CN113357733A

CN113357733A - Haze all-in-one is removed in tow general full heat exchange of design

Info

Publication number: CN113357733A
Application number: CN202110782955.7A
Authority: CN
Inventors: 谢若兰
Original assignee: Zhejiang Aimate Environmental Equipment Technology Co ltd
Current assignee: Zhejiang Aimate Environmental Equipment Technology Co ltd
Priority date: 2021-07-12
Filing date: 2021-07-12
Publication date: 2021-09-07
Anticipated expiration: 2041-07-12
Also published as: CN113357733B

Abstract

The invention discloses a front-back universal full heat exchange haze removal all-in-one machine with a slim design, which comprises a closed machine body, wherein a first partition plate, a second partition plate and a heat exchange core are arranged in the machine body, the machine body is divided into an upper front air outlet cavity and a lower front air outlet cavity by the first partition plate, the machine body is divided into an upper rear air outlet cavity and a lower rear air inlet cavity by the second partition plate, the upper front air outlet cavity, an air inlet channel of the heat exchange core and the lower rear air outlet cavity form an air inlet channel, the lower front air outlet cavity, an air outlet channel of the heat exchange core and the upper rear air outlet cavity form an air outlet channel, an air exhaust fan is arranged in the lower front air outlet cavity, and an air inlet fan is arranged in the lower rear air outlet cavity. The invention has simple structure and strong practicability.

Description

Haze all-in-one is removed in tow general full heat exchange of design

Technical Field

The invention relates to the field of total heat exchange haze removal all-in-one machines, in particular to a total heat exchange haze removal all-in-one machine with a front and back universal slim design.

Background

The fresh air ventilation device in the existing market is provided with an independent air exhaust and supply system, polluted air is exhausted to the outside through an air exhaust port, an air exhaust pipeline and an exhaust fan, and outdoor fresh air is sent to the inside of a room through a blower, an air supply pipeline and an air supply port; exhaust fan and forced draught blower are arranged in a box together, and the fan during operation, the new trend of sending into and exhaust air can be simultaneously through the heat exchange core in the fan box, with the help of the heat exchange core, the heat exchange can be carried out with the new trend of sending into to exhaust air, the recovered energy.

However, as the chinese invention patent No. 201710466124.2, the patent name is a full-heat haze-removing fresh air all-in-one machine, which has the following disadvantages: 1: the structural design is thick and heavy; 2: the front and the back can not be installed randomly; 3: the design of the air supply channel and the air exhaust channel is complex and circuitous. 4: the heat exchange is completely carried out by the aid of the heat exchange core, and the energy consumption is high.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, at least solves the technical problems in the related technology to a certain extent, and provides a thin-design front-back universal total heat exchange haze removal all-in-one machine so as to achieve the purposes of light weight, thinness, front-back universality and total heat exchange of an upper flow passage and a lower flow passage.

In order to solve the technical problems, the technical scheme of the invention is as follows: the haze all-in-one is removed in tow general total heat exchange of fine design, including confined organism, be equipped with first baffle, second baffle and heat exchange core in the organism, first baffle is cut apart into the organism and is gone forward the wind chamber and go out the wind chamber before down for mutual heat transfer, the second baffle is cut apart into the organism and is gone up back air-out chamber and back air-in chamber down for mutual heat transfer, last preceding wind chamber, the intake duct of heat exchange core and back air-out chamber down constitute the inlet duct, lower preceding wind chamber, the outlet duct of heat exchange core and last back air-out chamber constitute the outlet duct, be equipped with air exhaust fan in the preceding air-out chamber down, be equipped with air intake fan in the back air-out chamber down.

Further, the first separator and the second separator have a thickness of 0.5mm to 2mm and are made of metal.

Further, both sides of heat exchange core are equipped with preceding separation frame and back separation frame, and preceding separation frame is equipped with preceding closing plate, and preceding closing plate is located the center below of preceding separation frame, and preceding closing plate is divided into preceding upper shed and preceding lower shed with preceding separation frame, and back separation frame is equipped with the back closing plate, and the back closing plate is located the center top of back separation frame, and the back closing plate is divided into back upper shed and back lower shed with the back separation frame.

