CN114710901A - Self-circulation heat dissipation type terminal control device for green building and use method - Google Patents

Abstract

The invention discloses a self-circulation heat dissipation type terminal control device for a green building and a using method of the self-circulation heat dissipation type terminal control device. This terminal control device for self-loopa heat dissipation formula green building is provided with autonomous cycle heat radiation structure and theftproof and prevents destroying the structure, increases the safety protection performance that the device operation was used.

Description

Self-circulation heat dissipation type terminal control device for green building and use method

Technical Field

The invention relates to the technical field of green buildings, in particular to a self-circulation heat dissipation type terminal control device for a green building and a using method.

Background

The theory of environmental protection and energy saving is advocated to green building, use advanced equipment and technique to improve on building construction raw and other materials and building construction mode for environmental protection and energy saving more in the work progress, a lot of green buildings are provided with circuit control structure, for the ease of centralized control, pass through terminal control device unified management with intelligent green building structure, make things convenient for managers to control, but because terminal control device standby operation duration is longer, certain problem still exists in its in-process of using:

1. the terminal control device is standby for a long time, a large amount of heat is distributed in the terminal control device in a centralized manner, and the heat is arranged in the terminal control device in a centralized manner, so that the heat is inconvenient to dissipate, and the safe transmission of signals of a circuit structure in the terminal control device is influenced;

2. the terminal control device does not need long-time control management of staff, and if the condition that maliciously destroys the protective structure and regulates and control the internal circuit structure appears, current terminal control device does not set up theftproof and prevents destroying the structure, and the protectiveness of device application is relatively poor.

Therefore, it is necessary to design a terminal control device for a self-circulation heat dissipation type green building and a using method thereof.

Disclosure of Invention

The invention aims to provide a self-circulation heat dissipation type green building terminal control device and a use method thereof, and aims to solve the problems that the terminal control device is provided in the background technology for standby use for a long time, a large amount of heat is intensively distributed in the terminal control device, the heat is intensively arranged in the device and is inconvenient to dissipate, the safe transmission of internal circuit structure signals of the terminal control device is influenced, the terminal control device does not need long-time control management of workers, and if the internal circuit structure is regulated and controlled by a malicious damage protection structure, the existing terminal control device is not provided with an anti-theft and anti-damage structure, and the application protection performance of the device is poor.

In order to achieve the purpose, the invention provides the following technical scheme: a self-circulation heat dissipation type terminal control device for a green building and a using method thereof comprise a control terminal protection shell, a display, a radiator and a through groove, wherein a mounting seat is installed on the lower surface of the control terminal protection shell, a sealing door plate is rotatably connected to the front side surface of the control terminal protection shell, a transparent observation panel is fixedly embedded in the sealing door plate, the display is fixedly installed in the middle position of the front side of the control terminal protection shell in an embedded manner, a control button is installed on the front side of the control terminal protection shell, the radiator is symmetrically fixed on the left side and the right side of the interior of the control terminal protection shell, a heat transfer module is fixedly penetrated through the side surface of the radiator, a heat absorption plate is installed in the side wall of the heat transfer module in an embedded manner, the through groove is opened in the side walls of the control terminal protection shell and the radiator, and a fixing frame is fixedly installed on the inner side wall of the radiator, and fixed surface installs micromotor on the mount, and simultaneously micromotor's upper end output is connected with the drive and pushes away the line pole, the terminal position corresponds respectively on the lateral wall of heat transfer module and is provided with upper heating panel and lower floor's heating panel, the inside side groove of having seted up of control terminal protective housing's front side, and the inside gomphosis in upper end in side groove installs the camera to the siren is installed to the inside gomphosis in lower extreme in side groove, and the inside intermediate position in side groove has seted up interior caulking groove simultaneously, the inside gomphosis of control terminal protective housing is fixed with the alarm inductor.

Preferably, the outer side surface of the heat transfer module is in a continuous concave-convex structure, and the concave-convex upper surface and the concave-convex lower surface of the heat transfer module are respectively attached to the surfaces of the upper-layer heat dissipation plate and the lower-layer heat dissipation plate.

