CN114110823A - Central air conditioning device for recycling cold energy of condensed water - Google Patents

Abstract

The invention discloses a central air conditioning device for recycling cold quantity of condensed water, which comprises a central air conditioning body and a shell cooling mechanism arranged at the top end of the central air conditioning body, wherein the central air conditioning body comprises an air conditioning shell, the side surface of the air conditioning shell is connected with a condensed water output pipe, the shell cooling mechanism comprises a water pump, one end of the water pump is connected with the condensed water output pipe, the other end of the water pump is connected with a connecting pipe, the tail end of the connecting pipe is connected with a ring pipe, two ends of the ring pipe are both connected with square pipes, and the two square pipes are arranged at two sides of the top end of the air conditioning shell. The water pump extracts the used condensate water in the central air conditioner body, the condensate water is discharged outwards through the two square pipes, and the condensate water can be cooled outside the air conditioner shell when flowing in the square pipes, so that the utilization of the internal cold quantity of the used condensate water is realized, the resource utilization rate is improved, and the energy waste is reduced.

Description

Central air conditioning device for recycling cold energy of condensed water

Technical Field

The invention relates to the technical field of central air conditioners, in particular to a central air conditioner device for recycling cold energy of condensed water.

Background

The central air conditioner is composed of one or more cold and heat source systems and a plurality of air conditioning systems, the system is different from the traditional refrigerant type air conditioner, air is processed in a centralized way to meet the comfort requirement, and the principle of liquid gasification refrigeration is adopted to provide the required cold energy for the air conditioning system so as to offset the heat load of the indoor environment; the heating system provides the required heat for the air conditioning system to offset the cold and warm load of the indoor environment, the refrigerating system is the vital part of the central air conditioning system, and the type, the operation mode, the structural form and the like of the refrigerating system directly influence the economical efficiency, the high efficiency and the rationality of the central air conditioning system in operation.

When the central air conditioner is used, the condensate water is cooled through cooling circulation of an air conditioner internal unit, then the condensate water is discharged out of the air conditioner, and the used condensate water still contains a certain amount of cold energy, so that resource waste can be caused by direct discharge, and if the cold energy in the condensate water can be recycled, an energy-saving effect can be achieved.

Disclosure of Invention

The invention aims to provide a central air conditioning device for recycling cold energy of condensed water so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides a central air conditioning device for recycling cold quantity of condensed water, which comprises a central air conditioning body and a shell cooling mechanism arranged at the top end of the central air conditioning body, wherein the central air conditioning body comprises an air conditioning shell, the side surface of the air conditioning shell is connected with a condensed water output pipe, the shell cooling mechanism comprises a water pump, one end of the water pump is connected with the tail end of the condensed water output pipe, the other end of the water pump is connected with a connecting pipe, the tail end of the connecting pipe is connected with an annular water guide pipe, the two ends of the annular water guide pipe are both connected with connecting heads, the tail ends of the two connecting heads are both connected with square pipes, the square pipes are in a U-shaped structure, the bottom ends of the two square pipes are respectively attached to the top end of the air conditioning shell and connected, a fixed pipe is connected between the other ends of the two square pipes, and the side surface of the fixed pipe is connected with a water discharge pipe, the bottom end of the drain pipe is connected with a pipe head which is of a funnel-shaped structure, so that residual condensed water is conveniently discharged, and the drainage efficiency is improved.

As a further improvement of the technical scheme, pipe holes are formed in the top ends of the two sides of the annular water guide pipe, and control valves are arranged at the inner ends of the pipe holes.

As a further improvement of the technical scheme, a bottom groove is formed in the bottom end of the square pipe.

As a further improvement of the technical scheme, the top ends of the square tubes are provided with transparent grooves, and the bottom ends of the transparent grooves are of transparent structures.

As a further improvement of the technical scheme, a filter plate is arranged on the inner side of the bottom end of the drain pipe, the cross section size of the filter plate is kept to be matched with that of the inner end of the pipe head, and the liquid leakage condition is avoided.

As a further improvement of the technical scheme, two protection mechanisms are sleeved outside the square pipe and comprise an outer clamping plate, the outer clamping plate is sleeved on one side of the square pipe, the bottom end of the outer clamping plate is fixedly connected with the top end of the air conditioner shell, an inner clamping plate is arranged on the other side of the outer clamping plate, and the inner clamping plate is sleeved and matched with the other side of the square pipe.

