CN210241834U - Energy-saving environment-friendly air conditioning system - Google Patents

Abstract

The utility model provides an energy-concerving and environment-protective air conditioning system belongs to gymnasium air conditioning system technical field. The energy-saving and environment-friendly air conditioning system for the gymnasium comprises an exhaust part and an air conveying part. The utility model discloses a first gas outgoing of air discharge spare in with the gymnasium, can be with the steam and the sweat flavor discharge in the first gas like this, first air exhauster extracts the outside air in to the inlet tube, the ultraviolet lamp disinfects the outside air that gets into in the inlet tube, the oven heats the air that flows from the inlet tube and forms heated air, the temperature of air is improved, heated air gets into among the condensation structure, the steam of higher temperature meets the lower cold coagulation structure of temperature and then can condense and form the drop of water and attach to on the condensation structure, the conveyer pipe is with in the gaseous input gymnasium of second, just so can provide sufficient oxygen in the gymnasium, humidity in the gymnasium has been reduced simultaneously, high efficiency, avoid carrying out the oxygenation in giving the gymnasium through the oxygen-increasing machine, energy-concerving and environment-protective.

Description

Energy-saving environment-friendly air conditioning system

Technical Field

The utility model belongs to the technical field of gymnasium air conditioning system, a energy-concerving and environment-protective air conditioning system is related to.

Background

People build body in the gymnasium, the oxygen demand is great, simultaneously because people perspire more, the humidity is great in the gymnasium, so need take a breath and dehumidify the gymnasium in order to improve oxygen and the dryness factor in the gymnasium.

SUMMERY OF THE UTILITY MODEL

The utility model discloses to the above-mentioned problem that prior art exists, provide an energy-concerving and environment-protective air conditioning system, the utility model aims to solve the technical problem be: how to provide an energy-saving and environment-friendly air conditioning system for a gymnasium, which can exhaust the gas in the gymnasium and convey dry and sterile air into the gymnasium.

The purpose of the utility model can be realized by the following technical proposal:

the utility model provides an energy-concerving and environment-protective air conditioning system for adjust the gas in the gymnasium, include the exhaust spare that is used for with the first gas outgoing in the gymnasium, be used for inhaling the outside air and disinfect, dry in order to obtain the gas transmission spare of second gas with the air, gas transmission spare includes the inlet tube, sets up in the inlet tube, is used for extracting the outside air to the first air exhauster in the inlet tube, sets up in the inlet tube, is used for carrying out sterile ultraviolet lamp to the outside air of first air exhauster extraction, connects in inlet tube one end, is used for heating the oven that forms heated air to the air that flows from the inlet tube, connects in the oven, is used for condensing the heated air to get rid of steam wherein and forms the condensation structure of second gas and connects in condensation structure one end, is used for the conveyer pipe in the second gas input gymnasium.

Preferably, the gas transmission member further comprises a dustproof filter plate disposed at one end of the inlet pipe to prevent dust from entering the inlet pipe.

Preferably, the gas transmission piece further comprises a plurality of activated carbon filter screens arranged in the introducing pipe.

Preferably, the exhaust member includes a delivery pipe and a second exhaust fan disposed at one end of the delivery pipe for extracting the first gas in the gymnasium to the delivery pipe.

Preferably, the delivery pipe is arranged at the bottom end of the gymnasium, and the conveying pipe is arranged at the top end of the gymnasium.

Preferably, the air guide opening of the guide pipe and the output opening of the conveying pipe are centrosymmetric, and the air guide opening and the output opening are respectively arranged at two ends of a diagonal line of the gymnasium.

Preferably, the condensation structure includes a first condensation pipe connected to the oven and forming an acute angle with the oven, a second condensation pipe with one end connected to the first condensation pipe and forming a right angle with the oven, and a third condensation pipe with one end connected to the second condensation pipe and parallel with the oven.

Preferably, the condensation structure further comprises a plurality of water outlets arranged at the bottom end of the second condensation pipe and a water storage tank arranged at the bottom end of the water outlets and used for receiving water flowing out of the water outlets.

Preferably, the water outlet is provided with a flow guide part for guiding water, and the water storage tank is screwed on the flow guide part.

Preferably, a liquid level sensor for detecting the liquid level is arranged in the water storage tank.

The utility model provides an exhaust member discharges the first gas in the gymnasium, can discharge steam and sweat smell in the first gas like this, first air exhauster extracts the outside air to the inlet tube in, the ultraviolet lamp disinfects the outside air that gets into the inlet tube, the oven heats the air that flows out from the inlet tube and forms heated air, the temperature of air improves, then heated air gets into the condensation structure, the higher temperature steam in the heated air meets the lower cold coagulation structure of temperature and can condense and form the drop of water and attach to the condensation structure, heated air can form the second gas that steam content is less, the conveyer pipe inputs the second gas in the gymnasium, just so can provide sufficient oxygen for in the gymnasium, the humidity in the gymnasium has been reduced simultaneously, high efficiency, avoid carrying out the oxygenation for the gymnasium through the oxygen-increasing machine, energy conservation and environmental protection.

