CN220648389U - Time-sharing combined dual-energy drive collector composite heating device - Google Patents

Abstract

The utility model relates to the technical field of combined type composite heating, in particular to a time-sharing combined type dual-energy driven heat collection composite heating device which comprises a heat preservation water tank, a circulating pump, a valve I, a biomass heating furnace and a water temperature and liquid level monitor. Through this design for constantly carry out the helping hand to the burning when pumping the water source when using biomass combustion stove, make the burning more abundant, be convenient for heat supply fast, the heat supply of multiple mode of being convenient for simultaneously makes it more convenient to use.

Description

Time-sharing combined type dual-energy driving heat collection composite heating device

Technical Field

The utility model relates to the technical field of combined type composite heating, in particular to a time-sharing combined type dual-energy driving heat collection composite heating device.

Background

The prior art heating system can meet the use requirement, but has the following disadvantages when in use:

1. when the hot water supply and heating switching is inconvenient, water is rapidly pumped when the biomass furnace is used, so that the use efficiency is affected;

2. the rapid linkage of the air box for assisting is inconvenient in the heating process of the biomass furnace, so that the heating efficiency is affected;

3. the rapid heat source switching is inconvenient when weather is good, and waste is easily caused.

Disclosure of Invention

The utility model aims to provide a time-sharing combined type dual-energy driving heat collection composite heating device, which aims to solve the problems that when the conventional heating system provided in the background art is inconvenient to perform hot water supply and heating switching, water is rapidly pumped when a biomass furnace is used, the service efficiency is affected, the rapid linkage of a bellows is inconvenient to perform in the heating process of the biomass furnace, the heating efficiency is affected, the rapid heat source switching is inconvenient to perform when weather is good, and waste is easily caused.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a time-sharing combination formula dual-energy drive heat collection composite heating device, includes heat preservation water tank, circulating pump, valve one, biomass heating stove and temperature liquid level monitor, heat preservation water tank has the circulating pump through the pipe connection, the circulating pump side has valve one through the pipe connection, valve one has the biomass heating stove through the pipe connection, biomass heating stove delivery port passes through the pipe connection with heat preservation water tank, heat preservation water tank top is equipped with temperature liquid level monitor, biomass heating stove inside is provided with the water supply structure, the water supply structure includes the heating water stove, the heating water stove sets up inside the biomass heating stove, heating water stove left side inside assembly is provided with the auger, the auger upper end runs through and inserts to establish at the heating water stove top, and the auger upper end extends to biomass heating stove top, the auger top is fixed with driven gear, driven gear top right side meshing has rather than vertically drive gear, the drive shaft is fixed with the transmission shaft inside, the drive shaft left end is equipped with servo motor through the coupling joint, servo motor below is fixed with the assembly, the heating water stove left side inside the heating water supply structure is provided with the auger, the mounting bracket is still equipped with the heating structure through the heat preservation water tank top.

Preferably, the transmission shaft side pot head is equipped with the bearing frame, the bearing frame lower extreme passes through the support frame assembly at biomass heating stove top, the heating water stove side passes through the assembly seat support assembly inside biomass heating stove, the fixed parcel of heating water stove outer wall has the insulating sheath.

Preferably, the auger upper portion is assembled at biomass heating furnace top through outer seat activity, outer limit ring has been seted up to outer seat inside, outer limit ring is fixed on the auger surface, heating water furnace top inner wall is fixed with interior seat, interior seat cover is established on auger upper portion, and interior seat inside card is equipped with interior limit ring, interior limit ring is fixed on auger upper surface.

Preferably, a sealing plate is arranged above the auger surface auger blade, the sealing plate is fixed on the upper portion of the auger, the side edge of the sealing plate is attached to the inner wall of the upper portion of the water heating furnace, and a water inlet and a water outlet which are in butt joint with the biomass heating furnace and the heat preservation water tank pipeline are formed in the left side wall of the water heating furnace.

Preferably, the right side of the heating water furnace is provided with a combustion bin, the right side of the heating water furnace is hinged with an outer door, and the right side of the heat preservation water tank is hinged with an inner door.