Preferably, the upper-layer heat dissipation plate is provided with 6 groups of upper and lower parallel intervals, the side surfaces of the 6 groups of upper-layer heat dissipation plates are mutually fixed through a front-side fixing rod piece, and an upper pushing track is fixedly installed on the side surface of the front-side fixing rod piece.

Preferably, the lower-layer heat dissipation plate is provided with 6 groups of heat dissipation plates in an up-down parallel spaced mode, the side faces of the 6 groups of lower-layer heat dissipation plates are fixed to each other through the rear fixing rod piece, and the side face of the rear fixing rod piece is fixedly provided with the lower pushing track.

Preferably, the position of lower floor's heating panel and upper heating panel all transversely corresponds with the position of lining up the groove, and the component structure of lower floor's heating panel and upper heating panel is the same to and crisscross distribution setting from top to bottom between upper heating panel and the lower floor heating panel, and the upper heating panel comprises metal sheet, radiating plate and sealed curb plate, the metal sheet corresponds the laminating and sets up the lateral surface at heat transfer module, the fixed surface that sets up at the metal sheet of radiating plate equidistance slant, sealed curb plate fixed mounting is in the outside position of metal sheet, the equal fixed mounting in side of upper heating panel and lower floor's heating panel has spacing slider, and spacing slider gomphosis sliding connection is in the inside of spacing slide rail to spacing slide rail fixed mounting is on the inside wall of radiator.

Preferably, the sliding grooves are formed in the lower pushing track and the upper pushing track, and the lower pushing track and the upper pushing track are connected with the driving pushing rod in a clamping and sliding mode through the sliding grooves.

Preferably, the inside bilateral symmetry about the embedded groove installs the regulation pole, and the outside cover of adjusting the pole establishes installs adjusting spring to the side of adjusting the pole through the bracing piece with bulldoze ball limit side interconnect.

Preferably, the adjusting rod and the embedded groove form an embedded sliding structure, and the outer side of the adjusting rod is elastically connected with the inner side wall of the embedded groove through an adjusting spring.

Preferably, one end of the support rod and the side of the pushing ball side form a rotating structure, the other end of the support rod and the side of the adjusting rod form a rotating structure, and the side of the adjusting rod and the triggering surface of the alarm sensor correspond to each other.

Preferably, the use method of the terminal control device for the self-circulation heat dissipation type green building comprises the following steps:

step one, heat is primarily conducted and dissipated

The terminal control device generates a large amount of heat in the operation process, the heat is intensively distributed in the control terminal protection shell, and part of the heat is transmitted to the inside of the heat transfer module through the heat absorbing plate, so that the heat in the control terminal protection shell is dissipated to two sides;

step two, the heat is further conducted and dissipated

The outer side of the heat transfer module is of a continuous concave-convex structure, the concave-convex surfaces of the upper layer and the lower layer are respectively attached to the surfaces of the upper-layer heat dissipation plate and the lower-layer heat dissipation plate, and the heat in the heat transfer module is controlled to be transmitted to the upper-layer heat dissipation plate and the lower-layer heat dissipation plate under the attaching action, so that the heat in the heat transfer module is reduced;

step three, controlling the heat to be discharged to the outside of the device

The micro motor is operated to control the driving pushing rod to rotate, two sides of the driving pushing rod are respectively embedded in the upper pushing track and the lower pushing track, the upper pushing track and the lower pushing track are controlled to move left and right when the driving pushing rod is driven to rotate, so that the upper-layer heat dissipation plate and the lower-layer heat dissipation plate are controlled to slide left and right in a staggered mode, the upper-layer heat dissipation plate and the lower-layer heat dissipation plate are controlled to move to the outside of the control terminal protection shell through the through grooves, and heat can be controlled to be discharged outwards;

step four, the device operates the theft-proof

Rotate under the closed state at control seal door plant, if seal door plant suffers maliciously to pry open, seal door plant when rotating away from control terminal protective housing front side, adjust the elastic thrust effect of pole down outside and slide the removal this moment, the bracing piece both ends rotate, it promotes the pushing ball and moves to the front side, adjust pole and alarm inductor trigger end surface alternate segregation this moment, alarm inductor control camera and siren move simultaneously, realize the theftproof function of device.

