CN109324517B - Intelligent household control system based on server load balancing method - Google Patents

Abstract

The invention discloses an intelligent household control system based on a server load balancing method, which structurally comprises a household system control host, a first connecting jack, a control state display lamp, a second connecting jack and a wireless control signal rod, wherein the first connecting jack is arranged on the front side surface of the household system control host and is tightly connected with the interior of the household system control host, the control state display lamp is embedded and connected with the household system control host, the control state display lamp is in interference fit connection with the household system control host, 4 control state display lamps are arranged on the same plane, the second connecting jack is arranged on the right side of the control state display lamp and is connected with the interior of the household system control host, the intelligent household control system can automatically detect the temperature condition of an intelligent household controller by arranging an automatic host heat dissipation mechanism, and automatically performs fan cooling when the temperature rises, the protection to equipment is facilitated, the service life is prolonged, and meanwhile, the safety is higher.

Description

Intelligent household control system based on server load balancing method

Technical Field

The invention relates to the field of intelligent home control systems, in particular to an intelligent home control system based on a server load balancing method.

Background

The intelligent home is characterized in that a home is taken as a platform, facilities related to home life are integrated by utilizing a comprehensive wiring technology, a network communication technology, a safety precaution technology, an automatic control technology and an audio and video technology, an efficient management system of home facilities and family schedule affairs is constructed, the home safety, the convenience, the comfort and the artistry are improved, and the environment-friendly and energy-saving living environment is realized. The input mode is selectable, the +12V power output is provided, the security probe including smoke, gas, door magnetism, infrared and seeking help can be directly accessed, and the access of the water-electricity-coal three-meter is very convenient;

however, when the intelligent home control system based on the server load balancing method in the prior art is used for a long time, the internal temperature of the intelligent home controller is easy to rise, the service life is easy to shorten, and even the controller and other equipment are damaged due to overhigh temperature, so that certain potential safety hazards exist.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an intelligent home control system based on a load balancing method of a server.

The invention is realized by adopting the following technical scheme: the intelligent household control system structurally comprises a household system control host, a first connecting jack, a control state display lamp, a second connecting jack and a wireless control signal rod, wherein the first connecting jack is arranged on the front side surface of the household system control host and is tightly connected with the inside of the household system control host, the control state display lamp is connected to the household system control host in an embedded mode, the control state display lamp is connected with the household system control host in an interference fit mode, 4 control state display lamps are arranged and are arranged on the same plane, the second connecting jack is arranged on the right side of the control state display lamp and is connected with the inside of the household system control host, one end of the bottom of the wireless control signal rod is connected with the household system control host through a connecting hole with threads, and the household system control host is provided with an automatic host heat dissipation mechanism, The automatic heat dissipation mechanism of the host is arranged in the control host of the home system and is tightly connected with the control host module body.

As an optimization, the automatic heat dissipation mechanism of the host machine consists of a temperature induction starting device, an electromagnetic coil pushing device, a protective shell, a heat dissipation circuit connecting mechanism, a heat dissipation starting motor and a rotary heat dissipation fan group, wherein the temperature induction starting device is arranged in the protective shell, and is arranged on the control host module body, the temperature induction starting device is connected with the electromagnetic coil pushing device through a circuit connecting wire, the electromagnetic coil pushing device is arranged on the control host module body, one end of the right side of the electromagnetic coil pushing device is connected with the protective shell, the protective shell is connected to the left upper part of the heat dissipation starting motor, and is arranged above the inner part of the protective shell, one end of the right side of the heat dissipation starting motor is embedded into the inner part above the rotary heat dissipation fan set, the heat dissipation starting motor is connected with the rotary heat dissipation fan set in an interference fit mode, and the rotary heat dissipation fan set is arranged on the right side inside the protective shell.

Preferably, the temperature sensing starting device comprises a heat conducting block, a temperature sensing device, a connecting contact and a current connecting line, the heat conducting block is arranged above the control host module body, one end of the bottom of the temperature sensing device is tightly connected with the heat conducting block, one end of the connecting contact is tightly connected with the inside of the temperature sensing device, and the other end of the connecting contact is connected with the electromagnetic coil pushing device through the current connecting line.

