CN205299726U - Control system warms up large capacity based on adHoc technique - Google Patents

Abstract

The utility model discloses a control system warms up large capacity based on adHoc technique, the system includes: hierarchical host computer (1), gateway (2), network server (3), terminal equipment (4) and a m zigbee gather and intelligent control node (5), hierarchical host computer (1), gateway (2), network server (3), terminal equipment (4) connect in order, m zigbee gathers and intelligent control node (5) are connected with hierarchical host computer (1) respectively, wherein, 2 <= m. The utility model discloses an utilize the zigbee network to switch host computer grading, enlarged the capacity and the coverage of zigbee network for entire system only need the equipment that can connect the internet and communication line can, effectively reduced entire system's cost, has realized warming up the ground of apartment formula large capacity resident family (like whole building, community) and unify to control, practiced thrift a large amount of resources, the while cost is lower.

Description

Large Copacity ground heating control system based on Ad Hoc technology

Technical field

This utility model relates to a kind of Large Copacity ground heating control system based on AdHoc technology, belongs to floor heating and controls technical field.

Background technology

Existing heating control system intelligently can be mainly used in following three kinds of scenes:

Water heat supply floor heating: heating control system is used for controlling water heat supply temperature intelligently, when controlling not use at low temperatures water heat supply floor heating, has low discharge water to circulate, it is ensured that not freeze in pipeline simultaneously in water pipe;

Electricity heating floor heating: heating control system is used for controlling electricity heating temperature intelligently, it may be achieved economize on electricity, preheating, partial circuit heat supply etc.;

Air-conditioning, water heating system in combination: heating control system is used for controlling floor heating temperature intelligently, avoids freezing in pipeline simultaneously.

But this heating control system use intelligently wired (485 communication) or controlled in wireless, the controllability externally provided is mainly ON/OFF, temperature shows and sets, and the quantity that single system controls loop is general also less than ten, is suitable only for single family and uses.

Additionally, the patent application that application number is 201120547365.8 discloses one " floor heating constant temperature wireless control system ", it may be achieved floor heating is controlled. But this system yet suffers from following shortcoming:

(1) mode of wired or wireless networking is used, with single domestic household for autonomous system (namely with one family for a Zigbee network), need each resident family that gateway is installed and be connected to the Internet, and to ensure that each family may be coupled to communication equipment and the circuit of the Internet, but in actual life, the house on such as seashore, most of the time is likely to all no ones throughout the year for it, gateway is installed so specially, communication equipment and circuit carry out networking and realize floor heating control, not only with high costs, and the wasting of resources very seriously (includes gateway, communication equipment and line cost and floor heating resource), draw oneself up the floor heating of family it addition, this ground heating control system can only realize each resident family, it is impossible to the floor heating of apartment-type Large Copacity resident family is uniformly controlled, thus the scope of use is limited,

(2) thresholding formula open and close are provided to control.It sets a temperature value, and when actual temperature is lower than this set temperature value, then system start-up heater block, when actual temperature is higher than this set temperature value, then system closes heater block. Owing to the control mode of heater is simple start and stop, thus result in temperature to control the shortcomings such as unstable, temperature fluctuation range is big, electric power power consumption is big;

(3) this system is made up of the subsystem that multiple dispersions are independent, and the cost of whole system is very high.

Utility model content

The purpose of this utility model is in that, a kind of Large Copacity ground heating control system based on AdHoc technology is provided, it can effectively solve problems of the prior art, the whole system cost of heating control system is very high especially existingly, and it cannot realize the floor heating of apartment-type Large Copacity resident family is uniformly controlled, the problem causing serious waste of resources.

For solving above-mentioned technical problem, this utility model adopts the following technical scheme that: a kind of Large Copacity ground heating control system based on AdHoc technology, including: classification main frame, gateway, the webserver, terminal unit and m Zigbee gather and intelligent control node, described classification main frame, gateway, the webserver, terminal unit are sequentially connected with, m Zigbee collection and intelligent control node are connected with classification main frame respectively, wherein, 2��m.

