopt mutually perpendicular setting between second lagging 27 and the second connecting axle 25, constitute the slidable mounting structure through second spout 31 between second lagging 27 and the fixed plate 30, and the centre of a circle coincidence of the arc center of second spout 31 and second pivot 16, the block connection can drive fixed plate 30 to rotate when second lagging 27 rotates, when the vertical angle of camera body 17 was adjusted, second lagging 27 can slide in the inside of fixed plate 30, can play the effect of continuously being connected with second connecting axle 25, the condition that can not break away from can appear.

The working principle is as follows: when the monitoring device for recognizing the portrait for the building automatic control system is used, when a building image needs to be collected, the image pickup unit 32 can collect image information and transmit the image information to the central processing unit 35, the processed image information can be transmitted to the outside through the wireless transceiver module 36, so that the image is transmitted to a duty room, in the process of collecting the image, the servo motor 22 can drive the first gear 23 to rotate when working, the first gear 23 can drive the second gear 24 to rotate after rotating, the second gear 24 can drive the second connecting shaft 25 to rotate when rotating, and then the second sleeve plate 27 can be driven to rotate, because the second sleeve plate 27 is connected with the camera body 17 through the fixing plate 30, the transverse angle of the camera body 17 can be driven to be adjusted, in the process of adjusting, the supporting rod 14 can slide inside the first sliding groove 13 with the second connecting shaft 25 as a circle center, therefore, the stability of the installation of the camera body 17 during image acquisition can be improved, when the longitudinal angle of the camera body 17 needs to be adjusted, the telescopic cylinder 20 can drive the extrusion plate 21 to move outwards, because the bottom of the extrusion plate 21 is arranged in an inclined manner, and the extrusion plate 21 is tightly attached to the connecting plate 18, when the extrusion plate 21 moves outwards, the extrusion force can be applied to the connecting plate 18, so that the connecting plate 18 drives the camera body 17 to change the angle through the second rotating shaft 16, in the process of angle change, the second sleeve plate 27 can rotate inside the second chute 31 by taking the second rotating shaft 16 as the center of a circle, further, the stability of the installation of the camera body 17 during longitudinal acquisition can be improved, when the telescopic cylinder 20 drives the extrusion plate 21 to reset, the second spring 19 can drive the camera body 17 to reset, when the device is damaged during long-time use, the camera body 17 is manually stretched upwards, after the camera body 17 is stretched upwards, the bottom transverse plate 3 of the camera body 17 keeps a static state, the camera body 17 can drive the second sleeve plate 27 to be disconnected from the second connecting shaft 25, the middle position of the camera body can move upwards through the sleeve 15, due to the nested connection between the sleeve 15 and the supporting rod 14, the sleeve 15 cannot fall off from the supporting rod 14 after moving upwards, then the first connecting shaft 4 is rotated, the first connecting shaft 4 can drive the first connecting rod 6 to change the angle through the first rotating shaft 5 after rotating, the first connecting rod 6 can stretch the second connecting rod 7 outwards after changing the angle, so that the second connecting rod 7 is disconnected from the limiting groove 11, finally, the transverse plate 3 can be stretched outwards, the image acquisition unit can be disconnected from the vertical plate 1, and the camera body 17 can be overhauled and maintained, the difficulty of dismantling is reduced when the installation is stable.

Finally, it should be noted that the above-mentioned contents are only used for illustrating the technical solutions of the present invention, and not for limiting the protection scope of the present invention, and that the simple modifications or equivalent substitutions of the technical solutions of the present invention by those of ordinary skill in the art can be made without departing from the spirit and scope of the technical solutions of the present invention.

