KR20170067957A - Air conditioner for moving apparatus - Google Patents

Abstract

The invention relating to an air conditioner for a mobile device is disclosed. The disclosed air conditioner for a mobile device includes a housing having a first communicating hole portion and a second communicating hole portion communicating with the moving device and having a discharge hole portion and an inlet hole portion to allow air to flow in and out of the space portion formed inside, A filter portion movably provided in the partition portion and provided so as to be exposed to each of the sub space portions; and a filter portion that supplies air accommodated in the space portion to the moving device through the first communication hole portion And a discharge blowing unit for discharging the air contained in the space portion to the outside of the housing through the discharge hole portion.

Description

[0001] AIR CONDITIONER FOR MOVING APPARATUS [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner for a mobile device, and more particularly, to an air conditioner for a mobile device that can control temperature and humidity of air inside a mobile device and filter out foreign matter in the air.

Generally, the moving device includes a cabin or a cargo compartment, and corresponds to a device that is movably provided to carry a passenger, a cargo or the like. In this mobile device, an air conditioner capable of adjusting temperature, humidity and the like is mounted in order to control the internal state of the mobile device.

The conventional air conditioner for a mobile device may be damaged by an impact generated during movement of the mobile device or malfunction of the device may occur. In addition, when the conventional air conditioner for a mobile device is mounted on the outside of the mobile device, the performance of the device due to sudden fluctuations of the internal pressure due to the incoming and outgoing air may vary depending on the wind pressure, There is a problem such that the air flow is reduced or the air flows backward. Therefore, there is a need for improvement.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Japanese Laid-Open Patent Publication No. 10-2012-0032235 (Apr. 24, 2012, entitled "Vehicle air conditioner").

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a mobile device capable of maintaining the air conditioning performance even when the mobile device is moving, And an object of the present invention is to provide an air conditioner.

The air conditioner for a mobile device according to the present invention comprises: a housing having a first communication hole portion and a second communication hole portion communicating with a moving device, and having a discharge hole portion and an inlet hole portion, A partition for partitioning the space into a plurality of sub-spaces; A filter unit movably installed in the partition unit and exposed to the sub space unit, respectively; A supply air blowing portion for supplying the air accommodated in the space portion to the moving device through the first communication hole portion; And a discharge blowing part for discharging air stored in the space part to the outside of the housing through the discharge hole part.

In the present invention, the housing includes: a housing body having the first communication hole portion, the second communication hole portion, the discharge hole portion, and the inlet hole portion; And a housing support portion connecting the housing body and the moving device to elastically support the housing body.

In the present invention, the housing support comprises: a support lower portion coupled to the moving device; A support upper portion coupled to the housing body; And a supporting elastic part interposed between the lower supporting part and the upper supporting part, the supporting elastic part including an elastic material and elastically supporting the upper supporting part.

In the present invention, the partition portion may include a first sub-space portion in which the filter portion is rotatably provided, the first sub-space portion dividing the space portion and connected to the first communication hole portion and the inlet hole portion, And a second sub-space part which is additionally connected to the main sub-space part.

In the present invention, the compartment includes a first sub-compartment surrounding the filter unit and partitioning the first sub-space unit into an inflow sub-space unit to which the inflow hole unit is connected and a blowing sub-space unit to which the first communication hole unit is connected, ; ≪ / RTI >

In the present invention, the supply air blowing unit is provided in the air blowing sub space unit and supplies air in the air blowing sub space unit to the moving device through the first communication hole unit.

In the present invention, the supply blowing unit may include: a supply blowing main body provided in the blowing sub space unit and including a supply blowing fan; A supply air blowing guide portion that communicates the supply air blowing main body portion with the first communication hole portion and guides the movement of the air moved from the supply air blowing main body portion to the first communication hole portion; And a supply air blowing filter unit mounted on the supply air blowing guide unit and including a porous material.

In the present invention, the partition may surround the filter portion, and the second sub-space may be divided into a discharge sub-space portion to which the discharge hole portion is connected and a suction sub-space portion to which the second communication hole portion is connected, ; ≪ / RTI >

In the present invention, the discharge blower is provided in the discharge sub space part, and the air in the discharge sub space part is discharged through the discharge hole part.

