CN203823983U - Four-air-inlet ground source heat pump heat replenishing tower - Google Patents

Abstract

A four-air-inlet ground source heat pump heat replenishing tower is composed of a tower body frame maintenance structural plate, a four-air-inlet heat energy absorption system, a four-air-inlet heat energy transmission system and a surface heat fin outer washing system. The four-air-inlet ground source heat pump efficiently absorbs a high temperature air heat source converted by solar radiation in summer, directly replenishes heat to a ground source heat pump buried pipe system through a hot fluid medium arranged in a small temperature difference four-air-inlet fin coil, and can effectively solve the currently and universally existing problem in north China of system breakdown and scrap caused by reduction of a soil source temperature field year by year due to the heat unbalance phenomenon of the ground source heat pump buried pipe system. In a winter haze climate period, the four-air-inlet ground source heat pump heat replenishing tower absorbs a haze cold and damp heat source to serve as the heat source of a heat pump, and the pavement quantity of the ground source heat pump buried pipe system can be effectively reduced by 60%. The air quality of the area environment is improved at the same time, and the four-air-inlet ground source heat pump can be widely applied to old system improvement, construction of cities and towns and new rural construction in north China.

Description

Four air intake earth source heat pump concurrent heating towers

Technical field

The four air intake earth source heat pump concurrent heating towers that the utility model relates to relate to China's new energy source energy-saving technology, environmental protection and the large field of resource two.

New energy source energy-saving technology: application four air intake earth source heat pump concurrent heating towers absorption solar radiation heat-air in summer can be directly to solely source heat pump system concurrent heating, contrasts other heat pump concurrent heating modes energy-conservation more than 8 times.

Environmental protection and resource: application four air intake earth source heat pump concurrent heating towers absorb the clammy thermal source of haze originates as source heat pump heat, purifies haze air in heat-obtaining.Apply four air intake earth source heat pump concurrent heating towers and coordinate a small amount of ground buried pipe of ground source heat pump system, can reduce underground pipe more than 60%, saved land resource.

Background technology

Along with the raising of people's living standard, people are also more and more higher to the requirement of architectural environment.Various refrigeration air-conditioners ventilate and heat supply process is promoted use day by day under construction, and the thing followed is various environmental pollutions and energy waste.At current energy-saving low-carbon, reduce haze weather, create under the large form of ecocity, green ecological community, green low-carbon building, ground buried pipe of ground source heat pump system, as low-carbon environment-friendly energy-saving heating mode, is being played the part of key player in the development of people's productive life.But show in long-term operation project investigation, the method for designing of ground buried pipe of ground source heat pump system is perfect not enough, in built ground buried pipe of ground source heat pump system item, occurs a lot of problems.

According to relevant statistics, in the built ground buried pipe of ground source heat pump system of China, approximately have 1/3 operational excellence, 1/3 gather together can use, also has 1/3 cannot normally move.No matter whether this statistics is accurate, all shown that design, construction, the operation of ground buried pipe of ground source heat pump system exists very large problem now.

In the reason of the problem existing in the northern area of China ground buried pipe of ground source heat pump system, the thermal unbalance of summer in winter is a principal element, and the problem proportion causing is very high, nearly all these type of existing problems of the ground buried pipe of ground source heat pump system of single heat supply.At present being suitable in the area that underground pipe system uses, in various engineerings, construction and Housing Guarantee, ground buried pipe of ground source heat pump system has become main heat-supplying mode, and almost 100% is single cropping joint heating operation, has brought thus a series of problem.Wherein due to winter heat-obtaining from ground cause underground ground temperature field to reduce, thereby and ground is not carried out to thermal compensation summer and causes ground temperature field cannot recover normal.When winter in the coming year continue to there will be when heat-obtaining from ground ground buried pipe of ground source heat pump system effectiveness decline even cannot heat-obtaining situation.Trace it to its cause, mainly not freeze because of single heating in season, ground occurs year by year that heat reduces, temperature reduces and empty calory supplements, can only rely on ground buried pipe of ground source heat pump periphery ground temperature field balance to carry out heat compensation, in the time that ground buried pipe of ground source heat pump system is huge central area be exactly get can with the process of accumulation of energy, also be fewer and feweri from periphery ground temperature, hole, the bottom of a pan, temperature field effect that Here it is.

