CN109945719A - A kind of electrostatic dust-removing heat exchanger - Google Patents

Abstract

The present invention relates to air purification fields, and in particular to a kind of electrostatic dust-removing heat exchanger, the electrostatic precipitation heat exchanger include a shell；The shell includes the dust-collecting and heat exchanging component an of first port, a second port and a connection first port and the second port；The dust-collecting and heat exchanging component includes the vent passages that indoor return air is laterally connected at least one, and the electrostatic precipitation air duct of outdoor fresh air is longitudinally connected at least one, the ventilation air duct intersects with the mutual lamination in electrostatic precipitation air duct, and the indoor return air transfers heat to the outdoor fresh air by electrostatic precipitation air duct by lamination intersection construction.

Description

A kind of electrostatic dust-removing heat exchanger

Technical field

The present invention relates to air purification fields, and in particular to a kind of electrostatic dust-removing heat exchanger.

Background technique

Electrostatic precipitator technology is widely used for the fields such as dust collection, air cleaning.Air heat exchanger can be effectively empty Energy in gas, has been widely used in fresh air system at present.

Current electrostatic precipitation heat exchanger is all made of the mode for being arranged successively electrostatic precipitation module and heat exchange module Design, there has been no electrostatic precipitation, the product that heat exchanger organic combination is a module occur.By electrostatic precipitation, heat exchange After device organic combination is integrated, the volume of chunking can be effectively reduced, reduce production cost, promote whole work efficiency.

Summary of the invention

In order to effectively solve the above problems, the present invention provides a kind of electrostatic dust-removing heat exchanger.

Concrete scheme of the invention is as follows: a kind of electrostatic dust-removing heat exchanger, the electrostatic precipitation heat exchanger packet Include a shell；

The shell includes a first port, a second port and the connection first port and described second The dust-collecting and heat exchanging component of port；

The dust-collecting and heat exchanging component includes at least one the laterally vent passages of conducting indoor return air and at least one longitudinal direction The electrostatic precipitation air duct of outdoor fresh air is connected, the ventilation air duct intersects with the mutual lamination in electrostatic precipitation air duct, the room Interior return air transfers heat to the outdoor fresh air by electrostatic precipitation air duct by lamination intersection construction.

Further, the dust-collecting and heat exchanging component includes at least one cathode dust backwind tube and at least one anode collection Dirt piece；

The cathode dust backwind tube is parallel to each other and is spaced apart from each other arranged in a crossed manner with the positive dust piece；

The both ends of the cathode dust backwind tube are connected to the first port and the second port；

The cathode dust backwind tube internal run-through simultaneously defines the vent passages；

It defines to form electrostatic precipitation wind described in longitudinal ventilation between the cathode dust backwind tube and the positive dust piece Road.

Further, it is arranged on the direction side parallel with the cathode dust backwind tube and the positive dust piece State several ionizing wires of cathode dust backwind tube and the positive dust piece in parallel；

In the ionizing wire, in contrast to the cathode, just the very side of backwind tube and the positive dust piece is provided with one Ionize Turbogrid plates.

Further, the dust-collecting and heat exchanging component includes a first partition and a second partition；

The first partition and the second partition are parallel to each other and are correspondingly arranged, the first partition and the second partition On offer it is mutual corresponding and with the consistent strip of the cathode dust backwind tube quantity through through-hole, the cathode collection The both ends of dirt backwind tube are plugged on the strip on first partition and the second partition through through-hole respectively；

The first partition is connect in contrast to the side of cathode dust backwind tube with the first port, the second partition Side in contrast to cathode dust backwind tube is connect with the second port.

Further, the dust-collecting and heat exchanging component further includes positive dust piece connection component and the cathode dust backwind tube Connection component；

Several cathode dust backwind tube fixation holes and cathode dust return air are provided on the cathode dust backwind tube Pipe through hole；

The positive dust on piece is provided with several positive dust piece fixation holes and positive dust piece through hole；

The cathode dust backwind tube fixation hole is corresponded to each other with the positive dust piece through hole；

The cathode dust backwind tube through hole is corresponded to each other with the positive dust piece fixation hole；

The anode dust piece connection component successively penetrates through arbitrarily connected cathode dust return air through hole and positive dust Piece fixation hole；

The cathode dust backwind tube connection component successively penetrates through the cathode dust backwind tube fixation hole and just of arbitrary neighborhood Pole dust piece through hole.