Compared with the prior art, the invention has the beneficial effects that: the self-circulation heat dissipation type green building terminal control device and the use method thereof specifically comprise the following contents:

1. the self-circulation heat dissipation type green building terminal control device and the use method thereof are provided with a self-circulation heat dissipation structure, heat running inside a control terminal protection shell is transmitted to the inside of a heat transfer module through a heat absorption plate, the concave-convex surface of the side edge of the heat transfer module is provided with an upper layer heat dissipation plate and a lower layer heat dissipation plate in a fit mode, the heat conduction is completed under the attaching action, the micro motor is operated to control and drive the pushing rod to rotate, in the process of driving the pushing rod to rotate and push the upper pushing track and the lower pushing track, the upper-layer heat dissipation plate and the lower-layer heat dissipation plate are controlled to move outwards in a circulating mode in sequence and are controlled to move to the outside of the control terminal protection shell, heat is discharged outwards, the heat in the terminal control device is quickly controlled to be dissipated outwards through the circulating moving structure, the heat dissipation effect of the device is good, and the safe operation and use of the internal circuit structure of the terminal control device are kept;

2. this self-loopa heat dissipation formula terminal control device for green building and application method, be provided with the theftproof control structure, when sealing door plant receives the condition of malice destruction, this moment under adjusting spring's elastic thrust effect, the control is adjusted the pole and is moved to the side, the bracing piece promotes bulldozes the ball and removes to the front side, it keeps away from with alarm inductor trigger end to adjust the pole, alarm inductor control camera and siren move simultaneously, realize the autonomic theftproof anti-destruction effect that the device used, improve the device and use safety protection performance.

Drawings

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

FIG. 2 is a schematic view of the structure of the sealing door panel in a rotating open state according to the present invention;

FIG. 3 is a schematic cross-sectional structural view of a protective housing of the control terminal according to the present invention;

FIG. 4 is a schematic view of the upper heat dissipation plate of the present invention;

FIG. 5 is a schematic side view of the upper heat sink and the lower heat sink of the present invention;

FIG. 6 is a schematic side view of a limiting slide rail and a limiting slide block according to the present invention;

FIG. 7 is a schematic structural diagram of an elevation of an upper push rail and a lower push rail according to the present invention;

FIG. 8 is a schematic view of the driving pushing rod in elevation view according to the present invention;

FIG. 9 is a front view of the pushing ball of the present invention;

FIG. 10 is a schematic side view of a push ball according to the present invention.

In the figure: 1. a control terminal protective housing; 2. a mounting seat; 3. a sealing door panel; 4. a transparent viewing panel; 5. a display; 6. a control button; 7. a heat sink; 8. a heat transfer module; 9. a heat absorbing plate; 10. a through groove; 11. a fixed mount; 12. a micro motor; 13. driving the push rod; 14. an upper heat dissipation plate; 141. a metal plate; 142. a heat sink sheet; 143. sealing the side plate; 15. a lower heat dissipation plate; 16. a front side fixing rod piece; 17. pushing the rail upwards; 18. a rod piece is fixed at the rear side; 19. pushing the rail downwards; 20. a chute; 21. a limiting slide rail; 22. a limiting slide block; 23. a side groove; 24. a camera; 25. an alarm; 26. an embedded groove is formed; 27. adjusting a rod; 28. adjusting the spring; 29. a support bar; 30. pushing the ball; 31. an alarm sensor.

