CN202993384U

CN202993384U - Indoor air cooling and heating radiation, fresh air, sterilization, humidification and dehumidification system

Info

Publication number: CN202993384U
Application number: CN2012206925958U
Authority: CN
Inventors: 杨晓峰; 杨敬东
Original assignee: SHANDONG TIANJU CONSTRUCTION ENGINEERING Co Ltd
Current assignee: SHANDONG TIANJU CONSTRUCTION ENGINEERING Co Ltd
Priority date: 2012-12-15
Filing date: 2012-12-15
Publication date: 2013-06-12
Anticipated expiration: 2022-12-15

Abstract

The utility model discloses an indoor air cooling and heating radiation, fresh air, sterilization, humidification and dehumidification system which comprises a heat pump, an indoor unit, a manifold, a capillary network, an outdoor unit, a fan host, a controller, an indoor air inlet, an indoor air outlet and a humidification controller, wherein the outdoor unit is mounted on the heat pump; the heat pump is connected with the indoor unit by a pipeline; the capillary network comprises a ceiling capillary network and a ground capillary network; the indoor unit is connected with the manifold by a pipeline; the manifold is connected with the ceiling capillary network and the ground capillary network by pipelines respectively; the outdoor unit is connected with the fan host by an air inlet pipe and an air outlet pipe; the controller is connected with the fan host by a wire; the fan host is connected with the indoor air inlet by an air inlet flue, and connected with the indoor air outlet by an air outlet flue; a humidification port is formed at the indoor air outlet; the indoor air inlet is formed in an indoor floor; the indoor air outlet is formed in an indoor ceiling; and a sterilizing agent is placed in the indoor air inlet. The system can achieve multiple functions of cooling, heating, fresh air replacement, indoor sterilization and dehumidification simultaneously, improve the indoor air quality omnidirectionally and three-dimensionally, ensure a comfortable life style of people, and facilitate health of the people.

Description

The radiation of room air changes in temperature, new wind, sterilization, add dehumidification system

Technical field

The utility model relates to the radiation of a kind of room air changes in temperature, new wind, sterilization, adds dehumidification system.

Background technology

Along with the development and utilization of geothermal energy resources and air-energy, utilize low-grade energy more and more to the indoor building of freezing and heating by heat pump at present.But existing cooling/warming system adopts heat pump to be connected with pipe network on indoor wall, and heat energy and cold energy are propagated at single direction, and the indoor temperature effect is bad.And in existing ventilating system, air outlet and air inlet are positioned at indoor top, and fresh air is realized circulation at the top, and dirty air often is sunken to indoor bottom, and is serious for the air pollution of indoor bottom, has a strong impact on people's life health.Especially in time summer in winter, for warming or cooling, air flow property is poor, a large amount of harmful substances stop in air, particularly the harmful substance such as germ enters people's health, affect health of people, only limit to dehumidifying for humidity simultaneously, the humidity of room air is still brought a lot of discomforts to people in the winter of drying.

The utility model content

For addressing the above problem, the purpose of this utility model is to provide the radiation of a kind of room air changes in temperature, new wind, sterilization, adds dehumidification system.

the utility model for achieving the above object, be achieved through the following technical solutions: the radiation of room air changes in temperature, new wind, sterilization, add dehumidification system, comprise heat pump, indoor set, condensate correcting-distribuing device, capillary network, off-premises station, the blower fan main frame, controller, indoor air inlet, indoor air outlet and damping control, off-premises station is arranged on heat pump, heat pump is connected by pipeline with indoor set, described capillary network comprises ceiling capillary network and ground capillary network, indoor set is connected by pipeline with condensate correcting-distribuing device, condensate correcting-distribuing device is connected with the ground capillary network with the ceiling capillary network respectively by pipeline, off-premises station is connected blast pipe with the blower fan main frame and is connected with discharge pipe, controller is connected by wire with the blower fan main frame, the blower fan main frame is connected with indoor air inlet by air inlet duct, the blower fan main frame is connected with indoor air outlet by the exhaust passage, indoor air outlet place arranges humidification port, indoor air inlet is arranged on the flooring, and indoor air outlet is arranged on indoor canopy, places bactericide in indoor air inlet.