Preferably, the quantity of described classification main frame be n, n platform classification main frame one end respectively with Zigbee gather and intelligent control node carries out one to one or one-to-many is connected, the other end is connected with gateway respectively; Wherein, each Zigbee gathers and intelligent control node connects a classification main frame, 1��n��m, so that several little networks one macroreticular of composition, power system capacity can be expanded further, the congested of data and network conflict can be reduced simultaneously, improve efficiency of transmission and the treatment effeciency of data, this system is made can be better applied to the place such as building, community, it is achieved the unified in real time management and control of floor heating.

In said system, every classification main frame can connect the Zigbee within 30 and gather and intelligent control node, while thereby may be ensured that system low cost, does not result in network congestion and network conflict, make data transmission efficiency, treatment effeciency also higher, it is ensured that the reliability of system.

Preferred, described classification main frame includes k level, wherein, + 1 grade of classification main frame of jth carries out one to one with j-th stage classification main frame or one-to-many is connected, the other end of the 1st grade of classification main frame gathers with Zigbee respectively and intelligent control node carries out one to one or one-to-many is connected, and the other end of kth level classification main frame is connected with gateway respectively; 2��k, 1��j��k-1, such that it is able to the size according to building, community etc., further expands power system capacity, ensures higher data transmission efficiency and treatment effeciency simultaneously.

In said system, 1st grade of classification main frame can connect the Zigbee within 30 and gather and intelligent control node, + 1 grade of classification main frame of jth can connect the j-th stage classification main frame within 30, gateway can connect the kth level classification main frame within 30, such that it is able to the size according to actual building, community etc., the progression of Automatic adjusument classification main frame, ensure the less costly of system simultaneously, do not result in network congestion and network conflict, make data transmission efficiency and treatment effeciency higher, improve the reliability of system.

Aforesaid based in the Large Copacity ground heating control system of AdHoc technology, described classification main frame includes: a zigbee coordinator and zigbee node, and a described zigbee coordinator and zigbee node are connected in series;Oneth zigbee coordinator of+1 grade of classification main frame of jth carries out one to one with the zigbee node of j-th stage classification main frame or one-to-many is connected, oneth zigbee coordinator of the 1st grade of classification main frame gathers with Zigbee and intelligent control node carries out one to one or one-to-many is connected, the zigbee node of kth level classification main frame is connected with gateway respectively, it is achieved thereby that formed a big zigbee network by several subnets (namely to set the classification main frame of different stage, each classification main frame is respectively equipped with zigbee coordinator and zigbee node, the zigbee coordinator allowing upper level classification main frame controls the zigbee node of next stage classification main frame, progressive, be equivalent to define multiple Zigbee subnet), extend the capacity of system, avoid the congested of data and network conflict simultaneously.

Aforesaid based in the Large Copacity ground heating control system of AdHoc technology, described Zigbee gathers and intelligent control node includes: data acquisition module, control unit and data transmit-receive module, described data acquisition module, control unit and data transmit-receive module are sequentially connected with, data transmit-receive module is connected with classification main frame, such that it is able to realize the Effective Regulation of floor heating.

Aforesaid based in the Large Copacity ground heating control system of AdHoc technology, described Zigbee gathers and intelligent control node also includes: power adjusting section, described power adjusting section is connected with control unit, such that it is able to realize the stability contorting of temperature, is greatly saved electric power power consumption.

Described power adjusting section can adopt solid-state relay, by controlling the switching duty cycle adjustment output mean power of solid-state relay.

Aforesaid based in the Large Copacity ground heating control system of AdHoc technology, described gateway includes: ethernet module, main control chip and the 2nd Zigbee coordinator, described ethernet module, main control chip and the 2nd Zigbee coordinator are sequentially connected with, 2nd Zigbee coordinator is connected with classification main frame, ethernet module is connected with the webserver, it is achieved thereby that the conversion of Zigbee network and the Internet, it is ensured that effective forwarding of data.

