CN114608078B - Window type air management device - Google Patents

Abstract

The invention provides a window type air management device. The window type air management device of the present invention may include: a support frame (300) disposed within the window frame; a mounting frame (100) provided on the support frame (300) and provided in a height-variable manner in the window frame; and an air management unit (300) disposed in a mounting space (100') formed in the first frame (101) of the mounting frame (100). A front cover (320) may be provided at a front surface of the support frame (300), and a rear cover (330) may be provided at a rear surface of the support frame (300).

Description

Window type air management device

Technical Field

The present invention relates to a window type air management device.

Background

As industrialization progresses, people gather to live in cities or their surroundings, and the atmospheric quality of the corresponding areas is deteriorated. Air management in living spaces is particularly important for people living in areas where the atmospheric quality is deteriorated.

Living space or office space is subdivided with the trend of personalization, and people in most cases live in this divided space. For example, a home house is provided with many rooms, and in many cases, air management is required for each of these rooms. In the case of an office space, air management is possible because the entire building is equipped with an air conditioning system, but there are cases where separate air management is required for a space separately divided in an office in the building.

In order to perform air management of the space divided from other spaces as described above, the necessity of using an additional air management device is increasing. Examples of the air management device include an air conditioning device that adjusts the temperature and humidity of air, an air cleaner that removes dust contained in air to manage the quality of air, and a warm air blower that supplies warm air.

Among the air management devices described above, a device mounted on a window sash to perform air management for one partitioned space may be referred to as a window type air management device. The window type air management device needs to be installed while maintaining the functions of the window sash as they are. The window sash may need to be constructed to be able to see the outside from the inside space, to catch light from the outside, or to perform movement of an object between the inside space and the outside.

In window sashes, waterproofing is sometimes required between the indoor side and the outdoor side, and noise shielding is sometimes required. In general, recently introduced window systems are well achieving waterproofing and soundproofing, and problems may occur in terms of waterproofing and soundproofing if a window type air management device is installed in the window system.

Japanese laid-open patent publication No. 10-281495 discloses a window type air conditioner in which a mounting frame is integrated, vertical frames (a fixed vertical frame and a movable vertical frame) of the mounting frame are integrally provided at both ends of an air conditioner body, the vertical frames at both ends are connected by an upper end horizontal frame, a middle horizontal frame, and a lower end horizontal frame, the upper end horizontal frame is extended together with the movable vertical frame to be aligned with a height of a window sash, the upper end horizontal frame is provided with upper connection hardware to be fixed to the window frame, and the lower end horizontal frame is provided with lower connection hardware to be fixed to the window frame.

However, since the components such as the upper and lower connection hardware are additionally used here, the number of components increases, and it is necessary to fasten them to the window frame with screws, so that there is a problem in that the fastening and separation operations are complicated. In addition, since the mounting frames provided at both ends of the air conditioner body are not located at the inner side of the window frame but located at the outer side of the window frame, the air conditioner body protrudes from the window sash, and thus there is a problem in that it occupies an indoor space. Further, since the structure for locking the movable stile to the upper window frame is not provided, there is a problem in that the movable stile cannot be moved at a time point required by an operator.

In japanese laid-open patent publication No. 6-4521, in order to mount an integrated air conditioner to a mounting frame provided on a window, coupling pieces rotatably provided on a plurality of mounting brackets of the mounting frame are engaged with a plurality of coupling holes formed by a strap of the mounting bracket provided on a body of the integrated air conditioner. However, since the structure for preassembling the integrated air conditioner to the mounting frame provided in the window is not provided, there is an inconvenience in that an operator needs to hold the integrated air conditioner with one hand or another operator needs to operate the mounting bracket in a state where the integrated air conditioner is provided in the mounting frame.

Further, the air discharge cover of korean patent laid-open No. 10-0849250 and the hot air guide cover of korean patent laid-open No. 20-0387015 relate to a structure for avoiding influence on outdoor people and the like when hot air generated in an outdoor unit of an air conditioner is discharged to the outside. However, since the hot air ports are each disposed so as to guide the hot air only upward, there is a problem in that rainwater may flow into the air conditioner through the hot air cover in the outdoor unit of the air conditioner or the window air conditioner, and there is a problem in that the discharge direction of the hot air cannot be changed.

Japanese laid-open patent publication No. 2001-208419 discloses a device for mounting an air conditioner to a window sash, in the mounting frame of which a state in which a slide frame is raised from a fixed frame is fixed by using ratchets and ratchet wheels. However, in the case where the position of the sliding frame is set in the above-described manner, there is a problem in that a space may be generated between the sliding frame and the window frame according to the size of the ratchet.

Korean laid-open patent No. 10-2012-0029547 shows a structure in which a cover constituting the front surface of a window air conditioner is coupled to the window air conditioner by screws. However, there is a problem that various kinds of covers need to be provided according to the size of the window frame because the height of the cover cannot be adjusted, and there is a problem that although an operation portion is provided in the cover, a solution for supplying power to the cover configured separately from the window air conditioner cannot be presented.

In japanese laid-open patent publication No. 1-193534, in order to mount an air conditioner on a mounting frame, an additional bracket is provided at a lower portion of the mounting frame, and an additional structure for fastening is provided. However, there are problems in that the number of working steps required for mounting the air conditioner to the mounting frame increases, and in that the state in which the air conditioner is mounted to the mounting frame is relatively unstable. In addition, there is a problem in that the outer surface shape of the air conditioner and the inner surface shape of the mounting frame are not easily bonded to each other.

In the case where an air conditioner is installed in a window frame of a window, the degree to which a window sash installed in the window is opened and closed inevitably changes, and thus there is a problem in that an existing locking device for locking the window sashes to each other cannot be used. In order to solve such problems, korean laid-open patent publication No. 20-1999-01111 suggests a locking device for a window sash for installing a window type air conditioner. However, since an additional locking device is provided between the two window sashes regardless of the air conditioner, the window type air conditioner is separately installed, which is inconvenient to use and complicated in the management of components. In addition, there is a problem in that the openable degree of the window sash is greatly limited according to the position of the locking device.

Japanese laid-open patent publication No. 55-153521 relates to a mounting frame for an air conditioner, in which a mounting frame for mounting the air conditioner on a window sash is formed to extend to a lower portion of an air conditioner body, an additional storage box is installed inside thereof, and the air conditioner body is provided above the storage box to cope with the entire height of the window sash. However, in the above arrangement structure, when the window is mounted on a window having different heights, it is necessary to use storage boxes having different heights, and thus there is a problem that it is necessary to provide storage boxes having various heights, and there is a problem that it is also necessary to provide mounting frames having various sizes in accordance with the heights of the window sashes.

Patent document 1: japanese laid-open utility model Hei Cheng No. 6-4521

Patent document 2: japanese patent laid-open No. 10-281495

Patent document 3: korean authorized patent No. 10-0849250

Patent document 4: korean authorized utility model No. 20-0387015

Patent document 5: japanese patent laid-open No. 2001-208419

Patent document 6: korean laid-open patent No. 10-2012-0029547

Patent document 7: japanese patent laid-open No. 1-193534

Patent document 8: korean laid-open utility model No. 20-1999-01111

Patent document 9: japanese laid-open utility model No. Sho 55-153521

Disclosure of Invention

The present invention is to provide an air management device to be mounted on a window for use, which can be easily mounted on and dismounted from a rail of a window frame.

The present invention is directed to a mounting frame for an air management device to be mounted on a window for use in an interior region of the window.

The object of the present invention is to firmly mount a mounting frame for mounting an air management unit on a window frame on the window frame.

The object of the present invention is to mount and dismount a mounting frame for mounting an air management unit on a window frame without using an additional tool.

The present invention provides a structure for controlling communication with the outdoor side, which can be used even if the heights of window sashes are different in a window type air management device.

The purpose of the present invention is to enable adjustment of the height of a structure for controlling communication with the outside of a window air management device.

The present invention aims to change the structure communicated with the outdoor side according to the installation environment of a window type air management device.

The present invention aims to realize the motion of a second frame relative to a first frame through one operation in a mounting frame of a window type air management device.

The present invention aims to make a second frame continuously operate relative to a first frame in an installation frame of a window type air management device.

The object of the present invention is to provide a structure for guiding the movement of a second frame relative to a first frame in a mounting frame of a window type air management device.

The present invention aims to replace the front surface appearance of an air management unit in a window type air management device.

The present invention aims at providing an operation part on the replaceable front surface appearance of an air management unit of a window type air management device.

The purpose of the present invention is to enable an air management unit as a weight to be smoothly inserted into a mounting space of a mounting frame.

The invention aims to make the state that an air management unit is mounted in a mounting space of a mounting frame firm.

The invention aims to lock the state that an air management unit is mounted in a mounting space of a mounting frame.

The present invention aims at providing a structure for preventing an air management unit constituting a window type air management device from being separated from a mounting frame.

The present invention aims to make an air management unit as a weight constituting a window type air management device rotate a prescribed angle and enter an installation space of an installation frame.

The invention aims to simplify the structure for supplying power to an air management unit constituting a window type air management device.

The aim of the invention is to achieve locking of the sash by means of a coupling between the sash and the air management device.

The purpose of the present invention is to open a window sash to a predetermined extent when unlocking the window sash from an air management device.

The purpose of the present invention is to shield the front surface of a second frame that moves to the inside and outside of a first frame from the indoor side regardless of the moving distance in a window type air management device.

The present invention aims to provide a window type air management device, which can shield the front surface of a second frame moving to the inner and outer parts of a first frame and a part of the front surface of an air management unit.

The invention aims to enable an operator to install a window type air management device by himself.

The invention aims to simplify the installation process of a window type air management device.

The present invention is directed to installing a window type air management device by using a support frame.

The purpose of the present invention is to enable installation of an air management device regardless of the size of a window frame to which the window type air management device is installed.

The object of the present invention is to locate a support frame of an air management device for use by being mounted on a window in an interior region of the window.

The present invention is directed to a support frame of an air management device to be mounted on a window for use, which can be simply mounted on a rail of a window frame and removed.

The object of the present invention is to mount and dismount a support frame of an air management device for use mounted on a window on the window frame without using additional tools.

In the present invention, the mounting frame is provided around the outer surface thereof with coupling concavities and convexities coupled with concavities and convexities of the window sash and the window frame. These coupling recesses and projections enable the mounting frame to be mounted on the window frame in the same manner as the window sash, so that the mounting frame can be easily detached and firmly maintained in a mounted state.

The invention may include: a first frame having an installation space for installing an air management unit formed therein and disposed in the window frame; a second frame that is moved in and out from the first frame, and one end portion of which is located at a portion facing a window frame portion where the first frame is located in a window frame in a state of being protruded from the first frame; a moving mechanism configured to move the second frame in and out with respect to the first frame; a plurality of coupling concave-convex parts provided to surround outer surfaces of the first and second frames, and coupled with the concave-convex parts of the window frame and the window sash; and a front protrusion protruding from a bottom surface of the installation space for locking the air management unit.

In the present invention, the first frame may include: a first rod and a second rod constituting both end portions of the first frame; a lower connecting rod connecting a lower portion of the first rod and a lower portion of the second rod; and an upper connecting rod connecting an upper portion of the first rod and an upper portion of the second rod.

In the present invention, a lifting space may be formed in the first and second bars so as to vertically penetrate the first and second bars, respectively, and the first and second legs of the second frame may move in the lifting space.