As an optimization, the electromagnetic coil pushing device is composed of an electromagnetic coil group, a fixed vertical rod, a recovery spring, a transverse sliding track, a first push rod, a second push rod, a transverse push rod and an attraction magnetic block, the electromagnetic coil group is connected to the fixed vertical rod and connected with a temperature sensing starting device, one end of the left side of the recovery spring is connected with the fixed vertical rod, one end of the right side of the recovery spring is connected with the transverse push rod, one end of the bottom of the transverse push rod is nested on the transverse sliding track, the transverse sliding track is screwed and connected above a control host module body through a nut, the attraction magnetic block is embedded and connected inside the transverse push rod and assembled on the same plane with the electromagnetic coil, one end of the left side of the first push rod is screwed and connected with the transverse push rod through a nut and is mutually vertical, one end of the, and one end of the right side of the second push rod is connected with the heat dissipation circuit connecting mechanism.

As optimization, heat dissipation circuit coupling mechanism includes the spacing box of circuit, external power cord, movable contact head, contact removal push rod, coupling spring, horizontal sliding rod, fixed contact, inside the spacing box of circuit was located in proper order to movable contact head and fixed contact, external power cord passed protective housing and is connected with movable contact head, contact removal push rod top one end is passed horizontal sliding rod and is connected with movable contact head, contact removal push rod and horizontal sliding rod mutually perpendicular, contact removal push rod bottom one end is connected with heat dissipation circuit coupling mechanism, coupling spring connects in horizontal sliding rod below, fixed contact is connected with heat dissipation starter motor through the circuit connection line.

As the optimization, heat dissipation starter motor is equipped with motor fixed bolster, motor power connecting wire, motor connection pivot, motor fixed bolster left side one end is screwed and control host module side edge on the surface through the bolt, heat dissipation starter motor screws and motor fixed bolster top through the bolt, the motor is connected pivot left side one end and is inserted and connect inside heat dissipation starter motor to lock the connection through the buckle, motor connection pivot one end with rotate radiator fan group top one end nested connection, the motor is connected the pivot and is connected for interference fit with rotating radiator fan group.

As optimizing, it comprises last connecting gear, gear drive strip, lower connecting gear, fan pivot, flabellum connector, heat dissipation flabellum, heat dissipation mounting to rotate radiator fan group, go up connecting gear intermediate junction and have the perforation, should perforate and be the integrated into one piece structure with last connecting gear, go up connecting gear through this perforation and heat dissipation starter motor nested connection, gear drive strip top one end nestification is in last connecting gear surface, gear drive strip bottom one end nestification is on connecting gear surface down, connecting gear and fan pivot nested connection down, connecting gear is connected for interference fit with the fan pivot down.

As optimization, fan shaft and flabellum connector pass through buckle locking connection, the flabellum connector is located inside the centre of heat dissipation mounting, heat dissipation flabellum is equipped with 4 to use the flabellum connector to evenly disperse as the center, heat dissipation flabellum is integrated into one piece structure with heat dissipation mounting, heat dissipation mounting upper portion one end is connected with heat dissipation starter motor, heat dissipation mounting bottom one end is screwed through nut and protecting sheathing and is connected.