In aforesaid system, also include: Zigbee routing node, described Zigbee routing node gathers with Zigbee respectively and intelligent control node and classification main frame are connected, such that it is able to when there is barrier or Zigbee collection and intelligent control node and classification main frame is distant, better realizing Zigbee collection and intelligent control node and classification main frame be attached.

Compared with prior art, this utility model has the advantage that

1, this utility model is by adopting classification main frame, gateway, the webserver, terminal unit and m Zigbee gather and intelligent control node, described classification main frame, gateway, the webserver, terminal unit is sequentially connected with, m Zigbee collection and intelligent control node are connected with classification main frame respectively, wherein, 2��m, utilize zigbee network switching main frame classification technique, expand capacity and the coverage of zigbee network, whole system is made to have only to the equipment that can connect the Internet and communication line, thus effectively reducing the cost of whole system, and achieve apartment-type Large Copacity resident family (such as whole building, community) floor heating be uniformly controlled, having saved substantial amounts of resource (can according to resident family with or without people's situation, real-time monitoring floor heating temperature, such as resident family is if towards nine late five dutys, then can by day time, floor heating temperature is regulated lower, floor heating temperature is regulated higher by evening to morning during this period of time),

2, this utility model by being divided into several subnets by zigbee network, on subnet upper strata, design classification main frame, classification main frame is made to be in two-tier network, such that it is able to effectively control next stage network, realize effective forwarding of data between two-tier network simultaneously, and in this utility model, actual what network of employing can set flexibly according to field demand;

3, this utility model is without changing existing floor heating application system (being applicable to existing three kinds of floor heating modes), can being set up by AdHoc network technology and have a large amount of acquisition node and control the wireless network of node, controlling interface for existing floor heating provides control more intelligent, hommization;

4, this utility model is with ZigBee technology for wireless network core, internally can realize complexity, various, floor heating accurately is uniformly controlled, and externally can provide simple, convenient, abundant man-machine interaction, Based Intelligent Control;

5, system of the present utility model can realize holding and gather up to the Zigbee of more than 5000 and intelligent control node (each Zigbee gathers and intelligent control node can connect a heating circuit), realize multiple Zigbee to gather and intelligent control node convergence in a wireless network, terminal unit can adopt the mode of authority classification and binding, realize owner oneself and monitor oneself ground heating system, also can realizing giving authority property, property is carried out management and control and is authorized each Zigbee in the network of authority and gather and intelligent control node;

6, system of the present utility model is through multiple situation simplation verification, network capacity can from 1 node (i.e. Zigbee gather and intelligent control node) to more than 5000, control node and gateway wireless communication distance can from more than 0 to 10 kilometers, the precision etc. of the relay forwarding function of zigbee network, network data transmission is all better, it was demonstrated that concept feasible of the present utility model;

7, in this utility model, by setting a number of Zigbee routing node in each subnet, thereby may be ensured that the stalwartness of network, improve the efficiency of transmission of data;

8, system of the present utility model is a unified hicap, a public network Internet is adopted to export (namely having only to arrange a gateway), the multiple systems independent relative to existing dispersion, greatly reduce Internet cost of access and system cost; And after adopting system of the present utility model, the centralized management that both can realize floor heating can also realize independent management and control, more excellent relative to the existing systematic function that can only carry out independent management and control;

9, the classification main frame in this utility model has routing function, not only increase the vigorousness of network, expand network coverage, and when in data transmission procedure, some node playing route effect goes wrong, data can also be forwarded by other nodes, it is ensured that the stability of system.

Accompanying drawing explanation

Fig. 1 is the system structure schematic diagram of this utility model embodiment 1;

Fig. 2 is the system structure schematic diagram of the internal structure comprising all parts in this utility model embodiment 1;

Fig. 3 is the system structure schematic diagram of this utility model embodiment 3;

Fig. 4 is the system structure schematic diagram of this utility model embodiment 4.