In the present invention, a front protrusion for locking the air management unit may be formed to protrude in the installation space of the installation frame. The air management unit can be firmly fixed in the installation space of the installation frame by using the front end bulge.

The invention may include: a first frame having an installation space for installing an air management unit formed therein and located at a window frame where a window sash is installed; a second frame that is moved in and out from the first frame, and one end of which is located at a portion facing a portion of the window frame where the first frame is located, in the window frame, in a state of being protruded from the first frame; and a moving mechanism configured to move the second frame in and out relative to the first frame, wherein a front protrusion for locking the air management unit may be formed on a bottom surface of the installation space in a protruding manner.

In the present invention, the front end protrusion may extend obliquely in a front direction of the first frame.

In the present invention, a guide projection may be formed to extend from the front end projection to the rear end of the bottom surface of the installation space so as to project with a predetermined width and height.

In the present invention, a handle through hole may be formed through an upper connection rod forming an upper end of the first frame, and a handle may be provided at a lower surface of the connection member forming an upper end of the second frame, and the handle may be penetrated at the handle through hole.

In the present invention, a folding plate may be provided at the second frame, and the folding plate may be unfolded to perform division with the outdoor side when the second frame moves with respect to the first frame.

In the present invention, a locking slit may be formed in a front surface of the second frame, and the first front panel for shielding a space formed by the second frame may be locked when the second frame moves relative to the first frame.

The invention may include: a first frame located on a rail of a window frame provided with a window sash in an openable and closable manner; a second frame which is moved in and out from the first frame, and one end of which is positioned at a rail of the window frame facing the rail where the first frame is positioned; a moving mechanism configured to move the second frame in and out from the first frame; and a plurality of coupling concave-convex parts which are provided so as to surround the outer surfaces of the first frame and the second frame and are coupled with the concave-convex parts of the window frame and the window sash.

In the present invention, an installation space in which the air management unit is disposed may be formed through the first frame in front and rear directions.

In the present invention, the first frame may include: a first frame having the installation space formed therein; and the first base is arranged at the lower end of the first frame.

In the present invention, the first frame may include: a first rod and a second rod forming two ends of the first frame; a lower connecting rod connecting a lower portion of the first rod and a lower portion of the second rod; and an upper connecting rod connecting an upper portion of the first rod and an upper portion of the second rod.

In the present invention, a lifting space may be formed at each of the first and second bars of the first frame, and the second frame may be positioned in the lifting space and moved.

In the present invention, a first coupling concave-convex portion may be provided on a lower surface of the first frame, the first coupling concave-convex portion may be coupled to a lower rail provided on a lower rail of the window frame in a movable manner, a second coupling concave-convex portion coupled to the window sash may be provided on one side surface of the first frame, a third coupling concave-convex portion coupled to a vertical rod of the window frame may be provided on the other side surface of the first frame, and a fourth coupling concave-convex portion may be provided on an upper surface of the second frame, the fourth coupling concave-convex portion may be coupled to an upper rail provided on an upper rail of the window frame in a movable manner.

In the present invention, the first coupling concave-convex portion may extend left and right along front and rear ends of a lower surface of the first frame so that the first frame can be positioned in a region between end bosses provided at front and rear ends of the lower rail of the window frame, respectively, and the fourth coupling concave-convex portion may extend left and right along front and rear ends of an upper surface of the second frame so that the second frame can be positioned in a region between end bosses provided at front and rear ends of the upper rail of the window frame, respectively.

In the present invention, the first coupling concave-convex portion may be formed to protrude from a lower surface of the first frame, a longitudinal groove may be formed in an inner portion of the first coupling concave-convex portion, a rail of a lower rail of the window frame may be inserted into and coupled to the groove, the fourth coupling concave-convex portion may be formed to protrude from an upper surface of the second frame, a longitudinal groove may be formed in an inner portion of the fourth coupling concave-convex portion, and a rail of an upper rail of the window frame may be inserted into and coupled to the groove.

In the present invention, the second coupling recess and projection formed at one side of the first frame may be formed to extend vertically long, and coupled to the vertical recess and projection formed at the vertical rod of the window frame, and the third coupling recess and projection formed at the other side of the first frame may be formed to extend vertically long, and coupled to the window sash.

In the present invention, the second coupling concave-convex portion may be formed to protrude from one side surface of the first frame, a groove into which the vertical concave-convex portion is inserted may be formed inside the second coupling concave-convex portion, and the third coupling concave-convex portion may be formed to protrude from the other side surface of the first frame to be insertable into the groove formed on the window sash.

In the window air management device of the present invention, a second outer cover may be provided to a first frame of the mounting frame, and a first outer cover may be provided to a second frame of the mounting frame, and the first outer cover may be movable together with the second frame. Thus, the user can desirably perform air flow or the like outside the mounting frame.

The invention may include: a mounting frame including a first frame and a second frame passing in and out from the first frame; an air management unit provided at the installation frame for managing air; a first outer cover installed at an outdoor side of the second frame to move together with the second frame; and a second external cover installed at an outdoor side of the first frame, through which the outdoor side of the air management unit and the outdoor space can be communicated.

In the present invention, a first louver and a first through hole may be formed in the first outer cover, and a second louver and a second through hole may be formed in the second outer cover, so that a flow of air can be guided between the first outer cover and the outdoor space, and protruding positions of the first louver and the second louver may be opposite to each other.

In the present invention, the first louver may protrude from an outer surface of the first outer cover, and the second louver may protrude from an inner surface of the second outer cover.

In the present invention, the first louver may protrude from an inner surface of the first outer cover, and the second louver may protrude from an outer surface of the second outer cover.

In the present invention, structures for coupling to each other may be formed at the first and second outer covers and the second and first frames, and structures for coupling vertically symmetrically may be provided at the first and second outer covers.

Locking pieces may be formed at both sides of an upper portion of the second frame, and first locking slits into which the locking pieces are inserted may be formed symmetrically up and down at both sides of an upper portion and a lower portion of the first outer cover.

The first frame may have locking slits formed at both sides of the upper and lower portions thereof in a vertically symmetrical manner, and the second outer cover may have second locking pieces formed at both sides of the upper and lower portions thereof in a vertically symmetrical manner to be inserted into the locking slits.

In the present invention, the first outer cover may be moved to the inside and outside of the second outer cover together with the movement of the second frame of the mounting frame. Thus, even if the height of the second frame is changed due to the difference in the height of the window frame, the first outer cover can be lifted up together with the second frame, and the air flow outside the installation frame can be smoothly controlled.

The invention may include: a mounting frame including a first frame and a second frame passing in and out from the first frame; an air management unit provided at the installation frame for managing air; a first outer cover mounted on the outdoor side of the second frame and moving together with the second frame, and formed with a first louver and a first through hole for communicating the outdoor side of the air management unit with the outdoor space; and a second outer cover installed at an outdoor side of the first frame, at least a portion of the first outer cover being located at an inner side of the second outer cover, and a second louver and a second through hole being formed to communicate an outdoor side of the air management unit with an outdoor space.

In the present invention, the first external cover may include: a first cover main body formed with the first louver and the first through hole; first cover side walls respectively formed at both side ends of the first cover main body; a first extension rib formed at the first cover sidewall by bending, a portion of the first extension rib being formed in parallel with the first cover main body; and a first locking slit formed in the first extension rib, wherein the locking piece of the second frame is locked in the first locking slit.

In the present invention, the first locking slits may be symmetrically formed at upper and lower portions of the first extension rib.

In the present invention, the second external cover may include: a second cover main body formed with the second louver and the second through hole; second cover side walls respectively formed at both side ends of the second cover main body; a second extension rib formed at the second cover sidewall by bending, a portion of the second extension rib being formed in parallel with the second cover main body; and a second locking piece formed on the second extension rib and locked in the locking slit of the first frame.

In the present invention, the second locking piece may be symmetrically formed at upper and lower portions of the second extension rib.

In the present invention, the second elongated rib may be symmetrically formed with interference preventing slits so as to be opened to upper and lower ends thereof.

The invention may include: a mounting frame including a first frame and a second frame passing in and out from the first frame; an air management unit provided at the installation frame for managing air; a first outer cover mounted on the outdoor side of the second frame and moving together with the second frame, wherein a first louver and a first through hole for communicating the outdoor side of the air management unit with the outdoor space are formed, and the first outer cover can be mounted on the second frame in an upside-down manner; and a second outer cover mounted on the outdoor side of the first frame, wherein a second louver and a second through hole for communicating the outdoor side of the air management unit with the outdoor space are formed, and the second outer cover can be mounted on the first frame in an upside-down manner.

In the present invention, the protruding position of the first louver in the first outer cover and the protruding position of the second louver in the second outer cover may be located opposite to each other, and the first louver and the second louver may have inclinations in the same direction.

In the present invention, locking pieces may be formed at both sides of an upper portion of the second frame, and first locking slits into which the locking pieces are inserted may be formed symmetrically up and down at both sides of an upper portion and a lower portion of the first outer cover.

In the present invention, the first frame may have locking slits formed at both sides of an upper portion and a lower portion thereof in a vertically symmetrical manner, and the second outer cover may have second locking pieces formed at both sides of the upper portion and the lower portion thereof in a vertically symmetrical manner to be inserted into the locking slits.

In the present invention, the action of the pushing member that pushes and protrudes the second frame from the first frame is performed by pressing the action key. Thus, the operator can easily perform the mounting operation by himself/herself by pressing the operation key to protrude the second frame and mounting the mounting frame in the window frame in a state where the first frame is mounted in the window frame.

In the present invention, since the guide post is provided to guide the track of the movement of the second frame relative to the first frame, the second frame can be accurately moved relative to the first frame.

The invention may include: a first frame having an installation space for installing an air management unit formed therein and located in a window frame having a window sash provided therein so as to be openable and closable; a second frame configured to be capable of moving in and out from the first frame, and having one end portion thereof located at a portion facing a portion of the window frame where the first frame is located, in the window frame, in a state of protruding from the first frame; a moving mechanism including a pushing member for pushing the second frame to protrude from the first frame, and a locking coupling for maintaining a state in which the second frame is fixed to the first frame; an operation button provided on the first frame to operate the locking coupling to release the second frame from being fixed to the first frame, so that the second frame protrudes from the first frame by the pushing force of the pushing member; and a guide post guiding a track of movement of the second frame relative to the first frame.

The present invention may further include: and the damping mechanism is used for controlling the moving speed of the second frame relative to the first frame.

In the present invention, the damping mechanism may include: a damping body filled with a damping material and fixed to one of the first frame and the second frame; a pinion rotatably provided to the damping body, the rotation speed of which is limited by the damping material; and a rack gear provided on the other of the first frame and the second frame and engaged with the pinion gear.

The invention may include: a first frame having an installation space for installing an air management unit therein, the first frame being positioned in a window frame having a window sash provided in an openable and closable manner; a second frame configured to be capable of moving in and out from the first frame, and having one end portion thereof located at a portion facing a portion of the window frame where the first frame is located, in the window frame, in a state of protruding from the first frame; a moving mechanism that causes the second frame to perform an operation of continuously moving with respect to the first frame; and an operation key provided on the first frame, for receiving a force for operating the moving mechanism to protrude the second frame from the first frame.

In the present invention, the moving mechanism may include: and a pushing member providing a pushing force or an elastic force for continuously moving the second frame with respect to the first frame.

In the present invention, the pushing member may include: a housing filled with air and disposed in the first frame; and an in-out lever which is connected to the second frame by being projected to the outside of the housing by air pressure.