Advantageous effects

The invention provides a scheme of an intelligent household control system based on a server load balancing method, when in use, if the temperature of a control host module body rises due to long-time work, a temperature induction starting device connected with the control host module body can send out a higher current signal through the change of the temperature, because the temperature induction starting device comprises a heat conduction block, a temperature sensing device, a connection contact and a current connecting wire, the heat conduction block is arranged above the control host module body, one end of the bottom of the temperature sensing device is tightly connected with the heat conduction block, one end of the connection contact is tightly connected with the inside of the temperature sensing device, the other end of the connection contact is connected with an electromagnetic coil pushing device through the current connecting wire, the temperature sensing device conducts a higher current into the electromagnetic coil pushing device through the connection contact, and because the electromagnetic coil pushing device is composed of an electromagnetic coil group, The electromagnetic coil group is connected to the fixed vertical rod and is connected with the temperature induction starting device, the left end of the recovery spring is connected with the fixed vertical rod, the right end of the recovery spring is connected with the transverse push rod, one end of the bottom of the transverse push rod is nested on the transverse slide rail, the transverse slide rail is connected above the control host module body through a nut in a screwing manner, the attraction magnetic block is embedded and connected inside the transverse push rod and is arranged on the same plane with the electromagnetic coil group, one end of the left side of the first push rod is connected with the transverse push rod through a nut in a screwing manner and is vertical to each other, one end of the right side of the first push rod is connected with the second push rod through a nut, one end of the right side of the second push rod is connected with the heat dissipation circuit connecting mechanism, and then the electromagnetic coil group receiving current forms a powerful electromagnetic, the attraction magnetic block is pushed away towards the right side, the transverse push rod connected with the attraction magnetic block moves towards the right side along the transverse sliding rail at the same time, and the contact moving push rod in the heat dissipation circuit connecting mechanism moves through the first push rod and the second push rod, because the heat dissipation circuit connecting mechanism comprises a circuit limiting box, an external power wire, a movable contact head, a contact moving push rod, a connecting spring, a transverse sliding rod and a fixed contact, the movable contact head and the fixed contact are sequentially arranged in the circuit limiting box, the external power wire penetrates through a protective shell to be connected with the movable contact head, one end of the top of the contact moving push rod penetrates through the transverse sliding rod to be connected with the movable contact head, the contact moving push rod and the transverse sliding rod are mutually vertical, one end of the bottom of the contact moving push rod is connected with the heat dissipation circuit connecting mechanism, the connecting spring is connected below the transverse sliding rod, and the, the contact moving push rod pushed at the moment moves the movable contact head towards the right side along the transverse sliding track and is closely attached to the fixed contact head face to face, so that an external power line sequentially conducts a main power supply from the movable contact head to the fixed contact head, a motor power supply connecting wire and a heat dissipation starting motor, the heat dissipation starting motor is started and drives a motor connecting rotating shaft to rotate, the motor connecting rotating shaft is connected with a rotating heat dissipation fan set, the rotating heat dissipation fan set consists of an upper connecting gear, a gear transmission strip, a lower connecting gear, a fan rotating shaft, a fan blade connector, a heat dissipation fan blade and a heat dissipation fixing piece, a perforation is connected in the middle of the upper connecting gear and is in an integrated structure with the upper connecting gear, the upper connecting gear is nested with the heat dissipation starting motor through the perforation, one end of the top of the gear transmission strip is nested on the outer surface of the upper connecting gear, one end, lower connecting gear and fan pivot nested joint, lower connecting gear is connected for interference fit with the fan pivot, the fan pivot passes through buckle locking with the flabellum connector and is connected, the flabellum connector is located the inside centre of heat dissipation mounting, the heat dissipation flabellum is equipped with 4, and use the flabellum connector to evenly disperse as the center, the heat dissipation flabellum is integrated into one piece structure with heat dissipation mounting, heat dissipation mounting upper portion one end is connected with the heat dissipation starting motor, heat dissipation mounting bottom one end is screwed with protective housing through the nut and is connected, under the motor connecting shaft drive of heat dissipation starting motor, go up connecting gear, gear drive strip, lower connecting gear, the fan pivot rotates in proper order, and the fan pivot then drives flabellum connector and heat dissipation flabellum, in play radiating effect to the main control unit.

Compared with the prior art, the invention has the beneficial effects that: through being equipped with the temperature condition that the automatic heat dissipation mechanism of host computer can automated inspection intelligent house controller, carry out the fan cooling automatically when the temperature risees, be favorable to the protection to equipment, increase of service life, also safer simultaneously.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of an intelligent home control system of a server-based load balancing method according to the present invention.