In the present invention, the discharge blowing unit may include: a discharge blowing main body provided in the discharge sub-space and including a discharge blowing fan; A discharge air blowing guide portion for communicating the discharge air blowing main body portion with the discharge hole portion and guiding the movement of air moved from the discharge air blowing body portion to the discharge hole portion; And a discharge air blowing filter unit mounted on the discharge air blowing guide unit and including a porous material.

In the present invention, the filter unit may include: a filter housing rotatably installed in the partition; And a filter unit coupled to the filter housing and adapted to switch positions of a portion exposed in the first subspace portion and a portion exposed in the second subspace portion according to the rotation of the filter housing. do.

The air conditioner for a mobile device according to the present invention is characterized in that it surrounds the inlet hole portion and has an inlet chamber opening portion for receiving the air flowing through the inlet chamber opening portion and delivering the received air to the housing through the inlet hole portion And an inflow pressure control unit.

In the present invention, the inflow pressure regulating portion may include an inflow inner chamber portion surrounding the inflow hole portion and communicating with the space portion through the inflow hole portion; And an inflow outer chamber portion communicating with the inflow inner chamber portion through the inflow chamber opening formed in the inflow inner chamber portion and having an inflow outer hole portion into which air is introduced.

In the present invention, the inflow pressure control unit may further include an inlet chamber mesh unit provided in the inflow chamber opening to limit movement of air moving through the inflow chamber opening.

The air conditioner for a mobile device according to the present invention is characterized in that the air conditioner for a mobile device includes a discharge hole portion surrounding the discharge hole portion and accommodating air discharged from the discharge hole portion and having a discharge chamber opening portion for discharging discharged air through the discharge chamber opening portion And further comprising:

In the present invention, the discharge pressure regulating portion may include: a discharge internal chamber portion surrounding the discharge hole portion and communicating with the space portion through the discharge hole portion; And a discharge outer chamber portion communicating with the discharge inner chamber portion through the discharge chamber opening formed in the discharge inner chamber portion and having a discharge outer hole portion through which air is discharged.

In the present invention, the discharge pressure regulating unit may further include a discharge chamber mesh unit provided at the discharge chamber opening to limit movement of air moved through the discharge chamber opening.

The air conditioner for a mobile device according to the present invention is capable of regulating the temperature of the inflow air by re-supplying a part of the air discharged from the mobile device to the moving device in a state in which foreign substances are removed. Accordingly, the present invention can purify air in the mobile device, reduce temperature fluctuations to the utmost, and reduce energy consumption as much as possible.

In addition, since the housing supporting portion resiliently supports the housing, it is possible to prevent breakage and malfunction of the internal structure of the housing by preventing transmission of vibration generated during operation of the moving device to the housing, It is also possible to prevent the noise generated during operation of the vehicle from being transmitted to the mobile device.

In addition, the present invention provides a pressure control unit that smoothly moves the air introduced into the housing or the air discharged from the housing, and the pressure inside the housing rapidly fluctuates due to movement of the moving apparatus, It is possible to stably maintain the air conditioning performance.

1 is a view schematically showing a state in which an air conditioner for a mobile device according to an embodiment of the present invention is mounted on a mobile device.
2 is a perspective view schematically showing an air conditioner for a mobile device according to an embodiment of the present invention.
3 is a schematic perspective view showing a configuration of an air conditioner for a mobile device according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a first space portion and a second space portion in an air conditioner for a mobile device according to an embodiment of the present invention.
5 is a plan view showing the interior of an air conditioner for a mobile device according to an embodiment of the present invention.
6 is a bottom view of an air conditioner for a mobile device according to an embodiment of the present invention.
7 is a perspective view illustrating a filter unit in an air conditioner for a mobile device according to an embodiment of the present invention.
8 is a side view showing the supply of air from the air conditioner for the mobile device to the mobile device according to the embodiment of the present invention.
9 is a view showing a state in which air is discharged from a mobile device in an air conditioner for a mobile device according to an embodiment of the present invention.

Hereinafter, an embodiment of an air conditioner for a mobile device according to the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a view schematically showing a state in which an air conditioner for a mobile device according to an embodiment of the present invention is mounted on a mobile device, and FIG. 2 is a schematic view showing an air conditioner for a mobile device according to an embodiment of the present invention. FIG. 3 is a perspective view schematically showing a configuration of an air conditioner for a mobile device according to an embodiment of the present invention. FIG.