In the present invention, the pushing member may use a spring, one end of which may be provided at the first frame and the other end of which may be provided at the second frame, the spring relatively moving the second frame with respect to the first frame by elastic deformation.

In the present invention, the moving mechanism may include: the linkage connecting piece is arranged in the first frame and acts by utilizing the action key; extension coupling members each extending from both end portions of the linkage coupling member toward the inside of the first and second bars located at both sides of the first frame, respectively; and a locking coupling member provided on the first frame, and rotated by a predetermined angle by movement of the extension coupling member to disengage from an operation suppressing projection provided on the second frame.

In the present invention, an elastic member that provides an elastic force in a direction to lock the operation suppressing projection may be connected to the locking coupling.

In the present invention, a pair of the catching coupling members may be connected to one of the extension coupling members to be simultaneously operated.

In the present invention, a guide space may be formed at one side of the link, and an operation guide provided on the first frame may be provided in the guide space to be able to guide an operation of the link.

In the present invention, an elastic member may be provided between the link and the actuation guide, and may provide an elastic restoring force for returning the actuation key provided on the link to the home position.

In the present invention, link guides that guide movement of the link may be further provided on both sides of the link, respectively, with the action key interposed therebetween.

In the present invention, a locking plate may be provided on the first frame to maintain a state in which the second frame is protruded with respect to the first frame, and a fixed cam may be connected to a connecting shaft of the locking plate, the fixed cam alternately having a close contact surface capable of being brought into close contact with the second frame and a space maintaining surface.

In the present invention, the locking plate may be provided in plurality, and each may be exposed to an upper inner surface of the first and second bars located at both sides of the first frame, respectively.

In the present invention, the second front panel can be attached to and detached from the front surface of the air management unit, and the front surface appearance of the air management unit can be changed. Since the second front panel substantially forms the front surface appearance of the air management device, the degree of freedom in designing the front surface of the air management unit can be improved.

In the present invention, since the second front panel provided on the front surface of the air management unit is replaceable, the second front panel having various shapes may be employed. Thus, the second front panel adapted to the installation space can be used, and user satisfaction can be further improved.

In the present invention, the second front panel is provided with an operation portion, and the second front panel is detachable from the air management unit. In order to supply power to and fix the second front panel, a panel electrode is provided on the second front panel and is coupled to the body electrode of the air management unit. Thereby, the power supply to the operation portion and the fixation of the second front panel can be simultaneously performed.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; an air management unit disposed in the installation space; a first front panel provided on a second frame passing in and out from the first frame to form a front surface appearance of the second frame; and a second front panel detachably provided on the front surface of the air management unit, and forming the front surface appearance of the air management unit.

In the present invention, the second front panel may include: a second panel body positioned on a front surface of the air management unit; and the second panel side walls are respectively arranged at two side ends of the second panel main body and are positioned at two side surfaces of the front end plate of the air management unit.

In the present invention, the second front panel may further include: and a lower side wall positioned on the lower surface of the front end plate of the air management unit.

In the present invention, a power line passing portion through which a power line extending to the outside through a lower surface of the air management unit passes may be formed at the second front panel.

In the present invention, a panel electrode may be provided on the rear surface of the second front panel, and the panel electrode may be electrically connected in combination with a body electrode provided on the front surface of the front end plate of the air management unit.

In the present invention, the panel electrode may be formed to protrude from the rear surface of the second front panel, inserted into and coupled to the groove-shaped body electrode of the air management unit.

In the present invention, the panel electrode may be formed in a convex shape having a predetermined radius of curvature.

In the present invention, a magnet may be provided at a position corresponding to the front surface of the air management unit and the second front panel, or a magnet and a magnetic body may be provided, and the second front panel may be attached to the front surface of the air management unit by magnetic force.

In the present invention, a panel suction port may be provided at a position of the second front panel corresponding to the suction port of the air management unit, and a panel discharge port may be provided at a position corresponding to the discharge port of the air management unit, so that air can flow between the air management unit and the indoor space.

An operation portion for operation of the air management unit may be further provided at the second front panel.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; an air management unit disposed in the installation space; a first front panel provided on the second frame passing in and out from the first frame, and forming a front surface appearance of the second frame; and a second front panel, wherein a panel electrode combined with a body electrode arranged on the front surface of the air management unit is arranged on the back surface, and the combination between the panel electrode and the body electrode is arranged on the front surface of the air management unit in a detachable manner to form the appearance of the front surface of the air management unit.

In the present invention, a magnet, or a magnet and a magnetic body may be further provided at positions of the air management unit and the second front panel corresponding to each other, respectively, so that the second front panel is fixed on the front surface of the air management unit by magnetic force.

In the present invention, the panel electrode may have a prescribed radius of curvature, and may be configured as an arched protrusion.

In the present invention, the second front panel may include: a second panel body positioned on a front surface of the air management unit; the second panel side walls are respectively arranged at two side ends of the second panel main body and positioned at two side surfaces of the front end plate of the air management unit; and a lower side wall connecting the second panel side walls to each other and positioned on a lower surface of the front end panel of the air management unit.

In the present invention, a power line passing portion through which a power line extending to the outside through a lower surface of the front end plate of the air management unit passes may be further formed at the lower side wall.

In the present invention, the second front panel may cover a lower portion of the first front panel to shield it.

In the present invention, the power supplied to the air management unit via the power line may be supplied to the second front panel through the panel electrode and the body electrode.

In the present invention, the second front panel may further include an operation unit that transmits signals to and operates through the panel electrode and the main body electrode.

In the present invention, a panel suction port may be provided at a position of the second front panel corresponding to the suction port of the air management unit, and a panel discharge port may be provided at a position corresponding to the discharge port of the air management unit, so that air can flow between the air management unit and the indoor space.

In the present invention, in order to guide the insertion of the air management unit into the installation space of the installation frame, a front protrusion may be provided in the installation space, and a moving path guiding the front protrusion may be provided at the lower surface of the air management unit. Thus, the air management unit can be accurately inserted into the installation space without play.

In the present invention, in order to insert and fix the air management unit to the installation space of the installation frame, a front end protrusion may be provided at the bottom of the installation space, and a locking groove for locking the front end protrusion may be provided at the lower surface of the air management unit. With the above-described structure, the air management unit can be firmly fixed in the installation space.

In the present invention, the air management unit may be provided with an extension hook that is locked to the rear of the mounting frame by elastic force. This makes it possible to firmly fix the air management unit in the installation space.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; and an air management unit disposed in the installation space for performing air management, a front protrusion may be formed to protrude at a bottom of the installation space, and a moving passage guiding the front protrusion may be formed at a lower surface of a case constituting an external appearance of the air management unit.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; and an air management unit disposed in the installation space, wherein a front protrusion may be formed at a bottom of the installation space in a protruding manner, a locking groove for locking the front protrusion may be formed at a lower surface of a housing constituting an external appearance of the air management unit, and an extension hook locked at a rear of the first frame may be provided at a front end plate of the housing.

In the present invention, a locking screw may be penetrated to be located at an upper portion of the front end plate of the housing, and the locking screw may be fastened to a fastening hole formed at a position corresponding to the first frame.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; and an air management unit disposed in the installation space for performing air management, a front end protrusion may be formed to protrude at a bottom of the installation space, and a lower protrusion may be formed to protrude at a rear end of a lower surface of a case constituting an external appearance of the air management unit, whereby the air management unit may be inserted into an inside of the installation space of the first frame in a state where the front end protrusion contacts a lower surface of the case and the lower protrusion contacts a bottom surface of the installation space.

In the present invention, the front end protrusion may be formed obliquely toward the front direction of the mounting frame.

In the present invention, a guide protrusion made of a material having a lubrication function may be provided from the front end protrusion to the bottom rear end of the installation space.

In the present invention, the guide protrusion may have a width smaller than that of the front end protrusion.

In the present invention, a locking groove in which the front end projection is seated and locked may be formed in the moving path at a position near the front end side of the air management unit.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; and an air management unit provided in the installation space for performing air management, a front protrusion may be formed to protrude from a bottom of the installation space, and a locking groove in which the front protrusion is seated and locked may be formed at a front side of the air management unit.

In the present invention, a moving passage guiding the front protrusion may be formed at a lower surface of the case constituting an external appearance of the air management unit.

In the present invention, the lower surface of the air management unit may be formed with the lower protrusions at positions corresponding to the front and rear ends of the moving path, respectively.

In the present invention, the distance between the lower protrusions may be longer than the distance from the front end to the rear end of the bottom of the installation space.

In the present invention, the front end protrusion may be formed obliquely toward the front direction of the mounting frame.

In the present invention, a guide protrusion made of a material having a lubrication function may be provided from the front end protrusion to the bottom rear end of the installation space.

In the present invention, the guide protrusion may have a width smaller than that of the front end protrusion.

In the present invention, the lower surface of the air management unit may be formed with the lower protrusions at positions corresponding to the front and rear ends of the moving path, respectively.

In the present invention, the lower protrusion may be formed at a position corresponding to the guide protrusion, and the lower protrusion may move along the guide protrusion when the air management unit is inserted into the installation space.

In the present invention, the rear surface of the front end plate of the case constituting the external appearance of the air management unit may face the front surface of the first frame of the mounting frame. This prevents the air management unit from being detached from the inside of the installation space of the first frame to the outside of the room.

In the present invention, the upper surface of the housing body of the housing may be formed to be inclined downward toward the rear surface, and the air management unit may be rotated and inserted into the installation space of the installation frame with reference to the lower surface protrusion formed on the lower surface of the housing. Thus, the air management unit as a relative weight can be easily inserted into the mounting frame.

In the present invention, the front end plate of the housing of the air management unit is constructed in a plate shape, and the power cord may extend to the outside of the housing through one of the upper surface, the lower surface, and the side surface of the front end plate. This can simplify the structure in which the power cord extends from the air management unit to the outside.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; and an air management unit provided in the installation space for performing air management, a front end protrusion may be provided at a front end of a bottom of the installation space of the first frame, and a case constituting an external appearance of the air management unit may include: a front end plate, a rear edge of which faces a front surface of the first frame; and a housing body coupled to a rear surface of the front end plate, in which a member for air management is provided, and which is located in the installation space, wherein a lower protrusion may be formed at a position corresponding to the front protrusion at a rear end of a lower surface of the housing, and the lower protrusion may be locked by the front protrusion, so that the air management unit is rotated and enters the installation space.

In the present invention, a suction port for sucking air in the indoor space into the housing and a discharge port for discharging air into the indoor space may be formed in the front surface of the front end plate.

In the present invention, an operation portion for operating the operation of the air management unit may be further provided on the front surface of the front end plate.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; and an air management unit provided in the installation space for performing air management, the housing constituting an external appearance of the air management unit may include: a front end plate, a rear edge of which faces a front surface of the first frame; and a case body coupled to the rear surface of the front end plate, in which a member for air management is provided, and which is located in the installation space.

In the present invention, the front end plate may be formed in a plate shape, and may form an external appearance of the front surface of the case.

In the present invention, the power line for supplying power from the outside may be extended to the outside through at least one of the upper surface, the lower surface, and both side surfaces of the front end plate.

In the present invention, a groove-shaped body electrode may be formed at the front surface of the front end plate, and the body electrode is combined with a panel electrode of a second front panel provided on the front surface of the front end plate, thereby performing signal connection.

In the present invention, the front and rear ends of the lower surface of the housing may be respectively formed with lower protrusions protruding therefrom.

In the present invention, the upper surface of the housing body may be inclined downward toward the rear surface of the housing body.