Further, the preceding closing plate on be equipped with the bearing strip, the back closing plate on be equipped with the bearing strip, the heat exchange core left and right sides is equipped with the bearing cover that is "C" shape, the bearing cover joint is on the bearing strip, is equipped with the adhesive tape in the bearing cover, both sides are equipped with the location strip about the heat exchange core, and the joint has the adhesive tape on the location strip, the upper and lower inside of organism is fixed the laminating respectively has upper plate and roof down, upper plate and roof down contradict with the adhesive tape that is located the upper and lower both sides of heat exchange core respectively, heat exchange core both ends and organism inner wall sealing connection.

Furthermore, the first baffle plate comprises a first front plate, a second front plate and a third front plate, the horizontal height of the third front plate is higher than that of the first front plate, two ends of the second front plate are respectively connected with the first front plate and the third front plate, and the first front plate is connected with the front sealing plate in a sealing mode.

Further, the second baffle comprises a first rear plate, a second rear plate and a third rear plate, the horizontal height of the third rear plate is higher than that of the first rear plate, two ends of the second rear plate are respectively connected with the first rear plate and the third rear plate, and the first rear plate is connected with the rear sealing plate in a sealing mode.

Further, the third front bezel be equipped with first breach, swash plate before baffle and second before being equipped with in the organism before first, the first front bezel links to each other with the swash plate before the second, and the first breach department of sealing connection respectively, the swash plate inclines and with organism inner wall sealing connection along one side of air exhaust fan before the second.

Further, the third back plate be equipped with the second breach, be equipped with first backplate and second back swash plate in the organism, first backplate and second back swash plate link to each other, and sealing connection second breach department respectively, the second back swash plate along air intake fan's a lateral tilt and with organism inner wall sealing connection.

Further, the organism on be equipped with the upper plate, the fixed laminating organism upper wall of upper plate is equipped with coarse filter and static high-voltage package between upper plate and the first front bezel in proper order, coarse filter and static high-voltage package are spacing through the blend stop that a plurality of cross-section was "L" type respectively, be equipped with the hypoplastron on the organism, the fixed laminating organism lower wall of hypoplastron is equipped with fine filter between first back plate and the hypoplastron, fine filter is spacing through the blend stop that a plurality of cross-section was "L" type.

Furthermore, a front air inlet and a front air outlet are arranged on one side of the machine body, a rear air inlet and a rear air outlet are arranged on the other side of the machine body, the front air inlet, the front air outlet, the rear air inlet and the rear air outlet are located at the same horizontal height, and the caliber of the front air inlet, the caliber of the front air outlet, the caliber of the rear air inlet and the caliber of the rear air outlet are the same.

The technical effects of the invention are mainly reflected in the following aspects: 1: the air inlet channel and the air outlet channel of the invention are inverted X-shaped heat exchange channels, the design is more reasonable, and the air exhaust and air inlet are smoother.

2: indoor dirty air which does not enter the upper rear air outlet cavity of the heat exchange core and outdoor fresh air which enters the lower rear air inlet cavity of the heat exchange core are subjected to up-and-down heat exchange again; and the outdoor fresh air which does not enter the upper front air inlet cavity of the heat exchange core and the indoor dirty air which enters the lower front air outlet cavity of the heat exchange core are subjected to up-and-down heat exchange again, so that each part in the machine body performs heat exchange, the energy is saved, the consumption is reduced, the running temperature in the machine body is balanced, and the phenomenon that the local temperature of the machine body is too high is prevented.

3: the heat exchange core is supported by the bearing strip and the bearing sleeve as a center, the adhesive tapes on two sides respectively abut against the upper top plate and the lower top plate no matter the heat exchange core is installed on the front side or the back side, the adhesive tapes are in a squeezed state to play a role in sealing, and the coarse filter, the electrostatic high-voltage bag and the fine filter are limited and fixed in multiple directions, so that the heat exchange core can be installed on the front side or the back side, and therefore, the heat exchange core is more convenient to install in a limited position space.

4: the third back plate and the third front plate are designed to float upwards, the first back plate and the first front plate are designed to sink, the installation of other accessories is more compact, the sum of the volume of the upper front air inlet cavity and the volume of the lower rear air inlet cavity is not greatly different from the sum of the volume of the upper rear air outlet cavity and the volume of the lower front air outlet cavity, the aperture of the front air inlet is matched, the aperture of the front air outlet is matched, the aperture of the rear air inlet is matched with the aperture of the rear air outlet, the air inlet volume is close to the air outlet volume, the equipment operation is more reasonable, the difference between the hot air volume and the cold air volume is small, the heat exchange effect is better, and the heat exchange is more uniform.