Fig. 2 is a schematic structural diagram of the automatic heat dissipation mechanism of the host machine of the present invention.

Fig. 3 is an enlarged schematic structural view of the automatic heat dissipation mechanism of the host machine of the present invention.

Fig. 4 is an enlarged schematic structural view of the solenoid coil driving device of the present invention.

Fig. 5 is an enlarged schematic structural diagram of the heat dissipating circuit connecting mechanism of the present invention.

Fig. 6 is a schematic structural view of the automatic heat dissipation mechanism of the host machine according to the present invention.

In the figure: a household system control host 1, a first connecting jack 2, a control state display lamp 3, a second connecting jack 4, a wireless control signal rod 5, a host automatic heat dissipation mechanism 10, a control host module body 11, a temperature sensing starting device 100, an electromagnetic coil pushing device 101, a protective shell 102, a heat dissipation circuit connecting mechanism 103, a heat dissipation starting motor 104, a rotary heat dissipation fan set 105, a heat conduction block 1001, a temperature sensing device 1002, a connection contact 1003, a current connecting wire 1004, an electromagnetic coil set 1011, a fixed vertical rod 1012, a restoring spring 1013, a transverse sliding rail 1014, a first push rod 1015, a second push rod 1016, a transverse push rod 1017, an attraction magnetic block 1018, a circuit limit box 1031, an external power wire 1032, a movable contact 1033, a contact movable push rod 1034, a connection spring 1035, a transverse sliding rod 1036, a fixed contact 1037, a motor fixing bracket 1041, a motor power connecting wire 1042, a circuit, The fan comprises a motor connecting rotating shaft 1043, an upper connecting gear 1051, a gear transmission strip 1052, a lower connecting gear 1053, a fan rotating shaft 1054, a fan blade connector 1055, a heat dissipation fan blade 1056 and a heat dissipation fixing piece 1057.

