FI20217141A1 - Air purifier - Google Patents

Abstract

The invention relates to air cleaners and in particular to portable fans. An air cleaner (100) comprises an enclosure (101) with a deaeration side (102) and on the opposite side of the deaeration side an air intake side (103) and a partition wall (104) to separate the inner part of the enclosure into a filter section (105) and a machine section (106) . The filter section opens to a space that encloses the air cleaner on the air intake side of the enclosure and is intended for at least one air filter (107) to clean the air. The air cleaner (100) includes a fan (108) and a second fan (109) in the machine section to suck up air through the filter section, and also a common outlet opening (110) on the vent side (102) of the enclosure. The fan and the second fan are arranged to remove air through the common outlet opening (110).

Description

Air purifier

Field of technology: the invention relates to air purifiers and especially portable air fans.

Technology background

Air cleaners are used, for example, at construction sites, where their task is to remove concrete dust, asbestos or other harmful substances from the air. When the HEPA (High Efficiency Particulate Air) filter is used in the air purifier, it is possible to remove even viruses from the air.

The air cleaner may contain a measuring unit that notifies, for example, — with an indicator light that the air filter needs to be replaced. Air filters are manufactured as multipurpose modules, where the air filter contains a 610 x 610 mm intake opening into the space surrounding the air filter. The size of the corresponding suction opening in the half module is 610 x 305 mm.

Especially in portable air purifiers, the goal is a large air cleaning — capacity in relation to the size and weight of the device, where the air cleaning capacity is measured in cubes per time unit, for example 1500 m? per hour.

Most known air cleaners use a single fan. The more air cleaning capacity is needed, the more powerful and larger the fan is usually installed in the air cleaner. A large fan requires a larger enclosure around it, and a large enclosure requires more space and generally weighs more than a smaller enclosure. : Publication KR102182242 presents a solution to improve indoor air quality

O by using zeodite to remove carbon dioxide from room air. The upper surface of the air cleaner 2 has an inlet for room air. The solution uses two fans, of which

O 25 — one moves purified air from the air purifier back into the room, and the other fan z moves carbon dioxide-rich air to the outside air. a = JPHO1165874 shows a trailer-like device for removing asbestos from the air.

Q. . .. . .

N KR20190000455 shows a wheeled dust collector. JP2016087510 presents

N air cleaner with a carrying handle, which uses a replaceable air filter — and which connects to notify wirelessly when the air filter needs to be changed.

Brief description of the invention

One aspect of the invention is the structure of the air cleaner, which enables a large air cleaning capacity in relation to the size and weight of the device.

Another aspect of the invention is ergonomics, so that the outer dimensions of the air purifier and the placement of the carrying handle in the housing of the device are as good as possible in terms of carrying.

The third aspect of the invention is the structure of the air cleaner that improves the aerodynamics inside the air cleaner. The improvement in aerodynamics increases the air cleaning capacity.

The invention relates to an air cleaner including a housing with an air exhaust side and an air intake side on the opposite side of the air exhaust side, a bulkhead to divide the interior space of the housing into a filter compartment and a machine compartment in such a way that the filter compartment opens on the air intake side of the housing into the space surrounding the air cleaner, — the filter compartment being intended for at least one air filter to clean the air, a fan and a second fan in the machine compartment to suck in air through the filter compartment.

The air cleaner described above also includes a common outlet — on the air outlet side and a fan and another fan is adapted to remove air from the common . through the outlet.

OF

O

OF

3 i Pattern list

O

OF

I The invention is described in more detail below with reference to the attached figures. a = 25 FIGURE 1 shows a 3D image of the air cleaner.

OF

O FIGURE 2A shows an example of an air cleaner viewed from the air exhaust side.

FIGURE 2B shows an example of an air cleaner viewed from the air intake side.

FIGURE 3 shows the bulkhead inside the housing viewed from the air outlet side.

FIGURE 4A shows the walls surrounding the fans of the deaerator.

FIGURE 4B shows the operating principle of the air controller.

FIG. 5 shows a cross-sectional view from the direction of the side of the air cleaner.

FIGURE 6 shows two examples of air filters with recesses.

FIGURE 7 shows the positioning of the fan intakes in the bulkhead.

Detailed description of the invention

It is noted that the embodiments presented in the explanatory part are exemplary and — although the text describing one embodiment may contain a reference to another embodiment, the reference is usually only one possible alternative.