Accompanying drawing labelling: 1-classification main frame, 2-gateway, the 3-webserver, 4-terminal unit, 5-Zigbee gathers and intelligent control node, 6-the oneth zigbee coordinator, 7-zigbee node, 8-data acquisition module, 9-control unit, 10-data transmit-receive module, 11-power adjusting section, 12-ethernet module, 13-main control chip, 14-the 2nd Zigbee coordinator, 15-Zigbee routing node.

Below in conjunction with the drawings and specific embodiments, this utility model is further described.

Detailed description of the invention

Embodiment 1 of the present utility model: a kind of Large Copacity ground heating control system based on AdHoc technology, as shown in Figure 1 and Figure 2, including: classification main frame 1, gateway 2, the webserver 3, terminal unit 4 and m Zigbee gather and intelligent control node 5, described classification main frame 1, gateway 2, the webserver 3, terminal unit 4 are sequentially connected with, m Zigbee collection and intelligent control node 5 are connected with classification main frame 1 respectively, wherein, 2��m. The quantity of described classification main frame 1 be n, n platform classification main frame 1 one end respectively with Zigbee gather and intelligent control node 5 carries out one to one or one-to-many is connected, the other end is connected with gateway 2 respectively; Wherein, each Zigbee collection and intelligent control node 5 connect classification main frame 1, a 1��n��m. Described classification main frame 1 includes k level, wherein, + 1 grade of classification main frame 1 of jth carries out one to one with j-th stage classification main frame 1 or one-to-many is connected, the other end of the 1st grade of classification main frame 1 gathers with Zigbee respectively and intelligent control node 5 carries out one to one or one-to-many is connected, and the other end of kth level classification main frame 1 is connected with gateway 2 respectively; 2��k, 1��j��k-1. Described classification main frame 1 includes: a zigbee coordinator 6 and zigbee node 7, and a described zigbee coordinator 6 and zigbee node 7 are connected in series; Oneth zigbee coordinator 6 of+1 grade of classification main frame 1 of jth carries out one to one with the zigbee node 7 of j-th stage classification main frame 1 or one-to-many is connected, oneth zigbee coordinator 6 of the 1st grade of classification main frame 1 gathers with Zigbee and intelligent control node 5 carries out one to one or one-to-many is connected, and the zigbee node 7 of kth level classification main frame 1 is connected with gateway 2 respectively. Described Zigbee gathers and intelligent control node 5 includes: data acquisition module 8, control unit 9 and data transmit-receive module 10, described data acquisition module 8, control unit 9 and data transmit-receive module 10 are sequentially connected with, and data transmit-receive module 10 is connected with classification main frame 1. Described Zigbee gathers and intelligent control node 5 also includes: power adjusting section 11, described power adjusting section 11 is connected with control unit 9. Described gateway 2 includes: ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14, described ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14 are sequentially connected with, 2nd Zigbee coordinator 14 is connected with classification main frame 1, and ethernet module 12 is connected with the webserver 3. Also including: Zigbee routing node 15, described Zigbee routing node 15 gathers with Zigbee respectively and intelligent control node 5 and classification main frame 1 are connected.