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. 1-10, a self-circulation heat dissipation type terminal control device for green buildings and a using method thereof, including a control terminal protective housing 1, a display 5, a heat sink 7 and a through groove 10, in order to improve the self-heat dissipation effect of the terminal control device, a mounting seat 2 is installed on the lower surface of the control terminal protective housing 1, and the front side of the control terminal protective housing 1 is rotatably connected with a sealing door plate 3, and a transparent observation panel 4 is fixedly embedded inside the sealing door plate 3, the display 5 is fixedly embedded in the middle position of the front side of the control terminal protective housing 1, and a control button 6 is installed on the front side of the control terminal protective housing 1, the heat sink 7 is symmetrically fixed on the left and right sides inside the control terminal protective housing 1, and a heat transfer module 8 is fixedly penetrated through the side of the heat sink 7, and a heat absorption plate 9 is embedded inside the side wall of the heat transfer module 8, the through groove 10 is arranged inside the side walls of the control terminal protective shell 1 and the radiator 7, the inner side wall of the radiator 7 is fixedly provided with a fixed frame 11, and the upper surface of the fixed mount 11 is fixedly provided with a micro motor 12, and the output end of the upper end of the micro motor 12 is connected with a driving pushing rod 13, an upper-layer heat dissipation plate 14 and a lower-layer heat dissipation plate 15 are respectively and correspondingly arranged at the upper and lower end positions of the side wall of the heat transfer module 8, a side groove 23 is arranged inside the front side of the control terminal protection shell 1, a camera 24 is embedded and installed inside the upper end of the side groove 23, an alarm 25 is embedded and installed in the lower end of the side groove 23, an embedded groove 26 is arranged in the middle of the side groove 23, an alarm sensor 31 is fitted and fixed in the control terminal protective case 1, and the rapid heat radiation function to the device is realized by the upper heat radiation plate 14 and the lower heat radiation plate 15.

Referring to fig. 1 to 8, in order to drive the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 to assist in heat dissipation, the outer side surface of the heat transfer module 8 is in a continuous concave-convex structure, and the concave-convex upper and lower surfaces of the heat transfer module 8 are respectively attached to the surfaces of the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15; the upper-layer heat dissipation plates 14 are arranged in 6 groups at intervals in an up-down parallel mode, the side faces of the 6 groups of upper-layer heat dissipation plates 14 are mutually fixed through front side fixing rod pieces 16, and the side faces of the front side fixing rod pieces 16 are fixedly provided with upper pushing rails 17; the lower-layer heat dissipation plates 15 are arranged in 6 groups at intervals in an up-down parallel manner, the side surfaces of the 6 groups of lower-layer heat dissipation plates 15 are mutually fixed through rear fixing rod pieces 18, and the side surfaces of the rear fixing rod pieces 18 are fixedly provided with lower pushing rails 19; the positions of the lower-layer heat dissipation plate 15 and the upper-layer heat dissipation plate 14 are both transversely corresponding to the position of the through groove 10, the composition structures of the lower-layer heat dissipation plate 15 and the upper-layer heat dissipation plate 14 are the same, the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 14 are arranged in a vertically staggered manner, the upper-layer heat dissipation plate 14 is composed of a metal plate 141, a heat dissipation plate sheet 142 and a sealing side plate 143, the metal plate 141 is correspondingly attached to the outer side face of the heat transfer module 8, the heat dissipation plate sheet 142 is obliquely and fixedly arranged on the surface of the metal plate 141 at equal intervals, the sealing side plate 143 is fixedly arranged at the outer side position of the metal plate 141, the limiting sliding blocks 22 are fixedly arranged on the side faces of the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15, the limiting sliding blocks 22 are embedded in the limiting sliding rails 21, and the limiting sliding rails 21 are fixedly arranged on the inner side walls of the radiator 7; the lower pushing track 19 and the upper pushing track 17 are both internally provided with a sliding chute 20, and the lower pushing track 19 and the upper pushing track 17 are both internally clamped and slidably connected with the driving pushing rod 13 through the sliding chute 20;

referring to fig. 1-2 and 9-10, in order to increase the anti-tamper performance of the terminal control device, adjusting rods 27 are symmetrically installed at the upper and lower sides of the interior of the embedded groove 26, an adjusting spring 28 is sleeved outside the adjusting rod 27, and the side surfaces of the adjusting rod 27 are connected with the sides of the pushing balls 30 through a supporting rod 29; the adjusting rod 27 and the embedded groove 26 form an embedded sliding structure, and the outer side of the adjusting rod 27 is elastically connected with the inner side wall of the embedded groove 26 through an adjusting spring 28; one end of the support bar 29 and the side of the push ball 30 form a rotating structure, the other end of the support bar 29 and the side of the adjusting bar 27 form a rotating structure, and the side of the adjusting bar 27 corresponds to the triggering surface of the alarm sensor 31;