Thereby the concurrent heating of solution ground buried pipe of ground source heat pump system just becomes the key of system success or not, in the various technical methods that ground buried pipe of ground source heat pump system carried out to thermal compensation, there is cooling tower to recycle in the less area of psychrometric difference, in the hot-water boiler concurrent heating of psychrometric difference larger area, solar energy concurrent heating etc., air source heat pump concurrent heating is still because technical development is slow and concurrent heating operation energy consumption is high, various ground buried pipe of ground source heat pump system forms differ, corresponding restriction occasion condition difference, now to the concurrent heating of ground buried pipe of ground source heat pump system still in groping and studying.And the current ground buried pipe of ground source heat pump system applies of China has obtained large-area popularization, through use over the years, the various system crash events that cause due to ground source heat pump soil temperature field loss of heat emerge in an endless stream, so the technical problem of concurrent heating must solve, otherwise underground pipe system crash, not only cause a large amount of wastings of resources, and affected the stable of resident living and even society.

Summary of the invention

Utility model four air intake earth source heat pump concurrent heating tower objects of the present invention.Be to utilize four air intake exterior heat coil pipes reduce when occupation area of equipment efficient absorption by solar radiation in summer to the earth, conduct the high temperature potential energy to atmosphere in long wave mode, drive and form atmosphere high temperature potential energy and the reverse little different transfer of heat circulation of exterior heat coil pipe concurrent heating side circulatory mediator by blower fan, directly improve ground buried pipe of ground source heat pump system concurrent heating temperature, compared with adopting other heat pump form concurrent heatings, can effectively reduce with consuming and reach more than 80%.Economy of the present invention, reasonably operation, can solve ground buried pipe of ground source heat pump system soil source temperature field, current the northern area of China decline year by year the system crash that causes, cannot use problem.Winter, haze climatic cycle, utilized four air intake earth source heat pump concurrent heating towers to absorb the clammy thermal source of haze (haze air is met cold object and is condensed into water), as ground buried pipe of ground source heat pump system supplymentary thermal source source, had purified haze air in heat-obtaining.Under the not enough condition of China's land resource, to promote ground buried pipe of ground source heat pump system and be restricted, application four air intake earth source heat pump concurrent heating towers coordinate a small amount of underground pipe system composition to mix origin system, can reduce ground buried pipe of ground source heat pump more than 60%.Four air intake earth source heat pump concurrent heating tower innovative technologies source heat pump system cold (heat) source deficiency evenly, for ground source heat pump technology maturation provides reliable and economic guarantee.

The technical scheme of utility model of the present invention is: by tower body framework enclosed structure plate 1, four air intake heat absorption system 2, four air intake thermal energy transfer systems 3, exterior heat coil pipe washing system 4 forms.

Described tower body framework enclosed structure plate 1 comprises tower body footing truss; Photocatalyst liquid dish; Edge column support; Top blower fan truss; Tower body maintenance panel forms.

Described tower body footing truss top is connected and fixed by photocatalyst liquid dish and side column support; Edge column support bottom is connected and fixed by photocatalyst liquid dish and tower body footing truss; Edge column support top and top blower fan truss are connected and fixed; Tower body maintenance panel is connected and fixed with side column support, top blower fan truss respectively.

Described four air intake heat absorption systems 2 comprise photocatalyst net grid; Four air intake exterior heat fins; Dry washing is received mist layer; Atmospheric air circulation drive unit jet air duct, six leaf blower fans, variable speed electric motors, particularly form.

Described four air intake photocatalyst grids and four air intake exterior heat fin tube sheets are connected and fixed; In four air intake exterior heat fins, wear exterior heat coil pipe expanded joint, exterior heat coil pipe is through in the tube sheet of both sides, tube sheet interconnect composition square group; Four air intake exterior heat fin tube sheet bottoms are connected and fixed by photocatalyst liquid dish and tower body footing truss; Four air intake exterior heat fin tube sheet middle parts, top are connected and fixed with edge column support respectively; Atmospheric air circulation drive unit jet air duct bottom is connected and fixed with top blower fan truss, and on six leaf assemblings and variable speed electric motors, particularly power transmission shaft, variable speed electric motors, particularly is fixedly connected with jet air duct by truss.

