CN111912090A - Condensate recovery device and system thereof - Google Patents

Abstract

The invention discloses a condensate water recovery device, which comprises a collecting part, a conveying part, a processing part and an atomizing part, wherein two ends of the conveying part are respectively connected with the collecting part and the processing part, the atomizing part is communicated with the processing part and is positioned at the front end of the processing part, the atomizing part comprises an atomizer and a rotating fan, the rotating fan is fixedly connected with the atomizer, the atomizer comprises a water pump, a nozzle and a drainage tube, the drainage tube is communicated with the nozzle and the water pump, and the nozzle is fixedly connected with the rotating fan. The condensed water is sent to the indoor to improve the air humidity, thereby achieving the purposes of recovering the condensed water and saving resources.

Description

Condensate recovery device and system thereof

Technical Field

The invention belongs to the technical field of air conditioner condensate water recovery, and particularly relates to a condensate water recovery device and a system thereof.

Background

During the refrigeration process of the air conditioner outdoor unit, condensed water can be generated due to the difference between the internal temperature and the external temperature. At present, the condensate water that produces passes through the drain valve or directly the trompil is discharged outdoors on the chassis, does not carry out recycle to the condensate water, is the waste to the water resource on the one hand, and on the other hand, the condensate water of emission can flow down along with wall body etc., causes the corruption to the wall body, consequently, urgent needs are handled the condensate water.

Disclosure of Invention

The invention provides a condensate water recovery device and a condensate water recovery system, aiming at solving the problem that the condensate water of an air conditioner outdoor unit in the prior art cannot be effectively treated.

The utility model provides a condensate recovery device, is including collecting, carrying, handling and atomizing piece, carry the both ends of piece to connect respectively collect with handle the piece, atomizing piece with handle a intercommunication, and be located handle the front end of piece, atomizing piece includes atomizer and rotation fan, the atomizer is located one side of atomizing piece, the rotation fan then with atomizer fixed connection, the atomizer includes water pump, nozzle and drainage tube, the drainage tube intercommunication the nozzle with the water pump, the nozzle is located the output of water pump, and with rotation fan fixed connection.

The nozzle comprises a protective cover and a bottom support, the protective cover is provided with a plurality of fine holes, the bottom support is fixedly connected with the protective cover, and the drainage tube is communicated with the bottom support.

The collecting piece comprises a condensate pipe, a water storage piece, a butt plug and a coiled pipe, the condensate pipe is connected with an air conditioner and the butt plug, and two ends of the coiled pipe are respectively communicated with the butt plug and the water storage piece.

The butt joint plug comprises a filter membrane and a socket provided with a butt joint port, the butt joint port penetrates through the socket, the condensate pipe and the coiled pipe are respectively communicated with two ends of the butt joint port, and the filter membrane is located inside the butt joint port.

The processing piece comprises an anode processing unit, two cathode processing units, a power supply and a processing barrel, wherein the anode processing unit is positioned between the two cathode processing units, the anode of the power supply is connected with the anode processing unit, the cathode of the power supply is connected with the cathode processing unit, the processing barrel is sleeved on the outer peripheral sides of the anode processing unit and the cathode processing unit, and the two ends of the processing barrel are respectively communicated with the conveying piece and the atomizing piece.

The processing barrel comprises a storage pipeline and a water pump pipeline, the storage pipeline and the water pump pipeline are both located at one end of the processing barrel, the water pump pipeline is communicated with the water pump, and the storage pipeline is externally connected with storage equipment.

The invention also provides a condensate water recovery system, which comprises the condensate water recovery device, a water delivery device and a storage device, wherein one end of the water delivery device is communicated with the storage pipeline, the other end of the water delivery device is communicated with the storage device, and the storage device is positioned at one side of the condensate water recovery device.

The invention has the beneficial effects that: on prior art's basis, retrieve the comdenstion water that produces in the air conditioner working process, utilize the processing piece to handle to the comdenstion water that will handle atomizes, delivers to indoor in order to promote air humidity, thereby reaches the purpose of retrieving the comdenstion water, resources are saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic axial view of a condensate recovery system of a condensate recovery apparatus and a condensate recovery system thereof according to the present invention.

Fig. 2 is a schematic sectional view of a collecting member, a conveying member and a treating member of a condensate recovery apparatus and a system thereof according to the present invention.

Fig. 3 is a schematic axial structure diagram of an atomizing member of a condensate recovery device and a system thereof according to the present invention.

FIG. 4 is a schematic axial view of the anode treatment unit, the cathode treatment unit and the power supply of the condensate recovery device and the system thereof according to the present invention.