In the present invention, the lower protrusion may be formed with one or more protrusions at front and rear ends of the lower surface of the case, respectively.

In the present invention, the lower protrusions may be respectively located in front of and behind a lower connection rod constituting a lower portion of the first frame when the air management unit is installed in an installation space.

In the present invention, a sealing member of an elastic material may be further provided between the rear surface edge of the front end plate and the front surface of the first frame.

In the window type air management device of the present invention, the mounting frame mounted on the window frame is provided with a locking mechanism for locking the window sash, and the window sash is provided with a window side locking mechanism fastened to the locking mechanism. According to the structure as described above, the window sash is fastened to the mounting frame and can be kept in a locked state, and therefore, the air management device can be used while maintaining the function of the window as it is.

In the window type air management device of the present invention, a push rod is provided at the installation frame, and the push rod moves the window sash away from the installation frame by a predetermined distance using an elastic force thereof when the window sash is shifted from an original locked state to an unlocked state. Thus, the window sash can be opened more easily in a state where the air management device is mounted.

The invention may include: a mounting frame having a first frame provided at a window frame for movement of a window sash and having a mounting space, and a second frame moving in and out from the first frame; an air management unit disposed in the installation space for performing air management; a locking mechanism provided at one side of the mounting frame to perform locking with the window sash; and a window side locking mechanism provided on the window sash and fastened to the locking mechanism.

In the present invention, the locking mechanism may be provided at a coupling concave-convex portion of the mounting frame, and the window-side locking mechanism may be provided at a position in the window sash coupled with the coupling concave-convex portion of the mounting frame.

In the present invention, the locking mechanism may include: a housing constituting an external appearance; a driving body reciprocally movable within the housing by a predetermined distance; a driving lever integrally moved with the driving body and protruding to the outside of the housing; a lock lever which is connected to the drive lever so as to be rotatable relative to each other, and which has a lock projection at a front end thereof, the lock projection being fastened to the window-side lock mechanism; and an operation lever that moves integrally with the driving body, is exposed to the outside of the mounting frame, and to which an operation force is transmitted.

In the present invention, the driving body may be supported by an elastic member inside the housing, whereby the locking protrusion may be subjected to elastic force to maintain a state of being locked to the window-side locking mechanism.

In the present invention, the driving body may be provided with a guide pin, and the guide pin may penetrate a guide hole formed in the housing.

In the present invention, the window side locking mechanism may include: a body plate fixed to the window; and a fastening piece provided on the main body plate and extending toward the mounting frame, and provided at a front end thereof with a fastening projection coupled to a locking lever of the locking mechanism.

In the present invention, a push lever may be further provided to the main body plate, the push lever being supported by an elastic member, and a front end thereof contacting the mounting frame, and moving the window sash in the opening direction by an elastic restoring force of the elastic member.

In the present invention, a bending portion may be further provided at the body plate, the bending portion forming an installation space for installing a portion of the push rod and the elastic member.

The invention may include: a mounting frame having a first frame provided at a window frame for movement of a window sash and having a mounting space, and a second frame moving in and out from the first frame; an air management unit disposed in the installation space for performing air management; a locking mechanism provided at one side of the mounting frame to perform locking with the window sash; a window side locking mechanism provided at the window sash and fastened with the locking mechanism; and a push lever that provides an elastic restoring force in a direction to move the window sash away from the mounting frame in a state where the mounting frame is abutted against the window sash and the locking mechanism and the window side locking mechanism are fastened.

In the present invention, the push lever may be provided at one of the window sash and the mounting frame, and a front end of the push lever may contact the mounting frame or window sash as an opposite side using an elastic restoring force.

In the present invention, one end portion of the push rod may be supported at an elastic member at a bent portion formed at a body plate bent and having a mounting space inside, the body plate being fixed to one of the window sash and the mounting frame, and a front end portion of the push rod may penetrate the bent portion and contact the window sash or the mounting frame.

In the present invention, a lever cap supporting one end of the elastic member may be provided at one end of the push lever located at the opposite side to the front end, and the lever cap may be located in the installation space of the bent portion.

In the present invention, the push rod may be provided on the sash side, and a fastening clip constituting the window side locking mechanism may be integrally provided on a body plate on which the push rod is provided.

In the present invention, a fastening projection may be formed at a front end of the window-side locking mechanism so as to extend toward the mounting frame, and in the locking mechanism, a locking lever having a locking projection may be rotatable by a predetermined angle about a rotation center, the fastening projection of the fastening projection may be fastened to the locking projection, and the fastening projection may be exposed through an opening penetrating the mounting frame.

In the present invention, the lock lever of the lock mechanism may be rotated by a predetermined angle by a driving lever coupled to a driving body reciprocally moving within a housing of the lock mechanism by a predetermined distance, and an operating lever may be coupled to the driving body, the operating lever being transmitted to a force for separating the lock lever from the fastening piece.

In the present invention, the operation lever may be provided such that a front end portion thereof is exposed to the outside of the mounting frame.

In the present invention, the locking mechanism includes a plurality of operation levers of the locking mechanism for locking with the window sash located at the indoor space side may be exposed to the outside through the front surface of the installation frame.

The invention may include: a mounting frame having a first frame provided at a window frame including a lower rail for movement of a window sash and having a mounting space, and a second frame passing in and out from the first frame; an air management unit disposed in the installation space for performing air management; a locking mechanism provided in the mounting frame at a window frame side, for locking with the window sash; a window side locking mechanism provided at the window sash and fastened with the locking mechanism; and a push lever that provides an elastic restoring force in a direction to move the window sash away from the mounting frame in a state where the mounting frame is abutted against the window sash and the locking mechanism and the window side locking mechanism are fastened.

In the present invention, the push lever may be provided at one of the window sash, the mounting frame, and the window frame, and thus, a front end of the push lever may contact one of the mounting frame, the window sash, and the window frame, which are opposite sides, using an elastic restoring force.

In the present invention, one end portion of the push rod may be supported at an elastic member at a bent portion formed at a body plate bent and having an installation space inside, the body plate being fixed at one of the window sash, the installation frame, and the window frame, and a front end portion of the push rod may penetrate the bent portion and contact one of the window sash, the installation frame, and the window frame.

In the present invention, a fastening projection may be formed at a front end of the window-side locking mechanism so as to extend toward the mounting frame, and in the locking mechanism, a locking lever having a locking projection may be rotatable by a predetermined angle about a rotation center, the fastening projection of the fastening projection may be fastened to the locking projection, and the fastening projection may be exposed through an opening penetrating the mounting frame.

In the present invention, the lock lever of the lock mechanism may be rotated by a predetermined angle by a driving lever coupled to a driving body reciprocally moving within a housing of the lock mechanism by a predetermined distance, and an operating lever may be coupled to the driving body, the operating lever being transmitted to a force for separating the lock lever from the fastening piece.

In the present invention, the operation lever of the locking mechanism may be disposed in an exposed manner such that a front end portion thereof is located outside the mounting frame.

In the present invention, the locking mechanism may include a plurality of locking mechanisms, wherein an operation lever of the locking mechanism for locking with the window sash located at the indoor space side may be exposed to the outside through the front surface of the installation frame.

In the present invention, the first front panel is provided on the second frame which moves in and out of the first frame, so that the space created by the movement of the second frame is shielded from the indoor space. Thus, the entire front surface of the second frame can be shielded regardless of the moving distance of the second frame, and the appearance of the air management device can be more beautiful.

In the present invention, when the first front panel shielding the front surface of the second frame is mounted on the front surface of the second frame, the guide protrusion of the first front panel may be positioned in the moving slot formed on the front end plate of the air management unit. Thus, the first front panel can perform a shielding function irrespective of the moving distance of the second frame, so that the present invention can be used in window frames of various sizes.

In the present invention, the guide protrusions at both ends of the lower portion of the first front panel can be inserted into the moving slot through the moving slot entrance opening to the front surface of the front end plate of the air management unit. This makes it possible to perform the work of attaching the first front panel to the second frame very easily.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; an air management unit disposed in the installation space; and a first front panel provided on the second frame passing in and out from the first frame, and forming a front surface appearance of the second frame.

In the present invention, the first front panel may include: a first panel body located at a front surface of the second frame; and first panel side walls respectively provided at both side ends of the first panel body, a portion of the first panel side walls facing a side surface of the front end plate of the air management unit.

In the present invention, guide protrusions may be provided at lower portions of the first panel side walls, respectively, in moving slots formed on the front end panel side of the air management unit, and may be movable.

In the present invention, protruding pieces having a narrower width as they come closer to the front end may be formed at the lower portions of the first panel side walls, respectively, and the guide protrusions may be formed at the front ends of the protruding pieces.

In the present invention, the guide protrusions are disposed to face each other, and enter into the moving slot through moving slot inlets formed at both side edges of the front surface of the air management unit.

In the present invention, a panel locking piece coupled to the front surface of the second frame may be provided at an upper portion of the first front panel.

In the present invention, the panel locking pieces may be formed at both side ends of the upper portion of the first front panel.

In the present invention, the panel locking piece may be formed to protrude from a front end of a first panel sidewall provided at both side ends of the first front panel.

The invention may include: a mounting frame having a first frame provided at the window frame and having a mounting space, and a second frame coming in and out from the first frame; an air management unit disposed in the installation space; and a first front panel connected to an upper portion of the second frame, a lower portion of the first front panel being connected to a front end plate side of the air management unit, thereby forming a front surface appearance of the second frame and a front end plate upper appearance of the air management unit.

In the present invention, the first front panel may include: a first panel body located at a front surface of the second frame; first panel side walls respectively provided at both side ends of the first panel body, a portion of which faces a side surface of the front end plate of the air management unit; a panel locking piece arranged on the upper part of the side wall of the first panel and combined with the second frame; and guide protrusions respectively arranged at the lower part of the side wall of the first panel and locked at the air management unit.

In the present invention, the guide protrusions may be formed to protrude in a direction facing each other at protruding pieces respectively formed at a lower portion of the first panel sidewall.

In the present invention, the protruding piece is formed to be narrower in width as it is closer to the lower portion, and the guide protrusion may be formed at the front end of the protruding piece.

In the present invention, the guide protrusion may move along and be positioned at a moving slot formed on a side of the front end plate of the air management unit.

In the present invention, a moving slot entrance, which is an entrance of the guide protrusion into the moving slot, may be formed at both side edges of the front surface of the front end plate of the air management unit.

In the present invention, a second front panel covering a front surface of the air management unit and a portion of the first front panel may be further provided.

In the present invention, second panel side walls may be respectively provided at both side ends of the second front panel, and the second panel side walls may cover the moving slots respectively formed at both side surfaces of the front end panel of the air management unit.

In the present invention, the second front panel may further be provided with a lower side wall connecting between lower portions of the second panel side walls, so that a lower surface of the front end panel of the air management unit can be shielded.

In the present invention, the second frame may protrude from the first frame of the mounting frame and be coupled to the corresponding window frame by a pressing action of the action key. Thus, when the worker presses the operation key in a state that the window frame is provided with the installation frame, the second frame is coupled to the window frame, thereby enabling the worker to install the installation frame at the window frame by himself, and install the air management unit at the installation space.

In the present invention, the air management unit is rotated and entered into the installation space of the installation frame installed on the window frame, and the air management unit is pushed in a straight-line movement manner, thereby inserting the air management unit in the installation space. Thus, the air management unit as a weight can be more easily inserted and installed in the installation space.