Embodiment 2: a kind of Large Copacity ground heating control system based on AdHoc technology, as shown in Figure 1 and Figure 2, including: classification main frame 1, gateway 2, the webserver 3, terminal unit 4 and m Zigbee gather and intelligent control node 5, described classification main frame 1, gateway 2, the webserver 3, terminal unit 4 are sequentially connected with, m Zigbee collection and intelligent control node 5 are connected with classification main frame 1 respectively, wherein, 2��m. The quantity of described classification main frame 1 be n, n platform classification main frame 1 one end respectively with Zigbee gather and intelligent control node 5 carries out one to one or one-to-many is connected, the other end is connected with gateway 2 respectively; Wherein, each Zigbee collection and intelligent control node 5 connect classification main frame 1, a 1��n��m.Described classification main frame 1 includes k level, wherein, + 1 grade of classification main frame 1 of jth carries out one to one with j-th stage classification main frame 1 or one-to-many is connected, the other end of the 1st grade of classification main frame 1 gathers with Zigbee respectively and intelligent control node 5 carries out one to one or one-to-many is connected, and the other end of kth level classification main frame 1 is connected with gateway 2 respectively; 2��k, 1��j��k-1. Described classification main frame 1 includes: a zigbee coordinator 6 and zigbee node 7, and a described zigbee coordinator 6 and zigbee node 7 are connected in series; Oneth zigbee coordinator 6 of+1 grade of classification main frame 1 of jth carries out one to one with the zigbee node 7 of j-th stage classification main frame 1 or one-to-many is connected, oneth zigbee coordinator 6 of the 1st grade of classification main frame 1 gathers with Zigbee and intelligent control node 5 carries out one to one or one-to-many is connected, and the zigbee node 7 of kth level classification main frame 1 is connected with gateway 2 respectively. Described Zigbee gathers and intelligent control node 5 includes: data acquisition module 8, control unit 9 and data transmit-receive module 10, described data acquisition module 8, control unit 9 and data transmit-receive module 10 are sequentially connected with, and data transmit-receive module 10 is connected with classification main frame 1. Described gateway 2 includes: ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14, described ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14 are sequentially connected with, 2nd Zigbee coordinator 14 is connected with classification main frame 1, and ethernet module 12 is connected with the webserver 3.

Embodiment 3: a kind of Large Copacity ground heating control system based on AdHoc technology, as shown in Figure 3, including: classification main frame 1, gateway 2, the webserver 3, terminal unit 4 and m Zigbee gather and intelligent control node 5, described classification main frame 1, gateway 2, the webserver 3, terminal unit 4 are sequentially connected with, m Zigbee collection and intelligent control node 5 are connected with classification main frame 1 respectively, wherein, 2��m. The quantity of described classification main frame 1 be n, n platform classification main frame 1 one end respectively with Zigbee gather and intelligent control node 5 carries out one to one or one-to-many is connected, the other end is connected with gateway 2 respectively; Wherein, each Zigbee collection and intelligent control node 5 connect classification main frame 1, a 1��n��m. Described classification main frame 1 includes: a zigbee coordinator 6 and zigbee node 7, and a described zigbee coordinator 6 and zigbee node 7 are connected in series; Oneth zigbee coordinator 6 gathers with Zigbee and intelligent control node 5 carries out one to one or one-to-many is connected, and zigbee node 7 is connected with gateway 2 respectively. Described Zigbee gathers and intelligent control node 5 includes: data acquisition module 8, control unit 9 and data transmit-receive module 10, described data acquisition module 8, control unit 9 and data transmit-receive module 10 are sequentially connected with, and data transmit-receive module 10 is connected with classification main frame 1. Described gateway 2 includes: ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14, described ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14 are sequentially connected with, 2nd Zigbee coordinator 14 is connected with classification main frame 1, and ethernet module 12 is connected with the webserver 3.

Embodiment 4: a kind of Large Copacity ground heating control system based on AdHoc technology, as shown in Figure 4, including: classification main frame 1, gateway 2, the webserver 3, terminal unit 4 and m Zigbee gather and intelligent control node 5, described classification main frame 1, gateway 2, the webserver 3, terminal unit 4 are sequentially connected with, m Zigbee collection and intelligent control node 5 are connected with classification main frame 1 respectively, wherein, 2��m.Described classification main frame 1 includes: a zigbee coordinator 6 and zigbee node 7, and a described zigbee coordinator 6 and zigbee node 7 are connected in series; Oneth zigbee coordinator 6 gathers with Zigbee and intelligent control node 5 carries out one to one or one-to-many is connected, and zigbee node 7 is connected with gateway 2 respectively. Described Zigbee gathers and intelligent control node 5 includes: data acquisition module 8, control unit 9 and data transmit-receive module 10, described data acquisition module 8, control unit 9 and data transmit-receive module 10 are sequentially connected with, and data transmit-receive module 10 is connected with classification main frame 1. Described gateway 2 includes: ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14, described ethernet module 12, main control chip 13 and the 2nd Zigbee coordinator 14 are sequentially connected with, 2nd Zigbee coordinator 14 is connected with classification main frame 1, and ethernet module 12 is connected with the webserver 3.