Further, the cathode dust backwind tube connection component and the positive dust piece connection component are aluminum pipe；

Pass through aluminium ring interlayer at position of the positive dust piece connection component by the positive dust piece fixation hole Fastening, the cathode dust backwind tube through hole pore size are greater than the sectional dimension of the positive dust piece connection component, and The anode dust piece connection component is sealed at the position by the cathode dust backwind tube through hole；

The cathode dust backwind tube communication means pass through aluminium at the position by the cathode dust backwind tube fixation hole The fastening of ring interlayer, the anode dust piece perforation pore size are greater than the sectional dimension of the cathode dust backwind tube communication means, And it is sealed at position of the cathode dust backwind tube communication means by the positive dust piece through hole.

Further, the dust-collecting and heat exchanging component further includes a side plate and second side plate；

First side plate and second side plate are parallel with the cathode dust backwind tube and the positive dust piece；

A wherein opposite end for first side plate and second side plate respectively with the first partition or described The both ends of two partitions connect；

The both ends of the cathode dust backwind tube communication means and the positive dust piece communication means pass through insulation respectively Ceramics are fixed on first side plate and second side plate.

Further, first, second partition is respectively arranged with corresponding first towards one end of the ionization grid Ionizing wire crossbeam and the second ionizing wire crossbeam, and the both ends of the first, second ionizing wire crossbeam are solid by insulating ceramics respectively It is scheduled on the first, second partition；

The ionizing wire is provided between the first ionizing wire crossbeam and the second ionizing wire crossbeam.

The invention has the benefit that chunking can be effectively reduced after electrostatic precipitation, heat exchanger organic combination are integrated Volume, reduce production cost, promoted whole work efficiency.

Detailed description of the invention

Fig. 1 is integrally-built front view provided by the present invention；

Fig. 2 is overall structure stereoscopic schematic diagram provided by the present invention；

Fig. 3 is overall structure perspective view of the explosion provided by the present invention；

Fig. 4 is the stereoscopic schematic diagram of dust-collecting and heat exchanging component provided by the present invention；

Fig. 5 is the top view of dust-collecting and heat exchanging component provided by the present invention；

Fig. 6 is the side view of dust-collecting and heat exchanging component provided by the present invention.

Specific embodiment

In order to illustrate the technical solution of the embodiments of the present invention more clearly, required use in being described below to embodiment Attached drawing be briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, does not limit Application range of the invention for those of ordinary skill in the art without creative efforts, can be with Apply the present invention to other similar scene according to these attached drawings；

As shown in the specification and claims, unless context clearly prompt exceptional situation " one ", "one", The words such as "an" and/or "the" not refer in particular to odd number, also may include plural number.In general, term " includes " or "comprising" Only prompt included the steps that clearly identified and element, and these steps and element do not constitute one it is exclusive enumerate, method Or equipment may also include other step or element.Term "based" is " being based at least partially on ".A term " implementation Example " expression " at least one embodiment "；Term " another embodiment " expression " at least one other embodiment ".

As shown in Figure 1, being a kind of overall appearance structural representation of electrostatic dust-removing heat exchanger provided by the present invention Figure；

The electrostatic dust-removing heat exchanger includes a shell, and the shell defines to form an electrostatic precipitation air duct An and ventilation air duct；

The specially described shell includes 200, second ports 300 of a first port and a connection first end The dust-collecting and heat exchanging component 100 of mouth 200 and the second port 300；

The dust-collecting and heat exchanging component 100 includes 11, second partitions 12 of a first partition, several cathode dust return air Pipe 13 and several positive dust pieces 14；

The first partition 11 and the second partition 12 are rectangular plate-like structure, the first partition 11 and described Two partitions 12, which are parallel to each other to oppose, to be arranged；

The first partition 11 can cooperate the first port 200 to connect in contrast to the one side in 12 direction of second partition It connects, the second partition 12 can cooperate the second port 300 to connect in contrast to the one side in 11 direction of first partition；

Several strips are offered on first, second partition (11,12) through through-hole (110,120), and described the Strip of the strip on through-hole 110 and the second partition 12 on one partition 11 runs through 120 quantity of through-hole, shape and position Reciprocal correspondence opens up；

The both ends of the cathode dust backwind tube 13 are respectively engaged with first, second partition (11,12) reciprocal correspondence Strip on through-hole (110,120)；The wind direction perforation direction of the cathode dust backwind tube 13 and the first port 200 Consistent to the direction that leaks out of second port 300, the specially described indoor wind is entered by first port 200 or second port 300, And after the cathode dust backwind tube 13, then via second port 300 or the discharge of first port 200；

And the positive dust piece 14, the cathode are set between any two neighboring cathode dust backwind tube 13 Dust backwind tube 13 and the positive dust piece 14 are arranged in parallel；

The generally approximate plate structure of the cathode dust backwind tube 13, the plate of the cathode dust backwind tube 13 The section of structure is that a strip runs through structure 130；