Described four air intake thermal energy transfer systems 3 comprise concurrent heating circulating pump, exterior heat coil pipe feed tube group, four air intake exterior heat coil pipes, exterior heat coil pipe drain pipe group, seedbed pipe laying system form.

Described concurrent heating pump entry is connected with seedbed, ground pipe laying system outlet by pipeline; Concurrent heating circulating-pump outlet is connected with exterior heat coil pipe feed tube group by pipeline; Exterior heat coil pipe feed tube group is directly connected with collector inside four air intake exterior heat coil pipes; Four air intake exterior heat coil pipes are worn exterior heat fin expanded joint outward; Outside four air intake exterior heat coil pipes, collector is directly connected with exterior heat coil pipe drain pipe group; Exterior heat coil pipe drain pipe group is connected with seedbed, ground pipe laying system entry by pipeline.

The outer washing system 4 of described exterior heat fin comprises that moisturizing scale inhibition tank, washing collecting tank, spray washing pump, UV treatment device, spray washing pipe group, spray liquid tank group, four air intake exterior heat fins, photocatalyst liquid dish form.

Described moisturizing scale inhibition tank is connected with washing collecting tank lateral inflow mouth by pipeline; Washing collecting tank top square flange mouth and photocatalyst liquid dish bottom square flange mouth are connected and fixed, and washing collecting tank side delivery port is connected with spray washing pump intake by pipeline; Spray washing pump discharge is connected with UV treatment device entrance by pipeline; The outlet of UV treatment device is connected with spray washing pipe group by pipeline; Spray washing pipe group is installed on above spray liquid tank group; Spray liquid tank group is installed on four air intake exterior heat fin tube sheet tops; Four air intake exterior heat fin tube sheets are installed on photocatalyst liquid dish top.

Brief description of the drawings

Fig. 1 is utility model one embodiment of the present invention " four air intake earth source heat pump concurrent heating towers " facade structures schematic diagram;

Fig. 2 is utility model one embodiment of the present invention " four air intake earth source heat pump concurrent heating towers " planar structure schematic diagram;

Fig. 3 is utility model one embodiment of the present invention " tower body framework enclosed structure plate " facade structures schematic diagram;

Fig. 4 is utility model one embodiment of the present invention " four air intake heat absorption systems " facade structures schematic diagram;

Fig. 5 is utility model one embodiment of the present invention " four air intake thermal energy transfer systems " facade structures schematic diagram;

Fig. 6 is utility model one embodiment of the present invention " the outer washing system of exterior heat coil pipe " facade structures schematic diagram.

Detailed description of the invention

Below in conjunction with accompanying drawing: Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, utility model of the present invention " four air intake earth source heat pump concurrent heating towers " is described further.

With reference to accompanying drawing, the present embodiment comprises that exterior heat coil pipe washing system 4 forms by tower body framework enclosed structure plate 1, four air intake heat absorption system 2, four air intake thermal energy transfer systems 3.

Illustrate: in figure, large hollow arrow represents air-flow direction, and little filled arrows represents that circulatory mediator, liquid, water body circulate direction.

Described tower body framework enclosed structure plate 1 comprises body footing truss 1-1; Photocatalyst liquid dish 1-2; Edge column support 1-3; Top blower fan truss 1-4; Tower body maintenance panel 1-5 forms.

Described tower body footing truss 1-1 top is connected and fixed by photocatalyst liquid dish 1-2 and side column support 1-3; Edge column support 1-3 bottom is connected and fixed by photocatalyst liquid dish 1-2 and tower body footing truss 1-1; Edge column support 1-3 top and top blower fan truss are connected and fixed; Tower body maintenance panel 1-5 is connected and fixed with side column support 1-3, top blower fan truss 1-4 respectively.

Described four air intake heat absorption systems 2 comprise four air intake photocatalyst grid 2-1; Four air intake exterior heat fin 2-2; Dry washing is received mist layer 2-3; Atmospheric air circulation drive unit 2-4, jet air duct 2-4.1, six leaf blower fan 2-4.2, variable speed electric motors, particularly 2-4.3 forms.