The operation principle of a kind of embodiment of the present utility model:

M Zigbee gathers and data acquisition module 8 (such as temperature acquisition sensor) in intelligent control node 5 gathers the indoor temperature of its position respectively (if there is obstacle or Zigbee gathers and distant between intelligent control node 5 and classification main frame 1, Zigbee routing node 15 then can be set between), the zigbee coordinator 6 (namely each node can send information to the coordinator in their own network) that control unit 9 (also can control power on/off and the operating current thereof of heater) is sent to classification main frame 1 by data transmit-receive module 10 after this indoor temperature being mated with the ID of himself, after a zigbee coordinator 6 in 1st grade of classification main frame 1 receives the match information of described indoor temperature and ID, the zigbee node 7 to this classification main frame 1 is sent by serial ports, the zigbee coordinator 6 (i.e. coordinator in oneself network of this node) that this information is sent to the 2nd grade of classification main frame 1 by zigbee node 7 more further, by that analogy, until this information sends the 2nd Zigbee coordinator 14 to gateway 2, this information is further sent to the webserver 3 by main control chip 13 by ethernet module 12, user passes through terminal unit 4 (PC or intelligent terminal, some or whole Zigbee can be bound according to Permission Levels to gather and intelligent control node 5, terminal unit 4 can show has bound nodal information) (webserver 3 can complete the data of whole system and forward and storage to utilize account logging in network server 3, complete the authority distribution of Zigbee collection and intelligent control node 5, realize the binding of terminal unit 4 and Zigbee collection and intelligent control node 5), floor heating temperature can be checked, can also gather for certain Zigbee and the ID of intelligent control node 5 sends control information, the temperature of floor heating is set as a certain numerical value, described control information feeds back to m Zigbee by gateway 2, classification main frame 1 and gathers and intelligent control node 5, each Zigbee gathers and the ID of self is mated by intelligent control node 5 with the ID fed back to, if the ID fed back to mates with self ID, then control unit 9 utilizes power adjusting section 11 to regulate the temperature of heat supplying loop of its position according to described control information

Experimental example:

For enterprise staff apartment electricity heat supply ground heating system. Apartment Nei Meijian apartment is an independent electric heat supply floor heating loop, often one or more layers is as a Zigbee wireless network, the floor heating of corresponding apartment accesses same communication gate again, so that can be controlled by different apartment resident family or apartment manager by terminal unit.Mei Jian apartment all can be set independent duty by user or manager, and the duty that can set includes: heat supply rule, the assigned temperature of each time period Heating State, heat-supplying mode (quick heat supply or energy-saving heating). Central control room can unified control system state, display system information, statistical work time, power consumption etc.

Sight describes: fixing work and rest is accustomed to resident family and (is made five and stop two, towards nine evenings five) use, after leaving apartment working day, floor heating quits work, when resident family comes back, floor heating is preheated to assigned temperature, Variable power mode of the present utility model is adopted to preheat during preheating, namely, when indoor temperature is closer to assigned temperature, heating power is more low; Whole day heating on day off; Resident family can be reached by mobile phone or individual PC checks room heat supply and temperature information, separately can arrange by Iterim Change.

Resident family will return to apartment for some reason after setting preheating time, for avoiding the wasting of resources, it is only necessary to use mobile phone or PC logging in network server 3, input the account number cipher of oneself, increase interim setting, set apartment floor heating in following several hours, reach preheating temperature.

