CN1782536A - Sucking part structure of air conditioner - Google Patents

Abstract

The sucking part structure of air conditioner includes a casing to form the sucking port, a sucking grating installed inside the sucking port, and a filter unit installed via the back of sucking grating to the sucking port on the casing. The present invention has sucking port set on the casing, sucking grating installed directly onto the sucking port and filter unit, and simple and firm installation structure.

Description

Sucking part structure of air conditioner

Technical field

The present invention relates to a kind of sucking part structure of air conditioner.

Background technology

Usually, air-conditioner is made up of compressor, condenser, expansion utensil, evaporimeter.Air-conditioner is a kind of refrigeration cycle of utilizing refrigerant, the device that cools off or purify the air of a room.For the user provides more comfortable indoor environment.

Existing air conditioner room unit shown in Figure 6 comprise base 2, shell 4, front upper panel 10, positive lower panel 14, about suck grid 16.Above-mentioned shell 4 is positioned at above-mentioned base 2 rear upsides, and the front has open architecture.Front upper panel 10 is positioned at the front upper of shell 4, and central authorities are formed with central outlet 6, and positive both sides respectively are formed with left and right sides outlet 8.Positive lower panel 14 is positioned at the face portion of above-mentioned base 2 and the central authorities of above-mentioned front upper panel 10, and and above-mentioned shell 4 positive basifacials between the positive left and right sides of formation suction inlet 12.About suck the upside that grid 16 is positioned at above-mentioned base 2, be used to protect above-mentioned positive left and right sides suction inlet 12.

As shown in Figure 7, above-mentioned air conditioner room unit also has pressure fan 18 and heat exchanger 20.Pressure fan 18 sucks after the air by above-mentioned positive left and right sides suction inlet 12, by above-mentioned central outlet 6 and above-mentioned left and right sides outlet 8, discharges above-mentioned inhaled air.The space that heat exchanger 20 forms between above-mentioned front upper panel 10 and above-mentioned shell 4 is used to heat/cool off the air that transmits by above-mentioned pressure fan 18.

For close above-mentioned left and right sides suction inlet 12, above-mentioned pressure fan 18 is installed in the bottom of above-mentioned shell 4.Above-mentioned heat exchanger 20 lower end downsides are equipped with drain pan 22, and drain pan 22 is used to put aside the condensed water from the heat exchanger whereabouts.Above-mentioned drain pan 22 is connected with drainpipe 24, and drainpipe 24 is used to discharge the condensed water that is accumulated in above-mentioned drain pan 22.

The downside of above-mentioned drain pan 22 is formed with dust collect plant 30, and dust collect plant 30 is used for purifying by being positioned at and sucks grid 16 inboards about above-mentioned, just and left and right sides suction inlet 12 inhaled airs.

Above-mentioned existing air-conditioner is along with the startup of above-mentioned pressure fan 18, by above-mentioned positive left and right sides suction inlet 12 inhaled airs, after above-mentioned heat exchanger 20 cooling, by after central outlet 6 in above-mentioned front and the above-mentioned positive left and right sides outlet 8, discharge again to the indoor set top front face.

At this moment, the part air that sucks by above-mentioned left and right sides suction inlet 12 after being cleaned by above-mentioned dust collect plant 30, is discharged into indoor through pressure fan 18 and heat exchanger 20.

But there is following defective in above-mentioned existing air-conditioner.Above-mentioned left and right sides suction inlet 12 is formed on the space between above-mentioned shell 4 and the positive lower panel 14, and this space is provided with and sucks grid 16 about above-mentioned, therefore, has the problem that sucks grid 16 mounting structure fragilities.To suck grid 16 mounting structures in order reinforcing, to need between shell 4 and positive lower panel 14, the reinforcing mounting structure to be set respectively.

Above-mentioned existing air-conditioner, dust collect plant 30 are positioned at the inboard that sucks grid 16 about above-mentioned, and the downside of above-mentioned drain pan 22, therefore, at the fixing dust collect plant 30 of above-mentioned drain pan 22 downsides, need append the subsidy parts.

Summary of the invention

In order to overcome the above-mentioned shortcoming that prior art exists, the invention provides a kind of sucking part structure of air conditioner, suction inlet is set on shell, and on this suction inlet, directly install to suck grid, and filtration utensil, and then, simplify the mounting structure that sucks grid and filter utensil, guarantee firm mounting structure.

The technical solution adopted for the present invention to solve the technical problems is:

A kind of sucking part structure of air conditioner is characterized in that comprising shell, sucks grid, filter for installation; Shell is formed with suction inlet; Sucking grid is installed in the suction inlet of shell; Filter for installation is installed on the suction inlet of shell from the rear of above-mentioned suction grid.