In the present invention, the installation frame is coupled to the window frame using the operation key in a state that the installation frame is supported on the support frame, and the air management unit is installed at the installation frame. Thus, in the case of installing the air management unit in the window frame having various sizes, the function of the window can be maintained as it is.

In the present invention, the installation frame is configured such that the second frame is moved in and out from the first frame, the installation frame is installed at the window frame, and the air management unit is installed in an installation space of the installation frame, and the installation method may include: a step of arranging a first frame of the mounting frame on the window frame in a manner of being combined with the concave-convex part of the window frame; a step of pressing the action key to make the second frame protrude from the first frame, so that the second frame is combined with the concave-convex part on the opposite side of the window frame provided with the first frame; and inserting the air management unit into an installation space formed on the first frame.

In the present invention, the installation frame is configured such that the second frame is moved in and out from the first frame, the installation frame is installed at the window frame, and the air management unit is installed in an installation space of the installation frame, and the installation method may include: a step of arranging a first frame of the mounting frame on the window frame in a manner of being combined with the concave-convex part of the window frame; a step of projecting the second frame from the first frame so that the second frame is coupled to the concave-convex portion of the opposite side of the window frame where the first frame is installed; and a step of rotating the air management unit around the front end of the lower part of the first frame and entering the installation space formed on the first frame, pushing the air management unit and inserting into the installation space.

In the present invention, the lower protrusion formed at the rear end of the lower surface of the air management unit is locked to the front protrusion formed at the front end of the bottom of the installation space, so that the air management unit can rotate around the front end of the lower portion of the first frame.

In the present invention, the lower protrusion is disposed at a guide protrusion extending from the front protrusion toward the bottom rear end of the installation space and moves, in which the air management unit can be inserted into the installation space.

In the present invention, the air management unit is guided along the inclination of the front-end protrusion during the passage of the lower protrusion through the bottom of the installation space, so that the lower surface of the air management unit can be seated at the bottom of the installation space.

In the present invention, before the first frame is mounted on the window frame, a first external cover and a second external cover may be mounted on the rear surface of the mounting frame.

The present invention may further include: and a step of causing the mounting frame to move closely to the vertical member of the window frame in a state where the second frame is coupled to the concave-convex portion of the window frame.

The present invention may further include: and a step of combining and locking the window sash on the outer surface of the mounting frame in a state that the mounting frame is closely attached to the vertical member of the window frame.

The present invention may further perform the step of combining the first front panel at the second frame, thereby shielding the front surface upper portion of the air management unit inserted in the installation space and the front surface of the second frame.

In the present invention, the guide protrusions at both side ends of the first front panel may be inserted into the moving slots through the moving slot inlets at both side ends of the front surface of the air management unit and moved, thereby coupling the first front panel to the front surface of the second frame.

In the present invention, a second front panel may be further provided at a front surface of the air management unit so as to shield a lower portion of the first front panel and the front surface of the air management unit.

In the present invention, the panel electrode provided on the rear surface of the second front panel shielding the front surface of the air management unit may be inserted into the body electrode of the air management unit and coupled to the front surface of the air management unit using the magnetic force of the magnet.

In the present invention, the mounting frame is configured such that the second frame is moved in and out from the first frame and supported on a support frame provided on the window frame, and the air management unit is mounted in a mounting space of the mounting frame, and the mounting method thereof may include: a step of arranging the lower surface of the support frame on the window frame in a manner of being combined with the concave-convex part of the window frame; a step of bonding a first frame of the mounting frame to the support frame; a step of pressing the action key to make the second frame protrude from the first frame, thereby combining the second frame at the concave-convex part of the opposite side of the window frame provided with the support frame; and inserting the air management unit into an installation space formed on the first frame.

In the present invention, in the step of inserting the air management unit into the installation space, the air management unit may be rotated centering on the lower front end of the first frame and may be introduced into the installation space, and the air management unit may be pushed and inserted into the installation space.

In the present invention, a lower protrusion formed at a rear end of a lower surface of the air management unit may be caught at a front protrusion formed at a front end of a bottom of the installation space, thereby rotating the air management unit about a lower front end of the first frame.

In the present invention, the lower protrusion is disposed at a guide protrusion extending from the front protrusion toward the bottom rear end of the installation space and moves, in which the air management unit can be inserted into the installation space.

In the present invention, the air management unit may be guided along the inclination of the front-end protrusion during the passage of the lower protrusion through the bottom of the installation space, so that the lower surface of the air management unit is seated at the bottom of the installation space.

The present invention may further include: and a step of mounting a front cover on the front surface of the support frame and mounting a rear cover on the rear surface of the support frame.

In the present invention, the rear cover may be mounted on the support frame before the support frame is mounted on the window frame.

In the present invention, the support frame may be used such that the installation frame in which the air management unit is installed is located at a height above a certain size within the window frame. Thus, the second frame of the mounting frame is positioned at a position where it can be coupled to the upper portion of the window frame using the support frame, so that the function of the window to which the air management device is mounted can be reliably maintained.

The invention may include: a support frame positioned within the window frame; a mounting frame having a first frame having a mounting space therethrough and a second frame passing in and out from the first frame, the mounting frame being seated on the supporting frame; and an air management unit disposed in the installation space for performing air management, and the support frame includes a plurality of coupling concavities and convexities disposed around an outer surface thereof and coupled with the concavities and convexities of the window frame, the window sash, and the installation frame.

In the present invention, the support frame may include: a first connecting member; a second connecting member parallel to the first connecting member; a first column connecting one end of the first connecting member and one end of the second connecting member; and a second column connecting the other end portion of the first connecting member and the other end portion of the second connecting member.

In the present invention, the plurality of coupling concave-convex portions may include: a first coupling concave-convex portion located at a lower surface of the first coupling member and movably coupled to a lower rail provided on a lower rail of the window frame; the second combination concave-convex part is arranged on the outer surface of the first column and is combined with the vertical concave-convex part arranged on the vertical rod of the window frame; a third coupling concave-convex portion provided on an outer surface of the second column and coupled to the concave-convex portion of the window sash; and a fourth coupling concave-convex portion provided on an upper surface of the second connection member, and coupled to a concave-convex portion of a lower surface of the mounting frame.

In the present invention, the first coupling concavo-convex portion of the support frame may extend left and right along the front and rear ends of the lower surface of the first coupling member such that the first coupling member is located at an area between the end bosses provided at the front and rear ends of the lower rail of the window frame.

In the present invention, the first coupling concave-convex portion may be formed to protrude from a lower surface of the first coupling member, a lengthwise groove may be formed inside the first coupling concave-convex portion such that a rail of a lower rail of the window frame is inserted into and coupled with the groove, and the fourth coupling concave-convex portion may be formed to protrude from an upper surface of the second coupling member so as to be coupled with a concave-convex portion formed on a lower surface of the mounting frame.

In the present invention, the second connecting member may further include a locking piece inserted into and locked to a coupling groove formed on a lower surface of the mounting frame.

In the present invention, the locking piece may be formed in the fourth coupling concave-convex portion.

In the present invention, the second coupling recess and protrusion formed on the outer surface of the first column may be formed to extend up and down so as to be coupled with the vertical recess and protrusion formed on the vertical rod of the window frame, and the third coupling recess and protrusion formed on the outer surface of the second column may be formed to extend up and down so as to be coupled with the recess and protrusion of the window sash.

In the present invention, the second coupling concave-convex portion may be formed to protrude from an outer surface of the first column, a groove into which the vertical concave-convex portion is inserted may be formed inside the second coupling concave-convex portion, and the third coupling concave-convex portion may be formed to protrude from an outer surface of the second column and be inserted into a groove formed on the window sash.

In the present invention, a front cover shielding an inner space formed inside the support frame from an indoor side may be provided at a front surface of the support frame, and a rear cover shielding the inner space from an outdoor side may be provided at a rear surface of the support frame.

In the present invention, a front locking piece and a cover locking hole coupled to each other may be formed at corresponding positions of the front surfaces of the front cover and the support frame, and a rear locking piece and a cover locking hole coupled to each other may be formed at corresponding positions of the rear surfaces of the rear cover and the support frame.

The invention may include: a support frame positioned in the window frame and combined with the window frame and a window sash installed in the window frame; a mounting frame having a first frame having a mounting space therethrough and a second frame passing in and out from the first frame, the mounting frame being seated on the supporting frame; and an air management unit provided at the installation space for performing air management, a front cover may be provided at a front surface of the support frame to shield an inner space penetrating the support frame from front to rear from an indoor side, and a rear cover may be provided at a rear surface of the support frame to shield the inner space from an outdoor side.

In the present invention, the front cover may include: a front cover body having a plate shape shielding a front surface and an inner space of the support frame; and front cover side walls respectively arranged at two side ends of the front cover main body and combined with the front surface of the supporting frame.

In the present invention, the rear cover may include: a rear cover body having a plate shape shielding a rear surface and an inner space of the support frame; and rear cover side walls respectively provided at both side ends of the rear cover body and coupled to a rear surface of the support frame.

In the present invention, the front cover side wall and the front surface of the support frame, the rear cover side wall and the rear surface of the support frame may be provided with locking pieces and cover locking holes at positions corresponding to each other and coupled to each other.

In the present invention, the front cover side wall may have the same width as the front-rear width of the front end plate of the air management unit.

In the present invention, a heat insulator made of a heat insulating material may be provided in the internal space.

The window air management device of the present invention may have one or more of the following effects.

The mounting frame used in the present invention may be mounted on a rail of a window frame in which a window sash is openably and closably provided in a manner of mounting the window sash. In this way, the mounting frame can not only move relative to the rail of the window frame, but also prevent detachment from the window frame, and further, since the mounting frame is mounted and dismounted in a state in which the second frame is housed in the first frame, the mounting frame can be mounted and dismounted on the window frame very easily.

The mounting frame used in the present invention may be located in the region between the end bosses constituting the window frame. Therefore, the mounting frame does not protrude to the indoor side and the outdoor side of the window frame, and can be positioned in the upper rail and the lower rail of the window frame. Thus, the mounting frame does not protrude to the indoor side or the outdoor side, and the space can be used well.

The mounting frame used in the present invention is in the same way as the window sash is mounted on the window frame, and the second frame protrudes from the first frame and is coupled to the rail of the upper rail. Thereby, the mounting frame is movably coupled to both the upper rail and the lower rail of the window frame, and the mounting state of the mounting frame becomes firm, so that the mounting state of the air management unit can be made firm.

In the mounting frame used in the present invention, the first frame may be coupled to a rail of the lower rail of the window frame, and the second frame is lifted from the first frame with its upper portion coupled to a rail provided in the upper rail of the window frame. That is, the structure in which the mounting frame is mounted to the window frame may be the same as the structure in which the window sash is mounted to the window frame. Thus, the mounting frame can be mounted on the window frame and separated without using any additional tool, so that anyone can easily mount and separate the mounting frame on the window frame.

In the window air management device according to the present invention, since the structure for guiding the flow of air outside the room is formed by the first outer cover and the second outer cover that are separated, even if the window air management device is mounted on a window having a different height of the window frame, the structure for guiding the flow of air outside the room can be located on the entire mounting frame, and thus the flow of air outside the room can be smoothly performed.

In particular, the first outer cover may be provided to the second frame that moves on the mounting frame and integrally moves. Therefore, as long as the first outer cover is provided at the second frame, the first outer cover can be moved in the size of the second frame to be moved in conformity with the height of the window frame, and the operator can conveniently provide the first outer cover and the second outer cover at desired positions outside the installation frame.