1 to 3, an air conditioner 1 for a mobile device according to an embodiment of the present invention includes a housing 100, a partition 200, a filter unit 300, a supply / discharge unit 400, (500) to purify the air inside the mobile device (10).

The housing 100 has a first communicating hole portion 111 and a second communicating hole portion 113 communicating with the opening portion 11 of the moving device 10 and a space portion 101, and air enters and exits through the discharge hole portion 115 and the inflow hole portion 117. In this embodiment, the housing 100 includes a housing body 110 and a housing support 130.

The housing body 110 has a space portion 101 on the inner side to receive air and a first communication hole portion 111, a second communication hole portion 113, a discharge hole portion 115 and an inlet hole portion 117 are formed So that the air enters and exits.

The housing body 110 includes a filter unit 300 including a housing part 102 which is detachably coupled to an upper end part of the housing part 102 to open and close the space part 101, And facilitates repair and management of the blowing unit 400 and the discharge blowing unit 500 and the like.

The housing supporting part 130 connects the housing body 110 and the moving device 10 and resiliently supports the housing body 110 so that the device may be damaged due to vibrations generated during operation of the moving device 10, .

Also, the housing support 130 blocks transmission of vibrations and noise generated in the supply / discharge unit 400 or the discharge / discharge unit 500 to the mobile device 10. In this embodiment, the housing support 130 includes a support lower portion 131, a support upper portion 133, and a support elastic portion 135.

The support lower portion 131 is joined to the moving device 10 by means of bolting, welding, or the like. In this embodiment, the support lower portion 131 includes a metal material having a substantially 'C' shape in cross section, and the lower end portion is coupled to the upper surface of the moving device 10 by means of bolting, welding, or the like.

The support upper portion 133 is provided to be spaced apart from the support lower portion 131 and is coupled to the housing body 110 by a method such as bolting or welding. In this embodiment, the support portion 133 is made of a metal material, and the lower surface of the support portion 133 is positioned to face the upper surface of the support portion 131.

The support elastic portion 135 is interposed between the support lower portion 131 and the support upper portion 133 and includes an elastic material to elastically support the support upper portion 133. In this embodiment, the support elastic portion 135 includes an elastic material such as synthetic rubber to elastically support the support portion 133 to which the housing body 110 is coupled.

The upper and lower portions of the support elastic portion 135 are detachably coupled to the support lower portion 131 and the support upper portion 133 in such a manner as to be bolted or fitted to each other to replace and support the support elastic portion 135 .

FIG. 4 is a cross-sectional view illustrating a first space portion and a second space portion in the air conditioner for a mobile device according to an embodiment of the present invention. FIG. 5 is a cross- 6 is a bottom view of an air conditioner for a mobile device according to an embodiment of the present invention.

3 to 6, the partition 200 divides the space 101 into a plurality of subspace portions 103, 103a, 103b, 105, 105a, and 105b. In this embodiment, the partition 200 includes the main partition 210 to partition the space 101. [

The main partition 210 includes a first sub space part 103 in which the filter part 300 is rotatably provided and in which the first communication hole part 111 and the inflow hole part 117 are connected by dividing the space part 101 And a second sub space part 105 to which the second communication hole part 113 and the discharge hole part 115 are connected. In the present embodiment, the main partition 210 is formed substantially vertically and is formed to be long in the width direction of the moving device 10 to partition the space portion 101.

The main partition 210 is formed to be substantially perpendicular to the substantially filter-like filter unit 300 and surrounds the filter unit 300 so that the housing 100 is divided into the first sub- And the second sub-space portion 105.

The air entering the first sub space 103 through the inlet hole 117 in the air conditioner 1 for the mobile device in this embodiment is introduced into the first sub space part 103 through the filter part 300, and is then transferred to the interior of the mobile device 10 through the first communication hole portion 111. [

The air in the mobile device 10 enters the second sub space 105 through the second communication hole 113 and then passes through the filter part 300 to remove foreign matter and the like and the discharge hole part 115 ).

In this embodiment, the partition 200 includes the first sub-partition 230 to partition the first sub-space 103. The first sub subdivision portion 230 surrounds the filter portion 300 and includes a first subspace portion 103 and an inflow subspace portion 103a to which the inflow hole portion 117 is connected, And a blowing sub space portion 103b connected thereto.