Gap between the cathode dust backwind tube 13 and the positive dust piece 14 forms the electrostatic precipitation air duct, The electrostatic precipitation air duct is passed through for outdoor fresh air, and realizing after through the electrostatic precipitation air duct will be described outdoor new Wind is purified, and purified fresh air is formed；

The cathode dust backwind tube 13 realizes that first port 200 and the second port 300, which are formed the ventilation, leads to Road, the first port 200 and the second port 300 are for penetrating through the indoor return air, in the cathode dust backwind tube Realize that the indoor return air and the outdoor fresh air carry out heat exchange in 13, the indoor return air after recuperation of heat passes through the first end Mouth 200 or the second port 300 are discharged；

The dust-collecting and heat exchanging component 100 both ends parallel with the positive dust piece 14 of the cathode dust backwind tube 13 or described It is respectively arranged with the first side plate 15 and the second side plate 16, the both ends of first side plate 15 and second side plate 16 and described the The both ends of one partition 11 and the second partition 12 are connected with each other；

The dust-collecting and heat exchanging component 100 top vertical with the positive dust piece 14 of the cathode dust backwind tube 13 or described Setting ionization Turbogrid plates 17；

It is respectively arranged with accordingly in first, second partition (11,12) towards one end of the ionization Turbogrid plates 17 First ionizing wire crossbeam 18 and the second ionizing wire crossbeam 19, and the both ends difference of the first, second ionizing wire crossbeam (18,19) It is fixed on first, second partition (11,12) by ionizing wire insulating ceramics, can also be interpreted as being fixed on described first At the position at 12 top of the corresponding first partition 11 of side plate 15 and the second side plate 16 and the second partition, described first, the The specific fixed position of two ionizing wire crossbeams (18,19) is not specifically limited, and be can be realized ionizing wire 20 and is fixed on specific bit It sets；

Several ionizing wires 20 are provided between the first ionizing wire crossbeam 18 and the second ionizing wire crossbeam 19；

There are electric fields to be associated with for the ionizing wire 20 and the positive dust piece 14 and the cathode dust backwind tube 13；

The side of the positive dust piece 14 is provided with a positive plate insulating ceramics in first side plate 15 151；

Several cathode dust backwind tube fixation holes 131 and cathode dust are provided on the cathode dust backwind tube 13 Backwind tube through hole 132；

Several positive dust piece fixation holes 141 and positive dust piece through hole are provided on the positive dust piece 14 142；

The cathode dust backwind tube fixation hole 131 is corresponded to each other with the positive dust piece through hole 142；

The cathode dust backwind tube through hole 132 is corresponded to each other with the positive dust piece fixation hole 141；

And the dust-collecting and heat exchanging component 100 further includes positive dust piece connection component 21 and cathode dust backwind tube connection Logical component 22；The anode dust piece connection component 21 and the cathode dust backwind tube connection component 22 are aluminum pipe；

The anode dust piece connection component 21 successively penetrates through arbitrarily connected cathode dust backwind tube through hole 132 and just Pole dust piece fixation hole 141；And fastened at the position by the positive dust piece fixation hole 141 by aluminium ring interlayer, have Body is the aluminium ring interlayer ring set on the positive dust piece connection component 21, and with the positive dust piece fixation hole 141 It is fixed；

Pass through at the cathode dust backwind tube through hole 132 in the positive dust piece connection component 21, the cathode 132 size of dust backwind tube through hole is greater than the sectional dimension of the positive dust piece connection component 21, avoids being connected, and at this Place carries out corresponding encapsulation process；

The cathode dust backwind tube connection component 22 successively penetrates through the cathode dust backwind tube fixation hole 131 of arbitrary neighborhood And positive dust piece through hole 142；And pass through aluminium ring interlayer at the position by the cathode dust backwind tube fixation hole 131 Fastening, the specially described aluminium ring interlayer ring set in 13 communication means of cathode dust backwind tube, and with the cathode dust Backwind tube fixation hole 131 is fixed；

At 13 communication means of cathode dust backwind tube are by the positive dust piece through hole 142, the anode 142 size of dust piece through hole is greater than the sectional dimension of the cathode dust backwind tube connection component 22, avoids being connected, and at this Place carries out corresponding encapsulation process；

The both ends of the anode dust piece connection component 21 pass through the positive plate insulating ceramics 151 fixed described the respectively On side plate 15 and second side plate 16；

The both ends of the cathode dust backwind tube connection component 22 pass through respectively described in 152 fixation of negative insulation ceramics On first side plate 15 and second side plate 16.