a use method of a self-circulation heat dissipation type terminal control device for a green building comprises the following steps:

step one, heat is primarily conducted and dissipated

The terminal control device generates a large amount of heat in the operation process, the heat is intensively distributed in the control terminal protection shell 1, and part of the heat is transmitted to the inside of the heat transfer module 8 through the heat absorbing plate 9, so that the heat in the control terminal protection shell 1 is dissipated to two sides;

step two, the heat is further conducted and dissipated

The outer side surface of the heat transfer module 8 is of a continuous concave-convex structure, the concave-convex surfaces of the upper layer and the lower layer are respectively attached to the surfaces of the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15, and the heat in the heat transfer module 8 is controlled to be transmitted to the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 under the attaching action, so that the heat in the heat transfer module 8 is reduced;

step three, controlling the heat to be discharged to the outside of the device

The micro motor 12 is operated to control the driving pushing rod 13 to rotate, two sides of the driving pushing rod 13 are respectively embedded in the upper pushing rail 17 and the lower pushing rail 19, the upper pushing rail 17 and the lower pushing rail 19 are controlled to move left and right when the driving pushing rod 13 rotates, so that the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 are controlled to slide left and right in a staggered mode, the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 are controlled to move to the outside of the control terminal protection shell 1 through the through groove 10, and heat can be controlled to be dissipated outwards;

step four, the device operates the theft-proof

Under control sealing door plant 3 rotates closed state, if sealing door plant 3 suffers maliciously to prize open, sealing door plant 3 is when rotating and keeping away from control terminal protective housing 1 front side, adjust the elastic thrust effect of pole 27's regulating spring 28 outside under the outside and slide the removal this moment, bracing piece 29 both ends are rotated, it promotes the removal of pushing ball 30 to the front side, adjust pole 27 and alarm inductor 31 and trigger end surface alternate segregation this moment, alarm inductor 31 controls camera 24 and alarm 25 simultaneous operation, realize the theftproof function of device.

The working principle is as follows: according to the structure shown in fig. 1-8, firstly, the device is installed and limited through the installation base 2, in the using process, along with the increase of the operation time of the terminal control device, the heat inside the control terminal protection shell 1 is concentrated more and more, the heat is distributed inside the control terminal protection shell 1, under the heat conduction and absorption action of the heat absorption plate 9, most of the heat inside the control terminal protection shell 1 is transmitted into the heat transfer module 8, the concave-convex surface of the side edge of the heat transfer module 8 is respectively jointed with the surfaces of the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15, the heat inside the heat transfer module 8 is transmitted to the surfaces of the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15, the operation micro motor 12 controls the driving push rod 13 to rotate in a reciprocating manner, the upper end and the lower end of the driving push rod 13 are respectively embedded and arranged inside the upper push track 17 and the lower push track 19, the upper pushing track 17 and the lower pushing track 19 are pushed to reciprocate horizontally in the rotating process, the upper pushing track 17 is fixedly connected with an upper-layer heat dissipation plate 14 through a front-side fixing rod 16, the lower pushing track 19 is fixedly connected with a lower-layer heat dissipation plate 15 through a rear-side fixing rod 18, the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 can be controlled to circularly and alternately move horizontally in the driving process through a transmission structure, the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 move out of the control terminal protection shell 1 through a through groove 10, heat is dissipated outwards, the upper-layer heat dissipation plate 14 and the lower-layer heat dissipation plate 15 are controlled to circularly and alternately slide horizontally for heat dissipation, the heat in the terminal control device can be quickly reduced, and the internal circuit structure of the device is kept to operate safely;