As a further improvement of the technical scheme, the outer clamping plate and the top end of the inner clamping plate are respectively provided with a slide way, the side surfaces of the slide ways are respectively provided with a slide groove, and the slide grooves are connected with a plurality of slide blocks in a sliding mode, and each slide block is positioned right above the square pipe.

As a further improvement of the technical scheme, the top end of the sliding block is provided with a lifting piece.

As a further improvement of the technical scheme, a pair of fixing mechanisms is connected between two sides of the annular water guide pipe and the side surface of the air conditioner shell, the fixing mechanisms are symmetrically distributed on two sides of the outer end of the annular water guide pipe, each fixing mechanism comprises a pipeline sleeve ring, the pipeline sleeve ring is in sleeve joint with the side surface of the annular water guide pipe, a connecting rod is connected to the bottom end of the pipeline sleeve ring, and the side surface of the connecting rod is fixed on the outer side of the air conditioner shell.

As a further improvement of the technical scheme, the bottom end of the pipeline sleeve ring and the top end of the connecting rod are connected with an adjusting rod, the bottom end of the adjusting rod is connected with an inserting rod, the bottom end of the inserting rod is in inserting connection with the top end of the connecting rod, the top end of the adjusting rod is provided with external threads, and the top end of the inserting rod is in threaded connection with the bottom end of the pipeline sleeve ring.

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

1. in this cold volume recycle central air conditioning unit of comdenstion water, the comdenstion water after the water pump is used the central air conditioning body inside is taken out, outwards discharges through two square pipes, and the comdenstion water can cool down the processing to the air conditioner shell outside when square inside flow to the realization is to the utilization of the inside cold volume of comdenstion water after using, improves resource utilization, and it is extravagant to reduce the energy.

2. Among this cold volume recycle central air conditioning unit of comdenstion water, the kerve through setting up makes square tub of bottom cross sectional dimension shorten to reduce the contact distance between square tub of bottom and the air conditioner shell top, the comdenstion water is when the inside circulation of square tub of, through the outside cold volume of square tub of bottom, square tub of thickness is less this moment, the comdenstion water is just low more at the cold volume of transmission in-process loss, make the inside cold volume utilization ratio of comdenstion water promote, improve the cooling effect to air conditioner shell surface.

3. In this cold volume recycle central air conditioning equipment of comdenstion water, carry out filtration treatment before getting rid of the comdenstion water through the filter plate that sets up, carry out filtration treatment with the impurity and the pollutant of the inside adhesion of comdenstion water, make the remaining comdenstion water of getting rid of accord with emission standard, be favorable to environmental protection work.

4. In this cold volume recycle central air conditioning equipment of comdenstion water, protection mechanism outside the square venturi tube through setting up protects, avoids square intraductal the end in carrying out the comdenstion water transmission process, because two outsides can't be fixed, leads to square tub of position to squint very easily, leads to square tub and connector junction to appear the gap, the condensate leaks from the gap very easily, not only causes the unable make full use of that carries on of condensate, the condensate of leaking simultaneously can cause the pollution to the environment.

Drawings

FIG. 1 is a schematic view of the overall structure of embodiment 1 of the present invention;

fig. 2 is a schematic structural view of a central air conditioner body according to embodiment 1 of the present invention;

FIG. 3 is a schematic structural view of a cooling mechanism of a housing according to embodiment 1 of the present invention;

fig. 4 is a schematic structural view of a water pump according to embodiment 1 of the present invention;

fig. 5 is a partially enlarged view at a of fig. 5 of embodiment 1 of the present invention;

FIG. 6 is a sectional view of a square tube structure according to example 1 of the present invention;

fig. 7 is a partially enlarged view at B of fig. 6 of embodiment 1 of the present invention;

FIG. 8 is an exploded view of a drain pipe structure according to embodiment 1 of the present invention;

FIG. 9 is a schematic structural view of a guard mechanism according to embodiment 1 of the present invention;

fig. 10 is a disassembled view of the fixing mechanism structure of embodiment 1 of the present invention.