In this embodiment, the first sub-section 230 is formed to be substantially parallel to the substantially filter-like filter section 300, so that the first sub-space section 103 is introduced into the first sub- The sub air space 103a and the air blowing sub space 103b divide the air into the sub air space 103a through the filter 300 to the air space sub space 103b.

In this embodiment, the partition 200 further includes a second sub-subfoot part 250 to partition the second sub space part 105. The second sub-fulcrum portion 250 surrounds the filter portion 300 and the second sub-space portion 105 is connected to the discharge sub-space portion 105a and the second communication hole portion 113 through which the discharge hole portion 115 is connected And is partitioned into a suction sub space part 105b to be connected.

In this embodiment, the second sub-folded portion 250 is positioned on a plane including the substantially filter-shaped filter portion 300 and is surrounded by the second sub-space portion 105 in such a manner as to surround the side surface of the filter portion 300. [ The suction sub space part 105b is divided into the discharge sub space part 105a and the suction sub space part 105b so that the air introduced into the suction sub space part 105b is transferred to the discharge sub space part 105a through the filter part 300 .

7 is a perspective view illustrating a filter unit in an air conditioner for a mobile device according to an embodiment of the present invention. 4 and 7, the filter unit 300 is installed movably in the partition 200 and is exposed to the plurality of sub-spaces 103, 103a, 103b, 105, 105a, and 105b . In this embodiment, the filter unit 300 includes a filter housing 310, a filter 330, and a filter driving unit 350.

The filter housing (310) is rotatably coupled to the compartment (200). In this embodiment, the filter housing 310 is rotatably coupled to the main partition 210 in such a manner that a rotation shaft is inserted therein. One end of the rotation shaft is coupled to the filter driving unit 350, .

The filter 330 is detachably coupled to the filter housing 310 so that the user can easily remove and replace the contaminated filter 330 from the filter housing 310. In this embodiment, the plurality of filters 330 are arranged in a circumferential direction around the center of rotation of the filter housing 310.

As the filter housing 310 rotates, the position of the portion exposed to the first sub-space portion 103 and the portion exposed to the second sub-space portion 105 are changed, Part of the air and heat energy received in the first sub space part 103 is transferred to the first sub space part 103. [

8 is a side view showing the supply of air from the air conditioner for the mobile device to the mobile device according to the embodiment of the present invention. 8, the supply air supply part 400 allows the air flowing into the interior of the housing 100 through the inlet hole part 117 to pass through the filter part 300 and move through the first communication hole part 111 To the inside of the apparatus (10).

The supply air supply part 400 is provided in the air supply sub space part 103b to supply the air in the air supply sub space part 103b to the movement device 10 through the first communication hole part 111. [ In the present embodiment, the supply air blowing section 400 includes a supply air blowing main body part 410, a supply air blowing guide part 430 and a supply blowing filter part 450.

The supply air blowing main body portion 410 is provided in the air supply sub space portion 103b and includes the supply air blowing fan 411 to move the air inside the air blowing sub space portion 103b to the supply air blowing guide portion 430.

The supply air blowing guide portion 430 guides the movement of the air moving from the supply air blowing main body portion 410 to the first communication hole portion 111 by communicating the supply air blowing main body portion 410 with the first communication hole portion 111 do.

In the present embodiment, the supply air guiding part 430 is formed in a substantially tubular shape having a flow path formed therein to guide the movement of the air generated in the supply air blowing main part 410 to the first communication hole part 111.

When the air in the air supply sub space 103b is transmitted to the first communication hole part 111 via the air supply air guide part 430 by the supply air blowing main body part 410, The air in the inflow sub space part 103a is transmitted to the air blowing sub space part 103b through the filter part 300 because the pressure in the inflow sub space part 103a becomes lower than the pressure in the inflow sub space part 103a.

When the pressure inside the inflow sub space part 103a is lowered due to the air movement of the inflow sub space part 103a, the air outside the housing 100 flows into the inflow sub space part 103a through the inflow hole part 117 Is entered.