according to the structure shown in fig. 1-2 and fig. 9-10, when the sealing door panel 3 is rotatably closed and arranged at the front side of the control terminal protective shell 1, the sealing door panel 3 presses the push ball 30 towards the rear side, the push ball 30 controls the support rods 29 at both sides to rotate, the support rods 29 push the adjusting rods 27 to slide towards the inner caulking groove 26, the adjusting rods 27 compress the adjusting springs 28 towards the side surface, the side surfaces of the adjusting rods 27 are arranged at the side surface triggering sensing end position of the alarm sensor 31 in a pressing manner, the alarm sensor 31 is in a running state, when the sealing door panel 3 is damaged maliciously by the outside, the sealing door panel 3 is controlled by the rotation principle to control the terminal protective shell 1, the adjusting rods 27 slide towards the outside under the elastic thrust of the adjusting springs 28 and push the support rods 29 to rotate correspondingly, the support rods 29 control the push ball 30 to move towards the front side, the side surfaces of the adjusting rods 27 are separated from the side surfaces of the alarm sensor 31, the alarm sensor 31 controls the camera 24 and the alarm 25 to operate synchronously, so as to achieve the anti-theft and anti-damage performance of the device application, and increase the protection performance of the device application.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a self-loopa heat dissipation formula terminal control device for green building, includes control terminal protective housing (1), display (5), radiator (7) and link up groove (10), its characterized in that: the lower surface of the control terminal protection shell (1) is provided with a mounting seat (2), the front side surface of the control terminal protection shell (1) is rotatably connected with a sealing door panel (3), a transparent observation panel (4) is fixedly embedded in the sealing door panel (3), the display (5) is fixedly embedded in the middle of the front side of the control terminal protection shell (1), a control button (6) is arranged on the front side of the control terminal protection shell (1), the radiators (7) are symmetrically fixed on the left side and the right side of the interior of the control terminal protection shell (1), the side surfaces of the radiators (7) are fixedly penetrated with heat transfer modules (8), heat absorbing plates (9) are embedded in the side walls of the heat transfer modules (8), and the through grooves (10) are arranged in the side walls of the control terminal protection shell (1) and the radiators (7), and the inside wall fixed mounting of radiator (7) has mount (11) to fixed surface installs micro motor (12) on mount (11), and the upper end output of micro motor (12) is connected with drive ejector pin (13) simultaneously, the position corresponds respectively on the lateral wall of heat transfer module (8) and is provided with upper heating panel (14) and lower floor heating panel (15), side groove (23) have been seted up to the front side of control terminal protective housing (1) inside, and the inside gomphosis in upper end of side groove (23) installs camera (24) to siren (25) are installed to the inside gomphosis of lower extreme of side groove (23), and interior gomphosis (26) have been seted up to the inside intermediate position of side groove (23) simultaneously, the inside gomphosis of control terminal protective housing (1) is fixed with alarm inductor (31).

2. The terminal control device for the self-circulation heat dissipation type green building of claim 1, wherein: the outer side surface of the heat transfer module (8) is of a continuous concave-convex structure, and the concave-convex upper surface and the concave-convex lower surface of the heat transfer module (8) are respectively attached to the surfaces of the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15).

3. The terminal control device for the self-circulation heat dissipation type green building as recited in claim 2, wherein: the upper-layer heat dissipation plate (14) is arranged in 6 groups at intervals in parallel up and down, the side faces of the 6 groups of upper-layer heat dissipation plates (14) are fixed with each other through front side fixing rod pieces (16), and an upper pushing track (17) is fixedly installed on the side face of each front side fixing rod piece (16).

4. The terminal control device for the self-circulation heat dissipation type green building as recited in claim 2, wherein: the lower-layer heat dissipation plate (15) is arranged in 6 groups at intervals in an up-down parallel mode, the side faces of the 6 groups of lower-layer heat dissipation plates (15) are fixed to each other through rear side fixing rod pieces (18), and lower pushing tracks (19) are fixedly mounted on the side faces of the rear side fixing rod pieces (18).