In order further to realize the purpose of this utility model, can also be by the following technical solutions: on the pipeline between described indoor set and condensate correcting-distribuing device, heat exchanger tube is installed, the heat exchanger tube periphery arranges water tank, water tank is connected with solar thermal collector by pipeline, water tank and and solar thermal collector between circulating pump is installed.Described capillary network comprises the wall capillary network.Described capillary network is connected to form by two supervisors and several tubules, several tubules of parallel installation between two supervisors.Between described tank top and bottom, circulation pipe is set, liquid feeding box and water pump are installed on circulation pipe, the circulation pipe lower end arranges liquid outlet.On described air port, moisture probe is installed, moisture probe is connected with damping control.Mounting heat exchanger between described off-premises station and blower fan main frame, blast pipe is connected with the tube side of heat exchanger, and discharge pipe is connected with the shell side of heat exchanger.Temp probe is installed in described air outlet, and temp probe is connected with controller.On described blast pipe, filter is installed.Described indoor air inlet comprises shell and closure head, shell and closure head form casing, offer the closure head air port on closure head, the air channel is set in shell, the air channel connecting branch is installed check valve on arm, the arm end is installed gas-distributing pipe, several tracheaes are installed on gas-distributing pipe, are offered several through holes on every tracheae; Inner casing is set in shell, and the part that through hole is set on tracheae is arranged in inner casing, between tracheae and inner casing, water proof ring is set, and places bactericide in inner casing; The inner casing top cover is installed at the inner casing top, offers inner casing top cover air outlet on the inner casing top cover; Heelpiece is set at the interior end of inner casing; Through hole on tracheae down; On the outer wall of inner casing, blow-down pipe is set.

The utility model has the advantage of: the while of the present utility model can realize freezing, the multiple function of heating, new wind displacement, indoor sterilization and dehumidifying, at omnibearing stereo raising IAQ, guarantee the comfortable life style of people, be beneficial to health of people.Also has advantages of compactness simple for structure, cheap for manufacturing cost and easy to use with the utility model.

Description of drawings

Fig. 1 is structural representation of the present utility model; Fig. 2 is that the A of Fig. 1 is to the TV structure schematic diagram; Fig. 3 is that the B of Fig. 2 is to the TV structure schematic diagram; Fig. 4 is the sectional structure schematic diagram along C-C line in Fig. 3.

Numeral: 1 Pump 2 Episode 3 ceiling capillary network manifold 4 5 indoor water tank tubes 6 7 8 solar collector surface capillary network 9 10 plus liquid capillary network wall box 11 pumps 12 liquid outlet 13 circulating pipe 14 circulating pump 15 executives 16 thin tube 17 fans host 18 controller 19 indoor air inlet 20 indoor outlet 21 inlet duct 22 wind tube 23 into the duct 24 duct 25 heat exchanger 26 temperature probes 28 humidification mouth 29 humidifier controller 30 humidity probe 31 outdoor units 33 shell 34 shell cover 35 housing cover outlet 36 wind tunnel 37 pipe 38 one-way valve 39 points trachea 40 inner shell cover 41 inner shell roof vent 42 inner shell 43 bottom pad 44 trachea 45 vent pipe 46 pass hole 47 waterproof ring.

The specific embodiment

the radiation of room air changes in temperature, new wind, sterilization, add dehumidification system, as shown in Figure 1, comprise heat pump 1, indoor set 4, condensate correcting-distribuing device 2, capillary network, off-premises station 31, blower fan main frame 17, controller 18, indoor air inlet 19, indoor air outlet 20 and damping control 29, off-premises station 31 is arranged on heat pump 1, heat pump 1 is connected by pipeline with indoor set 4, described capillary network comprises ceiling capillary network 3 and ground capillary network 7, indoor set 4 is connected by pipeline with condensate correcting-distribuing device 2, condensate correcting-distribuing device 2 is connected with the ground capillary network with ceiling capillary network 3 respectively by pipeline and is connected, off-premises station 31 is connected with the blower fan main frame and is connected connection with discharge pipe by blast pipe 18, controller 18 is connected by wire with blower fan main frame 17, blower fan main frame 17 is connected with indoor air inlet 19 by air inlet duct 23, blower fan main frame 17 is connected with indoor air outlet 20 by exhaust passage 24, indoor air outlet 20 places arrange humidification port 28, indoor air inlet 19 is arranged on the flooring, and indoor air outlet 20 is arranged on indoor canopy, the interior placement bactericide of indoor air inlet 19.Described heat pump 1 is earth source heat pump or air heat pump, preferred earth source heat pump, and earth source heat pump utilizes underground steady temperature, good stability.Described capillary network is connected to form by two supervisors 15 and several tubules 16, several tubules 16 of parallel installation between two supervisors 15.Capillary network of the present utility model adopt that ceiling is installed, lay on ground and wall around three-dimensional mode, synchronously freeze up and down or heat in indoor formation, fully promote the cold and hot exchange between air, make temperature reach desirable level.Capillary network heating is to adopt the low-temperature water heating of 30-35 ℃, and refrigeration is adopted the high temperature cold water of 17-20 ℃, compares energy-conservation 20-30% with the cold and hot end of tradition.