In addition, the first and second exterior covers used in the present invention are formed so that structures mounted on the mounting frame are vertically symmetrical at the respective upper and lower portions, and therefore, the first and second exterior covers may be mounted upside down. Thus, the first louver of the first outer cover and the second louver of the second outer cover can be inclined in opposite directions to each other, so that the direction of guiding the air flow between the outdoor space and the outdoor side of the air management unit can be selected from the upper direction and the lower direction, and the inflow of moisture from the outdoor space into the inside of the installation frame can be cut off according to the installation environment of the air management device.

In the present invention, since the second frame protrudes from the first frame when the operation key is pressed, the operator can install the installation frame in the window frame by protruding the second frame by pressing the operation key in a state where the operator installs the first frame in the window frame. Thus, the worker can easily perform the mounting work of the mounting frame by himself.

In the present invention, since the air pressure or the elastic force is used as the driving force for projecting the second frame from the first frame, the second frame can be continuously moved with respect to the first frame, and the second frame can be accurately abutted against the window frame regardless of the height of the window frame. Thus, a gap is not formed between the window frame and the mounting frame, the mounting state of the mounting frame is firm, and problems such as water leakage can be avoided.

Furthermore, in the present invention, a guide post may be provided so that a track of movement of the second frame with respect to the first frame may be accurately guided. Thus, the second frame is moved along an accurate trajectory with respect to the first frame, and the operational characteristics of the second frame are improved.

Further, in the present invention, a damping mechanism may be provided so that the moving speed of the second frame with respect to the first frame can be controlled. This prevents the second frame from being operated abruptly with respect to the first frame, and allows the second frame to be operated softly.

The present invention may be provided with a locking plate capable of fixing a state in which the second frame protrudes with respect to the first frame. The locking plate can be rotated not only by a screw driver but also by copper money, thereby enabling the relative position between the first frame and the second frame to be more simply and firmly fixed. Of course, the position of the second frame may be maintained by the pushing member, and the lock plate is not necessarily provided, but if any, the lock plate can cope with a case where the pushing member fails to operate normally.

In the window air management device of the present invention, the second front panel may be detachably provided on the front surface of the air management unit. Thereby, the second front panel forms the front surface appearance of the air management device, so that the design of the front surface of the air management unit shielded by the second front panel can be made more free.

The fixing of the second front panel to the air management unit may be achieved by inserting the convex-shaped panel electrode into the groove of the main body electrode of the air management unit, and by using the magnetic force of the magnet. This allows the second front panel to be replaced easily, and the second front panel can be replaced easily in accordance with the use environment.

In the present invention, the operation portion is provided on a second front panel forming the front surface appearance of the air management unit, and the second front panel is detachable from the air management unit. That is, when the second front panel is mounted on the front surface of the air management unit, signal connection between the air management unit and the operation portion of the second front panel can be automatically achieved. This makes it possible to more easily perform the assembly work of the air management device.

In the present invention, in order to guide the insertion of the air management unit into the installation space of the installation frame, a front-end protrusion may be provided at a bottom front end of the installation space, and a moving passage guiding the front-end protrusion may be provided at a lower surface of the air management unit. By guiding the front end projection along the moving path, the air management unit can be accurately inserted into the installation space of the installation frame.

In the present invention, a front protrusion is provided at the bottom of a mounting space of a mounting frame provided for an air management unit, and the front protrusion is locked in a locking groove formed on the lower surface of the air management unit. This makes it possible to more firmly fix the air management unit in the installation space.

In particular, in the present invention, the front end plate of the air management unit is provided with a rear extension hook that operates by elastic force, and the rear extension hook can be locked to the mounting frame. Thus, the air management unit can be firmly fixed to the mounting frame by engaging the rear extension hook with the mounting frame.

In the present invention, the worker can perform the operation of locking the air management unit to the front end projection of the mounting frame and the operation of locking the rear extension hook to the mounting frame by himself without using an additional tool. Thus, the worker can position the air management unit in the installation space of the installation frame by himself.

The air management unit inserted into the installation space of the installation frame may be firmly fastened to the installation frame by a front protrusion, a locking groove, a rear extension hook, or the like, and the air management unit may be fastened to the installation frame by a locking screw in order to lock the fastened state. Therefore, in the present invention, the user can easily lock the state in which the air management unit is mounted on the mounting frame. Here, the locking screw may be locked and unlocked not only using a tool such as a screwdriver, but also using copper money or the like.

In the present invention, the front end plate of the housing constituting the external appearance of the air management unit is constructed such that the rear surface thereof may face the front surface of the first frame of the mounting frame. Therefore, even if the air management unit is pushed to the outdoor side, the back surface of the front end plate is caught on the front surface of the mounting frame, so that the air management unit cannot move further to the outdoor side. This makes it possible to make the mounting state of the air management unit more secure.

In particular, since the lower protrusions formed at the front and rear ends of the lower surface of the housing of the air management unit are respectively located in front of and behind the lower connection bar of the installation frame, it is possible to maintain a state in which the air management unit is seated in the installation space of the installation frame, so that the installation state of the air management unit can be firmly maintained.

Further, the upper surface of the housing body of the air management unit is formed obliquely so as not to interfere with the mounting frame when entering the mounting space, and the air management unit may be rotated so as to enter the mounting space with reference to the lower protrusion provided at the rear end and the front end protrusion of the mounting frame, and then pushed to be inserted into the air management unit. Thus, the air management unit as a weight can be more easily inserted into the installation space of the installation frame.

In the present invention, the front end plate of the case is constructed in a plate shape, and the power cord may extend to the outside of the case through one of the upper surface, the lower surface, and the side surface of the front end plate. Since the front end plate is located in front of the installation frame, when the power cord is extended to the outside through one of the upper surface, the lower surface and the side surface of the front end plate, it is not necessary to provide a structure through which the power cord passes in the installation frame, the window frame or the like, and thus the installation work of the air management device can be more easily performed.

Further, by forming the front end plate of the housing in a plate shape, a portion of the air management device protruding further toward the indoor side than the window sash can be minimized, and the volume of the air management device occupying the indoor space can be minimized.

In the present invention, a mounting frame provided on a window frame is provided with a locking mechanism having an operation lever capable of being operated in an indoor space, and a window-side locking mechanism fastened to the locking mechanism may be provided to a window sash. In this way, the window sash can be fastened to the mounting frame to maintain the locked state, and the mounting frame and the window sash can be firmly fastened, so that the wind resistance, heat insulation, air tightness, water tightness, sound insulation, and the like can be optimized.

Further, in the present invention, when the operation lever of the locking mechanism is operated in the indoor space, the locking state between the window sash and the installation frame is released, and thus, the user can more easily open the window sash, and in particular, when the locking state between the window sash and the installation frame is released by the operation of the operation lever, the push lever separates the window sash from the installation frame by a predetermined distance, and thus, the window sash can be more easily opened.

In the window air management device of the present invention, the protruding length of the second frame with respect to the first frame is different according to the height of the window frame, and the first front panel may shield the front surface of the second frame regardless of the moving distance of the second frame. Thus, the front surface appearance of the air management device can be more beautiful.

In the window type air management device of the present invention, the upper end of the first front panel is coupled to the second frame, and both sides of the lower portion of the first front panel may be positioned in a moving slot formed on the front end plate of the air management unit. According to such a structure, both sides of the lower portion of the first front panel move along and are located within the moving slot, and thus a portion of the second frame and the air management unit can be shielded by the first front panel regardless of the distance the second frame moves. Thus, the first front panel provided can be applied to various window frames.

In the window type air management device of the present invention, the guide protrusions at both ends of the lower portion of the first front panel may be inserted into the moving slot through the moving slot entrance opened to the front surface of the front end plate of the air management unit, and the first front panel may be mounted to the second frame by moving the guide protrusions along the moving slot. This makes it possible to perform the work of attaching the first front panel to the second frame very easily.

In particular, the width of the protruding piece of the front end of the side wall of the first panel provided at both ends of the first front panel is narrower as it approaches the front end, and the guide protrusion is provided at the front end of the protruding piece, so that when the guide protrusion is inserted into the moving slot entrance of the air management unit, the worker can easily confirm the moving slot entrance, and thus the first front panel can be easily installed.

In the present invention, when the operation key is pressed to protrude the second frame from the first frame in a state that the first frame of the mounting frame is coupled with the concave-convex portion of the window frame, the second frame is coupled with the concave-convex portion of the window frame on the opposite side of the concave-convex portion of the window frame on which the first frame is mounted. Thus, the operator can fix the mounting frame to the window frame by himself.

In the present invention, the air management unit as a weight may be rotated to enter the installation space in a state in which the rear end of the lower surface of the air management unit is locked to the front end protrusion provided at the bottom front end of the installation space of the installation frame. Then, when the air management unit entered into the installation space is pushed to move straight, the installation of the entire air management unit in the installation space can be achieved. By the above-described operation, the worker can easily install the air management unit as a weight, and can easily perform the operation of inserting the air management unit into the installation space of the installation frame.

In the present invention, the height of the installation frame can be maintained to a certain size or more by providing the support frame on the relatively large window frame. Thus, by using the support frame to ensure that the second frame of the mounting frame can be coupled to the concave-convex portion of the window frame, when the window type air management device is mounted on the window frame, the air management device can be mounted on window frames of various sizes while maintaining the function of the window as it is.

In the present invention, the support frame may be used such that the mounting frame to which the air management unit is mounted is located at a position above a certain height. Thus, even in the case where the air management unit cannot be mounted only by the mounting frame due to the large window frame, the air management device can be mounted while maintaining the function of the window using the support frame.

In the present invention, the support frame used is the same as that for mounting the window sash on the window frame, and thus, the support frame can be simply mounted on the window frame. This is because the support frame and the mounting frame can be mounted at the window frame by using the support frame and disposing the mounting frame on the support frame and then protruding the second frame. Thereby, the support frame and the mounting frame can be mounted to the window frame very simply.

In the support frame used in the present invention, the first connection member may be coupled to a rail of a lower rail of the window frame, the first column is coupled to a vertical member of the window frame, and the second column is coupled to the window sash. Thus, the structure of mounting the support frame to the window frame may be nearly identical to the structure of mounting the window sash to the window frame. Thus, the support frame can be mounted to and separated from the window frame without using an additional tool, and thus, it is possible to easily mount and separate the support frame to and from the window frame by anyone.

The support frame used in the present invention may be located in the area between the end bosses constituting the window frame. Thus, the support frame does not protrude to the indoor side and the outdoor side of the window frame, but may be located in the lower rail of the window frame. Also, the mounting frame placed on the support frame may also be located in the upper rail of the window frame. Therefore, the support frame and the mounting frame do not protrude to the indoor side or the outdoor side, so that the space can be utilized well.

Drawings

Fig. 1 is an exploded perspective view showing a preferred embodiment of the window type air management device of the present invention in a state in which a mounting frame and an air management unit are separated.

Fig. 2 is a perspective view illustrating a case where the window type air management device of the present invention is installed in a window frame of a window.

Fig. 3 is a perspective view showing a mounting frame constituting an embodiment of the present invention.

Fig. 4 is a perspective view of the mounting frame shown in fig. 3 from above.

Fig. 5 is an exploded perspective view showing the mounting frame shown in fig. 3 in a state in which the first frame and the second frame are separated and seen from the rear.

Fig. 6 is a perspective view showing a state in which the second frame is raised with respect to the first frame in the mounting frame shown in fig. 3.