Aforesaid sucking part structure of air conditioner, wherein the suction inlet of shell is the hole with a certain size; Above-mentioned suction inlet edge part is formed with the installation portion of side direction bending in air-conditioner, and installation portion supports above-mentioned suction grid and filter for installation.

Aforesaid sucking part structure of air conditioner, wherein filter for installation is made up of filter frame and main filter; Filter frame is fixed on the suction inlet of above-mentioned shell; Main filter is installed on the said filter frame, is used for purifying the suction air.

Aforesaid sucking part structure of air conditioner, wherein filter frame comprises edge part, filter installation portion, connects the support portion; Edge part is fixed on above-mentioned shell; The filter installation position is used to install above-mentioned main filter in the inboard of above-mentioned edge part, and above-mentioned main filter is installed in the filter installation portion with inserted mode; Connect the support portion and be used to connect above-mentioned edge part and filter installation portion.

Aforesaid sucking part structure of air conditioner, wherein filter also has prefilter, and prefilter is between above-mentioned suction grid and above-mentioned main filter.

Aforesaid sucking part structure of air conditioner, wherein suction inlet is formed with crooked above-mentioned shell and the installation portion that forms; Suck grid and prefilter with inserted mode, from the place ahead of above-mentioned shell, be installed in above-mentioned installation portion, filter frame from the upper case rear, is installed in above-mentioned installation portion with combination.

The present invention solves its technical problem also can adopt following technical scheme:

A kind of sucking part structure of air conditioner is characterized in that comprising shell, sucks grid, filter frame, main filter, exhaust unit; Shell is formed with air suction inlet, has the opening portion above; Suck grid and be installed in above-mentioned shell air suction inlet; Filter frame is installed in above-mentioned shell suction inlet from above-mentioned suction grid rear; Main filter is installed in said filter frame, is used for purifying the suction air; Exhaust unit is formed with air outlet, and it is provided with and can moves up and down by the opening portion above the above-mentioned shell.

Aforesaid sucking part structure of air conditioner, wherein the shell suction inlet is the hole with a certain size; Above-mentioned suction inlet edge part is formed with side direction bending in air-conditioner, is used to support the installation portion of above-mentioned suction grid and filter for installation; Above-mentioned suction grid and prefilter from the place ahead of above-mentioned shell, are installed in above-mentioned installation portion with inserted mode, and filter frame from the upper case rear, is installed in above-mentioned installation portion with combination.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1 and Fig. 2 are air-conditioner schematic diagram of the present invention, and Fig. 1 is an air-conditioner schematic diagram of the present invention just at work, and Fig. 2 is out-of-work air-conditioner schematic diagram of the present invention.

Fig. 3 is an air-conditioner decomposing schematic representation of the present invention.

Fig. 4 and Fig. 5 are sucking part structure of air conditioner decomposing schematic representation of the present invention, and Fig. 4 is a left side air suction portion front decomposing schematic representation, and Fig. 5 is a right side air suction portion back side decomposing schematic representation.

Fig. 6 is the schematic diagram of existing air-conditioner.

Fig. 7 is the suction panel of existing air-conditioner, and the decomposing schematic representation of dust-collecting filter.

The number in the figure explanation:

50: base 60: shell

60a: left side air suction inlet 60b: right side air suction inlet

61: left side shell 62: the right side shell

63: positive lower panel 64: front upper panel

65: grid installation portion 65a: filter fixed part

66: prefilter 66a: filter frame

66b: prefilter parts 67: main filter

68: filter frame 68a: edge part

68b: filter installation portion 68c: connecting portion

68d: screwed hole 68e: terminal

69: main filter 70: exhaust unit

70a: front air outlet 70b: left surface air outlet

70c: right flank air outlet 72: top cover

74: outlet framework 79: grid

80: pressure fan 90: heat exchanger

100: exhaust unit guiding element 104: lattice work

The specific embodiment

As depicted in figs. 1 and 2, air-conditioner structure of the present invention comprises base 50, shell 60, exhaust unit 70.Shell 60 is positioned at the upside of above-mentioned base 50, and left and right sides face is formed with air suction inlet respectively, and (60a 60b), has open architecture above.The trihedral of exhaust unit 70 becomes to have air outlet, and (70a, 70b 70c), and are to move up and down by the opening portion above the above-mentioned shell.

When above-mentioned exhaust unit 70 descended, above the above-mentioned shell 60 of meeting shutoff, during rising, above the meeting shutoff and the back side made the air that is discharged into above the shell 60, by front and left and right sides face, multi-faceted discharging.