The air outside the housing 100 flows through the inlet hole portion 117, the inlet subspace portion 103a, the filter portion 300, and the outlet portion 103b by the operation of the supply air blowing main body portion 410 located in the air blowing sub space portion 103b. The air supply sub space portion 103b and the first communication hole portion 111 to the inside of the moving device 10. [

The supply air blowing filter unit 450 is installed in the supply air blowing guide unit 430 and includes a porous material such as a sponge so as to be supplied to the air communicated to the first communication hole unit 111 through the supply air blowing guide unit 430 Remove any foreign matter etc. contained.

9 is a view showing a state in which air is discharged from a mobile device in an air conditioner for a mobile device according to an embodiment of the present invention. 9, the discharge blowing unit 500 allows the air flowing into the interior of the housing 100 from the inside of the moving device 10 through the second communication hole 113 to pass through the filter unit 300, And discharged through the hole portion 115.

In this embodiment, the discharge blowing part 500 is provided in the discharge sub space part 105a to discharge the air inside the discharge sub space part 105a through the discharge hole part 115. [ In this embodiment, the discharge blowing part 500 includes the discharge blowing body 510, the discharge blowing guide 530 and the discharge blowing filter part 550.

The discharge blowing main body part 510 is provided in the discharge sub space part 105a and moves to the discharge blowing guide part 530 in the discharge sub space part 105a including the discharge blowing fan 511. [

The discharge air blowing guide portion 530 communicates the discharge air blowing main body portion 510 with the discharge hole portion 115 to guide the movement of the air moved from the discharge air blowing body portion 510 to the discharge hole portion 115. In the present embodiment, the discharge air guiding portion 530 is formed in a substantially tubular shape having a passage therein, and guides the movement of the air generated in the discharge air blowing main body portion 510 to the discharge hole portion 115.

When the air in the discharge sub space 105a is discharged to the outside of the housing body 110 through the discharge hole 115 by the discharge air blowing main body part 510, The air in the suction sub space part 105b is transmitted to the discharge sub space part 105a through the filter part 300. [

If the pressure inside the suction sub space part 105b becomes lower than the pressure inside the moving device 10 due to the air movement in the suction sub space part 105b, the air inside the moving device 10 will flow into the second communication hole part 113 to the suction sub space part 105b.

The air inside the moving device 10 is guided to the second communicating hole portion 113, the suction sub space portion 105b, the filter portion (not shown) 300, the discharge sub space portion 105a, and the discharge hole portion 115, and is discharged to the outside of the housing 100.

The discharge air blowing filter unit 550 is attached to the discharge air blowing guide unit 530 and is made of a porous material and is made of a material such as foreign matter or the like contained in the air that is delivered to the discharge hole unit 115 through the discharge air blowing guide unit 530 Remove.

In this embodiment, the air conditioner 1 for a mobile device further includes an inflow pressure regulator 600. The inlet pressure regulating portion 600 surrounds the inlet hole portion 117 and has an inlet chamber opening 611 formed therein to receive air introduced through the inlet chamber opening 611 and to receive the air into the inlet hole portion 117 To the space portion (101) inside the housing (100). In this embodiment, the inflow pressure regulator 600 includes an inlet internal chamber portion 610 and an inlet external chamber portion 630.

The inflow inner chamber portion 610 surrounds the inflow hole portion 117 and communicates with the space portion 101 via the inflow hole portion 117. In this embodiment, the inlet inner chamber portion 610 is connected to the housing 100 in a manner surrounding the inlet hole portion 117 by a method such as bolting or welding so that external air enters the inlet inner chamber portion 610 So that the pressure flow is adjusted and then transmitted to the housing 100 through the inlet hole 117.

The inflow outer chamber portion 630 is communicated with the inflow inner chamber portion 610 through the inflow chamber opening 611 formed in the inflow inner chamber portion 610 and the inflow outer hole portion 631 into which air flows is formed .

In this embodiment, the inflow outer chamber portion 630 is located at one side of the housing body 110, and after the outside air is introduced through the inflow outer hole portion 631, the inflow inner chamber portion 630 is introduced through the inflow chamber opening 611, So that foreign substances and the like are prevented from being transmitted to the inside of the housing 100 while the mobile device 10 is moving.

In the present embodiment, the inflow pressure regulator 600 further includes an inlet chamber mesh portion 650. The inlet chamber mesh portion 650 is provided in the inlet chamber opening 611 to limit the movement of air moving through the inlet chamber opening 611.