Drawings

FIG. 1 is a schematic structural view of a gas transmission member of the present invention;

FIG. 2 is a schematic view of the exhaust member of the present invention;

fig. 3 is a schematic structural diagram of the present invention.

In the figure: 1-gas transmission piece, 11-inlet pipe, 111-dustproof filter plate, 112-activated carbon filter screen, 12-first exhaust fan, 13-ultraviolet lamp, 14-oven, 151-first condenser pipe, 152-second condenser pipe, 153-third condenser pipe, 154-diversion part, 155-water storage tank, 16-conveying pipe, 2-exhaust piece, 21-delivery pipe and 22-second exhaust fan.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

Referring to fig. 1, 2 and 3, the energy-saving and environment-friendly air conditioning system for a gymnasium of the embodiment is used for conditioning air in the gymnasium, and includes an exhaust component 2 for exhausting a first gas in the gymnasium, and an air transmission component 1 for sucking in external air, sterilizing the air and drying the air to obtain a second gas, where the air transmission component 1 includes an inlet tube 11, a first exhaust fan 12 disposed in the inlet tube 11 for pumping the external air into the inlet tube 11, an ultraviolet lamp 13 disposed in the inlet tube 11 for sterilizing the external air pumped by the first exhaust fan 12, an oven 14 connected to one end of the inlet tube 11 for heating the air flowing out from the inlet tube 11 to form heated air, a condensing structure connected to the oven 14 for condensing the heated air to remove water vapor therein to form the second gas, and a condensing structure connected to one end of the condensing structure, A duct 16 for feeding the second gas into the gymnasium.

Here, the first gas in the gymnasium is discharged by the exhaust part 2, so that the water vapor and sweat smell in the first gas can be discharged, the first exhaust fan 12 extracts the outside air into the introducing pipe 11, the ultraviolet lamp 13 sterilizes the outside air entering the introducing pipe 11, the oven 14 heats the air flowing out from the introducing pipe 11 to form heated air, the temperature of the air is increased, then the heated air enters the condensing structure, the water vapor with higher temperature in the heated air can be condensed to form water beads to be attached to the condensing structure when encountering the cold condensing structure with lower temperature, the heated air can form second gas with less water vapor content, the conveying pipe 16 inputs the second gas into the gymnasium, so that sufficient oxygen can be provided for the gymnasium, meanwhile, the humidity in the gymnasium is reduced, the efficiency is higher, the oxygen enrichment for the gymnasium is avoided, energy conservation and environmental protection. The introduction tube 11 may be a stainless steel round tube. The bottom end of the first suction fan 12 may be welded to the inlet pipe 11.

The air transmission member 1 may further include a dustproof filter plate 111 disposed at one end of the inlet pipe 11 to prevent dust from entering the inlet pipe 11, so that external dust is prevented from entering the inlet pipe 11 and contaminating the gymnasium. One end of the inlet pipe 11 may be provided with a clamping through hole for clamping the dustproof filter plate 111, so that the dustproof filter plate 111 can be taken down from the inlet pipe 11 at regular time for cleaning, thereby improving the dustproof effect of the dustproof filter plate 111.

The gas transmission piece 1 can further comprise a plurality of activated carbon filter screens 112 arranged in the inlet pipe 11, large particles in the outside air can be filtered, the activated carbon filter screens 112 can be welded in the inlet pipe 11, and the activated carbon filter screens 112 can be perpendicular to the central axis of the inlet pipe 11, so that the filtering effect is improved.

Exhaust member 2 can include eduction tube 21 and set up in eduction tube 21 one end, be used for extracting the first gas in the gymnasium to the second air exhauster 22 of eduction tube 21, can be at first through second air exhauster 22 with first gas exhaust portion when needs take a breath to the gymnasium, and first air exhauster 12 extracts the outside air in introducing tube 11 simultaneously, both can reduce the humidity in the gymnasium, can provide sufficient oxygen again in the gymnasium. The delivery tube 21 may be a stainless steel tube.

The contact tube 21 can set up in the gymnasium bottom, and conveyer pipe 16 can set up in the gymnasium top, and first gas is discharged from the gymnasium bottom like this, and the second is gaseous to get into from the gymnasium top, and each other does not influence, can reduce the probability that first gas and second gas mix simultaneously, avoids discharging the second gas from contact tube 21.

The air guide opening of the guide pipe 21 and the output opening of the conveying pipe 16 can be in central symmetry, and the air guide opening and the output opening can be respectively arranged at two ends of a diagonal line of the gymnasium, so that the probability of mixing the first gas and the second gas can be further reduced, and the second gas is prevented from being discharged from the guide pipe 21.