Or assume that resident family 5:00��5:30 in the original plan makes heat supply reach preset temperature, but power supply system fault 5:20 just recovers supply of electric power, system judges that original power cannot at the appointed time put work, then can ask the user whether to change heat-supplying mode, increase power to produce a desired effect, in time allowing or be configured to allow, control ground heating system is used high-power producing a desired effect.

The application of this utility model coefficient is not limited to an apartment, for the over thousands of apartment resident family under consolidated network, all can arranging different, to be suitable for self floor heating application plans, its control mode is simple terminal unit 4 and accesses the appointment webserver 3.

Claims (8)

1. the Large Copacity ground heating control system based on AdHoc technology, it is characterized in that, including: classification main frame (1), gateway (2), the webserver (3), terminal unit (4) and m Zigbee gather and intelligent control node (5), described classification main frame (1), gateway (2), the webserver (3), terminal unit (4) are sequentially connected with, m Zigbee collection and intelligent control node (5) are connected with classification main frame (1) respectively, wherein, 2��m.

2. the Large Copacity ground heating control system based on AdHoc technology according to claim 1, it is characterized in that, the quantity of described classification main frame (1) is n, one end of n platform classification main frame (1) gathers with Zigbee respectively and intelligent control node (5) carries out one to one or one-to-many is connected, and the other end is connected with gateway (2) respectively; Wherein, each Zigbee gathers and intelligent control node (5) one classification main frame (1) of connection, 1��n��m.

3. the Large Copacity ground heating control system based on AdHoc technology according to claim 2, it is characterized in that, described classification main frame (1) includes k level, wherein, + 1 grade of classification main frame (1) of jth carries out one to one with j-th stage classification main frame (1) or one-to-many is connected, the other end of the 1st grade of classification main frame (1) gathers with Zigbee respectively and intelligent control node (5) carries out one to one or one-to-many is connected, and the other end of kth level classification main frame (1) is connected with gateway (2) respectively; 2��k, 1��j��k-1.

4. the Large Copacity ground heating control system based on AdHoc technology according to claim 3, it is characterized in that, described classification main frame (1) including: a zigbee coordinator (6) and zigbee node (7), and a described zigbee coordinator (6) and zigbee node (7) are connected in series;Oneth zigbee coordinator (6) of+1 grade of classification main frame (1) of jth carries out one to one with the zigbee node (7) of j-th stage classification main frame (1) or one-to-many is connected, oneth zigbee coordinator (6) of the 1st grade of classification main frame (1) gathers with Zigbee and intelligent control node (5) carries out one to one or one-to-many is connected, and the zigbee node (7) of kth level classification main frame (1) is connected with gateway (2) respectively.

5. the Large Copacity ground heating control system based on AdHoc technology according to claim 1, it is characterized in that, described Zigbee gathers and intelligent control node (5) including: data acquisition module (8), control unit (9) and data transmit-receive module (10), described data acquisition module (8), control unit (9) and data transmit-receive module (10) are sequentially connected with, and data transmit-receive module (10) is connected with classification main frame (1).

6. the Large Copacity ground heating control system based on AdHoc technology according to claim 5, it is characterized in that, described Zigbee gathers and intelligent control node (5) also includes: power adjusting section (11), described power adjusting section (11) is connected with control unit (9).

7. the Large Copacity ground heating control system based on AdHoc technology according to claim 1, it is characterized in that, described gateway (2) including: ethernet module (12), main control chip (13) and the 2nd Zigbee coordinator (14), described ethernet module (12), main control chip (13) and the 2nd Zigbee coordinator (14) are sequentially connected with, 2nd Zigbee coordinator (14) is connected with classification main frame (1), and ethernet module (12) is connected with the webserver (3).

8. the Large Copacity ground heating control system based on AdHoc technology according to any one of claim 1��7, it is characterized in that, also including: Zigbee routing node (15), described Zigbee routing node (15) gathers with Zigbee respectively and intelligent control node (5) and classification main frame (1) are connected.