That is, above-mentioned exhaust unit 70 is formed with front air discharge 70a, left surface air outlet 70b, the right flank air is discharged 70c

As shown in Figure 3, above-mentioned base 50 comprises base groove portion 52, drain pan part 54, isolated part 56.Base groove portion 52 is used to lay shell 60.Drain pan part 54 is used to put aside the condensed water from the heat exchanger whereabouts.Isolated part 56 is installed in the edge part of above-mentioned base groove portion 52, protrudes in the edge of above-mentioned base groove portion 52, and isolated part 56 is used to separate air-conditioner and indoor wall or other furniture etc.

Drain pan part 54 is connected with drainpipe 54a, is used to discharge the condensed water that is accumulated in above-mentioned drain pan 54.

Above-mentioned shell comprises left side shell 61, right side shell 62, positive lower panel 63, front upper panel 64.Shell 61 bottoms, left side are formed with left side air suction inlet 60a.Shell 61 bottoms in right side are formed with right side air suction inlet 60b.Positive lower panel 63 is positioned at the positive basifacial of above-mentioned left side shell 61 and right side shell 62.Front upper panel 64 is positioned at the front upper of above-mentioned left side shell 61 and right side shell 62.

Above-mentioned left side air suction inlet 60a and right side air suction inlet 60b are respectively equipped with prefilter 66 and the main filter 67 that is used to purify air, and, be provided with the left side in the above-mentioned left side air suction inlet 60a and suck grid 61a, be provided with the right side in the air suction inlet 60b of right side and suck grid 62a.

Below, in conjunction with the accompanying drawings 4 and Fig. 5, air suction inlet structure of the present invention is described.

Above-mentioned left side air suction inlet 60a and above-mentioned right side air suction inlet 60b are respectively formed at left side shell 61 and right side shell 62 by a certain size, are shaped as quadrangle.The edge part of above-mentioned suction inlet (60a60b) is formed with the grid installation portion 65 of the dual bending of side direction in shell 60 respectively.

Above-mentioned grid installation portion 65 is formed with the filter fixed part 65a of vertical curve, and this structure has not only formed boundary, but also can guarantee mounting structure.The boundary of above-mentioned formation, (61a 62a) is positioned at shell 60 fronts, can also make main filter 67 be installed in the rear side of shell 60 can to make above-mentioned suction grid.

That is, the grid installation portion 65 of above-mentioned left side and right side shell (61,62) is separately installed with left side and right side and sucks grid (61a 62a), is used for protection left side and right side air suction inlet (60a, inboard 60b).(61a, rear 62a) are equipped with from shell 60 front sides and insert the prefilter of installing 66 above-mentioned suction grid, and prefilter 66 is used for filtering the airborne impurity of suction.

Above-mentioned left side and right side suction grid (61a, 62a), its lateral surface is formed with protuberance 65b, above-mentioned protuberance can be installed to above-mentioned grid installation portion 65 by modes such as brute force are pressed into, and then, make its be fixed on the left side and the right side air suction inlet (60a, 60b).

On the above-mentioned filter fixed part 65a,, purify the main filter 67 that sucks air in conjunction with being equipped with at above-mentioned shell 60 rears.

Above-mentioned prefilter 66 structures are that prefilter parts 66b is arranged between the filter frame 66a of two square shapes.

Above-mentioned main filter 67 is made up of filter frame 68 and main filter 69.Filter frame 68 is positioned at above-mentioned left and right sides air suction inlet, and (60a, filter fixed part 65a 60b) are fixed by screw 67a assembling.Main filter 69 is installed in said filter frame 68.

Said filter frame 68 comprises edge part 68a, filter installation portion 68b, connects support portion 68c.Edge part 68a is positioned at above-mentioned filter fixed part 65a, and is fixing by the screw assembling.Filter installation portion 68b is positioned at the inboard of above-mentioned edge part 68a, is shaped as with above-mentioned edge part 68a and compares smaller quadrangle, is used to install above-mentioned main filter 69, and above-mentioned main filter 69 inserts and is installed in filter installation portion 68b.Connect support portion 68c and be used to connect above-mentioned edge part 68a and filter installation portion 68b.

Above-mentioned edge part 68a is formed with a plurality of screw hole 68d, and screw hole 68d is used for the screw assembling of above-mentioned filter fixed part 65a.Above-mentioned filter installation portion 68b has the terminal 68e that is used to insert power supply.