Preferably, the bellows structure includes the linkage carousel, the linkage carousel is fixed at the transmission shaft right-hand member, linkage carousel surface side is fixed with the driving lever, driving lever surface cover is equipped with the driving pulley, driving pulley outside card is equipped with dials the strip, dials strip both ends card and establishes inside spacing frame lateral wall, spacing frame lower extreme assembly is at biomass heating furnace top, dials strip lower surface fixation and has the gangbar, the gangbar runs through and inserts to establish on biomass heating furnace top right side, the gangbar lower extreme is fixed with the bellows frame, the bellows frame is located inside biomass heating furnace and between the heating water stove side, the bellows frame is inside to be provided with the bellows board, bellows hole has been seted up to the bellows board inside.

Preferably, the side edge of the bellows frame is fixed with a sliding block, the sliding block is clamped on the side wall of the heating water furnace, and a sliding groove corresponding to the sliding block is formed in the side wall of the heating water furnace.

Preferably, the air inlet corresponding to the air box hole is formed in the side wall of the heating water furnace, the vent hole corresponding to the air box hole is formed in the side wall of the biomass heating furnace, the linkage hole corresponding to the linkage rod is formed in the top of the biomass heating furnace, and the sliding rail corresponding to the poking bar is formed in the inner side wall of the limiting frame.

Preferably, the solar heat structure comprises a valve II, the valve II is connected to the side edge of the heat preservation water tank through a pipeline, the other end of the valve II is connected with a water supply pump through a pipeline, the water supply pump is connected with a solar heat collector through a pipeline, a top water tank is arranged above the solar heat collector, and the top water tank is connected with the heat preservation water tank through a pipeline.

Preferably, the electric heating structure comprises electric water heating, the electric water heating water inlet end is connected with tap water through a cold water valve through a pipeline, the electric water heating water outlet end is connected to a hot water interface of a hand washing basin rain assembly through a valve III at one end of a tee joint, the electric water heating water outlet end is connected with a radiator, a floor heating pipeline and a water heating bed water inlet in parallel through the other end of the tee joint, and is also connected with the side of a heat preservation water tank in parallel, and the radiator, the floor heating pipeline and a water heating bed water outlet are connected with a filter through a valve IV, and the filter is connected with the heat preservation water tank through a pipeline.

Compared with the prior art, the utility model has the beneficial effects that:

1. through setting up the water supply structure, under the setting of heating the water heater, through the auger, be convenient for carry out pumping heating to the inside water that gets into the heating the water heater for heating efficiency is higher, and follow-up heating efficiency of being convenient for makes the operation more convenient, through this design, has improved the convenience and the rapidity of heat supply;

2. through setting up the bellows structure, under the setting of linkage carousel, when driving the auger through the transmission shaft and rotating, also drive the linkage carousel and rotate, the linkage carousel rotates and drives the linkage pole and stimulate the bellows frame and remove between biomass heating stove and heating water stove lateral wall for follow-up be convenient for carry out fast air flow through bellows when burning, make the burning more fully heat more convenient, through this design, improved the convenience and the high efficiency of heat supply;

3. through setting up the electric heating structure, under the setting of electric perheat, be convenient for carry out the heating to water through electric power for it is more convenient that the follow-up is used, is convenient for switch heating system, makes the use more convenient, through this design, has improved the convenience and the high efficiency of heat supply;

4. in the structural design, through the positive thermal structure that sets up for when weather is good, the natural energy of convenient to use uses solar energy to supply heat, the resources of being convenient for are saved and to the make full use of solar energy, make use more environmental protection convenient, improved the convenience and the feature of environmental protection of heat supply.

Description of the drawings:

in order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an assembly system of the present utility model;

FIG. 2 is a schematic side sectional view of the biomass heating furnace structure of the present utility model;

FIG. 3 is a schematic cross-sectional elevation view of the biomass heating furnace according to the present utility model;

FIG. 4 is an enlarged schematic view of the structure A in FIG. 2 according to the present utility model;

FIG. 5 is an enlarged schematic view of the structure of FIG. 2B according to the present utility model;

FIG. 6 is an enlarged schematic view of the structure of FIG. 2 at C in accordance with the present utility model;

FIG. 7 is an enlarged schematic view of the structure of FIG. 2D according to the present utility model;

fig. 8 is an enlarged schematic view of the structure at E in fig. 3 according to the present utility model.