The condensation structure can include the first condenser pipe 151 that is connected in oven 14, and is the acute angle between oven 14, one end is connected in first condenser pipe 151, and be right angle second condenser pipe 152 between oven 14 and one end connect in second condenser pipe 152, and the third condenser pipe 153 that is parallel between oven 14, second condenser pipe 152 can be perpendicular to third condenser pipe 153, second condenser pipe 152 can the level setting, second condenser pipe 152 is less than the air outlet of oven 14, can improve the efficiency of condensation like this and improve the volume of the water of condensation. The first, second, and third condensation ducts 151, 152, and 153 may each be a glass tube. The delivery pipe 16 may be a rubber tube, and the delivery pipe 16 may be screwed to one end of the third condensation duct 153.

The condensation structure can also include a plurality of water outlets disposed at the bottom end of the second condensation pipe 152 and a water storage tank 155 disposed at the bottom end of the water outlets for receiving water flowing out from the water outlets, so that water can be collected, and the condensation structure is energy-saving and environment-friendly.

The water outlet can be provided with a flow guide part 154 for guiding water, the water storage tank 155 can be screwed on the flow guide part 154, the flow guide part 154 can be integrally formed with the second condensation pipe 152, the periphery of the flow guide part 154 can be provided with external threads, and the top end of the water storage tank 155 can be provided with internal threads for being screwed on the external threads, so that the water storage tank 155 can be conveniently detached from the second condensation pipe 152.

Can be equipped with the level sensor who is used for detecting the liquid level in the water storage tank 155, can be equipped with the display screen that is used for showing the liquid level that level sensor detected in the gymnasium, can in time know the liquid level of water storage tank 155 like this, avoid the water capacity in the water storage tank 155 too much and spill over. The liquid level sensor can be a MOHO Mongolian MH1160 input type liquid level sensor.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides an energy-concerving and environment-protective air conditioning system for adjust the gas in the gymnasium, its characterized in that: comprises an exhaust part (2) for exhausting the first gas in the gymnasium and an air transmission part (1) for sucking the outside air, sterilizing and drying the air to obtain the second gas, the air transmission piece (1) comprises an introducing pipe (11), a first exhaust fan (12) arranged in the introducing pipe (11) and used for extracting outside air into the introducing pipe (11), an ultraviolet lamp (13) arranged in the introducing pipe (11) and used for sterilizing the outside air extracted by the first exhaust fan (12), an oven (14) connected to one end of the introducing pipe (11) and used for heating the air flowing out of the introducing pipe (11) to form heated air, a condensation structure connected to the oven (14) and used for condensing the heated air to remove water vapor therein to form second gas, and a conveying pipe (16) connected to one end of the condensation structure and used for conveying the second gas into the gymnasium.

2. An energy saving and environmental friendly air conditioning system as claimed in claim 1, wherein: the gas transmission piece (1) further comprises a dustproof filter plate (111) which is arranged at one end of the introducing pipe (11) and used for preventing dust from entering the introducing pipe (11).

3. An energy saving and environmental friendly air conditioning system as claimed in claim 1 or 2, wherein: the gas transmission piece (1) further comprises a plurality of activated carbon filter screens (112) arranged in the introducing pipe (11).

4. An energy saving and environmental friendly air conditioning system as claimed in claim 1 or 2, wherein: the exhaust part (2) comprises an outlet pipe (21) and a second exhaust fan (22) which is arranged at one end of the outlet pipe (21) and used for extracting the first gas in the gymnasium to the outlet pipe (21).

5. An energy saving and environmental friendly air conditioning system as claimed in claim 4, wherein: the delivery pipe (21) is arranged at the bottom end of the gymnasium, and the conveying pipe (16) is arranged at the top end of the gymnasium.

6. An energy saving and environmental friendly air conditioning system as claimed in claim 5, wherein: the air guide opening of the guide pipe (21) is centrosymmetric with the output opening of the conveying pipe (16), and the air guide opening and the output opening are respectively arranged at two ends of a diagonal line of the gymnasium.

7. An energy saving and environmental friendly air conditioning system as claimed in claim 1 or 2, wherein: the condensation structure comprises a first condensation pipe (151) which is connected between the drying oven (14) and forms an acute angle, a second condensation pipe (152) of which one end is connected to the first condensation pipe (151) and forms a right angle with the drying oven (14), and a third condensation pipe (153) of which one end is connected to the second condensation pipe (152) and is parallel to the drying oven (14).

8. An energy saving and environmental friendly air conditioning system as claimed in claim 7, wherein: the condensation structure also comprises a plurality of water outlets arranged at the bottom end of the second condensation pipe (152) and a water storage tank (155) arranged at the bottom end of the water outlets and used for receiving water flowing out of the water outlets.

9. An energy saving and environmental friendly air conditioning system as claimed in claim 8, wherein: the water outlet is provided with a flow guide part (154) for guiding water, and the water storage tank (155) is screwed on the flow guide part (154).

10. An energy saving and environmental friendly air conditioning system as claimed in claim 9, wherein: a liquid level sensor used for detecting the liquid level is arranged in the water storage tank (155).

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