The various reference numbers in the figures mean:

10. a central air conditioner body; 110. an air conditioner housing; 111. a condensed water output pipe;

20. a housing cooling mechanism; 210. a water pump; 211. a connecting pipe; 212. an annular water conduit; 213. a connector; 214. a tube hole; 215. a control valve; 220. a square tube; 221. a fixed tube; 222. a bottom groove; 223. a transparent groove; 230. a drain pipe; 231. a pipe head; 232. filtering the plate; 240. a protection mechanism; 241. an outer splint; 242. an inner splint; 243. a slideway; 244. a slider; 250. a fixing mechanism; 251. a conduit collar; 252. a connecting rod; 253. adjusting a rod; 254. inserting a rod; 255. and (4) external threads.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Example 1

Referring to fig. 1 to 10, an object of the present embodiment is to provide a central air conditioning apparatus for recycling cold of condensed water, including a central air conditioning body 10 and a casing cooling mechanism 20 installed at the top end of the central air conditioning body 10, the central air conditioning body 10 includes an air conditioning casing 110, a condensed water output pipe 111 is connected to a side surface of the air conditioning casing 110, the casing cooling mechanism 20 includes a water pump 210, one end of the water pump 210 is connected to the end of the condensed water output pipe 111, the other end of the water pump 210 is connected to a connection pipe 211, the end of the connection pipe 211 is connected to an annular water guide pipe 212, both ends of the annular water guide pipe 212 are connected to connectors 213, the ends of the two connectors 213 are connected to square pipes 220, the square pipes 220 are U-shaped, the bottom ends of the two square pipes 220 are respectively attached to the top end of the air conditioning casing 110, a fixing pipe 221 is connected between the other ends of the two square pipes 220, and a drain pipe 230 is connected to a side surface of the fixing pipe 221, the bottom end of the water discharging pipe 230 is connected with a pipe head 231, and the pipe head 231 is of a funnel-shaped structure, so that the residual condensed water can be conveniently discharged, and the water discharging efficiency is improved.

When the central air conditioner is used, after the condensate water in the central air conditioner body 10 is used, a certain amount of cold energy can remain in the central air conditioner body, at the moment, the condensate water used and finished in the central air conditioner body 10 is pumped out by the water pump 210 through the condensate water output pipe 111, the pumped condensate water is input into the inner end of the connecting pipe 211, the condensate water is conveyed to the two ends of the annular water guide pipe 212 by the connecting pipe 211 and is conveyed to the inner ends of the two square pipes 220 through the connecting joint 213, at the moment, the bottom ends of the square pipes 220 are contacted with the outer side of the top end of the air conditioner shell 110, when the condensate water passes through the inner ends of the square pipes 220, the cold energy is conveyed outwards through the inner sides of the square pipes 220, the cold energy is used for cooling the outer side of the air conditioner shell 110, the phenomenon that the inner temperature of the central air conditioner body 10 is increased rapidly due to long-time work, the heat deformation of the air conditioner shell 110 is caused, the service life of the central air conditioner body 10 is influenced, after the cold energy is cooled on the outer side of the air conditioner shell 110, the condensed water continues to flow along the inside of the water pump 210, and when the condensed water flows to the fixing pipe 221, the condensed water is discharged to the outside through the drain pipe 230.

In addition, the top ends of both sides of the annular water guide pipe 212 are provided with pipe holes 214, and the inner ends of the pipe holes 214 are provided with control valves 215. Because central air conditioning body 10 can not continuously use, when central air conditioning body 10 is in the stop state, air conditioner shell 110 can cool down automatically along with the increase of time, need not to cool down through the comdenstion water after using this moment, can close two control valves 215, and annular aqueduct 212 the inner is in the jam state this moment, can't carry out the transport of comdenstion water, can store remaining comdenstion water to when supplying next central air conditioning body 10 to move, cool down the work again.

Further, the bottom end of the square tube 220 is provided with a bottom groove 222. During specific use, make square tub of 220 bottom cross sectional dimension shorten through kerve 222 that sets up, thereby reduce the contact distance between square tub of 220 bottom and the air conditioner shell 110 top, the comdenstion water is when the inside circulation of square tub of 220, through the outside cold volume of transmitting in square tub of 220 bottom, square tub of 220 thickness is less this moment, the comdenstion water is just low more at the cold volume of transmission in-process loss, make the inside cold volume utilization ratio of comdenstion water promote, improve the cooling effect to air conditioner shell 110 surface.

Still further, the top of the two square tubes 220 is provided with a transparent groove 223, and the bottom of the transparent groove 223 is of a transparent structure. During the specific use, square pipe 220 is inside in carrying out the comdenstion water transmission process, because square pipe 220 outside is opaque, lead to the inside comdenstion water flux of square pipe 220 that operating personnel can't observe, operating personnel can't judge whether the inside comdenstion water output quantity of square pipe 220 can satisfy the cooling to air conditioner shell 110, the transparency trough 223 through setting up realizes the inner permeability of square pipe 220 this moment, make operating personnel observe the inside comdenstion water flux of square pipe 220 through transparency trough 223 at any time, operating personnel accessible adjusting control valve 215 is in order to adapt to the normal cooling to air conditioner shell 110 this moment, improve square pipe 220 use flexibility.