In the figure: 111. a heat preservation water tank; 112. a circulation pump; 113. a valve I; 114. a biomass heating furnace; 115. a water temperature and level monitor; 2. a water supply structure; 211. a water heating furnace; 212. an auger; 213. a driven gear; 214. a transmission gear; 215. a transmission shaft; 216. a coupling; 217. a servo motor; 218. a mounting frame; 219. a bearing seat; 220. a support frame; 221. an outer seat; 222. an outer limit ring; 223. an inner seat; 224. an inner limit ring; 225. a sealing plate; 226. a heat insulating sleeve; 227. an assembly seat; 228. a water inlet and a water outlet; 229. an outer door; 230. an inner door; 3. a bellows structure; 311. a linkage turntable; 312. a deflector rod; 313. a thumb wheel; 314. a poking bar; 315. a limit frame; 316. a linkage rod; 317. a fan box frame; 318. a fan case plate; 319. a bellows aperture; 320. a slide block; 321. a chute; 322. an air inlet hole; 323. a slide rail; 324. a linkage hole; 325. a vent hole; 4. a yang-heat structure; 411. a second valve; 412. a water supply pump; 413. a solar collector; 414. a top tank; 5. an electric heating structure; 511. electric water heating; 512. a cold water valve; 513. a third valve; 514. a hand washing pool rain assembly; 515. a radiator; 516. a floor heating pipeline; 517. a water heating bed; 518. a valve IV; 519. and (3) a filter.

The specific embodiment is as follows:

the following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-8, an embodiment of the present utility model is provided: the time-sharing combined type dual-energy driving heat collection composite heating device comprises a heat preservation water tank 111, a circulating pump 112, a first valve 113, a biomass heating furnace 114 and a water temperature liquid level monitor 115, wherein the heat preservation water tank 111 is connected with the circulating pump 112 through a pipeline, the first valve 113 is connected with the biomass heating furnace 114 through a pipeline on the side edge of the circulating pump 112, a water outlet of the biomass heating furnace 114 is connected with the heat preservation water tank 111 through a pipeline, the water temperature liquid level monitor 115 is assembled on the top of the heat preservation water tank 111, a water delivery structure 2 is arranged inside the biomass heating furnace 114, the water delivery structure 2 comprises a heating water furnace 211, the heating water furnace 211 is arranged inside the biomass heating furnace 114, the left side of the heating water furnace 211 is internally provided with an auger 212, the upper end of the auger 212 is inserted into the top of the heating water furnace 211 in a penetrating way, the upper end of the auger 212 extends to the upper part of the top of the biomass heating furnace 114, a driven gear 213 is fixed at the top end of the auger 212, a transmission gear 214 perpendicular to the driven gear 213 is meshed on the right side above the driven gear 213, a transmission shaft 215 is fixed in the transmission gear 214, the left end of the transmission shaft 215 is connected with a servo motor 217 through a coupling 216, a mounting frame 218 is fixed below the servo motor 217, the mounting frame 218 is assembled at the top of the biomass heating furnace 114, the side end of the transmission shaft 215 is provided with a bellows structure 3, and a Yang Rejie structure 4 and an electric heating structure 5 are also assembled through pipeline connection of a heat preservation water tank 111;

further, a bearing pedestal 219 is sleeved at the side end of the transmission shaft 215, the lower end of the bearing pedestal 219 is assembled at the top of the biomass heating furnace 114 through a supporting frame 220, the side edge of the heating water furnace 211 is supported and assembled inside the biomass heating furnace 114 through an assembling seat 227, and a heat insulation sleeve 226 is fixedly wrapped on the outer wall of the heating water furnace 211, so that the transmission shaft 215 is supported and fixed conveniently, and the subsequent linkage operation is facilitated through the design;

further, the upper part of the auger 212 is movably assembled at the top of the biomass heating furnace 114 through an outer seat 221, an outer limit ring 222 is arranged in the outer seat 221, the outer limit ring 222 is fixed on the surface of the auger 212, an inner seat 223 is fixed on the inner wall of the top of the heating water furnace 211, the inner seat 223 is sleeved at the upper part of the auger 212, an inner limit ring 224 is clamped in the inner seat 223, and the inner limit ring 224 is fixed on the upper surface of the auger 212, so that stable transmission of the auger 212 is facilitated through the design;

further, a sealing plate 225 is arranged above the surface hinge of the screw 212, the sealing plate 225 is fixed on the upper part of the screw 212, the side edge of the sealing plate 225 is attached to the inner wall of the upper part of the heating water furnace 211, and a water inlet and outlet 228 which is in butt joint with the biomass heating furnace 114 and the heat preservation water tank 111 is formed in the left side wall of the heating water furnace 211;