5: the machine body can be designed to be thinner and lighter, the thickness of the machine body is only the thickness of the heat exchange core plus the thickness of the top plate, the lower top plate and the two side walls of the machine body, and no other redundant wasted space and wasted structure exists.

Drawings

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

FIG. 2 is a schematic view of a protruded suction fan according to the present invention;

FIG. 3 is a schematic view showing the structure of a protruded first separator according to the present invention;

FIG. 4 is a schematic view of the internal structure of the present invention;

FIG. 5 is a schematic view of the present invention with the body open and protruding from the suction fan;

FIG. 6 is a schematic structural view of the present invention with the body open and the second rear sloping plate protruding;

FIG. 7 is a schematic view of a heat exchange core load bearing structure;

FIG. 8 is a schematic front view of the interior of the present invention;

fig. 9 is a schematic diagram of the present invention.

Detailed Description

The embodiments of the present invention will be described in detail below, examples of which are illustrated in the accompanying drawings, and the embodiments described below by referring to the drawings are exemplary and intended to explain the present invention so that the technical aspects of the present invention can be more easily understood and appreciated, and are not to be construed as limiting the present invention.

The front and back general full heat exchange haze removal all-in-one machine with the slim design as shown in fig. 2, 3, 4, 5, 6 and 8 comprises a closed machine body 1, wherein a first partition plate 2, a second partition plate 3 and a heat exchange core 4 are arranged in the machine body 1, the first partition plate 2 divides the front half part of the machine body 1 into an upper front air outlet cavity 201 and a lower front air outlet cavity 202, the second partition plate 3 divides the rear half part of the machine body 1 into an upper rear air outlet cavity 301 and a lower rear air inlet cavity 302, the upper front air inlet cavity 201, an air inlet channel of the heat exchange core 4 and the lower rear air inlet cavity 302 form an air inlet channel, the lower front air outlet cavity 202, an air outlet channel of the heat exchange core 4 and the upper rear air outlet cavity 301 form an air outlet channel, an air exhaust fan 01 is arranged in the lower front air outlet cavity 202, and an air inlet fan 02 is arranged in the lower rear air inlet cavity 302.

The heat exchange core is provided with an air inlet channel and an air outlet channel.

As shown in fig. 1: one side of organism 1 is equipped with preceding wind gap 11 and preceding air outlet 12, and the opposite side is equipped with back wind gap 13 and back air outlet 14, and through the design of first baffle 2 and second baffle 3, first baffle 2 is cut apart into two upper and lower wind chambers with organism 1, is upper and lower preceding wind chamber 201 and lower preceding air outlet chamber 202 respectively, and second baffle 3 is cut apart into two upper and lower wind chambers with organism 1, is upper and lower back air outlet chamber 301 and lower back air inlet chamber 302 respectively. As shown by the dashed line G in fig. 9: the air draft principle is as follows: the air passes through the rear air outlet 14, the upper rear air outlet cavity 301, the front lower hole 413, the air outlet channel of the heat exchange core 4, the rear upper hole 422, the lower front air outlet cavity 202, the air exhaust fan 01 and the front air outlet 12 in sequence. As indicated by the dashed line F in fig. 9: the air inlet principle is as follows: the air passes through the front air inlet 11, the upper front air inlet cavity 201, the front upper hole 412, the air inlet channel of the heat exchange core 4, the rear lower hole 423, the lower rear air inlet cavity 302, the air inlet fan 02 and the rear air inlet 13 in sequence. Compared with the traditional circuitous flow passage design, the air inlet flow passage and the air outlet flow passage are inverted X-shaped heat exchange flow passages, the design is more reasonable, and the air exhaust and air inlet are smoother.

The thicknesses of the first partition plate 2 and the second partition plate 3 are 0.5mm-2mm, the first partition plate and the second partition plate are made of metal aluminum and galvanized metal plates, the heat conduction effect of the thin aluminum plates is better, and by combining the design that the air inlet flow channel and the air outlet flow channel are in an inverted X shape, particularly in winter and summer, the temperature difference between the indoor and the outdoor is particularly large, and indoor dirty air which does not enter the upper rear air outlet cavity 301 of the heat exchange core 4 and outdoor fresh air which already enters the lower rear air outlet cavity 302 of the heat exchange core 4 exchange heat again; and the outdoor fresh air which does not enter the upper front air inlet cavity 201 of the heat exchange core 4 and the indoor dirty air which has entered the lower front air outlet cavity 202 of the heat exchange core 4 perform heat exchange again, so that each part in the machine body 1 performs heat exchange, energy is saved, consumption is reduced, the operating temperature in the machine body 1 is balanced, and the phenomenon that the local temperature of the machine body 1 is overhigh is prevented.