Specifically, the inner side of the bottom end of the drain pipe 230 is provided with a filter plate 232, and the cross section size of the filter plate 232 is kept consistent with the cross section size of the inner end of the pipe head 231, so that the liquid leakage condition is avoided. Because the comdenstion water uses the completion back, the inboard impurity of the inside pipeline of central air conditioning body 10 of very easy adhesion or some pollutants lead to getting rid of after the outer end very easily causing the pollution to the environment, carry out filtration treatment before getting rid of the comdenstion water through the filter plate 232 that sets up this moment, carry out filtration treatment with the impurity of the inside adhesion of comdenstion water and pollutant, make the remaining comdenstion water of getting rid of accord with emission standard, be favorable to environmental protection work.

In addition, protection machanism 240 has all been cup jointed in the two square tube 220 outsides, and protection machanism 240 includes outer splint 241, and outer splint 241 cup joints in square tube 220 one side, and outer splint 241 bottom and air conditioner shell 110 top fixed connection, outer splint 241 opposite side are provided with interior splint 242, and interior splint 242 cup joints the cooperation with square tube 220 opposite side. When specifically using, protection mechanism 240 through setting up protects the square tube 220 outside, avoids square tube 220 inner in carrying out the comdenstion water transmission process, because two outsides can't be fixed, leads to square tube 220 position skew to appear very easily, leads to square tube 220 and connector 213 junction to appear the gap, the condensate leaks from the gap very easily, not only causes the unable make full use of that carries out of condensate, the condensate of leaking simultaneously can cause the pollution to the environment.

Further, the top ends of the outer clamping plate 241 and the inner clamping plate 242 are provided with sliding ways 243, the side surfaces of the two sliding ways 243 are provided with sliding grooves, a plurality of sliding blocks 244 are connected between the two sliding grooves in a sliding mode, and each sliding block 244 is located right above the square pipe 220. During the specific use, because square pipe 220 top is in the state of exposing, in the installation of whole device, square pipe 220 top can't keep fixed, lead to going on and splice the during operation between two connectors 213, very easy alignment, lead to needing a plurality of operating personnel to operate jointly, work efficiency greatly reduced, slider 244 through setting up carries out spacing processing to square pipe 220 top this moment, in the installation, at first embolia square pipe 220 between outer splint 241 and inner splint 242 respectively, slide each slider 244 to square pipe 220 directly over in proper order this moment, fix square pipe 220 top, so that the further concatenation work of square pipe 220 of later stage.

Still further, a pull member is disposed at a top end of the slider 244. Because the slider 244 top is in smooth state, in the in-process that slides, the phenomenon of skidding appears between the very easy and slider 244 top of operating personnel hand, leads to slider 244 slip efficiency greatly reduced, carries the piece through setting up and provides a point of application for operating personnel this moment, and operating personnel accessible pulling is carried the piece and is indirectly driven slider 244 and slide.

In addition, a pair of fixing mechanisms 250 are connected between two sides of the annular water guide pipe 212 and the side surface of the air conditioner shell 110, the two fixing mechanisms 250 are symmetrically distributed on two sides of the outer end of the annular water guide pipe 212, each fixing mechanism 250 comprises a pipeline sleeve ring 251, the pipeline sleeve rings 251 are matched with the side surface of the annular water guide pipe 212 in a sleeved mode, the bottom ends of the pipeline sleeve rings 251 are connected with connecting rods 252, and the side surfaces of the connecting rods 252 are fixed on the outer side of the air conditioner shell 110. Because the water pump 210 has a certain mass, vibration may be generated during operation, so that the annular water guide pipe 212 is easily unbalanced in support and broken, and the support burden of the annular water guide pipe 212 is reduced by the arranged fixing mechanism 250, thereby improving the support stability of the annular water guide pipe 212.