In this embodiment, the inlet chamber mesh portion 650 is formed in a shape corresponding to the inlet chamber opening 611 and is fitted in the inlet chamber opening 611, so that it rubs against the air moving through the inlet chamber opening 611 Prevents sudden inflow of air, and removes foreign substances contained in the inflow air.

In this embodiment, the air conditioner 1 for a mobile device further includes a discharge pressure regulator 700. The discharge pressure regulating portion 700 surrounds the discharge hole portion 115 and receives the air discharged from the discharge hole portion 115 and forms a discharge chamber opening portion 711 to discharge the received air to the discharge chamber opening portion 711 . In this embodiment, the discharge pressure regulator 700 includes a discharge inner chamber portion 710 and an discharge outer chamber portion 730.

The discharge inner chamber portion 710 surrounds the discharge hole portion 115 and communicates with the space portion 101 via the discharge hole portion 115. The discharge inner chamber portion 710 is positioned on the other side of the housing body 110 and is coupled to the housing 100 in such a manner as to surround the discharge hole portion 115 in such a manner as to be bolted or welded, 115 to the receiving and discharging outer chamber portion 730. The air is discharged from the housing 100 to the receiving and discharging outer chamber portion 730. [

The discharge outer chamber portion 730 is communicated with the discharge inner chamber portion 710 through the discharge chamber opening 711 formed in the discharge inner chamber portion 710 and the discharge outer hole portion 731 through which the air is discharged is formed , And the ambient pressure of the discharge hole portion 115 is prevented from being abruptly changed by the outside air.

In this embodiment, the discharge pressure regulating portion 700 further includes a discharge chamber mesh portion 750. The discharge chamber mesh portion 750 is provided in the discharge chamber opening 711 to limit the movement of air moving through the discharge chamber opening 711.

In this embodiment, the discharge chamber mesh portion 750 is formed in a shape corresponding to the discharge chamber opening 711 and is fitted in the discharge chamber opening 711, so that the discharge chamber portion 750 rubbing against the air moved through the discharge chamber opening 711 The inflow of the outside air is restricted and the foreign substances contained in the inflow air are removed.

Hereinafter, the operation principle and effects of the air conditioner 1 for a mobile device according to an embodiment of the present invention will be described.

The discharge of the air inside the mobile device 10 is realized by the operation of the discharge rich part 500. The air in the discharge sub space part 105a is discharged to the outside of the housing 100 through the discharge hole part 115 when the discharge blowing part 500 is operated in the control part or the like.

When the pressure inside the discharge sub space part 105a is lowered by the discharge blowing part 500, the air in the suction sub space part 105b, which is relatively higher than the discharge sub space part 105a, To the discharge sub space part 105a.

The air in the sucking sub space 105b reaches the filter 330 of the filter unit 300 while foreign substances are adsorbed on the filter 330. The filter 330 includes a porous material, 350, the portion exposed in the first space portion 101 and the portion exposed in the second space portion 101 are switched.

A part of the air in the suction sub space part 105b is moved to the second space part 101 at the same time while the foreign material is removed by the filter 330 and a part of the air passes through the filter 330 to be discharged to the discharge sub space part 105a And is discharged to the outside of the housing 100 by the discharge blowing part 500. [

The air discharged to the outside of the housing 100 is finally discharged to the outside of the air conditioner 1 for the mobile device via the discharge pressure regulator 700. The discharge pressure regulator 700 receives the air discharged through the discharge hole portion 115 in the discharge inner chamber portion 710 and then discharges the discharge air from the discharge chamber portion 730 through the discharge chamber mesh portion 750 And is discharged to the outer hole portion 731.

Since the discharge hole portion 115 of the housing 100 is discharged through the discharge pressure regulating portion 700 in the air conditioner 1 of the present embodiment in the present embodiment, the moving speed of the moving device 10 or the moving speed of the moving device 10 It is possible to reduce the influence of the wind pressure around it.

Accordingly, in the present embodiment, the air conditioner 1 for a mobile device prevents the deterioration of air discharge performance through the discharge hole portion 115, and the external air enters the housing 100 through the discharge hole portion 115 Can be prevented.