Claims

1. The utility model provides a building autonomous system is with supervisory equipment of discernment portrait, includes riser (1), slide (12) and camera body (17), its characterized in that: the side of the vertical plate (1) is provided with a mounting plate (2), a transverse plate (3) is fixed in the middle of the mounting plate (2), the transverse plate (3) is welded with the mounting plate (2), a first connecting shaft (4) penetrates through the transverse plate (3), a first rotating shaft (5) is connected to the end of the first connecting shaft (4), one end of a first connecting rod (6) is arranged on the outer side of the first rotating shaft (5), the other end of the first connecting rod (6) is connected with a second connecting rod (7), a first sleeve plate (8) is nested in the middle of the second connecting rod (7), an object placing groove (9) is formed in the surface of the second connecting rod (7), a first spring (10) is arranged in the object placing groove (9), and the end of the first spring (10) is connected with the second connecting rod (7) in a bonding manner, the inner wall of the vertical plate (1) is provided with a limiting groove (11), the sliding plate (12) is fixed on the upper surface of the transverse plate (3), the upper surface of the sliding plate (12) is provided with a first sliding groove (13), one end of a supporting rod (14) penetrates through the inside of the first sliding groove (13), the other end of the supporting rod (14) is nested with a sleeve (15), and the supporting rod (14) is movably connected with the sleeve (15).

2. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 1, wherein: the camera body (17) is arranged above the sleeve (15), the bottom of the camera body (17) is connected with a second rotating shaft (16), a connecting plate (18) is fixed to the bottom of the camera body (17), a second spring (19) is arranged below the connecting plate (18), a telescopic cylinder (20) is arranged on the outer side of the connecting plate (18), a squeezing plate (21) is connected to the end of the telescopic cylinder (20), a servo motor (22) is installed inside the vertical plate (1), a first gear (23) is connected above the servo motor (22), a second gear (24) is connected to the outer side of the first gear (23), a second connecting shaft (25) is fixed to the middle position of the second gear (24), a limit stop block (26) is fixed to the middle position of the second connecting shaft (25), and the limit stop block (26) and the second connecting shaft (25) are assembled in a welding mode, the outside nested second lagging (27) of sleeve pipe (15), and the inner wall of second lagging (27) is fixed with fixture block (28), and the outer wall of second lagging (27) is fixed with slider (29), the outside nested fixed plate (30) of slider (29), and second spout (31) have been seted up to the inside of fixed plate (30), the end department of camera body (17) is provided with camera unit (32), and the internally mounted of camera body (17) has electric power storage module (33), the outside of electric power storage module (33) is connected with control unit (34), and the outside of control unit (34) is connected with central processing unit (35) to the outside of central processing unit (35) is connected with wireless transceiver module (36).

3. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 1, wherein: the mounting plate (2) is connected with the vertical plate (1) in a clamping mode, and the mounting plate (2) and the transverse plate (3) are arranged in a mutually perpendicular mode.

4. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 1, wherein: the first connecting shaft (4) is symmetrically arranged relative to the axis of the mounting plate (2), and a rotating mounting structure is formed between the first connecting shaft (4) and the first connecting rod (6) through a first rotating shaft (5).

5. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 1, wherein: the second connecting rods (7) are distributed in the mounting plate (2) at equal angles, a sliding mounting structure is formed between the second connecting rods (7) and the mounting plate (2), and the outer diameters of the second connecting rods (7) are the same as the inner diameter of the limiting groove (11).

6. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 1, wherein: a sliding installation structure is formed between the supporting rod (14) and the sliding plate (12) through the first sliding groove (13), the first sliding groove (13) is arranged in an arc shape, and the arc center of the first sliding groove (13) is overlapped with the circle center of the second connecting shaft (25).

7. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 2, wherein: a rotary mounting structure is formed between the sleeve (15) and the camera body (17) through a second rotating shaft (16), and a lifting mounting structure is formed between the sleeve (15) and the supporting rod (14).

8. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 2, wherein: the bottom of the extrusion plate (21) is arranged in an inclined manner, and the bottom of the extrusion plate (21) is tightly attached to the end of the connecting plate (18).

9. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 2, wherein: the second sleeve plate (27) is connected with the second connecting shaft (25) in a clamping mode, and the second sleeve plate (27) and the second connecting shaft (25) are perpendicular to each other.

10. The monitoring device for recognizing the portrait for the building automatic control system as claimed in claim 2, wherein: a sliding installation structure is formed between the second sleeve plate (27) and the fixing plate (30) through a second sliding chute (31), and the arc center of the second sliding chute (31) is superposed with the circle center of the second rotating shaft (16).