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 to 6, the present invention provides a technical solution of an intelligent home control system based on a server load balancing method: including house system control host computer 1, first connection jack 2, control state display lamp 3, second connecting jack 4, wireless control signal pole 5, first connection jack 2 is located the face of house system control host computer 1 front side to with the inside zonulae occludens of house system control host computer 1, control state display lamp 3 embedding is connected on house system control host computer 1, control state display lamp 3 is interference fit with house system control host computer 1 and is connected, control state display lamp 3 is equipped with 4 to locate on the coplanar, second connecting jack 4 is located control state display lamp 3 right side, and is connected with house system control host computer 1 is inside, wireless control signal pole 5 bottom one end is connected through screwing with house system control host computer 1 through the connecting hole that has the screw thread, house system control host computer 1 is equipped with host computer automatic heat dissipation mechanism 10, The control host module body 11, the control host module body 11 is arranged inside the home system control host 1, the host automatic heat dissipation mechanism 10 is arranged inside the home system control host 1 and is tightly connected with the control host module body 11, the host automatic heat dissipation mechanism 10 is composed of a temperature sensing starting device 100, an electromagnetic coil pushing device 101, a protective shell 102, a heat dissipation circuit connecting mechanism 103, a heat dissipation starting motor 104 and a rotary heat dissipation fan set 105, the temperature sensing starting device 100 is arranged inside the protective shell 102 and is arranged on the control host module body 11, the temperature sensing starting device 100 is connected with the electromagnetic coil pushing device 101 through a circuit connecting wire, the electromagnetic coil pushing device 101 is arranged on the control host module body 11, one end of the right side of the electromagnetic coil pushing device 101 is connected with the protective shell 102, the protective shell 102 is connected to the upper left of the heat dissipation starting motor 104, and locate inside top of protecting sheathing 102, the inside of the right side one end embedding of heat dissipation starting motor 104 rotates radiator fan group 105, heat dissipation starting motor 104 and rotation radiator fan group 105 are interference fit and are connected, it locates inside right side of protecting sheathing 102 to rotate radiator fan group 105, temperature-sensing starting drive 100 includes heat conduction piece 1001, temperature sensing device 1002, connection contact 1003, electric current connecting wire 1004, heat conduction piece 1001 locates the top of control host module body 11, one end and heat conduction piece zonulae occludens in the bottom of temperature sensing device 1002, one end and the inside zonulae occludens of connection contact 1003 and temperature sensing device 1002, the other end of connection contact 1003 is connected with solenoid thrust unit 101 through electric current connecting wire 1004, solenoid thrust unit 101 is by solenoid group 1011, fixed montant 1012, restoring spring 1013, current connecting wire 1004, The temperature sensing starting device comprises a transverse sliding rail 1014, a first push rod 1015, a second push rod 1016, a transverse push rod 1017 and an attraction magnetic block 1018, wherein the electromagnetic coil group 1011 is connected to a fixed vertical rod 1012 and connected to the temperature sensing starting device 100, one end of the left side of the recovery spring 1013 is connected to the fixed vertical rod 1012, one end of the right side of the recovery spring 1013 is connected to the transverse push rod 1017, one end of the bottom of the transverse push rod 1017 is nested on the transverse