CN117029011A - Online boiler heat load adjusting system - Google Patents

Abstract

The invention provides a boiler heat load on-line adjusting system, which relates to the technical field of adjusting systems, and relates to a bearing structure formed by guide rings and a seat body, so that the problem that when the adjusting system is used, the problem that the use is affected due to the fact that the boiler heat load exceeds standard because of the occurrence of blockage of a pipeline is easily caused by the lack of an effective quick reaction device when the pipeline is blocked is solved, the problem of limitation exists, an overflow pipe fixedly connected to the top end of a bottom plate is inserted into the inside of a node pipe arranged at the bottom end of the split pipe, and an electromagnetic valve in the node pipe at a corresponding position is opened, so that the split pipe can supply air to the inside of the overflow pipe through the node pipe, and the quick local split operation is realized until the temperature inside the current split pipe is detected to be reduced to the inside a temperature range meeting the standard by a temperature detector arranged at the top end of a bracket, and the aim of being more practical is achieved.

Description

Online boiler heat load adjusting system

Technical Field

The invention relates to the technical field of regulating systems, in particular to an online boiler heat load regulating system.

Background

When the solid waste is treated, the solid waste is generally treated by burning the corresponding boiler, and the boiler generates high heat when burning, and the heat is the heat load of the boiler;

for example, application number: the invention discloses a CN202110096997.5, which discloses a safe and energy-saving intelligent control system of a gas-fired hot water boiler, comprising a local server, a switch, a protocol converter, a monitoring controller, a data acquisition module and a dynamic regulation module, wherein the local server is connected with the monitoring controller; the data acquisition module is connected with the monitoring controller; the dynamic regulation and control module is connected with the monitoring controller and is used for regulating the temperature of hot water and resetting and regulating the electromagnetic spring type explosion vent, and the local server comprises a date type database, a monitoring controller data storage module, a control strategy signal output module in the local server, a hot water thermal load model prediction module and an electromagnetic spring type explosion vent control module. And also provides a corresponding control method. According to the invention, the hot water temperature of the gas hot water boiler is regulated and controlled on line through the heat load prediction model, and meanwhile, the electromagnetic spring type explosion-proof door is incorporated for regulating and controlling on line, so that the heat load of the gas hot water boiler meets the requirement, and meanwhile, the energy consumption is saved, and the normal use of the boiler is influenced if the boiler is in a heat load overload state for a long time during safe operation, so that a corresponding regulating system is needed;

while the regulating system can detect whether the pipeline for discharging hot gas from the boiler is blocked or not when the regulating system is used, the regulating system lacks an effective rapid reaction device when the pipeline is blocked, so that the use is easily influenced due to the fact that the heat load of the boiler exceeds the standard caused by the blockage of the pipeline, and the regulating system has limitations.

Accordingly, in view of the above, research and improvement are made to the existing structure and the defects, and an online boiler heat load adjusting system is provided to achieve the purpose of having more practical value.

Disclosure of Invention

The invention provides an online boiler heat load adjusting system, which solves the problems that the use is affected easily due to the fact that the boiler heat load exceeds the standard caused by the blockage of a pipeline when the pipeline is blocked, and the limitation exists because the online boiler heat load adjusting system can detect whether the pipeline for discharging hot gas of a boiler is blocked or not when the pipeline is blocked.

The invention provides the purpose and the effect of a boiler heat load on-line regulating system, which specifically comprises the following steps: the main part of base is the boiler cover, and motor A is installed to the front end of base, installs the gear on motor A's the rear side output shaft, and the ring channel has been seted up to the rear side of base, and the inside of this ring channel rotates and is connected with the guide ring, and the rear side fixedly connected with pedestal of guide ring, guide ring and pedestal have formed bearing structure jointly, and are annular array fixedly connected with on the outer peripheral face of pedestal and lead the tooth, lead tooth and gear engaged transmission, the inboard fixedly connected with scraper of pedestal.

Further, the top of pump machine is installed and is supplied the flow tube, and the outlet duct that supplies the flow tube passes the base, and pump machine and supply the flow tube to have formed inlet structure jointly, and the shunt tubes is installed to the front end of base, inserts the inside that the shunt tubes bottom set up at the node pipe through fixed connection at the overflow pipe on bottom plate top to open through the solenoid valve in the node pipe of corresponding position, make the shunt tubes can be through the inside of node pipe towards the overflow pipe to supply air and realize quick local reposition of redundant personnel operation, until detect at the thermoscope that the inside temperature of current shunt tubes falls to the inside temperature range that accords with the standard at the bracket top can, and then reach more practical purpose.