Claims (8)

1. a kind of electrostatic dust-removing heat exchanger, which is characterized in that the electrostatic precipitation heat exchanger includes a shell；

The shell includes a first port, a second port and a connection first port and the second port Dust-collecting and heat exchanging component；

The dust-collecting and heat exchanging component includes at least one the laterally vent passages of conducting indoor return air and at least one longitudinally conducting The electrostatic precipitation air duct of outdoor fresh air, the ventilation air duct intersect with the mutual lamination in electrostatic precipitation air duct, and described indoor time Wind transfers heat to the outdoor fresh air by electrostatic precipitation air duct by lamination intersection construction.

2. a kind of electrostatic dust-removing heat exchanger according to claim 1, which is characterized in that the dust-collecting and heat exchanging component Including at least one cathode dust backwind tube and at least one positive dust piece；

The cathode dust backwind tube is parallel to each other and is spaced apart from each other arranged in a crossed manner with the positive dust piece；

The both ends of the cathode dust backwind tube are connected to the first port and the second port；

The cathode dust backwind tube internal run-through simultaneously defines the vent passages；

It defines to form electrostatic precipitation air duct described in longitudinal ventilation between the cathode dust backwind tube and the positive dust piece.

3. a kind of electrostatic dust-removing heat exchanger according to claim 2, which is characterized in that returned with the cathode dust The cathode dust backwind tube and the positive dust piece are provided on air hose and the parallel direction side of the positive dust piece Several parallel ionizing wires；

In the ionizing wire, in contrast to the cathode, just the very side of backwind tube and the positive dust piece is provided with an ionization Turbogrid plates.

4. a kind of electrostatic dust-removing heat exchanger according to claim 3, which is characterized in that the dust-collecting and heat exchanging component Including a first partition and a second partition；

The first partition and the second partition are parallel to each other and are correspondingly arranged, in the first partition and the second partition It offers mutual corresponding and runs through through-hole with the consistent strip of the cathode dust backwind tube quantity, the cathode dust returns The both ends of air hose are plugged on the strip on first partition and the second partition through through-hole respectively；

The first partition is connect in contrast to the side of cathode dust backwind tube with the first port, and the second partition is opposite It is connect in the side of cathode dust backwind tube with the second port.

5. a kind of electrostatic dust-removing heat exchanger according to claim 3, which is characterized in that the dust-collecting and heat exchanging component It further include positive dust piece connection component and the cathode dust backwind tube connection component；

It is provided with several cathode dust backwind tube fixation holes on the cathode dust backwind tube and cathode dust backwind tube passes through Through-hole；

The positive dust on piece is provided with several positive dust piece fixation holes and positive dust piece through hole；

The cathode dust backwind tube fixation hole is corresponded to each other with the positive dust piece through hole；

The cathode dust backwind tube through hole is corresponded to each other with the positive dust piece fixation hole；

The anode dust piece connection component successively penetrates through arbitrarily connected cathode dust return air through hole and positive dust piece is solid Determine hole；

The cathode dust backwind tube connection component successively penetrates through the cathode dust backwind tube fixation hole and anode collection of arbitrary neighborhood Dirt piece through hole.

6. a kind of electrostatic dust-removing heat exchanger according to claim 5, which is characterized in that the cathode dust return air Pipe connection component and the positive dust piece connection component are aluminum pipe；

It is fastened at the position that the positive dust piece connection component passes through the positive dust piece fixation hole by aluminium ring interlayer, The cathode dust backwind tube through hole pore size is greater than the sectional dimension of the positive dust piece connection component, and it is described just Pole dust piece connection component is sealed at the position by the cathode dust backwind tube through hole；

It is pressed from both sides at the position that the cathode dust backwind tube communication means pass through the cathode dust backwind tube fixation hole by aluminium ring Layer fastening, the anode dust piece perforation pore size are greater than the sectional dimension of the cathode dust backwind tube communication means, and institute It states and is sealed at position of the cathode dust backwind tube communication means by the positive dust piece through hole.

7. a kind of electrostatic dust-removing heat exchanger according to claim 6, which is characterized in that the dust-collecting and heat exchanging component It further include a side plate and second side plate；

First side plate and second side plate are parallel with the cathode dust backwind tube and the positive dust piece；

A wherein opposite end for first side plate and second side plate respectively with the first partition or described second every The both ends of plate connect；

The both ends of the cathode dust backwind tube communication means and the positive dust piece communication means pass through insulating ceramics respectively It is fixed on first side plate and second side plate.

8. a kind of electrostatic dust-removing heat exchanger according to claim 4, which is characterized in that described first, second every Plate face is respectively arranged with corresponding first ionizing wire crossbeam and the second ionizing wire crossbeam to one end of the ionization grid, and described The both ends of first, second ionizing wire crossbeam pass through insulating ceramics respectively and are fixed on the first, second partition；

The ionizing wire is provided between the first ionizing wire crossbeam and the second ionizing wire crossbeam.