10-collection part, 20-delivery part, 30-treatment part, 40-atomization part, 50-water delivery device, 60-storage device, 11-condensate pipe, 12-water storage part, 13-butt plug, 14-coiled pipe, 21-heat insulation layer, 22-stud bolt, 23-compensator, 24-delivery pipe body, 31-anode treatment unit, 32-cathode treatment unit, 33-power supply, 34-treatment barrel, 41-atomizer, 42-rotary fan, 131-filter membrane, 132-socket, 133-butt joint port, 221-limit groove, 222-standard bolt head, 341-storage pipeline, 342-water pump pipeline, 411-water pump, 412-nozzle, 413-drainage pipe, 414-protective cover, 415-bottom support, 416-pores.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Further, in the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

Referring to fig. 1 to 4, the present invention provides a technical solution:

a condensate water recovery device comprises a collecting piece 10, a conveying piece 20, a processing piece 30 and an atomizing piece 40, two ends of the conveying piece 20 are respectively connected with the collecting piece 10 and the processing piece 30, the atomizing piece 40 is communicated with the processing piece 30 and is positioned at the front end of the processing piece 30, the atomizing piece 40 comprises an atomizer 41 and a rotating fan 42, the atomizer 41 is positioned at one side of the atomizing piece 40, the rotating fan 42 is fixedly connected with the atomizer 41, the atomizer 41 comprises a water pump 411, a nozzle 412 and a drainage pipe 413, the drainage pipe 413 is communicated with the nozzle 412 and the water pump 411, the nozzle 412 is positioned at the output end of the water pump 411 and is fixedly connected with the rotating fan 42.

In this embodiment, the collecting member 10 recovers the condensed water, the transporting member 20 transports the condensed water, the treating member 30 treats the condensed water, the atomizing member 40 atomizes the treated condensed water, the pressure of the condensed water is raised by the water pump 411, the condensed water is sent to the nozzle 412 through the drainage pipe 413 and is sprayed by the nozzle 412 to form water mist, and the rotating fan 42 is matched with the atomizer 41, so that the atomized water molecules can be rapidly diffused, and the purpose of raising the air humidity is achieved, that is, the condensed water can be effectively utilized.

Further, the nozzle 412 includes a protective cover 414 having a plurality of fine holes 416 and a bottom support 415, the protective cover 414 is fixedly connected to the bottom support 415, and the drainage tube 413 is communicated with the bottom support 415.

In the present embodiment, the protective cover 414 is fixedly connected to the bottom support 415, the fine holes 416 are used to change the condensed water into fine water molecules, and the bottom support 415 is fixedly connected to the rotating fan 42, so that the air blown by the rotating fan 42 can quickly diffuse the atomized water molecules, thereby achieving the reasonable utilization of the condensed water.

Further, the collecting part 10 comprises a condensate pipe 11, a water storage part 12, a butt plug 13 and a coiled pipe 14, the condensate pipe 11 is connected with an air conditioner and the butt plug 13, and two ends of the coiled pipe 14 are respectively communicated with the butt plug 13 and the water storage part 12.

In the present embodiment, the condensed water pipe 11 is used for delivering condensed water generated by an air conditioner to the docking plug 13, the docking plug 13 is used for fixing the condensed water pipe 11, so that the condensed water in the condensed water pipe 11 can effectively enter the water storage member 12, and the serpentine pipe 14 is used for making the temperature of the condensed water equal to the room temperature, so as to reduce the discomfort of human body contacting the condensed water mist.

Further, the docking plug 13 includes a filter membrane 131 and a socket 132 having a docking port 133, the docking port 133 penetrates the socket 132, the condensed water pipe 11 and the coiled pipe 14 are respectively communicated with two ends of the docking port 133, and the filter membrane 131 is located inside the docking port 133.

In the present embodiment, the filter membrane 131 is used to filter impurities generated in the condensed water, and since the condensed water contacts metal parts in the air conditioner and certain metal corrosion particles are mixed in the condensed water, the filter membrane 131 is used to filter the impurities, the docking port 133 is used to mate with the condensed water pipe 11, and the socket 132 is used to fix the docking port 133.

Further, the treating member 30 includes an anode treating unit 31, two cathode treating units 32, a power supply 33 and a treating cylinder 34, the anode treating unit 31 is located between the two cathode treating units 32, the positive pole of the power supply 33 is connected to the anode treating unit 31, the negative pole of the power supply 33 is connected to the cathode treating unit 32, the treating cylinder 34 is sleeved on the outer peripheries of the anode treating unit 31 and the cathode treating unit 32, and two ends of the treating cylinder are respectively communicated with the conveying member 20 and the atomizing member 40.

In this embodiment, the anodic treatment unit 31 and the two cathodic treatment units 32 are cooperated with each other, and the heavy metal ions in the condensed water are precipitated by using the electric energy provided by the power supply 33, so as to be removed from the condensed water, and the treatment cylinder 34 is used for carrying out micro-electrolysis.

Further, the treatment cylinder 34 comprises a storage pipeline 341 and a water pump 411 pipeline 342, the storage pipeline 341 and the water pump pipeline 342 are both located at one end of the treatment cylinder 34, the water pump pipeline 342 is communicated with the water pump 411, and the storage pipeline 341 is externally connected with a storage device.