As shown in fig. 4 and 7: preceding closing plate 411 on be equipped with bearing strip 4111, back closing plate 421 on be equipped with bearing strip 4111, the heat exchange core 4 left and right sides is equipped with the bearing cover 4112 that is "C" shape, bearing cover 4112 joint is on bearing strip 4111, is equipped with adhesive tape 4113 in the bearing cover 4112, and both sides are equipped with location strip 4114 about the heat exchange core 4, and the joint has the adhesive tape (not seen in the picture) on the location strip 4114, top plate 101 and lower roof 102 are fixed the laminating respectively to the upper and lower inner wall of organism 1, go up roof 101 and lower roof 102 and contradict with the adhesive tape 4113 that is located both sides about the heat exchange core 4 respectively, heat exchange core 4 both ends and 1 inner wall sealing connection of organism, this sealing connection is contradicted and is beaten glass glue for heat exchange core 4 both ends and two inner walls of organism 1. Through the design, the bearing of heat exchange core 4 lies in on bearing strip 4111 and bearing sleeve 4112, for central bearing, no matter openly install or reverse side installation, the adhesive tape 4113 of both sides is equallyd divide do not contradict with last roof 101 and roof 102 down, and adhesive tape 4113 is in and is received the extrusion state, it is like this, just so, prevent that current heat exchange core 4 from because of gravity both sides bearing, will be under the influence of heat exchange core 4 gravity behind the openly installation or the reverse side installation, the phenomenon of deformation appears easily in the adhesive tape 4113 of both sides takes place, the sealing effect is poor, inlet channel carries out the mixed flow with the air of outlet channel (inlet channel has already been communicate with outlet channel promptly), influence equipment normal operating.

As shown in fig. 2, 4 and 7, a front separation frame 41 and a rear separation frame 42 are disposed on both sides of the heat exchange core 4, the front separation frame 41 and the rear separation frame 42 are fixed to the machine body 1, the front separation frame 41 is provided with a front sealing plate 411, the front sealing plate 411 is located below the center of the front separation frame 41, the front sealing plate 411 divides the front separation frame 41 into a front upper hole 412 and a front lower hole 413, the rear separation frame 42 is provided with a rear sealing plate 421, the rear sealing plate 421 is located above the center of the rear separation frame 42, and the rear sealing plate 421 divides the rear separation frame 42 into a rear upper hole 422 and a rear lower hole 423.

As shown in fig. 4: the first partition board 2 comprises a first front board 21, a second front board 22 and a third front board 23, the level of the third front board 23 is higher than that of the first front board 21, because the air extractor 01 needs to be installed below the third front board 23, in order to allow the air extractor 01 to have a sufficient position to be installed, the first front board 21 is used for positioning the coarse filter and the electrostatic high-voltage package 9, the coarse filter and the electrostatic high-voltage package 9 are installed in sufficient positions, the second front board 22 is used for sealing, two ends of the second front board 22 are respectively connected with the first front board 21 and the third front board 23, the first front board 21 is connected with a front sealing board 411 in a sealing manner, the sealing connection can be welding or can be fixed through screws, glass glue is applied, and the front sealing board 411 is used for isolating the upper front air inlet cavity 201 and the lower front air outlet cavity 202.

As shown in fig. 4: the second partition board 3 includes a first back board 31, a second back board 32 and a third back board 33, the level of the third back board 33 is higher than the level of the first back board 31, because the air intake fan 02 needs to be installed below the third back board 33, in order to allow the air intake fan 02 to have enough position for installation, the first back board 31 allows the fine filter to have enough position for positioning the fine filter, the second back board 32 is for sealing, two ends of the second back board 32 are respectively connected with the first back board 31 and the third back board 33, the first back board 31 is connected with a back sealing board 421 in a sealing manner, the sealing connection can be welding, or can be fixed by screws, glass glue is applied on the back sealing board 421, and the back sealing board 421 is used for isolating the upper back air outlet cavity 301 and the lower back air inlet cavity 302.