FIGURE 1 shows a 3D image of the air purifier 100 according to the invention.

In known technology, the air cleaner 100 is also called a vacuum cleaner.

The air cleaner 100 contains an outer shell, i.e. a housing 101, with an air exhaust side 102 and — on the opposite side of the housing, an air intake side 103.

The bulkhead 104 included in the air cleaner 100 divides the interior of the housing 101 into two parts: the filter compartment 105 and the machine compartment 106. In order for the air cleaner 100 to work correctly, the bulkhead 104 must be airtight everywhere except at the intake openings of the fans.

The filter compartment 105 opens on the air intake side 103 of the housing 101 into the space surrounding the air cleaner _ 20 — 100. The filter compartment 105 is intended for at least one e air filter 107 (not shown) to clean the air of impurities. o ? The machine compartment 106 contains a fan 108 and a second fan 109 without air

O

In order to suck N through the filter compartment 105, in which case one or

I

E several filters remove impurities from the air sucked in. For air removal = 25 — the intended common outlet 110 is placed on the air removal side 102 of the fan 108 and

OF

N between the second fan 109. Fan 108 and another fan 109 are adapted to remove

O

N sucked in air through the same opening, i.e. the common exhaust opening 110.

In one embodiment, the fan 108 is located near the bottom 111 of the housing and the other fan 109 is located near the upper surface 112 of the housing.

The air purifier 100 shown in the figure is well suited for so-called for the use of a semi-module air filter. When the filter compartment 105 contains the aforementioned filter, the size of the filter suction opening is 610 x 305 mm. The narrower side of the suction opening, i.e. the side with a length of 305 mm, is placed against the bottom 111 of the housing in the filter compartment 105. The dimension of the air filter (half module) in the depth direction is typically 295 mm.

By making the housing 101 from aluminum, the housing becomes durable and the air cleaner 100 weighs less than 20 kg. When the values related to the electricity use of the air cleaner 100 are 230 — V, 50-60 Hz, 2.7 A and 340 W, the capacity of the air cleaner 100 is approx. 1500 m' of cleaned air per hour. Thus, the capacity of the air cleaner 100 is high relative to the size and weight of the air cleaner 100.

The part of the machine compartment 106 in the depth dimension D1 of the air cleaner 100, i.e. the horizontal length, is small, i.e. approx. 100 mm. This is possible because the air cleaner 10 uses two small-sized fans instead of one large-sized fan.

FIG. 2A shows an example of the air cleaner 100 viewed from the air exhaust side 102. The sides 201, 202 of the housing 101 are the vertical, mutually opposite surfaces of the housing 101. The perpendicular distance of the sides 201, 202 from each other is the same as — the width D2 of the air cleaner 100. The perpendicular distance of the sides 201, 202 from each other is less than the height of the sides 201, 202 from the ground. This is a good feature in terms of ergonomics, because a narrow object is easier to carry and place than a wide object. _ The air cleaner 100 contains a handle 203 attached to the upper surface 112 of the housing

O for carrying the air purifier 100 by one person. In one embodiment 3 25 — on the lower surface of the bottom 111 of the housing, friction-increasing rubber paws are attached, such as a rubber paw

S 204. In this case, the air cleaner 100 stays in place better.

E The height measurement D3 of the air cleaner 100 from the ground to the upper surface of the handle 203 is > suitable for carrying, i.e. approx. 700 mm. Also the other dimensions of the air cleaner 100 ie

N width dimension D2, approx. 330 mm, and depth dimension D1, approx. 450 mm, are ergonomically good.

OF

The air cleaner 100 shown in the figure has a projection 205 containing the power unit and the user interface (e.g. power button) and a collar 206 surrounding the common exhaust opening 110. A hose can be attached to the collar 206, along which the air cleaned by the air cleaner 100 is led out of the space to be cleaned. The space to be cleaned is usually 5 — separated from other spaces by plastic film or tarpaulin.

FIGURE 2B shows the air cleaner 100 shown in the previous figure viewed from the opposite direction, i.e. from the air intake side 103. The grate 211 and the pre-filter 212 cover at least one air filter 107 behind them. The pre-filter 212 is e.g. 10 mm thick and its task is to remove the largest particles from the air and thereby extend

HEPA filter lifetime.

FIG. 3 shows the bulkhead 104 inside the housing viewed from the vent side.