Described four air intake photocatalyst grid 2-1 and four air intake exterior heat fin 2-2 tube sheets are connected and fixed; In four air intake exterior heat fin 2-2, wear exterior heat coil pipe expanded joint, exterior heat coil pipe is through in the tube sheet of both sides, tube sheet interconnect composition square group; Four air intake exterior heat fin 2-2 tube sheet bottoms are connected and fixed by photocatalyst liquid dish 1-2 and tower body footing truss; Four air intake exterior heat fin 2-2 tube sheet middle parts, top are connected and fixed with edge column support 1-3 respectively; Atmospheric air circulation drive unit 2-4 jet air duct 2-4.1 bottom is connected and fixed with top blower fan truss 1-4, and on six leaf blower fan 2-4.2 installations and variable speed electric motors, particularly 2-4.3 power transmission shaft, variable speed electric motors, particularly 2-4.3 is fixedly connected with jet air duct 2-4.1 by truss.

Described four air intake thermal energy transfer systems 3 comprise concurrent heating circulating pump 3-1; Exterior heat coil pipe feed tube group 3-2; Four air intake exterior heat coil pipe 3-3; Exterior heat coil pipe drain pipe group 3-4; Ground seedbed pipe laying system 3-5 forms.

Described concurrent heating circulating pump 3-1 entrance is connected with ground seedbed pipe laying system 3-5 outlet by pipeline; Concurrent heating circulating pump 3-1 outlet is connected with exterior heat coil pipe feed tube group 3-2 by pipeline; Exterior heat coil pipe feed tube group 3-2 is directly connected with collector inside four air intake exterior heat coil pipe 3-3; Four air intake exterior heat coil pipe 3-3 wear exterior heat fin expanded joint outward; Outside four air intake exterior heat coil pipe 3-3, collector is directly connected with exterior heat coil pipe drain pipe group 3-4; Exterior heat coil pipe drain pipe group 3-4 is connected with seedbed, ground pipe laying system 3-5 entrance by pipeline.

The outer washing system 4 of described exterior heat fin comprises moisturizing scale inhibition tank 4-1; Washing collecting tank 4-2; Spray washing pump 4-3; UV treatment device 4-4; Spray washing pipe group 4-5; Spray point liquid bath group 4-6; Four air intake exterior heat fin 2-2; Photocatalyst liquid dish 1-2 forms.

Described moisturizing scale inhibition tank 4-1 is connected with washing collecting tank 4-2 water supplement port B by pipeline; Washing collecting tank 4-2 top square flange mouth and photocatalyst liquid dish 1-2 bottom square flange mouth are connected and fixed; Washing collecting tank 4-2 bottom blow-down mouth C is connected to blowoff valve; Washing collecting tank 4-2 water outlet A is connected with spray washing pump 4-3 entrance by pipeline; Spray washing pump 4-3 outlet is connected with UV treatment device 4-4 entrance by pipeline; UV treatment device 4-4 outlet is connected with spray washing pipe group 4-5 by pipeline; Spray washing pipe group 4-5 is installed on above spray liquid tank group 4-6; Spray liquid tank group 4-6 is installed on four air intake exterior heat fin 2-2 tube sheet tops; Four air intake exterior heat fin 2-2 tube sheets are installed on photocatalyst liquid dish 1-2 top.

Four air intake earth source heat pump concurrent heating tower structure effect and operation principles.

Four air intake earth source heat pump concurrent heating towers are by tower body framework enclosed structure plate 1, four air intake heat absorption system 2, four air intake thermal energy transfer systems 3, and exterior heat coil pipe washing system 4 forms.

Tower body framework enclosed structure plate 1, Fig. 1, Fig. 3 structure function.