In this embodiment, the storage pipe 341 is configured to send the condensed water processed by the processing unit 30 to an external storage device, when the air conditioner is not operating, the humidity of the room can be increased by the cooperation of the water pump pipe 342 and the water pump 411, and the water pump pipe 342 is configured to send the condensed water to the water pump 411.

Further, the conveying member 20 comprises a heat insulation layer 21, stud bolts 22, a compensator 23 and a conveying pipe body 24, the heat insulation layer 21 is located on the outer side of the conveying pipe body 24, the stud bolts 22 are located at two ends of the conveying pipe body 24, the compensator 23 is matched with the stud bolts 22, and the conveying pipe body 24 is respectively communicated with the collecting member 10 and the treating member 30.

In this embodiment, the thermal insulation layer 21 is used to prevent the temperature of the condensed water from being affected by the outside environment, so as to ensure that the temperature of the condensed water is consistent with the room temperature as much as possible, the stud bolt 22 is used to fix the conveying pipe body 24, the compensator 23 is used to assist in improving the stability of the stud bolt 22, and the conveying pipe body 24 is responsible for conveying the condensed water.

Further, the stud 22 has a limit groove 221 and a standard head 222 which are engaged with the compensator 23, the limit groove 221 is engaged with the compensator 23, and the standard head 222 is engaged with the collecting member 10 and the treating member 30.

In this embodiment, the limiting groove 221 is used to limit the compensator 23, so as to avoid the offset of the position of the compensator 23, and the standard bolt head 222 is used to fix the collecting member 10 and the treating member 30, so as to improve the sealing performance of the conveying member 20.

The invention further provides a condensate water recovery system, which comprises the condensate water recovery device, a water delivery device 50 and a storage device 60, wherein one end of the water delivery device 50 is communicated with the storage pipeline 341, the other end of the water delivery device is communicated with the storage device 60, and the storage device 60 is positioned at one side of the condensate water recovery device.

In this embodiment, the water delivery device 50 may be provided with a valve to determine whether the condensed water enters the storage device 60 according to the requirement, so as to avoid the waste of the condensed water caused by adding atomized condensed water when the air humidity is proper.

On the basis of the prior art, the condensed water generated by the air conditioner is recovered and subjected to electrochemical treatment, so that the condensed water does not contain impurities, the treated condensed water is subjected to atomization treatment to improve the air humidity, and the aim of saving water resources is fulfilled.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. The utility model provides a condensate recovery device, its characterized in that, is including collecting, carrying, handling and atomizing piece, carry the both ends of piece to connect respectively collect with handle the piece, atomizing piece with handle a intercommunication, and be located handle the front end of piece, atomizing piece includes atomizer and rotation fan, the atomizer is located one side of atomizing piece, the rotation fan then with atomizer fixed connection, the atomizer includes water pump, nozzle and drainage tube, the drainage tube intercommunication the nozzle with the water pump, the nozzle is located the output of water pump, and with rotation fan fixed connection.

2. The condensate recovery apparatus of claim 1, wherein the nozzle comprises a protective cap having a plurality of fine holes and a bottom support, the protective cap being fixedly connected to the bottom support, the draft tube being in communication with the bottom support.

3. The condensate recovery apparatus of claim 1, wherein the collecting member comprises a condensate pipe, a water storage member, a docking plug, and a coil pipe, the condensate pipe is connected to the air conditioner and the docking plug, and both ends of the coil pipe are respectively connected to the docking plug and the water storage member.

4. A condensate recovery apparatus as claimed in claim 3, wherein said docking plug comprises a filter membrane and a socket having a docking port extending through said socket, said condensate pipe and said serpentine pipe being in communication with both ends of said docking port, respectively, said filter membrane being located inside said docking port.

5. The condensate recovery apparatus of claim 1, wherein the treatment member includes an anodic treatment unit, two cathodic treatment units, a power source, and a treatment cylinder, the anodic treatment unit is disposed between the two cathodic treatment units, a positive pole of the power source is connected to the anodic treatment unit, a negative pole of the power source is connected to the cathodic treatment unit, the treatment cylinder is sleeved on an outer circumferential side of the anodic treatment unit and the cathodic treatment unit, and both ends of the treatment cylinder are respectively communicated with the delivery member and the atomizing member.

6. The condensate recovery apparatus of claim 5, wherein the processing cylinder includes a storage conduit and a water pump conduit, the storage conduit and the water pump conduit being located at one end of the processing cylinder, the water pump conduit being in communication with the water pump, the storage conduit being externally connected to a storage device.

7. A condensate recovery system comprising a condensate recovery device according to claim 6, further comprising a water delivery device and a storage device, said water delivery device communicating at one end with said storage conduit and at another end with said storage device, said storage device being located on one side of said condensate recovery device.

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