The bulkhead 104 includes an intake opening 301 intended for a fan in the vicinity of the corner 302 of the bulkhead 104 and a second intake opening 303 intended for another fan in the vicinity of the opposite corner 304 of the bulkhead (fans are omitted).

When the intake opening 301 and the other intake opening 303 are placed in the opposite corners of the bulkhead 104, the bulkhead 104 and at the same time the entire air cleaning device can be made quite low. Saving space is therefore one reason for positioning the intakes in the corners of the bulkhead.

In one embodiment, the bulkhead 104 includes a seal 305 and the seal 305 forms a loop on the surface of the bulkhead 104. Gasket 305 is needed for the fan's so-called to the parts included in the robe. The function of the hood is to direct the air set in motion by the fan in the desired direction. Another reason for positioning the intakes in the corners of the bulkhead is that this way there is enough space for the hood inside the case. _ FIG. AA shows the hood of the deaeration device, i.e. the fans, in a perspective view

O surrounding walls. Curved wall 401 surrounds the intake opening 301 and another curved wall 3 25 — wall 402 surrounds the second intake opening 303. Curved wall 401 and another curved

S wall 402 form a continuous wall on the surface of bulkhead 104. In the z embodiment shown in the figure, the curved wall 401 and the second curved wall 402 are attached = each edge to the seal 305. ~

N The air cleaner contains an air guide 403 attached to the bulkhead 104. Air guide

N 30 — 403 is located on the surface of the bulkhead 104 on the inside of the loop formed by the seal 305, whereby the air guide 403 is located between the fans.

Air controller 403 has two functions. First of all, it prevents the fans from undermining each other's capacity with their airflows. Second, the air guide 403 directs the air masses set in motion by the fans towards the common outlet.

In the embodiment shown in the figure, the edge of the air deflector 403 facing away from the bulkhead 104 is located on straight line 404, and straight line 404 is intentionally in a different direction than horizontal straight line 405. When the air deflector 403 is implemented in the above-mentioned manner, the aerodynamics inside the engine compartment are improved. Improving aerodynamics means that the direction and amount of air flows inside the engine compartment are affected in a way that increases the capacity of the air cleaner.

FIG. 4B shows the working principle of the air guide 403 in a cross-sectional view viewed from the direction of the side of the air cleaner.

The air guide 403 is attached by its edges 411, 412 to the bulkhead 104. The air guide 403 contains a part 413 curved away from the surface of the bulkhead 104 for the fan and a second part 414 curved away from the surface of the bulkhead 104 for the second fan so that the opposite edges of the edges — 411, 412 meet. Part 413 and second part 414 turn the opposite air currents produced by the fan and the second fan into parallel air currents 415.

Part 413 and the second part 414 can be made of sheet metal, for example.

FIG. 5 shows a cross-sectional view of the engine compartment 106 viewed from the direction of the side of the air cleaner 100. The collar 206 attached to the vent side 102 extends — up to and through the fan support wall 501. The fan 108 and the second fan 109 are attached (with bolts and nuts) to the fan support wall 501. The fan 108 contains a motor 502 to which an impeller 503 is attached on the shaft. The second fan 109 is ; similar. In one embodiment, the motor 502 of the blower 108 is completely or

N partially embedded in fan support wall 501.

OF

3 25 The power cable 504 connects to the projection containing the power unit and user interface

S 205, from which the electrical conductors 505 and 506 leave in the z space between the air outlet side and the support wall 501 to the fan 108 and to the second fan 109. > The fan 108 and the second fan 109 are adapted to operate on the support wall 501, the bulkhead

N 104, curved wall 401, second curved wall 402 and air guide 403

N 30 — in bounding space.

When the air cleaner 100 is started, the fan 108 sucks air through the filter compartment 105 and the intake opening 301 formed in the bulkhead 104, and the second fan 109 sucks air through the filter compartment 105 and the second intake opening 303 formed in the bulkhead 104. The air guide 403 directs the air currents set in motion by the fan 108 and the second fan into parallel air currents 415 to the collar 206 and out of the air cleaner 100 through the common outlet opening 110 included in it.

FIG. 6 shows two examples of air filters that can be used as at least one air filter 107 in the air cleaner according to the invention.

The first example concerns an air filter 600 containing vertical recesses, i.e. the recesses 601, 602 are vertical. The opposite side 603 of the air filter 600 is similar.