5. The terminal control device for the self-circulation heat dissipation type green building of claim 4, wherein: the positions of the lower-layer heat dissipation plate (15) and the upper-layer heat dissipation plate (14) are transversely corresponding to the position of the through groove (10), the lower-layer heat dissipation plate (15) and the upper-layer heat dissipation plate (14) are identical in composition structure, the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15) are arranged in a vertically staggered manner, the upper-layer heat dissipation plate (14) is composed of a metal plate (141), a heat dissipation plate sheet (142) and a sealing side plate (143), the metal plate (141) is correspondingly attached to the outer side surface of the heat transfer module (8), the heat dissipation plate sheet (142) is obliquely and fixedly arranged on the surface of the metal plate (141) at equal intervals, the sealing side plate (143) is fixedly arranged at the outer side position of the metal plate (141), limiting sliders (22) are fixedly arranged on the side surfaces of the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15), and the limiting sliders (22) are embedded and slidably connected inside the limiting slide rails (21), and the limiting slide rail (21) is fixedly arranged on the inner side wall of the radiator (7).

6. The terminal control device for the self-circulation heat dissipation type green building of claim 4, wherein: the inside of lower propelling movement track (19) and last propelling movement track (17) has all been seted up spout (20), and the inside of lower propelling movement track (19) and last propelling movement track (17) all through spout (20) and drive ejector pin (13) block sliding connection.

7. The terminal control device for the self-circulation heat dissipation type green building of claim 1, wherein: adjusting rods (27) are symmetrically arranged on the upper side and the lower side of the inner portion of the inner embedded groove (26), adjusting springs (28) are sleeved on the outer portions of the adjusting rods (27), and the side faces of the adjusting rods (27) are connected with the side edges of the pushing balls (30) through supporting rods (29).

8. The terminal control device for the self-circulation heat dissipation type green building of claim 7, wherein: the adjusting rod (27) and the inner embedding groove (26) form an embedded sliding structure, and the outer side of the adjusting rod (27) is elastically connected with the inner side wall of the inner embedding groove (26) through an adjusting spring (28).

9. The terminal control device for the self-circulation heat dissipation type green building of claim 7, wherein: one end of the supporting rod (29) and the side of the pushing ball (30) form a rotating structure, the other end of the supporting rod (29) and the side of the adjusting rod (27) form a rotating structure, and the side of the adjusting rod (27) corresponds to the triggering surface of the alarm sensor (31).

10. The use method of the terminal control device for the self-circulation heat dissipation type green building as claimed in claim 1, comprising the following steps:

step one, heat is primarily conducted and dissipated

The terminal control device generates a large amount of heat in the operation process, the heat is intensively distributed in the control terminal protection shell (1), and part of the heat is transmitted to the inside of the heat transfer module (8) through the heat absorbing plate (9), so that the heat in the control terminal protection shell (1) is dissipated to two sides;

step two, the heat is further conducted and dissipated

The outer side surface of the heat transfer module (8) is of a continuous concave-convex structure, the concave-convex surfaces of the upper part and the lower part are respectively jointed with the surfaces of the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15), and the heat in the heat transfer module (8) is controlled to be transmitted to the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15) under the jointing action, so that the heat in the heat transfer module (8) is reduced;

step three, controlling the heat to be discharged to the outside of the device

The micro motor (12) is operated to control the driving pushing rod (13) to rotate, two sides of the driving pushing rod (13) are respectively embedded inside the upper pushing track (17) and the lower pushing track (19), the upper pushing track (17) and the lower pushing track (19) are controlled to move left and right when the driving pushing rod (13) rotates, so that the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15) are controlled to slide left and right in a staggered mode, the upper-layer heat dissipation plate (14) and the lower-layer heat dissipation plate (15) are controlled to move to the outside of the control terminal protection shell (1) through the through groove (10), and heat can be controlled to be dissipated outwards;

step four, the device operates the theft-proof

Under control sealing door board (3) rotate the closed state, if sealing door board (3) suffer maliciously to prize open, sealing door board (3) are when rotating and keeping away from control terminal protective housing (1) front side, adjust the elastic thrust effect of regulating spring (28) of pole (27) outside under this moment and slide the removal, bracing piece (29) both ends are rotated, it promotes to push away presses ball (30) to the side movement that makes progress, adjust pole (27) and alarm inductor (31) trigger end surface alternate segregation this moment, alarm inductor (31) control camera (24) and alarm (25) simultaneous operation, realize the theftproof function of device.

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