Further, transverse grooves are formed in the guide rail, a motor B is mounted on the outer side of the guide rail, a screw is mounted on an output shaft of the motor B, a driving structure is formed by the motor B and the screw together, a moving seat is connected in the transverse grooves formed in the guide rail in a sliding mode, screw holes matched with the screw are formed in the moving seat, a bedplate is fixedly connected to the top end of the moving seat, an electric push rod is mounted on the top end of the bedplate, a bottom plate is mounted on the top end of the electric push rod, guide rods are fixedly connected to four corners of the bottom end face of the bottom plate, the guide rods penetrate through the bedplate downwards, an overflow pipe is mounted on the top end of the bottom plate, a bracket is fixedly connected to the top end face of the bottom plate, and a temperature detector is mounted on the top end of the bracket.

Further, install the controller on the preceding terminal surface of base, the pump machine is still installed to the front end of base, the pump machine is used for admitting air, and through the controller control, through setting up corresponding control system, make the device when using, can start the vertical position of installing the overflow pipe in the guide rail according to actual need and adjust, make the overflow pipe when using, can carry out selective connection at all actual needs, this design can effectually avoid causing the inside gaseous backward flow of shunt tubes to cause the boiler damage to the boiler in the boiler that installs in the base because of the inside air current excessively blocks up of present shunt tubes, and this design not only can realize carrying out quick discharge to unnecessary heat in the boiler, still can effectually improve the holistic harmony of device, waste heat that produces when burning the boiler carries out recycle through the reposition of redundant assurance to the reposition of redundant personnel of hot gas also can be better, effectually avoided because of the inside the excessive influence to the environment that causes when piling up the shunt tubes in the follow-up recovery operation easily, and the excessive heat that causes the excessive heat to pile up when using to stop the problem when carrying out.

Further, one side of the scraper, which is close to the base, is of an inclined surface structure, the front end surface of the scraper is contacted with the rear end surface of the base, and the base and the scraper form a scraping structure together.

Further, the split-flow pipe is provided with two parts in total, the two split-flow pipes are oppositely arranged at the front end of the base, the split-flow pipe is communicated with the base, the split-flow pipe is used for supplying hot gas, and one side of the split-flow pipe, which is far away from the base, is provided with the flange plate.

Further, the node pipe is installed to the outer peripheral face bottom of shunt tubes, and the internally mounted of node pipe has solenoid valve, and the node pipe link up mutually with the shunt tubes, and the overflow structure has been constituteed jointly with the shunt tubes to the node pipe.

Further, the outside fixedly connected with support of shunt tubes, wherein every two is the support of opposite installation and is a set of, and the outside of every component flow tube is the linear array fixedly connected with two sets of supports, and the inboard fixedly connected with guide rail of every two sets of transversely adjacent supports.

Compared with the prior art, the invention has the following beneficial effects:

1. when the boiler is used, the gear arranged on the output shaft at the rear side of the motor A can be driven in a rotating way by starting the motor A arranged at the front end of the base, the guide ring fixedly connected with the bottom end of the guide ring is driven to rotate along the annular groove formed in the base through the meshing transmission of the gear and the guide teeth fixedly connected with the outer side of the base, and when the base rotates, the scraper fixedly connected with the inner wall of the base can be synchronously driven to move along the inner wall of the rear side of the base, and the scraper is contacted with the rear side of the base to carry out rapid automatic cleaning operation on holes formed when the shunt tubes formed in the base are connected, so that the problem that the internal heat load of the boiler exceeds standard easily due to unsmooth exhaust of the boiler can be effectively avoided through cleaning of interfaces of the shunt tubes.

2. When using, can detect the inside burning up to standard of base through utilizing the controller that sets up at the base front end, if lead to the inside solid useless burning of base insufficient because of burning up to standard, then the pump machine of installing at the base front end is installed in the start that can be synchronous comes with the quick suction of outside wind flow to its inside and enter into the inside of base and boiler through the power supply pipe and accelerate the air input of boiler, and then further promotion boiler's combustion efficiency, and then reach more practical purpose, and when using, can carry out quick discharge reposition of redundant personnel through utilizing the hot gas that produces when setting up two punishment flow pipes with the boiler burning at the base front end, and then reach waste heat recovery's purpose.