In order further to save the energy, heat exchanger tube 5 is installed on the pipeline between described indoor set 4 and condensate correcting-distribuing device 2, heat exchanger tube 5 peripheries arrange water tank 6, and water tank 6 is connected with solar thermal collector 8 by pipeline, water tank 6 and and solar thermal collector 8 between circulating pump 14 is installed.Utilizing on the basis of heat pump heat exchanging, can utilize solar energy simultaneously, further reducing energy consumption.

For convenient, water tank 6 is cleared up, prevented that dirt from stopping up, between described water tank 6 tops and bottom, circulation pipe 13 is set, liquid feeding box 10 and water pump 11 are installed on circulation pipe 13, circulation pipe 13 lower ends arrange liquid outlet 12.During cleaning, close the pipe valve between water tank 6 and solar thermal collector 8, add the scale remover aqueous solution of dilution in liquid feeding box 10, by flowing out at liquid outlet 12 after water pump 11 circulations.

For the ease of humidity is controlled, moisture probe 30 is installed on described air port, moisture probe 30 is connected with damping control 29.According to the data that arrive of the measurement of 15 pairs of humidity of moisture probe, damping control 14 adds wet practice, keeps the stability of indoor air humidity.

Mounting heat exchanger 25 between described off-premises station 31 and blower fan main frame 17, blast pipe 21 is connected with the tube side of heat exchanger 25, and discharge pipe 22 is connected with the shell side of heat exchanger 25.There is temperature difference in the indoor air of discharging with the outdoor air that enters, and carries out heat exchange at heat exchanger 10.For example, during summer, the indoor temperature of discharge is low, lowers the temperature at 10 pairs of outdoor airs of heat exchanger, can reduce the energy consumption for cooling of blower fan main frame 2; In like manner, indoor high temperature air is to heating outdoor Cryogenic air winter.Take full advantage of the room air of discharge, reach energy-conservation effect.

For air themperature is controlled, the interior installation temp probe 26 of described air outlet 20, temp probe 26 is connected with controller 18.

In order further to improve the quality of room air, filter 25 is installed on described blast pipe 21.By crossing elimination 12, the outdoor air that enters is filtered, remove the pollutants such as PM2.5.

As shown in Figures 2 and 3, described indoor air inlet 19 comprises shell 33 and closure head 34, shell 33 and closure head 34 form casing, offer closure head air port 35 on closure head 34, the shell 33 interior air channel 36 that arranges, air channel 36 connecting branches 37, check valve 38 is installed on arm 37, arm 37 ends are installed gas-distributing pipe 39, and several tracheaes 44 are installed on gas-distributing pipe 39, offer several through holes 46 on every tracheae 44; The interior inner casing 42 that arranges of shell 33, the part that through hole 46 is set on tracheae 44 is arranged in inner casing 42, between tracheae 44 and inner casing 42, water proof ring 47 is set, the interior placement bactericide of inner casing 42; In order to prevent that air quantity from crossing senior general's bactericide and taking inner casing out of, inner casing top covers 40 are installed at inner casing 42 tops, offer inner casing top cover air outlet 41 on inner casing top cover 40; Blow-down pipe 45 is set on the outer wall of inner casing 42; For the ease of the cleaning to inner casing 22, heelpiece 43 is set at the interior end of inner casing 42, the foreign material, the dust that fall into air-blowing box are deposited on the heelpiece 43 of inner casing 22, only need during cleaning heelpiece 43 is taken off cleaning, and be convenient and swift.Also can with bactericidal liquid emptying, then clean; For fear of the interior savings bactericide of tracheae 24, as shown in Figure 4, the through hole 46 on tracheae 44 down.Air channel 36 is connected with air inlet duct 23, enters arm 37 by air channel 36 again after new wind enters air channel 36, and check valve 38 keeps air to enter gas-distributing pipe 39 by air channel 36, prevents that bactericide from blowing back in air channel 36; The air that enters gas-distributing pipe 39 enters inner casing 42 by the through hole 46 on every tracheae 44 again, and air upwards floats takes away the part bactericide simultaneously, at last enters indoor with the new wind of bactericide by closure head air port 35.Bactericide can be alcohol, vinegar or other bactericide.Bactericide kills the germ in room air and removes, and guarantees the pure and fresh of room air, reaches purification to room air from root, effectively improves the quality of room air, ensures people's health.