further, a combustion bin is arranged on the right side of the heating water furnace 211, an outer door 229 is hinged on the right side of the heating water furnace 211, and an inner door 230 is hinged on the right side of the heat preservation water tank 111, so that the biomass heating furnace 114 and the heating water furnace 211 can be conveniently opened and closed, and the use is more convenient;

further, the bellows structure 3 comprises a linkage rotary table 311, the linkage rotary table 311 is fixed at the right end of a transmission shaft 215, a deflector rod 312 is fixed on the side edge of the surface of the linkage rotary table 311, a deflector wheel 313 is sleeved on the surface of the deflector rod 312, a deflector rod 314 is clamped outside the deflector wheel 313, two ends of the deflector rod 314 are clamped inside the side wall of a limiting frame 315, the lower end of the limiting frame 315 is assembled at the top of the biomass heating furnace 114, a linkage rod 316 is fixed on the lower surface of the deflector rod 314, the linkage rod 316 penetrates through and is arranged on the right side of the top of the biomass heating furnace 114, a bellows frame 317 is fixed at the lower end of the linkage rod 316, the bellows frame 317 is positioned between the inside of the biomass heating furnace 114 and the side edge of the heating water furnace 211, a bellows plate 318 is arranged inside the bellows plate 318, and a bellows hole 319 is formed inside the bellows plate 318.

Further, the side edge of the bellows frame 317 is fixed with a sliding block 320, the sliding block 320 is clamped on the side wall of the heating water furnace 211, and a sliding groove 321 corresponding to the sliding block 320 is arranged on the side wall of the heating water furnace 211, so that air can flow in quickly during combustion conveniently, and the use and operation are more convenient;

further, the side wall of the heating water furnace 211 is provided with an air inlet 322 corresponding to the air box hole 319, the side wall of the biomass heating furnace 114 is provided with a vent 325 corresponding to the air box hole 319, the top of the biomass heating furnace 114 is provided with a linkage hole 324 corresponding to the linkage rod 316, and the inner side wall of the limit frame 315 is provided with a sliding rail 323 corresponding to the poking bar 314, so that the linkage rod 316 is conveniently and stably driven, and the use is more convenient and efficient;

further, the Yang Rejie structure 4 comprises a valve II 411, the valve II 411 is connected to the side edge of the heat preservation water tank 111 through a pipeline, the other end of the valve II 411 is connected with a water supply pump 412 through a pipeline, the water supply pump 412 is connected with a solar heat collector 413 through a pipeline, a top water tank 414 is arranged above the solar heat collector 413, and the top water tank 414 is connected with the heat preservation water tank 111 through a pipeline;

further, electric heat structure 5 includes electric perheat 511, electric perheat 511 water inlet end passes through cold water valve 512 through the pipeline and connects the running water, electric perheat 511 water outlet end passes through three way connection one end and is connected to the hot water interface of hand sink rain subassembly 514 through valve three 513, electric perheat 511 water outlet end passes through the three way connection other end parallel connection at radiator 515, ground heating pipeline 516 and hot-water heating bed 517 water inlet, still parallelly connected at heat preservation water tank 111 side, radiator 515, ground heating pipeline 516 and hot-water heating bed 517 delivery port are connected with filter 519 through valve four 518, filter 519 passes through the pipeline and is connected with heat preservation water tank 111, through this design, the switching to electric heat energy is used conveniently, make it is more convenient to use hot water and heat.

Working principle: in operation, when biomass energy is used, such as branches, firewood, coal and the like, combustion materials are placed in the right side of the water heating furnace 211 under the cooperation of the inner door 230 and the outer door 229, ignition is carried out for combustion, a water source in the heat preservation water tank 111 enters the water heating furnace 211 in the biomass heating furnace 114 through the circulating pump 112 when the valve I113 is opened for heating operation, in operation, the transmission shaft 215 is driven to rotate through the driving servo motor 217 through the driving of the coupling 216, the transmission shaft 215 is driven to rotate under the meshing of the transmission gear 214 and the driven gear 213, the auger 212 is driven to rotate through the surface auger blade, the water source entering the water heating furnace 211 is pumped from bottom to top through the surface auger, so that water flow is convenient to be rapidly overlapped through pumping, the internal combustion heat of the heating water heater 211 is taken away, the rapid heating of a water source is facilitated, when the auger 212 rotates, the auger 212 is kept under the European installation of the inner seat 223 and the outer seat 221 by the limit installation of the outer limit ring 222 and the inner limit ring 224, the auger 212 rotates stably, then the water source cannot overflow through the upper part of the heating water heater 211 by sealing of the sealing plate 225, the water enters the heat preservation water tank 111 while taking away the heat under the cooperation of the water inlet 228, the hot water supply in the heat preservation water tank 111 is ensured, and the heating water heater 211 cannot or reduces the heat transfer to the biomass heating furnace 114 by the support of the wrapping of the heat insulation sleeve 226 and the assembly seat 227 during the operation, so that the scalding of the biomass heating furnace 114 is avoided;