The supply of air to the inside of the mobile device 10 is realized by the operation of the feed- When the control unit operates the supply blowing unit 400 on the basis of the humidity, temperature, and the like inside the moving device 10, the air inside the blowing sub space 103b is blown into the supply blowing- The first communicating hole 430 and the first communicating hole 111,

When the air in the air supply sub space portion 103b is supplied to the inside of the moving device 10 in accordance with the operation of the supply air supply portion 400, the pressure of the air supply sub space portion 103b is lowered, The air in the sub space portion 103a is moved toward the filter 330 side.

A part of the air supplied to the filter 330 in the blowing sub space part 103b moves together with the filter 330 while being accommodated in the filter 330 and moves to the second space part 101 side, The other part of the air supplied to the air supply unit 400 is transferred to the inside of the mobile device 10 through the inflow sub space part 103a and the supply air supply part 400 while the foreign substance is removed through the filter 330. [

Since the air conditioner 1 for the mobile device according to the present embodiment re-supplies part of the air discharged from the moving device 10 to the moving device 10 in a state in which the foreign substance is removed, The temperature of the inflow air can be adjusted without the application of a temperature control device.

Accordingly, the air conditioner 1 for a mobile device according to the present embodiment can purify the air inside the mobile device 10, minimize temperature fluctuations, and reduce energy consumption as much as possible.

In the air conditioner 1 for a mobile device according to the present embodiment, since the housing supporting portion 130 elastically supports the housing 100, vibration generated during operation of the moving device 10 is transmitted to the housing 100 It is possible to prevent breakage and malfunction of the internal structure of the housing 100 and to prevent the noise generated during operation of the air conditioner 1 for the mobile device from being transmitted to the mobile device 10 .

The air conditioner 1 for a mobile device according to the present embodiment is provided with pressure regulators 600 and 700 to control the movement of air introduced into the housing 100 or discharged from the housing 100 The air conditioning performance can be stably maintained by preventing the internal pressure of the housing 100 from being abruptly changed according to the movement of the moving apparatus 10 or the environment outside the moving apparatus 10. [

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the technical scope of the present invention should be defined by the following claims.

1: air conditioner for mobile device 10: mobile device
11: opening 100: housing
101: space portion 102: housing cover
103, 103a, 103b, 105, 105a, and 105b:
103: first sub space part 103a: inflow sub space part
103b: blowing sub space part 105: second sub space part
105a; A discharge sub space part 105b; The suction sub-
110: housing body 111: first communicating hole portion
113: second communication hole portion 115: discharge hole portion
117: inflow hole part 130: housing support part
131: support lower part 133: support upper part
135: support elastic part 200:
210: main partition 230: first sub-
250: second subdivision part 300: filter part
310: filter housing 330: filter
350: a filter driving part 400:
410: Supply blower main body 411: Supply blower fan
430: Supply blowing guide part 450: Supply blowing filter part
500: discharge blowing portion 510: discharge blowing body portion
511: discharge blowing fan 530: discharge blowing guide part
550: exhaust blowing filter unit 600: inflow pressure regulating unit
610: inlet inner chamber part 611: inlet chamber opening
630: inflow outer chamber portion 631: inflow outer hollow portion
650: inlet chamber mesh part 700: discharge pressure regulating part
710: Exhaust internal chamber part 711: Exhaust chamber opening
730: Exhaust Outer Chamber Portion 731: Exhaust Outer Holes Portion
750: discharge chamber mesh portion

Claims (17)