Through the design, the machine body 1 of the invention can be designed to be thinner and lighter, the thickness of the machine body is only the thickness of the heat exchange core 4 plus the thickness of the top plate 101, the lower top plate 102 and the two side walls of the machine body 1, and no other redundant wasted space and wasted structure exists.

Meanwhile, through the design, the third back plate 33 and the third front plate 23 are designed to float upwards, the first back plate 31 and the first front plate 21 are designed to sink downwards, the difference between the sum of the volume of the upper front air inlet cavity 201 and the volume of the lower rear air inlet cavity 302 and the sum of the volume of the upper rear air outlet cavity 301 and the volume of the lower front air outlet cavity 202 is not large, the matching of the caliber of the front air inlet 11, the caliber of the front air outlet 12, the caliber of the rear air inlet 13 and the caliber of the rear air outlet 14 is the same, the air inlet amount and the air outlet amount are close, and the equipment operation is more reasonable.

As shown in fig. 4: third front bezel 23 be equipped with first breach, third front bezel 23 is "L" shape, be equipped with baffle 103 and second before the first in organism 1 and swash plate 104 before the second, baffle 103 and second before the first link to each other, and respectively the first breach department of sealing connection, this sealing connection is the welding, baffle 103 is for sealed third front bezel 23 and second before swash plate 104 before the first, swash plate 104 before the second along one side slope of air exhaust fan 01 and with organism 1 inner wall sealing connection, this sealing connection is the welding.

As shown in fig. 4: third backplate 33 be equipped with the second breach, be equipped with first backplate 105 and second back swash plate 106 in the organism 1, first backplate 105 and second back swash plate 106 link to each other, and sealing connection second breach department respectively, this sealing connection is the welding, first backplate 105 is for sealed third backplate 33 and second back swash plate 106, second back swash plate 106 along the one side slope of air intake fan 02 and with organism 1 inner wall sealing connection, this sealing connection is the welding.

In the above design, on one hand, in order to make the front air inlet 11, the front air outlet 12, the rear air inlet 13 and the rear air outlet 14 located at the same horizontal height and make the aperture of the front air inlet 11, the aperture of the front air outlet 12, the aperture of the rear air inlet 13 and the aperture of the rear air outlet 14 the same, the machine body 1 can be designed to be thinner and lighter, and the thickness of the machine body 1 is only the thickness of the heat exchange core 4 plus the thickness of the top plate 101, the lower top plate 102 and the two side walls of the machine body 1; on the other hand, the air inlet and the air outlet are more smooth and the resistance is smaller for guiding the air inlet and the air outlet.

As shown in fig. 7: organism 1 on be equipped with upper plate 107, the fixed laminating organism 1 upper wall of upper plate 107, be equipped with coarse filter (not seen in the figure) and static high-voltage package 9 between upper plate 107 and the first front bezel 21 in proper order, coarse filter and static high-voltage package 9 are respectively through the spacing 109 of blend stop that a plurality of cross-section is "L" type, be equipped with hypoplastron 108 on the organism 1, the fixed laminating organism 1 lower wall of hypoplastron 108 is equipped with fine filter (not seen in the figure) between first back plate 31 and the hypoplastron 108, fine filter is the spacing 109 of blend stop of "L" type through a plurality of cross-section.

Through the design, the coarse filter, the electrostatic high-voltage bag 9 and the fine filter are limited and fixed in multiple directions, the machine body 1 is arranged on the front side or the back side, and the coarse filter, the electrostatic high-voltage bag 9 and the fine filter can normally run.

The above are only typical examples of the present invention, and besides, the present invention may have other embodiments, and all the technical solutions formed by equivalent substitutions or equivalent changes are within the scope of the present invention as claimed.

Claims

1. Haze all-in-one is removed in tow general full heat exchange of fine design, its characterized in that: the air inlet channel and the air outlet channel of the lower front air outlet cavity, the air outlet channel of the heat exchange core and the upper rear air outlet cavity form an air outlet channel, the air inlet channel and the air outlet channel are inverted X-shaped heat exchange channels, an air exhaust fan is arranged in the lower front air outlet cavity, and an air inlet fan is arranged in the lower rear air outlet cavity.

2. The integrated machine for removing haze in all heat exchange with forward and reverse directions of slim design as claimed in claim 1, wherein: the first separator and the second separator have a thickness of 0.5mm to 2mm and are made of metal.