The technical solution of the utility model is not restricted in the scope of embodiment described in the utility model.The utility model not technology contents of detailed description is known technology.

Claims

1. room air changes in temperature radiation, new wind, sterilization, add dehumidification system, it is characterized in that: comprise heat pump (1), indoor set (4), condensate correcting-distribuing device (2), capillary network, off-premises station (31), blower fan main frame (17), controller (18), indoor air inlet (19), indoor air outlet (20) and damping control (29), off-premises station (31) is arranged on heat pump (1), heat pump (1) is connected by pipeline with indoor set (4), described capillary network comprises ceiling capillary network (3) and ground capillary network (7), indoor set (4) is connected by pipeline with condensate correcting-distribuing device (2), condensate correcting-distribuing device (2) is connected 7 with ceiling capillary network (3) with the ground capillary network respectively by pipeline) be connected, off-premises station (31) is connected 17 with the blower fan main frame) be connected 22 by blast pipe (18) with discharge pipe) connect, controller (18) is connected by wire with blower fan main frame (17), blower fan main frame (17) is connected with indoor air inlet (19) by air inlet duct (23), blower fan main frame (17) is connected with indoor air outlet (20) by exhaust passage (24), indoor air outlet (20) locates to arrange humidification port (28), indoor air inlet (19) is arranged on the flooring, indoor air outlet (20) is arranged on indoor canopy, places bactericide in indoor air inlet (19).

2. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: on the pipeline between described indoor set (4) and condensate correcting-distribuing device (2), heat exchanger tube (5) is installed, heat exchanger tube (5) periphery arranges water tank (6), water tank (6) is connected with solar thermal collector (8) by pipeline, water tank (6) and and solar thermal collector (8) between circulating pump (14) is installed.

3. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: described capillary network comprises wall capillary network (9).

4. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: described capillary network is connected to form by two supervisors (15) and several tubules (16), several tubules of parallel installation (16) between two supervisors (15).

5. room air changes in temperature according to claim 2 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: circulation pipe (13) is set between described water tank (6) top and bottom, upper liquid feeding box (10) and the water pump (11) installed of circulation pipe (13), circulation pipe (13) lower end arranges liquid outlet (12).

6. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: moisture probe (30) is installed on described air port, and moisture probe (30) is connected with damping control (29).

7. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: mounting heat exchanger (25) between described off-premises station (31) and blower fan main frame (17), blast pipe (21) is connected with the tube side of heat exchanger (25), and discharge pipe (22) is connected with the shell side of heat exchanger (25).

8. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: temp probe (26) is installed in described air outlet (20), and temp probe (26) is connected with controller (18).

9. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: the upper filter (25) of installing of described blast pipe (21).

10. room air changes in temperature according to claim 1 radiation, new wind, sterilization, add dehumidification system, it is characterized in that: described indoor air inlet (19) comprises shell (33) and closure head (34), shell (33) and closure head (34) form casing, offer closure head air port (35) on closure head (34), air channel (36) is set in shell (33), air channel (36) connecting branch (37), the upper check valve (38) of installing of arm (37), arm (37) end is installed gas-distributing pipe (39), upper several tracheaes (44) of installing of gas-distributing pipe (39), offer several through holes (46) on every tracheae (44), inner casing (42) is set in shell (33), and the part that through hole (46) is set on tracheae (44) is arranged in inner casing (42), between tracheae (44) and inner casing (42), water proof ring (47) is set, and places bactericide in inner casing (42), inner casing top cover (40) is installed at inner casing (42) top, offers inner casing top cover air outlet (41) on inner casing top cover (40), heelpiece (43) is set at the interior end of inner casing (42), through hole (46) on tracheae (44) down, blow-down pipe (45) is set on the outer wall of inner casing (42).