A housing having a first communicating hole portion and a second communicating hole portion communicating with the moving device and having a discharge hole portion and an inlet hole portion and allowing air to flow in and out of the space portion formed inside;
A partition for partitioning the space into a plurality of sub-spaces;
A filter unit movably installed in the partition unit and exposed to the sub space unit, respectively;
A supply air blowing portion for supplying the air accommodated in the space portion to the moving device through the first communication hole portion; And
A discharge blowing portion for discharging the air accommodated in the space portion to the outside of the housing through the discharge hole portion;
And an air conditioner for the mobile device.
The connector according to claim 1,
A housing body having the first communication hole portion, the second communication hole portion, the discharge hole portion, and the inlet hole portion; And
A housing support portion connecting the housing body and the moving device and elastically supporting the housing body;
And an air conditioner for the mobile device.
3. The apparatus of claim 2, wherein the housing support comprises:
A support lower portion coupled to the mobile device;
A support upper portion coupled to the housing body; And
A support elastic part interposed between the support lower part and the support upper part, the support elastic part including an elastic material and elastically supporting the support upper part;
And an air conditioner for the mobile device.
The apparatus according to claim 1,
A first sub space portion in which the filter portion is rotatably disposed and which divides the space portion and into which the first communication hole portion and the inlet hole portion are connected and a second sub space portion in which the second communication hole portion and the discharge hole portion are connected, A main compartment for partitioning into sections;
And an air conditioner for the mobile device.
The apparatus according to claim 4,
A first sub-compartment surrounding the filter portion and partitioning the first sub-space portion into an inlet sub-space portion to which the inlet hole portion is connected and an air supply sub-space portion to which the first communication hole portion is connected;
Wherein the air conditioner further comprises:
The air conditioner for a mobile device according to claim 5, wherein the supply blower unit is provided in the blowing sub space part and supplies air in the blowing sub space part to the moving device through the first communication hole part .
7. The air conditioner according to claim 6,
A supply air blowing main body provided in the air blowing sub space part and including a supply blowing fan;
A supply air blowing guide portion that communicates the supply air blowing main body portion with the first communication hole portion and guides the movement of the air moved from the supply air blowing main body portion to the first communication hole portion; And
A supply air blowing filter unit mounted on the supply air blowing guide unit and including a porous material;
And an air conditioner for the mobile device.
The apparatus according to claim 4,
A second sub-compartment surrounding the filter portion and partitioning the second sub-space portion into a discharge sub-space portion to which the discharge hole portion is connected and a suction sub-space portion to which the second communication hole portion is connected;
Wherein the air conditioner further comprises:
The air conditioner according to claim 8, wherein the discharge blower is provided in the discharge sub space part and discharges the air in the discharge sub space part through the discharge hole part.
10. The air conditioner according to claim 9,
A discharge air blowing main body provided in the discharge sub space part and including a discharge blowing fan;
A discharge air blowing guide portion for communicating the discharge air blowing main body portion with the discharge hole portion and guiding the movement of air moved from the discharge air blowing body portion to the discharge hole portion; And
A discharge blowing filter unit mounted on the discharge blowing guide unit and including a porous material;
And an air conditioner for the mobile device.
5. The filter according to claim 4,
A filter housing rotatably provided in the partition; And
A filter unit coupled to the filter housing and adapted to switch positions of a portion exposed in the first sub-space portion and a portion exposed in the second sub-space portion according to rotation of the filter housing;
And an air conditioner for the mobile device.
12. The method according to any one of claims 1 to 11,
An inflow pressure regulating portion surrounding the inflow hole portion and having an inflow chamber opening formed therein to receive the air introduced through the inflow chamber opening and to transmit the received air to the housing through the inflow hole portion;
Wherein the air conditioner further comprises:
13. The apparatus according to claim 12,
An inflow inner chamber portion surrounding the inflow hole portion and communicating with the space portion through the inflow hole portion; And
An inflow outer chamber portion communicating with the inflow inner chamber portion through the inflow chamber opening formed in the inflow inner chamber portion and having an inflow outer hole portion into which air flows;
And an air conditioner for the mobile device.
14. The apparatus of claim 13, wherein the inflow pressure regulator comprises:
An inflow chamber mesh portion provided at the inflow chamber opening to limit movement of air moving through the inflow chamber opening;
Wherein the air conditioner further comprises:
12. The method according to any one of claims 1 to 11,
A discharge pressure regulating portion surrounding the discharge hole portion, the discharge pressure regulating portion accommodating the air discharged from the discharge hole portion and having a discharge chamber opening formed therein, for discharging the accommodated air through the discharge chamber opening portion;
Wherein the air conditioner further comprises:
16. The apparatus of claim 15,
A discharge inner chamber part surrounding the discharge hole part and communicating with the space part through the discharge hole part; And
An exhaust outer chamber portion communicating with the discharge inner chamber portion through the discharge chamber opening formed in the discharge inner chamber portion and having a discharge outer hole portion through which air is discharged;
And an air conditioner for the mobile device.
17. The apparatus according to claim 16,
A discharge chamber mesh portion provided at the discharge chamber aperture for limiting movement of air moving through the discharge chamber aperture;
Wherein the air conditioner further comprises:

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