Tower body footing truss 1-1 tectonism is to support tower body armamentarium weight.Absorb under clammy haze climatic environment in the high heat of high humidity in summer, winter, four air intake exterior heat fin 2-2 with atmospheric heat exchange process in can isolate haze condensate water, photocatalyst liquid dish 1-2 also has photo-catalytic sterilization algae removal and purifies PM2.5 effect except converging condensate water, is also that four air intake exterior heat fin 2-2 collect one of equipment of recirculated water while doing the use of spray washing cooling tower simultaneously.Side column support 1-3 tectonism is to fix four air intake exterior heat fin 2-2 tube sheets, be connected and fixed top blower fan truss; Top blower fan truss 1-4 tectonism is to support atmospheric air circulation drive unit 2-4 to be connected and fixed.Tower body frame stiffness non-coplanar force group is constituted mutually by tower body footing truss 1-1, four air intake exterior heat fin 2-2 tube sheet groups, side column support 1-3, top blower fan truss 1-4.

Four air intake heat absorption systems 2, Fig. 1, Fig. 2, Fig. 4 operation principle.

Solar radiation in summer is to earth heat energy, conduct to the high temperature potential energy of atmosphere and be stored in the middle of air in long wave mode.Air themperature is more than 28 DEG C, and China's north and south temperature difference, less than 2 DEG C, has been contained the solar energy secondary source with infinite energy in air.Utilize the little different transfer of heat of circulatory mediator in exterior heat coil pipe to absorb the high potential temperature air energy in atmosphere, can obtain more economically the hot fluid lower than 3-5 DEG C of atmospheric temperatures, by constantly carrying out the pipe laying system concurrent heating circulation of seedbed, ground, finally temperature field lower seedbed, ground pipe laying system can be returned to the scope of normal 20 DEG C by 5 DEG C.

The high potential temperature air of atmospheric air circulation drive unit 2-4 disturbance, after filtering by four air intake photocatalyst grid 2-1 first class purifications, enter the four reverse heat transfers in air intake exterior heat fin 2-2 windward side by thermal energy transfer to the front-seat exterior heat coil pipes of four air intake exterior heat coil pipe 3-3 to rear row's exterior heat coil pipe, airborne high temperature potential energy enters dry washing receipts mist layer 2-3 and carries out three grades of air cleanings after four air intake exterior heat coil pipe 3-3 condensation washing secondary purifications discharge the reduction of sensible heat energy temperature, air after three grades of purifications is sucked and is pressurizeed discharged to after atmospheric environment space and the rising of airborne high temperature potential energy heat of mixing exchange temperature by atmospheric air circulation drive unit 2-4, drive under circulation and again enter four air intake photocatalyst grid 2-1 at atmospheric air circulation drive unit 2-4, four air intake exterior heat fin 2-2 complete small temperature difference thermal exchange cycles process repeatedly, obtain the heat energy fluid lower than 3-5 DEG C of atmospheric temperatures.

Four air intake thermal energy transfer systems 3, Fig. 1, Fig. 2, Fig. 5 operation principle.

High potential temperature air can reverse heat transfer enter four air intake exterior heat fin 2-2 windward sides by thermal energy transfer to the front-seat exterior heat coil pipes of four air intake exterior heat coil pipe 3-3 to rear row's exterior heat coil pipe, the high temperature fluid medium that four air intake exterior heat coil pipe 3-3 obtain enters ground seedbed pipe laying system 3-5 through exterior heat coil pipe drain pipe group 3-4, high temperature fluid medium discharges sensible heat energy temperature to soil source and drops to cryogen medium, and cryogen medium enters concurrent heating circulating pump 3-1 pressurization and again enters hot fluid exterior heat coil pipe 3-3 and be promoted to high temperature fluid medium.Finally the lower temperature field of pipe laying system, seedbed, ground can be returned to normal range (NR).

Outer washing system 4 Fig. 1 of exterior heat fin, Fig. 6 operation principle.