3. When the temperature sensor is used, the motor B arranged on the outer side of the guide rail can be started to rotationally drive the screw, the platen is driven to move outwards through the transmission connection of the screw and the movable seat in the guide rail in a sliding connection mode, the temperature sensor arranged at the top end of the bracket is synchronously utilized to detect the temperature of the current shunt tube, if the local temperature in the shunt tube is detected to exceed the standard, the electric push rod arranged at the top end of the platen can be started to push the bottom plate to the upper side, the overflow tube fixedly connected at the top end of the bottom plate is inserted into the inside of the node tube, the electromagnetic valve in the node tube at the corresponding position is opened, and the shunt tube can be used for supplying air to the inside of the overflow tube through the node tube until the temperature sensor arranged at the top end of the bracket detects that the temperature in the inside of the current shunt tube is reduced to the inside of the temperature range which meets the standard, and the aim of being more practical is achieved.

3. Through setting up corresponding control system for the device is when using, can start the vertical position of installing the overflow pipe in the guide rail according to actual need and adjust, make the overflow pipe when using, can carry out selective connection at root actual need, this design can effectually avoid causing the excessive impact to cause the boiler to damage in the boiler that the inside gas reflux of shunt tubes was installed in the base when the inside air current of shunt tubes was excessively blockked up at present, and this design not only can realize carrying out quick discharge to unnecessary heat in the boiler, can also effectually improve the holistic harmony of device, waste heat that produces when also can be better assurance to boiler burning through the reposition of redundant personnel to the steam is recycled, effectually avoided because of the steam is when follow-up recovery operation, cause excessive influence to surrounding environment because of excessive accumulation when the shunt tubes is inside easily, and excessive accumulation stops when using can cause extra heat loss's problem to appear.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

In the drawings:

FIG. 1 shows a schematic view of a front side elevation in partial structural cut-away of an adjustment system according to an embodiment of the present invention;

FIG. 2 shows a schematic representation of a top-down side view of a part of the structure of an adjustment system in a cut-away state, according to an embodiment of the invention;

FIG. 3 illustrates a schematic diagram of a front view of an adjustment system according to an embodiment of the present invention;

FIG. 4 shows a schematic diagram of a base-to-supply tube display structure of an adjustment system according to an embodiment of the invention;

fig. 5 shows a schematic diagram of a shunt to motor B display configuration of an adjustment system according to an embodiment of the present invention;

FIG. 6 shows a schematic diagram of a mobile seat to temperature sensor display of an adjustment system according to an embodiment of the invention;

FIG. 7 illustrates an enlarged schematic view of the adjustment system of FIG. 2 at A in accordance with an embodiment of the present invention;

FIG. 8 illustrates an enlarged schematic view of the structure of FIG. 2 at B of the adjustment system according to an embodiment of the present invention;

fig. 9 is a schematic diagram showing a control flow structure of an adjusting system according to an embodiment of the present invention.

List of reference numerals

1. A base; 2. a motor A; 3. a gear; 4. a guide ring; 5. a base; 6. guiding teeth; 7. a scraper; 8. a controller; 9. a pump machine; 10. a supply tube; 11. a shunt; 12. a node pipe; 13. a flange plate; 14. a bracket; 15. a guide rail; 16. a motor B; 17. a screw; 18. a movable seat; 19. a platen; 20. an electric push rod; 21. a bottom plate; 22. a guide rod; 23. an overflow pipe; 24. a bracket; 25. a temperature measurer.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 9:

the invention provides a boiler heat load on-line adjusting system, which comprises: the base 1, the main part of base 1 is the boiler cover, and the front end of base 1 installs motor A2, install gear 3 on the rear side output shaft of motor A2, the rear side of base 1 has seted up the ring channel, the inside rotation of this ring channel is connected with guide ring 4, the rear side fixedly connected with pedestal 5 of guide ring 4 has formed bearing structure jointly with pedestal 5, and be annular array fixedly connected with gear guide 6 on the outer peripheral face of pedestal 5, gear guide 6 meshes with the transmission with gear 3, the inboard fixedly connected with scraper 7 of pedestal 5, transverse slot has been seted up in the inside of guide rail 15, and motor B16 is installed in the outside of guide rail 15, install screw 17 on motor B16's the output shaft, motor B16 has formed driving structure jointly with screw 17, transverse slot inside sliding connection who sets up in the guide rail 15 has movable seat 18, movable seat 18's inside has seted up the screw hole with screw 17 assorted, the top end of the movable seat 18 is fixedly connected with a bedplate 19, an electric push rod 20 is arranged at the top end of the bedplate 19, a bottom plate 21 is arranged at the top end of the electric push rod 20, guide rods 22 are fixedly connected to four corners of the bottom end surface of the bottom plate 21, the guide rods 22 penetrate through the bedplate 19 downwards, an overflow pipe 23 is arranged at the top end of the bottom plate 21, a bracket 24 is fixedly connected to the top end surface of the bottom plate 21, a temperature detector 25 is arranged at the top end of the bracket 24, when the movable seat is used, the screw 17 can be driven to rotate by starting a motor B16 arranged at the outer side of the guide rail 15, the bedplate 19 is driven to move outwards by the transmission connection of the screw 17 and the movable seat 18 in the guide rail 15 in a sliding manner, the temperature detector 25 arranged at the top end of the bracket 24 is synchronously utilized to detect the temperature of the current shunt pipe 11, if the local temperature in the shunt pipe 11 is detected to exceed the standard, the bottom plate 21 can be pushed to the upper side by starting the electric push rod 20 installed at the top end of the bedplate 19, the overflow pipe 23 fixedly connected at the top end of the bottom plate 21 is inserted into the inside of the node pipe 12 where the bottom end of the shunt pipe 11 is arranged, and the electromagnetic valve in the node pipe 12 at the corresponding position is opened, so that the shunt pipe 11 can supply air to the inside of the overflow pipe 23 through the node pipe 12 to realize quick local shunt operation until the temperature detector 25 arranged at the top end of the bracket 24 detects that the temperature inside the current shunt pipe 11 is reduced to the inside of the temperature range meeting the standard, and the aim of more practicability is achieved.

Wherein, be the inclined plane structure in the scraper 7, and the preceding terminal surface of scraper 7 and contact with the rear end face of base 1, the scraping structure has been constituteed jointly to pedestal 5 and scraper 7, install controller 8 on the preceding terminal surface of base 1, pump 9 is still installed to the front end of base 1, pump 9 is used for admitting air, and through controller 8 control, when the boiler is using, can rotate the drive to the gear 3 of installing on the motor A2 rear side output shaft through the motor A2 of installing at the front end of base 1, and realize through the meshing transmission of gear 3 and fixed connection pedestal 5 outside leading tooth 6 that drive pedestal 5 rotate along the ring channel of seting up in base 1 through its bottom fixed connection, and when pedestal 5 rotates, the scraper 7 of driving fixed connection on the inner wall of pedestal 5 moves along the rear side inner wall of base 1, and carry out the contact with the rear side of base 1 through the scraper 7 and carry out the automatic boiler produced when being connected of the boiler of seting up in base 1 and carry out the high-speed boiler and change the inside cleaning of the produced hole, can avoid the inside to clean problem that the inside is difficult to produce because of the smooth and easy to clean through the tap hole.

Wherein, supply flow tube 10 is installed on the top of pump machine 9, supply flow tube 10's outlet duct passes base 1, pump machine 9 and supply flow tube 10 have formed inlet structure jointly, shunt tubes 11 are installed to the front end of base 1, shunt tubes 11 are equipped with two places altogether, and two punishment flow tubes 11 are the front end that the opposite direction was installed at base 1, shunt tubes 11 link up with base 1 mutually, and shunt tubes 11 are arranged in supplying the steam, and flange 13 is installed to one side of keeping away from base 1 among shunt tubes 11, when using, can detect whether the inside combustion standard of base 1 through utilizing the controller 8 that sets up at base 1 front end, if the solid waste combustion of base 1 is insufficient because of the combustion standard, then can be synchronous start-up install the pump machine 9 of base 1 front end with outside the fast suction to its inside and through supplying flow tube 10 to the inside of base 1 and boiler to accelerate the air input of boiler, and then further promote the combustion efficiency of boiler, and then reach more practical purpose that can be reached through utilizing the exhaust-heat produced when using of setting up two boiler 11 at base 1 front end and then the purpose of recycling that the waste heat produced when using.