Besides, be connected with between the pipeline lantern ring 251 bottom and the connecting rod 252 top and adjust pole 253, adjust the pole 253 bottom and be connected with inserted bar 254, the cooperation of pegging graft of inserted bar 254 bottom and connecting rod 252 top, adjust the pole 253 top and be provided with external screw thread 255, inserted bar 254 top and pipeline lantern ring 251 bottom threaded connection. During the specific use, rotate regulation pole 253, drive inserted bar 254 and slide along the connecting rod 252 inner, adjust pole 253 top and pipeline lantern ring 251 bottom and realize the separation this moment, realize fixed establishment 250's freely installation and dismantlement function to regularly overhaul water pump 210 and spare part replacement work.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a cold volume recycle central air conditioning unit of comdenstion water, includes central air conditioning body (10) and installs shell cooling body (20) on central air conditioning body (10) top, its characterized in that: the central air conditioning body (10) comprises an air conditioning shell (110), a condensed water output pipe (111) is connected to the side face of the air conditioning shell (110), the shell cooling mechanism (20) comprises a water pump (210), one end of the water pump (210) is connected with the end of the condensed water output pipe (111), the other end of the water pump (210) is connected with a connecting pipe (211), the end of the connecting pipe (211) is connected with an annular water guide pipe (212), the two ends of the annular water guide pipe (212) are connected with connecting heads (213), the two ends of the connecting heads (213) are connected with a square pipe (220), the square pipe (220) is of a U-shaped structure, the bottom ends of the square pipes (220) are respectively attached to the top end of the air conditioning shell (110), the two ends of the square pipes (220) are connected with a fixing pipe (221), and the side face of the fixing pipe (221) is connected with a drain pipe (230), the bottom end of the drainage pipe (230) is connected with a pipe head (231), the pipe head (231) is of a funnel-shaped structure, so that residual condensed water is conveniently discharged, and the drainage efficiency is improved.

2. The central air conditioning unit for recycling cold energy of condensed water according to claim 1, wherein: pipe holes (214) are formed in the top ends of the two sides of the annular water guide pipe (212), and control valves (215) are arranged at the inner ends of the pipe holes (214).

3. The central air conditioning unit for recycling cold energy of condensed water according to claim 1, wherein: the bottom end of the square pipe (220) is provided with a bottom groove (222).

4. The central air conditioning unit for recycling cold energy of condensed water according to claim 3, wherein: two square pipe (220) top all is provided with transparent groove (223), transparent groove (223) bottom is the transparent construction.

5. The central air conditioning unit for recycling cold energy of condensed water according to claim 1, wherein: the inner side of the bottom end of the drainage pipe (230) is provided with a filter plate (232), the section size of the filter plate (232) is matched with that of the inner end of the pipe head (231), and the liquid leakage is avoided.

6. The central air conditioning unit for recycling cold energy of condensed water according to claim 4, wherein: two protection machanism (240) have all been cup jointed in square pipe (220) outside, protection machanism (240) are including outer splint (241), outer splint (241) cup joint square pipe (220) one side, outer splint (241) bottom with air conditioner shell (110) top fixed connection, outer splint (241) opposite side is provided with interior splint (242), interior splint (242) with square pipe (220) opposite side cup joints the cooperation.

7. The central air conditioning unit for recycling cold energy of condensed water according to claim 6, wherein: the outer clamping plate (241) and the top end of the inner clamping plate (242) are provided with sliding ways (243), the side faces of the sliding ways (243) are provided with sliding grooves, a plurality of sliding blocks (244) are connected between the sliding grooves in a sliding mode, and the sliding blocks (244) are located right above the square pipe (220).

8. The central air conditioning unit for recycling cold energy of condensed water according to claim 7, wherein: the top end of the sliding block (244) is provided with a lifting piece.

9. The central air conditioning unit for recycling cold energy of condensed water according to claim 2, wherein: the air conditioner comprises an air conditioner shell (110), and is characterized in that a pair of fixing mechanisms (250) are connected between two sides of the annular water guide pipe (212) and the side face of the air conditioner shell (110), the fixing mechanisms (250) are symmetrically distributed on two sides of the outer end of the annular water guide pipe (212), each fixing mechanism (250) comprises a pipeline sleeve ring (251), the pipeline sleeve ring (251) is matched with the side face of the annular water guide pipe (212) in a sleeved mode, a connecting rod (252) is connected to the bottom end of the pipeline sleeve ring (251), and the side face of the connecting rod (252) is fixed to the outer side of the air conditioner shell (110).

10. The central air conditioning unit for recycling cold energy of condensed water according to claim 9, wherein: an adjusting rod (253) is connected between the bottom end of the pipeline sleeve ring (251) and the top end of the connecting rod (252), an inserting rod (254) is connected to the bottom end of the adjusting rod (253), the bottom end of the inserting rod (254) is in inserting connection with the top end of the connecting rod (252), an external thread (255) is arranged at the top end of the adjusting rod (253), and the top end of the inserting rod (254) is in threaded connection with the bottom end of the pipeline sleeve ring (251).

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