When high potential temperature air can carry out heat exchange with four air intake exterior heat fins, airborne gluey dust can cover four air intake exterior heat fin surfaces increases resistance of heat transfer, removes by regular liquid-circulating washing maintenance the stability that dirt will keep the heat conductivility of four air intake exterior heat fins.Four air intake exterior heat fin 2-2 throw to slowly-releasing washing material to moisturizing scale inhibition tank 4-1, feedwater enters washing collecting tank 4-2 water supplement port B through moisturizing scale inhibition tank 4-1 and enters, become wash liquid through washing collecting tank 4-2 liquid-level floater valve control liquid level, wash liquid enters spray washing pump 4-3 pressurization wash liquid through washing collecting tank 4-2 liquid outlet A, wash liquid enters a spray point liquid bath group 4-6 current-sharing and is sprayed at four air intake exterior heat fin 2-2 after UV treatment device 4-4 processing enters spray washing pipe group 4-5 shunting, wash liquid flows into photocatalyst liquid dish 1-2 after four air intake exterior heat fin 2-2 are washed in trickling by natural gravity, photocatalyst liquid dish 1-2 is pooled to washing collecting tank 4-2 by wash liquid and again circulates, the deposit of wash liquid is discharged through washing collecting tank 4-2 bottom blow-down mouth C.

Claims (1)

1. four air intake earth source heat pump concurrent heating towers, is characterized in that by tower body framework enclosed structure plate, four air intake heat absorption systems, and four air intake thermal energy transfer systems, the outer washing system of exterior heat fin forms;

Described tower body framework enclosed structure plate is made up of body footing truss, photocatalyst liquid dish, edge column support, top blower fan truss, tower body maintenance panel, tower body footing truss top is connected and fixed by photocatalyst liquid dish and side column support, edge column support bottom is connected and fixed by photocatalyst liquid dish and tower body footing truss, edge column support top and top blower fan truss are connected and fixed, and tower body maintenance panel is connected and fixed with side column support, top blower fan truss respectively;

Described four air intake heat absorption systems are by four air intake photocatalyst grids, four air intake exterior heat fins, dry washing is received mist layer, atmospheric air circulation drive unit forms, four air intake photocatalyst grids and four air intake exterior heat fin tube sheets are connected and fixed, in four air intake exterior heat fins, wear exterior heat coil pipe expanded joint, exterior heat coil pipe is through in the tube sheet of both sides, tube sheet interconnects square group of composition, four air intake exterior heat fin tube sheet bottoms are connected and fixed by photocatalyst liquid dish and tower body footing truss, four air intake exterior heat fin tube sheet middle parts, top is connected and fixed with edge column support respectively, atmospheric air circulation drive unit jet air duct bottom is connected and fixed with top blower fan truss, on six leaf assemblings and variable speed electric motors, particularly power transmission shaft, variable speed electric motors, particularly is fixedly connected with jet air duct by truss,

Described four air intake thermal energy transfer systems are by concurrent heating circulating pump, exterior heat coil pipe feed tube group, four air intake exterior heat coil pipes, exterior heat coil pipe drain pipe group, seedbed, ground pipe laying system forms, concurrent heating pump entry is connected with seedbed, ground pipe laying system outlet by pipeline, concurrent heating circulating-pump outlet is connected with exterior heat coil pipe feed tube group by pipeline, exterior heat coil pipe feed tube group is directly connected with collector inside four air intake exterior heat coil pipes, four air intake exterior heat coil pipes are worn exterior heat fin expanded joint outward, outside four air intake exterior heat coil pipes, collector is directly connected with exterior heat coil pipe drain pipe group, exterior heat coil pipe drain pipe group is connected with seedbed, ground pipe laying system entry by pipeline,

The outer washing system of described exterior heat fin is by moisturizing scale inhibition tank, washing collecting tank, spray washing pump, UV treatment device, spray washing pipe group, spray point liquid bath group, four air intake exterior heat fins, photocatalyst liquid dish forms, described moisturizing scale inhibition tank is connected with washing collecting tank water supplement port B by pipeline, washing collecting tank top square flange mouth and photocatalyst liquid dish bottom square flange mouth are connected and fixed, washing sump bottom sewage draining exit C is connected to blowoff valve, washing collecting tank water outlet A is connected with spray washing pump intake by pipeline, spray washing pump discharge is connected with UV treatment device entrance by pipeline, the outlet of UV treatment device is connected with spray washing pipe group by pipeline, spray washing pipe group is installed on above spray liquid tank group, spray liquid tank group is installed on four air intake exterior heat fin tube sheet tops, four air intake exterior heat fin tube sheets are installed on photocatalyst liquid dish top.