The node pipes 12 are installed at the bottom end of the outer peripheral surface of the shunt pipes 11, electromagnetic valves are installed in the node pipes 12, the node pipes 12 are communicated with the shunt pipes 11, the node pipes 12 and the shunt pipes 11 form an overflow structure, the outer sides of the shunt pipes 11 are fixedly connected with the supports 14, each two supports 14 are arranged in a group, the outer sides of each group of shunt pipes 11 are fixedly connected with two groups of supports 14 in a linear array, the inner sides of each two groups of the laterally adjacent supports 14 are fixedly connected with the guide rails 15, the corresponding control system is arranged, when the device is used, the longitudinal position of the overflow pipe 23 installed in the guide rails 15 can be started according to actual needs, the overflow pipe 23 can be selectively connected according to actual needs, the design can effectively avoid the boiler damage caused by excessive impact of internal gas of the shunt pipes 11 to the boiler installed in the base 1 when the current air flow in the shunt pipes 11 is excessively blocked, the design can not only realize the rapid heat discharge of the boiler, but also can effectively improve the overall heat recovery efficiency of the boiler, the boiler can conveniently realize the recovery of the boiler, the heat recovery efficiency is improved, the problem can be more effectively avoided when the heat recovery efficiency is greatly increased, the heat recovery efficiency is improved, the heat recovery efficiency is more improved, the problem is more convenient to realize the heat recovery efficiency, and the heat recovery efficiency is more increased due to the excessive heat recovery efficiency, and the heat recovery efficiency is caused by the excessive heat recovery efficiency, this design can realize the life-span extension work to the boiler through effectual thermal protection structure, further has promoted the holistic life-span of device, and then reaches more practical purpose.

When in use, the utility model is characterized in that: when the boiler is used, the base 1 is connected with the boiler, and the controller 8 arranged at the front end of the base 1 and external temperature measuring machinery and other parts can be synchronously started to continuously monitor the temperature inside the boiler;

when the boiler is used, the motor A2 arranged at the front end of the base 1 can be started to rotationally drive the gear 3 arranged on the output shaft at the rear side of the motor A2, the gear 3 is meshed with the guide teeth 6 fixedly connected with the outer side of the base body 5 to drive the base body 5 to rotate along the annular groove formed in the base 1 through the guide ring 4 fixedly connected with the bottom end of the base body, when the base body 5 rotates, the scraper 7 fixedly connected with the inner wall of the base body 5 can be synchronously driven to move along the inner wall at the rear side of the base 1, and the holes generated when the shunt tubes 11 formed in the base 1 are connected through the contact of the scraper 7 and the rear side of the base 1 are subjected to rapid automatic cleaning operation, and the problem that the heat load in the boiler is easy to exceed standard due to the fact that the internal exhaust of the boiler is not smooth can be effectively avoided through the cleaning of interfaces of the shunt tubes 11;

when the boiler is used, whether the combustion inside the base 1 reaches the standard or not can be detected by utilizing the controller 8 arranged at the front end of the base 1, if the combustion is insufficient, the pump 9 arranged at the front end of the base 1 can be synchronously started to quickly suck external air flow into the pump and enter the base 1 and the boiler through the air supply pipe 10 to accelerate the air inflow of the boiler, so that the combustion efficiency of the boiler is further improved, the aim of being more practical is achieved, and when the boiler is used, hot air generated during the combustion of the boiler can be quickly discharged and split by utilizing the two split flow pipes 11 arranged at the front end of the base 1, so that the aim of recycling waste heat is achieved;

when the temperature sensor is used, the motor B16 arranged on the outer side of the guide rail 15 can be started to rotationally drive the screw rod 17, the platen 19 is driven to move outwards through the transmission connection of the screw rod 17 and the movable seat 18 in the guide rail 15 in a sliding connection mode, the temperature sensor 25 arranged at the top end of the bracket 24 is synchronously utilized to detect the temperature of the current shunt tube 11, if the local temperature in the shunt tube 11 is detected to exceed the standard, the electric push rod 20 arranged at the top end of the platen 19 can be started to push the bottom plate 21 upwards, the overflow pipe 23 fixedly connected at the top end of the bottom plate 21 is inserted into the inside of the node pipe 12 arranged at the bottom end of the shunt tube 11, the electromagnetic valve in the node pipe 12 at the corresponding position is opened, the shunt tube 11 can supply air to the inside of the overflow pipe 23 through the node pipe 12 to realize quick local shunt operation, until the temperature detector 25 arranged at the top end of the bracket 24 detects that the temperature inside the current shunt tube 11 falls into the temperature range meeting the standard, the aim of more practical use is achieved, and the corresponding control system is arranged, so that when the device is used, the longitudinal position of the overflow tube 23 arranged in the guide rail 15 can be started to be adjusted according to actual needs, and the overflow tube 23 can be selectively connected according to actual needs when in use, the design can effectively avoid the damage to the boiler caused by excessive impact of the internal gas of the shunt tube 11 flowing back into the boiler arranged in the base 1 due to the easy backflow of the internal gas of the shunt tube 11 into the boiler when the current shunt tube 11 is excessively blocked, and the design can realize the rapid discharge of redundant heat in the boiler, the whole harmony of device can also be effectual improvement, through the reposition of redundant personnel to the steam also can be better ensure to carry out recycle to the produced waste heat of boiler burning, effectually avoided because of the steam causes excessive influence to the surrounding environment when the shunt tubes 11 are inside in follow-up recovery operation, and excessive accumulation stops when using and can cause extra heat loss's problem to appear.