during operation, when the transmission shaft 215 rotates, the transmission shaft 215 drives the auger 212 to rotate through the support of the bearing seat 219 and the support frame 220, the linkage turntable 311 is synchronously driven to rotate, the linkage turntable 311 is driven to rotate, the deflector rod 312 drives the deflector wheel 313 to move, because the deflector wheel 313 is clamped inside the deflector rod 314, the deflector rod 314 is clamped inside the limit frame 315, the deflector rod 314 moves up and down through the cooperation of the sliding rail 323, so that the deflector rod 314 is driven to reciprocate up and down when the linkage turntable 311 rotates, the deflector rod 314 drives the linkage rod 316 to reciprocate up and down, the linkage rod 316 drives the fan box frame 317 to reciprocate and insert, the fan box plate 318 moves up and down on the outer wall side of the heating water boiler 211 under the cooperation of the sliding block 320 and the sliding groove 321, and the entering air through the air inlet hole 322 is used for carrying out air flow alternation in the heating water boiler 211 under the cooperation of the fan box hole 319, heat utilization is more thorough, and efficient use is facilitated;

in operation, when sunlight is sufficient, the biomass heating furnace 114 can not be used for heating, the valve II 411 is opened, cold water is pumped out of the heat preservation water tank 111 under the driving assistance of the water supply pump 412, and flows into the heat preservation water tank 111 through a pipeline after being heated through the cooperation of the solar heat collector 413 and the top water tank 414, so that the subsequent use is facilitated;

during operation, when using electricity to heat, open cold water valve 512, cold water gets into inside the electric perheat 511 after, be convenient for supply domestic water such as wash basin drenching subassembly 514 through valve three 513, simultaneously also be convenient for heat heating such as ground heating pipeline 516, radiator 515 and hot-water heating bed 517, after the cooperation through valve four 518 filters through filter 519 during heating, get into inside holding water box 111, be convenient for to hot water cyclic utilization, it is more convenient high-efficient to supply heat, the combination formula operation of the multiunit heating heat supply is used, make the use more convenient, more do benefit to the guarantee people's living needs, this system is in above dual can drive heating system automatic control switching, but also manual switching, the comprehensive utilization of energy has been realized, indoor temperature's is relatively stable has been guaranteed, the operation is to this end.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a compound heating system of time-sharing combination formula dual-energy drive heat collection, includes heat preservation water tank (111), circulating pump (112), valve one (113), biomass heating stove (114) and temperature liquid level monitor (115), its characterized in that: the utility model discloses a biomass heating furnace, including heat preservation water tank (111), heat preservation water tank (111) have circulating pump (112) through the pipe connection, circulating pump (112) side has valve one (113) through the pipe connection, valve one (113) has biomass heating furnace (114) through the pipe connection, biomass heating furnace (114) delivery port is connected with heat preservation water tank (111) through the pipe connection, heat preservation water tank (111) top is equipped with temperature liquid level monitor (115), biomass heating furnace (114) inside is provided with water supply structure (2), water supply structure (2) include heating water furnace (211), heating water furnace (211) set up inside biomass heating furnace (114), heating water furnace (211) left side inside assembly is provided with auger (212), auger (212) upper end tubular setting is at heating water furnace (211) top, and auger (212) upper end extends to biomass heating furnace (114) top, auger (212) top is fixed with driven gear (213), driven gear (213) top right side meshing has with its vertical gear (214), inside motor (215) is provided with servo motor (215), servo motor (217) are fixed through mounting bracket (218), the biomass heating furnace is characterized in that the mounting frame (218) is assembled at the top of the biomass heating furnace (114), a bellows structure (3) is arranged at the side end of the transmission shaft (215), and the heat preservation water tank (111) is also assembled with a solar heat structure (4) and an electric heating structure (5) through pipeline connection.

2. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: the biomass heating furnace is characterized in that a bearing seat (219) is sleeved at the side end of the transmission shaft (215), the lower end of the bearing seat (219) is assembled at the top of the biomass heating furnace (114) through a supporting frame (220), the side edge of the heating water furnace (211) is supported and assembled inside the biomass heating furnace (114) through an assembling seat (227), and a heat insulation sleeve (226) is fixedly wrapped on the outer wall of the heating water furnace (211).

3. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: auger (212) upper portion is through outer seat (221) movable assembly at biomass heating furnace (114) top, outer spacing collar (222) have been seted up to outer seat (221) inside, outer spacing collar (222) are fixed on auger (212) surface, heating water stove (211) top inner wall is fixed with interior seat (223), interior seat (223) cover is established on auger (212) upper portion, and interior seat (223) inside card is equipped with interior spacing collar (224), interior spacing collar (224) are fixed on auger (212) upper surface.

4. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: the surface auger blade top of auger (212) is provided with closing plate (225), closing plate (225) are fixed on auger (212) upper portion, closing plate (225) side and the laminating of heating water stove (211) upper portion inner wall, water inlet and outlet (228) with biomass heating stove (114) and heat preservation water tank (111) pipeline butt joint are seted up to heating water stove (211) left side wall.

5. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: the right side of the heating water furnace (211) is provided with a combustion bin, the right side of the heating water furnace (211) is hinged with an outer door (229), and the right side of the heat preservation water tank (111) is hinged with an inner door (230).

6. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: the utility model provides a biomass heating furnace, including bellows structure (3), bellows structure (3) are including linkage carousel (311), linkage carousel (311) are fixed at transmission shaft (215) right-hand member, linkage carousel (311) surface side is fixed with driving lever (312), driving lever (312) surface cover is equipped with driving pulley (313), driving pulley (313) outside card is equipped with dials strip (314), dials strip (314) both ends card and establishes inside spacing frame (315) lateral wall, spacing frame (315) lower extreme assembly is at biomass heating furnace (114) top, dials strip (314) lower surface fixation has gangbar (316), gangbar (316) penetration is established on biomass heating furnace (114) top right side, gangbar (316) lower extreme is fixed with bellows frame (317), bellows frame (317) are located inside biomass heating furnace (114) and between heating water furnace (211) side, bellows frame (317) inside is provided with bellows board (318), bellows hole (319) have been seted up to bellows board (318) inside.

7. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 6, wherein: the side of the bellows frame (317) is fixed with a sliding block (320), the sliding block (320) is clamped on the side wall of the water heating furnace (211), and a sliding groove (321) corresponding to the sliding block (320) is formed in the side wall of the water heating furnace (211).

8. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 6, wherein: the biomass heating furnace is characterized in that an air inlet (322) corresponding to the air box hole (319) is formed in the side wall of the heating water furnace (211), a vent hole (325) corresponding to the air box hole (319) is formed in the side wall of the biomass heating furnace (114), a linkage hole (324) corresponding to the linkage rod (316) is formed in the top of the biomass heating furnace (114), and a sliding rail (323) corresponding to the poking bar (314) is formed in the inner side wall of the limiting frame (315).

9. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: the solar heat structure (4) comprises a valve II (411), the valve II (411) is connected to the side edge of the heat preservation water tank (111) through a pipeline, a water supply pump (412) is connected to the other end of the valve II (411) through a pipeline, a solar heat collector (413) is connected to the water supply pump (412) through a pipeline, a top water tank (414) is arranged above the solar heat collector (413), and the top water tank (414) is connected with the heat preservation water tank (111) through a pipeline.

10. The time-sharing combined type dual-energy-driven heat collection composite heating device according to claim 1, wherein the heat collection composite heating device is characterized in that: the electric heating structure (5) comprises an electric water heater (511), the water inlet end of the electric water heater (511) is connected with tap water through a cold water valve (512) through a pipeline, the water outlet end of the electric water heater (511) is connected to a hot water interface of a hand washing basin rain assembly (514) through a valve III (513) at one end of a tee joint, the water outlet end of the electric water heater (511) is connected with a water inlet of a radiator (515), a ground heating pipeline (516) and a water heating bed (517) in parallel through the other end of the tee joint, and is also connected with the side of a heat preservation water tank (111) in parallel, and a filter (519) is connected with the water outlet of the radiator (515), the ground heating pipeline (516) and the water heating bed (517) through a valve IV (518), and the filter (519) is connected with the heat preservation water tank (111) through a pipeline.