Fig. 7 is a front view of the mounting frame shown in fig. 6 from the front.

Fig. 8 is a rear view from the state of the mounting frame shown in fig. 6.

Fig. 9 is a perspective view illustrating the inside of a state in which a first exterior cover and a second exterior cover used in the window type air management device of the present invention are coupled.

Fig. 10 is an exploded perspective view showing the structure of fig. 9 in a state in which the first and second external covers are separated.

Fig. 11A is a perspective view and a cross-sectional view showing a state in which the louvers of the first and second outer covers are disposed obliquely upward, and fig. 11B is a perspective view and a cross-sectional view showing a state in which the louvers of the first and second outer covers are disposed obliquely downward.

Fig. 12 is an exploded perspective view showing a structure of a moving mechanism for raising a first frame relative to a second frame in the mounting frame of the present invention.

Fig. 13 is a sectional view showing a linkage link of a moving mechanism provided in a first base of a first frame in a mounting frame of the present invention and a peripheral structure thereof.

Fig. 14A is a sectional view taken along line D14A-D14A of fig. 3, and fig. 14B is a sectional view taken along line D14B-D14B of fig. 14A.

Fig. 15A is a cross-sectional view showing a state where the second frame is protruded at a position corresponding to fig. 14A, and fig. 15B is a cross-sectional view taken along line D15B-D15B of fig. 15A.

Fig. 16 is a cross-sectional view taken in the transverse direction at an upper end portion of a first frame constituting a mounting frame of an embodiment of the present invention.

Fig. 17 is a perspective view showing the structure of a lock plate that fixes a second frame provided in a first frame of an embodiment of the present invention.

Fig. 18 is a perspective view showing an air management unit of the present invention.

Fig. 19 is a bottom perspective view of the structure of the air management unit shown in fig. 18 from below.

Fig. 20 is a sectional view taken along line D20-D20 of fig. 18 showing a structure for fastening the air management unit of the present invention to the mounting frame.

Fig. 21 is an exploded perspective view of the structure of the first front panel and the second front panel constituting the front appearance of the window type air management device of the present invention, seen from the front.

Fig. 22 is an exploded perspective view of the structure of the first front panel and the second front panel of fig. 21 from the rear.

Fig. 23 is a perspective view showing a state in which a first front panel is mounted in front of an air management unit of the present invention but a second front panel is not yet mounted.

Fig. 24 is a perspective view showing a state in which a first front panel and a second front panel are mounted in front of the air management unit of the present invention.

Fig. 25 is a sectional view taken along line D25-D25 of fig. 4.

Fig. 26 is a perspective view showing the first locking mechanism of the present invention.

Fig. 27 is a sectional view taken along line D27-D27 of fig. 26.

Fig. 28 is a perspective view showing a case where the first locking mechanism and the window side locking mechanism are combined.

Fig. 29 is a perspective view showing a case where the second locking mechanism and the window side locking mechanism are combined.

Fig. 30A to 30C are sectional views showing a process of combining the second locking mechanism and the window side locking mechanism.

Fig. 31 is a perspective view showing the structure of the support frame of the present invention.

Fig. 32 is an exploded perspective view showing a structure of the support frame of fig. 31 in a separated state.

Fig. 33 is a front view, shown with the front and rear covers removed from the support frame of fig. 31.

Fig. 34 is a sectional view showing a structure in which a lower portion of the mounting frame and an upper portion of the support frame of the present invention are combined.

Fig. 35A is a perspective view showing a state of being mounted on a window in a state where a first frame of the mounting frame receives a second frame, and fig. 35B is a perspective view showing a state where the second frame is lifted from the first frame and coupled to a window frame of the window.

Fig. 36 is a perspective view showing a state where the window frame of the window is coupled to the mounting frame after removing the vertical bar in the state of fig. 35B.

Fig. 37 is a perspective view showing a state in which the air management unit is located in front of the installation space in the state of fig. 36.

Fig. 38A to 38D are operation state diagrams sequentially showing a process of installing an air management unit at an installation frame in the present invention.

Fig. 39 is a perspective view showing a case where the first front panel is mounted on the air management unit and the mounting frame in the present invention.

Fig. 40 is a perspective view showing a case where a first front panel is installed and a second front panel is installed in the present invention.

Fig. 41 is a perspective view showing a state in which the first and second front panels are mounted but the window sash is not coupled to the mounting frame in the present invention.

Fig. 42 is a perspective view showing a state in which the window sash is closed in fig. 41 so that the first and second locking mechanisms are fastened to the window side locking mechanisms, respectively.

Fig. 43 is a perspective view showing the state of fig. 42 from the indoor side.

Fig. 44 is a perspective view showing a state where a mounting frame is provided above a support frame so as to be positioned in a window frame of a window.

Fig. 45 is a perspective view showing a state in which the second frame of the installation frame is lifted up and coupled to the window frame in the state of fig. 44.

Fig. 46 is a perspective view illustrating a process of inserting the air management unit into the installation space of the installation frame in the state of fig. 45.

Fig. 47 is a perspective view showing a case where the first front panel is mounted on the mounting frame and the front cover is mounted on the support frame.

Fig. 48 is a perspective view showing a case where the second front panel is mounted in front of the air management unit.

Fig. 49 is a perspective view of a state in which the installation frame is provided above the support frame as seen from the indoor side, and the air management unit is installed in the installation frame to complete the installation.

Fig. 50 is a perspective view of the state of fig. 49 from the outside.

Description of the reference numerals

10: A window frame; 12: an upper cross bar; 12': an upper rail; 12': an end boss; 14: a lower cross bar; 14': a lower rail; 14'. An end boss; 16: a vertical rod; 16': vertical concave-convex parts; 20: window sashes; 22: a window sash frame; 24: a transparent member; 100: a mounting frame; 100': an installation space; 101: a first frame; 101': a first base; 101' a: a coupling groove; 101': a first frame; 102: a second frame; 104: a first coupling concave-convex portion; 106: a second coupling concave-convex portion; 108: a third coupling concave-convex portion; 108': a support sheet; 108'. An opening; 110: fourth coupling concave-convex portions; 112: the front end is convex; 114: a guide protrusion; 116: an action key; 118: a locking plate; 118': a connecting shaft; 119: a fixed cam; 119': a space holding surface; 119'. Tightly attaching the surfaces; 120: a lower connecting rod; 122: a first lever; 124: a second lever; 126: an upper connecting rod; 126': a handle through hole; 127: a fastening hole; 128: a first locking slit; 130: a lifting space; 132: a first leg; 134: a second leg; 136: a connecting member; 138: a second elongated concave-convex portion; 140: a third elongated concave-convex portion; 142: a handle; 143: a second locking slit; 144: a locking piece; 146: moving the slit; 148: a folding plate; 150: a first outer cover; 152: a first cover main body; 153: a first cover sidewall; 154: a first louver; 154': a first through hole; 156: a first elongate rib; 158: a first locking slit; 160: a second outer cover; 162: a second cover main body; 163: a second cover sidewall; 163': a first connecting wall; 163'. A second connecting wall; 164: a second louver; 164': a second through hole; 166: a second elongated rib; 168: a second locking piece; 169: an interference preventing slit; 170: a moving mechanism; 171: a motion guide; 171': an elastic member; 172: a linkage coupling; 173: a coupler guide; 174: an extension coupling; 176: a locking coupling; 175: a linkage locking piece; 177: a locking protrusion; 178: a connecting sheet; 179: a restoring member; 180: a pushing member; 182: a housing; 184: a feeding and discharging rod; 190: a guide post; 192: a damping mechanism; 194: a damping body; 195: a pinion gear; 196: a rack; 200: an air management unit; 202: a housing; 204: a front end plate; 206: a housing body; 208: an indoor suction inlet; 209: a chamber discharge port; 209': an adjusting wing; 210: an operation unit; 212: a body electrode; 213: a power line; 214: moving the slot; 216: moving the slot entrance; 218: an outdoor inlet and outlet; 220: a moving channel; 222: a locking groove; 224: the lower surface is convex; 226: a through hole; 228: a head mounting groove; 230: a locking screw; 232: a screw head; 234: a screw body; 236: releasing the key; 238: a key main body; 240: a stopper; 242: a key housing; 244: a key recovery member; 246: the hook is extended at the rear; 248: a fastening protrusion; 250: a first front panel; 252: a first panel body; 254: a first panel sidewall; 255: a connecting wall; 256: a panel locking piece; 257: a protruding piece; 258: a guide protrusion; 260: a second front panel; 262: a second panel body; 264: a second panel sidewall; 265: a lower sidewall; 265': a power line passing portion; 266: a panel electrode; 268: a panel cut-out portion; 270: a panel suction inlet; 272: a panel discharge port; 274: an operation unit; 276: a magnet; 276': a magnetic body; 280: a first locking mechanism; 280': a second locking mechanism; 282: a housing; 282': a guide hole; 284: a driving body; 284': a guide pin; 284'. An elastic member; 286: driving the lever; 286': a connecting pin; 287: a locking lever; 287': a rotation center; 287'. A locking protrusion; 288: operating the lever; 290: a window side locking mechanism; 292: a main body plate; 294: a bending part; 294': an installation space; 296: a push rod; 296': a pole cap; 297: an elastic member; 298: a fastening clip; 298': a locking protrusion; 300: a support frame; 300': an inner space; 302: a first connecting member; 304: a second connecting member; 306: a first column; 308: a second column; 310: a cover locking hole; 312: a first coupling concave-convex portion; 314: a second coupling concave-convex portion; 316: a third coupling concave-convex portion; 318: fourth coupling concave-convex portions; 319: a locking piece; 320: a front cover; 322: a front cover body; 324: a front cover sidewall; 326: a front locking piece; 330: a rear cover; 332: a rear cover body; 334: a rear cover sidewall; 336: the back is blocked with a piece.

Detailed Description

The window type air management device of the invention can be arranged on a window of a living space or an office space to play a role in managing air in the living space or the office space. For example, the temperature, humidity, air quality, etc. of the air in the corresponding space may be managed.

Before explaining the structure of the window type air management device of the present invention, the structure of a window to which the window type air management device is attached will be briefly described with reference to fig. 2 and 35A.

The window may be constituted by a window frame 10 and a sash 20. The window frame 10 forms an outer contour of a window, and a window sash 20 may be openably and closably provided on the window frame 10. By opening the window sash 20, communication between the indoor space and the outdoor space is enabled. The window frame 10 may be coupled in a quadrangular shape by upper and lower rails 12 and 14 parallel to each other and vertical bars 16 respectively connecting between the upper and lower rails 12 and 14 at both side ends.

An upper rail 12 'guiding the upper movement of the window sash 20 may be provided at the upper rail 12, and a lower rail 14' guiding the lower movement of the window sash 20 may be provided at the lower rail 14. For example, in the case of a double sash, four upper tracks 12 'and four lower tracks 14' may be provided. End bosses 12 ", 14" may be provided at the front and rear ends of the upper and lower rails 12, 14, respectively. The end bosses 12 ", 14" may prevent the window sash 20 from being detached from the upper and lower rails 12, 14 and prevent moisture from entering the inside of the upper and lower rails 12, 14 from the outside.

A vertical recess 16' may be provided in the vertical bar 16. The vertical recess and projection 16' may also be provided with four in the case of a double sash. The vertical concavities and convexities 16' can be seen from fig. 35A, in which they are formed in a convex shape. The vertical concavities and convexities 16' of the convex form may be combined with the concavities and convexities of the groove form formed on the sash frame 22 of the window sash 20, thereby performing waterproof and soundproof effects.