3. The integrated machine for removing haze in all heat exchange with forward and reverse directions of slim design as claimed in claim 1, wherein: the heat exchange core is characterized in that a front separation frame and a rear separation frame are arranged on two sides of the heat exchange core, a front sealing plate is arranged on the front separation frame and located below the center of the front separation frame, the front sealing plate divides the front separation frame into a front upper hole and a front lower hole, a rear separation frame is provided with a rear sealing plate and located above the center of the rear separation frame, and the rear sealing plate divides the rear separation frame into a rear upper hole and a rear lower hole.

4. The integrated machine of claim 3, wherein the integrated machine is a thin all-heat-exchange haze-removing machine with both forward and reverse sides, and comprises: the heat exchange core comprises a front sealing plate, a rear sealing plate and a heat exchange core, wherein a bearing strip is arranged on the front sealing plate, a bearing sleeve in a C shape is arranged on the left side and the right side of the heat exchange core, the bearing sleeve is connected to the bearing strip in a clamping mode, an adhesive tape is arranged in the bearing sleeve, positioning strips are arranged on the upper side and the lower side of the heat exchange core, the adhesive tape is connected to the positioning strips in a clamping mode, an upper top plate and a lower top plate are fixedly attached to the upper portion and the lower portion of the machine body respectively, the upper top plate and the lower top plate are abutted to the adhesive tapes on the upper side and the lower side of the heat exchange core respectively, and two ends of the heat exchange core are connected with the inner wall of the machine body in a sealing mode.

5. The integrated machine for removing haze in all heat exchange with forward and reverse directions of slim design as claimed in claim 1, wherein: the first baffle comprises a first front plate, a second front plate and a third front plate, the horizontal height of the third front plate is higher than that of the first front plate, two ends of the second front plate are respectively connected with the first front plate and the third front plate, and the first front plate is connected with the front sealing plate in a sealing mode.

6. The integrated machine for removing haze in all heat exchange with forward and reverse directions of slim design as claimed in claim 1, wherein: the second baffle comprises a first rear plate, a second rear plate and a third rear plate, the horizontal height of the third rear plate is higher than that of the first rear plate, two ends of the second rear plate are respectively connected with the first rear plate and the third rear plate, and the first rear plate is connected with the rear sealing plate in a sealing mode.

7. The integrated machine of claim 5, wherein the integrated machine is a thin all-heat-exchange haze-removing machine with both forward and reverse sides, and comprises: the third front plate is provided with a first notch, a first front baffle and a second front inclined plate are arranged in the machine body, the first front baffle and the second front inclined plate are connected and respectively connected with the first notch, and the second front inclined plate is inclined along one side of the air exhaust fan and is connected with the inner wall of the machine body in a sealing mode.

8. The integrated machine of claim 6, wherein the integrated machine is a thin all-heat-exchange haze-removing machine with both forward and reverse sides, and comprises: the third back plate be equipped with the second breach, be equipped with first backplate and second back swash plate in the organism, first backplate and second back swash plate link to each other, and sealing connection second breach department respectively, the second back swash plate along the one side slope of air intake fan and with organism inner wall sealing connection.

9. The integrated machine of claim 5, wherein the integrated machine is a thin all-heat-exchange haze-removing machine with both forward and reverse sides, and comprises: the organism on be equipped with the upper plate, the fixed laminating organism upper wall of upper plate is equipped with coarse filter and static high-voltage package between upper plate and the first front bezel in proper order, coarse filter and static high-voltage package are spacing through the blend stop that a plurality of cross-section is "L" type respectively, be equipped with the hypoplastron on the organism, the fixed laminating organism lower wall of hypoplastron is equipped with smart filter between first back plate and the hypoplastron, smart filter is spacing through the blend stop that a plurality of cross-section is "L" type.

10. The integrated machine for removing haze in all heat exchange with thin design in both front and back directions as claimed in claim 7 or 8, wherein: a front air inlet and a front air outlet are arranged on one side of the machine body, a rear air inlet and a rear air outlet are arranged on the other side of the machine body, the front air inlet, the front air outlet, the rear air inlet and the rear air outlet are located at the same horizontal height, and the caliber of the front air inlet, the caliber of the front air outlet, the caliber of the rear air inlet and the caliber of the rear air outlet are the same.