Another example concerns an air filter 610 containing horizontal recesses. The recesses 601, 602 are therefore horizontal and in addition to the recesses 601, 602, the air filter 610 contains two other horizontal recesses 611, 612. The opposite side 603 is similar, containing four recesses.

FIG. 7 shows the positioning of the fan inlets 700 in the bulkhead 104 in two views. The intake opening 301 intended for the fan and the other intake opening 303 intended for the second fan are positioned in the bulkhead 104 in such a way that one of the recesses 601, 602 is located at the intake opening 301 and the other of the recesses 601, 602 is located at the second intake opening 303.

In the first image 701, the recesses 601, 602 are vertical and extend close to the intake opening 301 and the second intake opening 303 of the air filter 600.

N In the second picture 702, the recesses 601, 602, are horizontal and extend a close to the intake opening 301 and the second intake opening 303 of the air filter 610. 3

S 25 The invention and related embodiments are not limited to the = embodiments and examples described above, but may vary within the a = scope of the patent claims. ~

OF

O

OF

Claims (15)

Standard 1. Air cleaner (100) including a housing (101) with an air exhaust side (102) and an air intake side (103) on the opposite side of the air exhaust side, a bulkhead (104) to divide the interior of the housing into a filter compartment (105) and a machine compartment (106) so that the filter compartment opens on the air intake side of the housing to the space surrounding the air cleaner, the filter compartment being intended for at least one air filter (107) to clean the air, a fan (108) and a second fan (109) in the machine compartment to suck air through the filter compartment, characterized in that the air cleaner also includes a common outlet (110) on the air outlet side (102) of the housing and the fan and the second fan are adapted to exhaust air through a common outlet (110). 2. The air cleaner according to claim 1, characterized in that — in the air cleaner, the fan (108) is located near the bottom (111) of the housing and the other fan (109) is located near the upper surface (112) of the housing. 3. The air cleaner according to claim 1, characterized in that in the air cleaner the perpendicular distance of the sides (201, 202) of the housing (101) from each other is less than the height of the sides (201, 202) from the ground. 4. The air purifier according to claim 1, characterized in that _ the air purifier includes a handle (203) for carrying the air purifier by one person N. by S. o T 5. Air cleaner according to claim 1, characterized in that the bulkhead O N (104) contains the intake opening (301) intended for the fan (108) in the vicinity of the corner (302) of the bulkhead I E 25 — and the bulkhead of the second intake opening (303) intended for the second fan (109) = opposite near corner (304). Q O 6. The air cleaner according to claim 1, characterized in that the bulkhead (104) contains a seal (305), which forms a loop on the surface of the bulkhead (104). 7. The air cleaner according to claim 1, characterized in that the air cleaner contains a curved wall (401) surrounding the fan (108) and a second curved wall (402) surrounding the second fan (109) in such a way that the curved wall and the second curved wall attach to each other at their ends. 8. An air cleaner according to claims 6 and 7, characterized in that the curved wall (401) and the second curved wall (402) each attach to the seal (305) at their edge. 9. An air cleaner according to claim 1, characterized in that the air cleaner contains an air guide (403) fan (108) and a second fan (109) — set in motion to direct the air to the common outlet (110). 10. An air cleaner according to claims 6 and 9, characterized in that the air guide (403) is located on the surface of the bulkhead (104) on the inside of the loop formed by the seal (305). 11. An air cleaner according to claim 9, characterized in that — in order to improve aerodynamics inside the engine compartment, the edge of the air guide (403) facing away from the bulkhead (104) is located on a line (404) that differs from the horizontal line (405). 12. An air cleaner according to claim 9, characterized in that the air guide (403) contains a part (413) curved away from the surface of the bulkhead (104) — for the fan (108) and another part (414) curved away from the surface of the bulkhead (104) for the second fan (109) . : 13. Air purifier according to claim 1, characterized in that the motor (502) of the N fan (108) is at least partially embedded in the support wall (501) of the fan. No. 2 14. An air cleaner according to claim 1, characterized in that the S 25 air cleaner is adapted to receive at least = one air filter (107) containing recesses (601, 602). a = 15. An air cleaner according to claims 5 and 14, characterized in that the N N air cleaner includes positioning (700) for the intake opening (301) and the other intake opening (303) O N such that one of the recesses (601, 602) is located at the intake opening (301) and the other — of the recesses (601, 602) is located at the second intake opening (303).