sliding rail 1014, the transverse sliding rail 1014 is screwed and connected to the upper part of the control host module body 11 through a nut, the attraction magnetic block 1018 is embedded and connected to the inside of the transverse push rod 1017 and arranged on the same plane with the electromagnetic coil group 1011, one end of the left side of the first push rod 1015 is screwed and connected to the transverse push rod 1017 through a nut and is perpendicular to each other, one end of the right side of the first push rod 1015 is, the heat dissipation circuit connection mechanism 103 includes a circuit limiting box 1031, an external power line 1032, a movable contact 1033, a contact moving push bar 1034, a connection spring 1035, a transverse sliding bar 1036, and a fixed contact 1037, wherein the movable contact 1033 and the fixed contact 1037 are sequentially disposed inside the circuit limiting box 1031, the external power line 1032 passes through the protective housing 102 and is connected with the movable contact 1033, one end of the top of the contact moving push bar 1034 passes through the transverse sliding bar 1036 and is connected with the movable contact 1033, the contact moving push bar 1034 and the transverse sliding bar 1036 are perpendicular to each other, one end of the bottom of the contact moving push bar 1034 is connected with the heat dissipation circuit connection mechanism 103, the connection spring 1035 is connected below the transverse sliding bar 1036, the fixed contact 1037 is connected with the heat dissipation starting motor 104 through a circuit connection line, and the heat dissipation starting motor 104 is provided with a motor fixing bracket 1041, a, A motor power connection line 1042 and a motor connection rotating shaft 1043, wherein one end of the left side of the motor fixing support 1041 is screwed and controlled on the side surface of the host module body 11 by a bolt, the heat dissipation starting motor 104 is screwed and positioned above the motor fixing support 1041 by a bolt, one end of the left side of the motor connection rotating shaft 1043 is inserted and connected inside the heat dissipation starting motor 104 and locked and connected by a buckle, one end of the motor connection rotating shaft 1043 is nested and connected with one end of the top of the rotating heat dissipation fan set 105, the motor connection rotating shaft 1043 is connected with the rotating heat dissipation fan set 105 in an interference fit manner, the rotating heat dissipation fan set 105 is composed of an upper connection gear 1051, a gear transmission strip 1052, a lower connection gear 1053, a fan rotating shaft 1054, a fan blade connector 1055, a heat dissipation fan blade 1056 and a heat dissipation fixing member 1057, a through hole is connected in the middle of the upper connection, the upper connecting gear 1051 is nested with the heat-dissipating starting motor 104 through the through-hole, one end of the top of the gear transmission strip 1052 is nested on the outer surface of the upper connecting gear 1051, one end of the bottom of the gear transmission strip 1052 is nested on the surface of the lower connecting gear 1053, the lower connecting gear 1053 is nested with the fan rotating shaft 1054, the lower connecting gear 1053 is connected with the fan rotating shaft 1054 in an interference fit way, the fan rotating shaft 1054 is locked and connected with the fan blade connector 1055 through a buckle, the fan blade connector 1055 is arranged in the middle of the inside of the heat dissipation fixing piece 1057, the heat dissipation fan blades 1056 are provided with 4 pieces, and is uniformly dispersed with the blade connector 1055 as the center, the heat dissipation blade 1056 and the heat dissipation fixing piece 1057 are in an integral structure, one end of the upper portion of the heat dissipation fixing piece 1057 is connected to the heat dissipation starting motor 104, and one end of the bottom portion of the heat dissipation fixing piece 1057 is connected to the protective casing 102 by a nut.