Above-mentioned main filter 69 can use the dust-collecting filter that utilizes electrostatic principle maybe can remove the HEPA (HEPA of minute dust and virus etc.; High Efficiency ParticulateArrestor) or purification efficiency filter any in the filter than the higher ultra high efficiency of HEPA is smart.

Once more in conjunction with Fig. 3, other structure division of air-conditioner of the present invention is described.

Shell 61 tops, above-mentioned left side independently are formed with left side air outlet 61b, the left side also is housed discharges grid 61c, and the left side is discharged grid 61c and is used to protect air outlet 61b inboard, above-mentioned left side.

Shell 62 tops, above-mentioned right side independently are formed with left side air outlet 62b, the right side also is housed discharges grid 62c, and the right side is discharged grid 62c and is used to protect air outlet 62b inboard, above-mentioned right side.

Above-mentioned front upper panel 64 is equipped with display (64a, 64b), display is used to show above-mentioned air conditioner room unit job information, above-mentioned front upper panel 64 rears are provided with printed circuit board (PCB) 64c and subsidy printed circuit board (PCB) 64d, say accurately between the face portion that is vertically mounted on above-mentioned left side shell 61 and right side shell 62, be provided with power distribution unit in printed circuit board (PCB) 64c and the subsidy printed circuit board (PCB) 64d, be used to control above-mentioned air-conditioner operation.

Above-mentioned exhaust unit 70 comprises top cover 72, outlet framework 74, grid 79.Top cover 72 forms facial contour on the above-mentioned air-conditioner.Outlet framework 74 is positioned at above-mentioned top cover 72 downsides, three openings.Grid 79 is formed on above-mentioned outlet framework 74, presses above-below direction, formation separated by a distance.

Above-mentioned grid 79 is separately positioned on three of above-mentioned exhaust unit 70; not only protect front air outlet 70a, left surface air outlet 70b, the right flank air outlet c of above-mentioned exhaust unit 70 simultaneously, but also can shunt the air of discharging by above-mentioned each air outlet.

Exhaust unit guiding element 100 is equipped with in above-mentioned shell 60 upper ends, and exhaust unit guiding element 100 is used to guide above-mentioned exhaust unit 70 liftings.

Above-mentioned exhaust unit guiding element 100 upper end outer rims, protrude laterally and be formed with flange part 102, flange part 102 is used to be stuck in the upper end of above-mentioned shell 60, be in order to guide the lifting of above-mentioned exhaust unit 70, above the above-mentioned exhaust unit guiding element 100, and the following certain altitude of pressing is open, and above-mentioned exhaust unit guiding element 100 lower faces also have lattice work 104, and lattice work 104 is used to the direction of air of guaranteeing that pressure fan transmits.

Above-mentioned lattice work 104 central authorities are equipped with exhaust unit lifting motor (not shown), and the screw rod 108 by above-mentioned motor rotation is installed above above-mentioned lattice work 104 central authorities, and screw rod 108 is used for the above-mentioned exhaust unit of lifting.

Above-mentioned shell 60 inboards are provided with pressure fan 80 and heat exchanger 90.Pressure fan 80 is by above-mentioned left side air suction inlet 60a, and right side air suction inlet 60b sucks after the air, by the front air outlet 70a and the left surface air outlet 70b of exhaust unit 70, and right flank air outlet 70c discharges above-mentioned suction air.Heat exchanger 90 is used to heat/cool off the air that transmits by above-mentioned pressure fan 80.

Pressure fan 80 is positioned at heat exchanger 90 upsides, makes the air that carries out heat exchange by above-mentioned heat exchanger 90 blow to direction above the shell 60.Pressure fan 80 by the Fan casing 82 that forms air flue, be positioned at above-mentioned Fan casing 82 inboards blowing fan 84, connect the air supply motor 86 that mode is arranged on said fan 84 with axle and form.

Above-mentioned heat exchanger 90 comprises left side heat exchange department 91 and right side heat exchange department 92, positive face shield 93 and back side cover 94.Left side heat exchange department 91 and right side heat exchange department 92 lay respectively at left and right sides air suction inlet between above-mentioned left side shell 61 and the right side shell 62, and (60a, 60b) inboard are shaped as the V font.Positive face shield 93 and back side cover 94 are installed in the front and the back of above-mentioned left side heat exchange department 91 and right side heat exchange department 92 respectively, are used to block the front and the back of above-mentioned left side heat exchange department 91 and right side heat exchange department 92.

The refrigerant pipe 90a that links to each other with indoor set can be connected with in the right side heat exchange department 92 any one with above-mentioned left side heat exchange department 91.

Below, the course of work of sucking part structure of air conditioner of the present invention is described.