Claims (10)

1. An on-line regulation system for the heat load of a boiler, comprising: base (1), the main part of base (1) is the boiler lid, and install motor A (2) in the front end of base (1), install gear (3) on the rear side output shaft of motor A (2), the ring channel has been seted up to the rear side of base (1), the inside rotation of this ring channel is connected with guide ring (4), the rear side fixedly connected with pedestal (5) of guide ring (4), bearing structure has been constituteed jointly to guide ring (4) and pedestal (5), and be annular array fixedly connected with on the outer peripheral face of pedestal (5) and lead tooth (6), lead tooth (6) and gear (3) engaged transmission, inboard fixedly connected with scraper (7) of pedestal (5).

2. An on-line boiler heat load adjustment system according to claim 1, wherein: one side of the scraper (7) close to the base (1) is of an inclined surface structure, the front end surface of the scraper (7) is contacted with the rear end surface of the base (1), and the base body (5) and the scraper (7) form a scraping structure together.

3. An on-line boiler heat load adjustment system according to claim 1, wherein: the front end face of the base (1) is provided with a controller (8), the front end of the base (1) is also provided with a pump (9), and the pump (9) is used for air intake and is controlled by the controller (8).

4. A boiler heat load on-line regulation system as set forth in claim 3 wherein: the top of pump machine (9) is installed and is supplied flow tube (10), and the outlet duct of supplying flow tube (10) passes base (1), and inlet structure has been constituteed jointly to pump machine (9) and supply flow tube (10), and shunt tubes (11) are installed to the front end of base (1).

5. An on-line boiler heat load adjustment system according to claim 4, wherein: the split-flow pipe (11) is provided with two parts in total, the two split-flow pipes (11) are oppositely arranged at the front end of the base (1), the split-flow pipe (11) is communicated with the base (1), the split-flow pipe (11) is used for supplying hot gas, and one side, far away from the base (1), of the split-flow pipe (11) is provided with the flange (13).

6. An on-line boiler heat load adjustment system according to claim 5, wherein: the node pipe (12) is installed to outer peripheral face bottom of shunt tubes (11), and the internally mounted of node pipe (12) has solenoid valves, and node pipe (12) link up with shunt tubes (11), and overflow structure has been constituteed jointly with shunt tubes (11) to node pipe (12).

7. The on-line boiler heat load adjustment system of claim 6, wherein: the outside fixedly connected with support (14) of shunt tubes (11), wherein every two is the support (14) of opposite installation and is a set of, and the outside of every component flow tube (11) is linear array fixedly connected with two sets of supports (14), and the inboard fixedly connected with guide rail (15) of every two sets of transversely adjacent supports (14).

8. An on-line boiler heat load adjustment system according to claim 7, wherein: the inside of guide rail (15) has seted up horizontal groove, and motor B (16) are installed in the outside of guide rail (15), install screw rod (17) on the output shaft of motor B (16).

9. The on-line boiler heat load adjustment system of claim 8, wherein: the motor B (16) and the screw rod (17) jointly form a driving structure, a movable seat (18) is slidably connected in a transverse groove formed in the guide rail (15), a screw hole matched with the screw rod (17) is formed in the movable seat (18), a platen (19) is fixedly connected to the top end of the movable seat (18), an electric push rod (20) is mounted on the top end of the platen (19), a bottom plate (21) is mounted on the top end of the electric push rod (20), and guide rods (22) are fixedly connected to the four corners of the bottom end face of the bottom plate (21).

10. The on-line boiler heat load adjustment system of claim 9, wherein: the guide rod (22) penetrates through the platen (19) downwards, an overflow pipe (23) is arranged at the top end of the bottom plate (21), a bracket (24) is fixedly connected to the top end surface of the bottom plate (21), and a temperature detector (25) is arranged at the top end of the bracket (24).