When the intelligent home control system based on the server load balancing method is used, if the temperature of the control host module body 11 rises due to long-term operation, the temperature sensing starting device 100 connected with the control host module body can send out a high current signal through the temperature change, because the temperature sensing starting device 100 comprises a heat conduction block 1001, a temperature sensing device 1002, a connection contact 1003 and a current connection line 1004, the heat conduction block 1001 is arranged above the control host module body 11, one end of the bottom of the temperature sensing device 1002 is tightly connected with the heat conduction block 1001, one end of the connection contact 1003 is tightly connected with the inside of the temperature sensing device 1002, the other end of the connection contact 1003 is connected with the electromagnetic coil pushing device 101 through the current connection line 1004, the temperature sensing device 1002 conducts a high current into the electromagnetic coil pushing device 101 through the connection contact 1003, and because the electromagnetic coil pushing device 101 is composed of an electromagnetic coil group 1011, a magnetic coil pushing device 1011 and, A fixed vertical rod 1012, a restoring spring 1013, a transverse slide rail 1014, a first push rod 1015, a second push rod 1016, a transverse push rod 1017, and an attracting magnetic block 1018, wherein the electromagnetic coil group 1011 is connected to the fixed vertical rod 1012 and connected to the temperature-sensitive starting device 100, one end of the left side of the restoring spring 1013 is connected to the fixed vertical rod 1012, one end of the right side of the restoring spring 1013 is connected to the transverse push rod 1017, one end of the bottom of the transverse push rod 1017 is nested on the transverse slide rail 1014, the transverse slide rail 1014 is connected to the upper part of the control host module 11 by screwing a nut, the attracting magnetic block 1018 is embedded in the transverse push rod 1017 and is arranged on the same plane with the electromagnetic coil group 1011, one end of the left side of the first push rod 1015 is connected to the transverse push rod 1017 by screwing a nut and is perpendicular to each other, one end of the right side of the first push rod 1015, then the electromagnetic coil group 1011 receiving the current forms a powerful electromagnetic field to push the attracting magnetic block 1018 away towards the right side, the transverse push rod 1017 connected with the attracting magnetic block 1018 also moves towards the right side along the transverse sliding rail 1014, and the first push rod 1015 and the second push rod 1016 move the contact moving push rod 1034 in the heat dissipating circuit connecting mechanism 103, because the heat dissipating circuit connecting mechanism 103 comprises the circuit limiting box 1031, the external power line 1032, the movable contact 1033, the contact moving push rod 1034, the connecting spring 1035, the transverse sliding rod 1036 and the fixed contact 1037, the movable contact 1033 and the fixed contact 1037 are sequentially arranged inside the circuit limiting box 1031, the external power line 1032 passes through the protective casing 102 to be connected with the movable contact 1033, one end of the top of the contact moving push rod 1034 passes through the transverse sliding rod 1036 to be connected with the movable contact 1033, and the contact moving push rod 1034 and the transverse sliding rod 1036 are perpendicular to each other, one end of the bottom of the contact moving push rod 1034 is connected with the heat dissipation circuit connection mechanism 103, the connection spring 1035 is connected below the transverse sliding bar 1036, the fixed contact 1037 is connected with the heat dissipation activation motor 104 through a circuit connection line, at this time, the pushed contact moving push rod 1034 moves the movable contact 1033 towards the right side along the transverse sliding rail 1014 and is closely attached to the fixed contact 1037 in a face-to-face manner, so that the external power line 1032 sequentially conducts the main power from the movable contact 1033 to the fixed contact 1037, the motor power connection line 1042 and the heat dissipation activation motor 104, the heat dissipation activation motor 104 is activated and drives the motor connection rotating shaft 1043 to rotate, the motor connection rotating shaft 1043 is connected with the rotating heat dissipation fan set 105, and the rotating heat dissipation fan set 105 is composed of an upper connection gear 1051, a gear transmission strip 1052, a lower connection gear 1053, a fan rotating shaft 1054, a fan blade connector 105, A heat dissipation fixing piece 1057, wherein a through hole is connected in the middle of an upper connecting gear 1051, the through hole and the upper connecting gear 1051 are in an integrated structure, the upper connecting gear 1051 is nested with a heat dissipation starting motor 104 through the through hole, one end of the top of a gear transmission strip 1052 is nested on the outer surface of the upper connecting gear 1051, one end of the bottom of the gear transmission strip 1052 is nested on the surface of a lower connecting gear 1053, the lower connecting gear 1053 is nested with a fan rotating shaft 1054, the lower connecting gear 1053 is in interference fit with the fan rotating shaft 1054, the fan rotating shaft 1054 is locked and connected with a fan blade connector 1055 through a buckle, the fan blade connector 1055 is arranged in the middle of the heat dissipation fixing piece 1057, 4 heat dissipation fan blades 1056 are arranged and uniformly dispersed by taking the fan blade connector 1055 as a center, the heat dissipation fan blade 1056 and the heat dissipation fixing piece 1057 are in an integrated structure, one end of the upper part of the heat dissipation fixing, under the driving of the motor connecting shaft 1043 of the heat dissipation starting motor 104, the upper connecting gear 1051, the gear transmission strip 1052, the lower connecting gear 1053 and the fan rotating shaft 1054 rotate in sequence, and the fan rotating shaft 1054 drives the fan blade connector 1055 and the heat dissipation fan blade 1056, so as to perform a heat dissipation function on the control host module body 11.