At first, start air-conditioner, after above-mentioned exhaust unit 70 rises, above-mentioned front air outlet 70a and left surface air outlet 70b, and right flank air outlet 70c is in open state.

When exhaust unit 70 rises, be installed in the off-premises station inner compressor that links to each other with above-mentioned heat exchanger 90 by the refrigerant pipe and the air supply motor 86 of above-mentioned pressure fan 80 and also start working.

When above-mentioned air supply motor 86 started, said fan 84 was rotated motion, and above-mentioned air-conditioner extraneous air can flow into shell 60 inside by the left side air suction inlet 60a and the right side air suction inlet 60b of shell 60.

Above-mentioned left side air suction inlet 60a and right side air suction inlet 60b are provided with prefilter parts 66b and main filter 67, therefore, after airborne foreign matter of above-mentioned suction and pollutant are cleaned, just can flow into heat exchanger (91,92).Inhaled air by the left side heat exchange department 91 and the right side heat exchange department 92 of above-mentioned heat exchanger 90, after being cooled or heating, is transferred to above-mentioned shell 60 inside upper part by above-mentioned pressure fan.

The above-mentioned air by heat exchange that is transferred to above-mentioned shell 60 inside upper part, be diverted to the front outlet 70a and the left surface outlet 70b of above-mentioned exhaust unit 70 by above-mentioned lattice work 104, right flank outlet 70c, then, front and left surface by air-conditioner top, and right flank multi-faceted be discharged into indoorly, freeze or heat.

The present invention has following effect: in the sucking part structure of air conditioner of the present invention, and above-mentioned suction grid, pre-The parts such as filter, main filter are installed in and are formed on the left side, and the air suction inlet of right side shell, Therefore, have and be convenient to install suction grid and filter, and, more firm installation can also be provided The effect of structure.

Claims (8)

1, a kind of sucking part structure of air conditioner is characterized in that comprising shell, sucks grid, filter for installation;

Shell is formed with suction inlet;

Sucking grid is installed in the suction inlet of shell;

Filter for installation is installed on the suction inlet of shell from the rear of above-mentioned suction grid.

2, sucking part structure of air conditioner according to claim 1, the suction inlet that it is characterized in that above-mentioned shell is the hole with a certain size;

Above-mentioned suction inlet edge part is formed with the installation portion of side direction bending in air-conditioner, and installation portion supports above-mentioned suction grid and filter for installation.

3, sucking part structure of air conditioner according to claim 1 and 2 is characterized in that above-mentioned filter for installation is made up of filter frame and main filter; Filter frame is fixed on the suction inlet of above-mentioned shell; Main filter is installed on the said filter frame, is used for purifying the suction air.

4, sucking part structure of air conditioner according to claim 3 is characterized in that said filter frame comprises edge part, filter installation portion, connects the support portion; Edge part is fixed on above-mentioned shell; The filter installation position is used to install above-mentioned main filter in the inboard of above-mentioned edge part, and above-mentioned main filter is installed in the filter installation portion with inserted mode; Connect the support portion and be used to connect above-mentioned edge part and filter installation portion.

5, sucking part structure of air conditioner according to claim 1 is characterized in that above-mentioned filter also has prefilter, and prefilter is between above-mentioned suction grid and above-mentioned main filter.

6, sucking part structure of air conditioner according to claim 1 is characterized in that above-mentioned suction inlet is formed with crooked above-mentioned shell and the installation portion that forms;

Suck grid and prefilter with inserted mode, from the place ahead of above-mentioned shell, be installed in above-mentioned installation portion, filter frame from the upper case rear, is installed in above-mentioned installation portion with combination.

7, a kind of sucking part structure of air conditioner is characterized in that comprising shell, sucks grid, filter frame, main filter, exhaust unit;

Shell is formed with air suction inlet, has the opening portion above;

Suck grid and be installed in above-mentioned shell air suction inlet;

Filter frame is installed in above-mentioned shell suction inlet from above-mentioned suction grid rear;

Main filter is installed in said filter frame, is used for purifying the suction air;

Exhaust unit is formed with air outlet, and it is provided with and can moves up and down by the opening portion above the above-mentioned shell.

8, sucking part structure of air conditioner according to claim 7 is characterized in that above-mentioned shell suction inlet is the hole with a certain size;

Above-mentioned suction inlet edge part is formed with side direction bending in air-conditioner, is used to support the installation portion of above-mentioned suction grid and filter for installation;

Above-mentioned suction grid and prefilter from the place ahead of above-mentioned shell, are installed in above-mentioned installation portion with inserted mode, and filter frame from the upper case rear, is installed in above-mentioned installation portion with combination.

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