Compared with the prior art, the invention has the technical progress that: through being equipped with the temperature condition that the automatic heat dissipation mechanism of host computer can automated inspection intelligent house controller, carry out the fan cooling automatically when the temperature risees, be favorable to the protection to equipment, increase of service life, also safer simultaneously.

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 various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (1)

1. An intelligent household control system based on a server load balancing method structurally comprises a household system control host, a first connecting jack, a control state display lamp, a second connecting jack and a wireless control signal rod, wherein the first connecting jack is arranged on the front side surface of the household system control host, and is closely connected with the interior of the household system control host, the control state display lamp is embedded and connected with the household system control host, the control state display lamp is connected with the household system control host machine in an interference fit manner, the control state display lamp is provided with a plurality of control state display lamps, and arranged on the same plane, the second connecting jack is arranged at the right side of the control state display lamp and is connected with the interior of the household system control host, wireless control signal pole bottom one end is screwed through taking the screwed connecting hole and being connected its characterized in that with home systems control host computer:

the household system control host is provided with a host automatic heat dissipation mechanism and a control host module body, the control host module body is arranged in the household system control host, and the host automatic heat dissipation mechanism is arranged in the household system control host and is tightly connected with the control host module body;

the automatic heat dissipation mechanism of the host machine consists of a temperature induction starting device, an electromagnetic coil pushing device, a protective shell, a heat dissipation circuit connecting mechanism, a heat dissipation starting motor and a rotary heat dissipation fan group, wherein the temperature induction starting device is arranged in the protective shell, and is arranged on the control host module body, the temperature induction starting device is connected with the electromagnetic coil pushing device through a circuit connecting wire, the electromagnetic coil pushing device is arranged on the control host module body, one end of the right side of the electromagnetic coil pushing device is connected with the protective shell, the protective shell is connected to the left upper part of the heat dissipation starting motor, and is arranged above the inner part of the protective shell, one end of the right side of the heat dissipation starting motor is embedded into the inner part above the rotary heat dissipation fan set, the heat dissipation starting motor is connected with the rotary heat dissipation fan set in an interference fit mode, and the rotary heat dissipation fan set is arranged on the right side inside the protective shell; the temperature sensing starting device comprises a heat conducting block, a temperature sensing device, a connecting contact and a current connecting wire, wherein the heat conducting block is arranged above the control host module body, one end of the bottom of the temperature sensing device is tightly connected with the heat conducting block, one end of the connecting contact is tightly connected with the inside of the temperature sensing device, and the other end of the connecting contact is connected with the electromagnetic coil pushing device through the current connecting wire;

the electromagnetic coil pushing device consists of an electromagnetic coil group, a fixed vertical rod, a recovery spring, a transverse sliding rail, a first push rod, a second push rod, a transverse push rod and an attraction magnetic block, wherein the electromagnetic coil group is connected to the fixed vertical rod, and is connected with a temperature sensing starting device, one end of the left side of the recovery spring is connected with a fixed vertical rod, one end of the right side of the recovery spring is connected with a transverse push rod, one end of the bottom of the transverse push rod is nested on the transverse sliding track, the transverse sliding track is connected above the control host module body by screwing a nut, the attraction magnetic block is embedded and connected inside the transverse push rod, and is assembled on the same plane with the electromagnetic coil, one end of the left side of the first push rod is connected with the transverse push rod by a nut, the first push rod and the second push rod are perpendicular to each other, one end of the right side of the first push rod is connected with the second push rod through a nut, and one end of the right side of the second push rod is connected with the heat dissipation circuit connecting mechanism;

the heat dissipation circuit connecting mechanism comprises a circuit limiting box, an external power line, a movable contact head, a contact moving push rod, a connecting spring, a transverse sliding rod and a fixed contact, wherein the movable contact head and the fixed contact are sequentially arranged inside the circuit limiting box;

the heat dissipation starting motor is provided with a motor fixing support, a motor power supply connecting wire and a motor connecting rotating shaft, one end of the left side of the motor fixing support is screwed on the side surface of the control host module body through a bolt, the heat dissipation starting motor is screwed above the motor fixing support through a bolt, one end of the left side of the motor connecting rotating shaft is inserted into the heat dissipation starting motor and locked and connected through a buckle, one end of the motor connecting rotating shaft is connected with one end of the top of the rotating heat dissipation fan set in a nested manner, and the motor connecting rotating shaft is connected with the rotating heat dissipation fan set in an interference fit manner;

the rotary radiating fan set comprises an upper connecting gear, a gear transmission strip, a lower connecting gear, a fan rotating shaft, a fan blade connector, radiating fan blades and a radiating fixing piece, wherein a through hole is connected in the middle of the upper connecting gear, the through hole and the upper connecting gear are of an integrally formed structure, the upper connecting gear is nested and connected with a radiating starting motor through the through hole, one end of the top of the gear transmission strip is nested and connected on the outer surface of the upper connecting gear, one end of the bottom of the gear transmission strip is nested and connected on the surface of the lower connecting gear, the lower connecting gear is nested and connected with the fan rotating shaft, and the lower connecting gear is in interference fit connection with the fan rotating shaft;

the fan rotating shaft is connected with the fan blade connector in a locking mode through the buckle, the fan blade connector is arranged in the middle of the inside of the heat dissipation fixing piece, the heat dissipation fan blades are provided with the fins and are evenly dispersed by taking the fan blade connector as a center, the heat dissipation fan blades and the heat dissipation fixing piece are of an integrally formed structure, one end of the upper portion of the heat dissipation fixing piece is connected with the heat dissipation starting motor, and one end of the bottom of the heat dissipation fixing piece is screwed with the protective shell through the nut.

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