The window sash 20 may be constructed by attaching a transparent member 24, which is generally made of glass, to a window sash frame 22 having a quadrangular shape. The transparent member 24 of the window sash 20 may be configured to be visible to each other in the indoor space and the outdoor space.

As shown in fig. 1, the window type air management device of the present invention may include: a mounting frame 100 provided to the window frame 10; and an air management unit 200 installed in the installation space 100' of the installation frame 100.

The mounting frame 100 has a quadrangular shape, and a mounting space 100' penetrating forward and backward may be formed therein. The inner surface shape of the installation space 100' may be formed to correspond to the outer surface shape of the air management unit 200. In the drawing, the installation space 100' is constituted as a vertically long rectangular parallelepiped space.

As shown in fig. 5, the mounting frame 100 may include a first frame 101 and a second frame 102 that can be accessed to the inside and outside of the first frame 101. The degree of elevation of the second frame 102 may be different according to the height of the window frame 10 in which the mounting frame 100 is provided. The upper portion of the second frame 102 can be raised to a position where it is coupled with the upper rail 12 of the window frame 10, whereby even if the window type air management device is provided in the window frame 10, no indoor and outdoor communication portions are generated.

In the present invention, the degree to which the second frame 102 protrudes from the first frame 101 may be continuously changed. This is because the length of the pushing member 180 to be described below continuously varies. By continuously varying the length of the second frame 102 protruding from the first frame 101, the upper end of the second frame 102 can be seamlessly abutted against the upper rail 12 of the window frame 10.

As shown in fig. 5, the first frame 101 may be formed in a quadrangular shape as a whole, and may be formed with an installation space 100' penetrating the inside thereof in the front-rear direction. The first frame 101 may include a first base 101' and a first frame 101 ". The first base 101' forms a lower portion of the first frame 101, which may function to support various components located inside the first frame 101″. For example, there may be a link coupling 172 and a coupling guide 173, etc., which will be described below.

Structures for coupling with the concavities and convexities provided in the window frame 10 and the window sash 20 may be provided around the outer surfaces of the first and second frames 101 and 102. Fig. 3 and 4 show a state in which a large portion of the second frame 102 is received in the first frame 101, and in this state, first coupling concave-convex portions 104, second coupling concave-convex portions 106, third coupling concave-convex portions 108, and fourth coupling concave-convex portions 110 may be formed on four outer surfaces of the mounting frame 100. As described above, the coupling concave-convex portions 104, 106, 108, 110 formed around the outer surface of the mounting frame 100 may be formed similarly to the concave-convex portions formed on the outer surface of the window sash 20. Thus, the mounting frame 100 can be moved along the rails 12', 14' of the window frame 10.

The first coupling concave-convex 104 may be formed at a lower surface of the mounting frame 100, i.e., a lower surface of the first base 101'. Although the first coupling concave-convex portion 104 is convexly formed in the drawing, a groove may be formed longer along the inner side thereof, and the convex-shaped lower rail 14' formed on the lower rail 14 of the window frame 10 is inserted into and coupled to the groove. As another example, the first coupling recess and protrusion 104 may be formed in a convex shape and coupled to the lower rail 14 of the window frame 10 when the lower rail 14 provides a channel-shaped structure instead of the convex-shaped lower rail 14' for guiding the movement of the window sash 20.

Two first coupling concave-convex portions 104 may be provided at the lower surface of the mounting frame 100, and the first coupling concave-convex portions 104 may extend along the front and rear ends of the lower surface of the mounting frame 100, respectively. According to such a structure, the lower surface of the mounting frame 100 may be located in the region of the lower rail 14 of the window frame 10. The lower surface of the mounting frame 100 may be located in the area between the end bosses 14 "of the lower rail 14 and the upper surface of the mounting frame 100 may be located in the area between the end bosses 12" of the upper rail 12.

The distance between the first coupling concave-convex portions 104 may be the same as the interval between the lower rails 14' provided at the lower rail 14. In the case of using the window with a single sash other than the double sash, only one of the first coupling concave-convex portions 104 may be provided. In a single sash window, the lower rails 14' may be provided in two, and in a double sash window, the lower rails 14' may be provided in four, and in the illustrated embodiment, the distance between the first coupling recesses and projections 104 may be the same as the distance between the lower rail 14' closest to the indoor side and the next lower rail 14' after skipping one lower rail 14 '.

When the first coupling concave-convex portion 104 is coupled to the lower rail 14' and the position of the first coupling concave-convex portion 104 is set along the front and rear ends of the lower surface of the installation frame 100, the installation frame 100 can be prevented from protruding from the inside to the outside of the window frame 10 of the window. In particular, the mounting frame 100 can be stably positioned within the window frame 10 when the front surface of the mounting frame 100 is positioned in a facing manner on the inner surface of the end boss 14″ at the front end of the lower rail 14, and the rear surface of the mounting frame 100 is positioned in a facing manner on the inner surface of the end boss 14″ at the rear end of the lower rail 14. In addition, the mounting frame 100 may be movable along the upper rail 12 'and the lower rail 14'.

In addition, the structure formed on the outer surface of the mounting frame 100 may be similar to the structure formed on the outer surface of the window sash 20. Accordingly, the structure related to the first coupling concave-convex 104 can be applied to the fourth coupling concave-convex 110 and the second coupling concave-convex 106, which will be described below, in the same manner. As shown in fig. 3, the first, second, and fourth coupling concave-convex portions 104, 106, and 110 may extend along front and rear end edges of the mounting frame 100, respectively.

The second coupling concave-convex 106 may be formed at the right outer surface of the mounting frame 100 with reference to fig. 3. The second coupling concave-convex portion 106 has a groove shape, and although the second coupling concave-convex portion 106 is formed to be convex in the drawing, a groove may be formed to be longer up and down along the inner side thereof. The vertical projections and recesses 16' of the vertical bar 16 can be inserted to effect the coupling. The second coupling concave-convex 106 may be simply formed in a groove shape on the right outer surface of the mounting frame 100.

The third coupling concave-convex 108 may be formed at the left outer surface of the mounting frame 100. The third coupling concave-convex portion 108 is provided at an outer surface opposite to the second coupling concave-convex portion 106, and may be formed in a convex shape. The third coupling recess and protrusion 108 may be coupled with a groove portion formed on the window frame 22 of the window 20. The third coupling concave-convex 108 may be formed in the same shape as the vertical concave-convex 16' of the vertical bar 16. The second coupling concave-convex 106 and the third coupling concave-convex 108 may also be shifted in position from each other. In this case, a convex shape may be provided to the window sash 22 of the window sash 20, and a groove shape into which the convex shape of the window sash 22 is inserted may be provided to the vertical bar 16 of the window frame 10.

The fourth coupling concave-convex 110 may be located at the upper surface of the mounting frame 100, more precisely, may be formed at the upper surface of the second frame 102. Although the fourth coupling concave-convex portion 110 is formed convexly in the drawing, a groove may be formed along the inner side thereof so as to be coupled with the upper rail 12' protruded on the upper rail 12 of the window frame 10. The fourth coupling recess and protrusion 110 may be constructed in a convex shape and coupled to the upper rail 12 of the window frame 10 when the upper rail 12 is provided with a channel-shaped structure instead of the upper rail 12' for guiding the movement of the window sash 20.

The fourth coupling concave-convex 110 may have the same structure as the first coupling concave-convex 104. The fourth coupling concave-convex portions 110 may extend in parallel with each other in two, and the fourth coupling concave-convex portions 110 may extend along front and rear ends of the upper surface of the mounting frame 100, respectively. The upper surface of the mounting frame 100 may be located in the area of the upper rail 12 of the sash 10. The upper surface of the mounting frame 100 may be located in the area between the end bosses 12 "of the upper rail 12.

In contrast to the first coupling concave-convex portion 104, the second coupling concave-convex portion 106, and the fourth coupling concave-convex portion 110, which have a shape protruding more than the outer surface of the mounting frame 100 and are formed with grooves on the inner side, the first coupling concave-convex portion may be formed with grooves only and not protruding toward the outer surface of the mounting frame 100.

As shown in fig. 34, a coupling groove 101'a may be formed inside the first coupling concave-convex portion 104, i.e., at the bottom surface of the first base 101'. The coupling groove 101' a may be used when the mounting frame 100 is supported on the support frame 300 to be described below, not on the lower rail 14 of the window frame 10.

In order to realize waterproof, soundproof, and windproof properties between the installation frame 100 and the window frame 10 and between the installation frame 100 and the window sash 20, mohair (mohair) and a filler used for the window may be used along the first coupling concave-convex portion 104, the second coupling concave-convex portion 106, the third coupling concave-convex portion 108, and the fourth coupling concave-convex portion 110.

As shown in fig. 3 to 5, a front protrusion 112 may be convexly provided at the bottom of the installation space 100' of the installation frame 100. The front end protrusion 112 is provided in two in the drawings, but may be provided in more than one. The front projection 112 may be located at an entrance of the installation space 100'. The front-end protrusion 112 may be formed to be inclined upward from the installation space 100' toward the outside. The front end protrusion 112 may function to define the installation position of the air management unit 200.

A guide protrusion 114 may be formed at the bottom of the installation space 100' from the front-end protrusion 112. The guide protrusion 114 may extend to a bottom rear end of the installation space 100'. The guide protrusion 114 may be formed to be narrow in width and long in extension. The guide protrusion 114 is a structure for minimizing a contact area with the bottom surface of the housing 202 of the air management unit 200. The guide projection 114 may have a width narrower than that of the front-end projection 112 or a width of a lower projection 224 to be described below. The guide protrusion 114 may be formed to extend in a front-rear direction across the bottom of the installation space 100'. Along the guide protrusion 114, a lower protrusion 224 formed on the lower surface of the housing 202 of the air management unit 200 may be contacted and moved. The guide protrusion 114 may be formed of a material different from that of the first frame 101. For example, the guide protrusion 114 may be formed of POM material having a lubrication function.

The front-end protrusion 112 and the guide protrusion 114 may each be formed with two, so that the process of inserting the air management unit 200 into the installation space 100' can be stably performed. In contrast, the front-end projection 112 and the guide projection 114 may each be formed with only one, and the width thereof may be made relatively twice or more. Alternatively, three or more front-end protrusions 112 and guide protrusions 114 may be formed.

An action key 116 may be exposed at the bottom of the installation space 100'. The action button 116 may function to initiate the lifting of the second frame 102 relative to the first frame 101. The action button 116 may be used to start the movement of the moving mechanism 170 to be described below. The connection structure for actuating the moving mechanism 170 by the actuation key 116 will be described below.

A locking plate 118 may be exposed at one side of the inner surface of the installation space 100'. The locking plate 118 may fix the position of the second frame 102 relative to the first frame 101. The locking plate 118 may be exposed to both sides of the inner surface of the first frame 101 ". The locking plate 118 may be used in plural to achieve stable fixation of the second frame 102. The embodiment illustrated in figures 3 and 6, etc. can be derived from using a total of four locking discs 118. The locking plate 118 may be sized to allow locking and unlocking operations to be performed using copper wire in addition to a screwdriver.

The structure associated with the locking plate 118 is shown in fig. 17. A connection shaft 118' serving as a rotation center may be provided at a rear end of the locking plate 118. A fixed cam 119 is connected to the connecting shaft 118'. The fixed cam 119 may have a substantially disc shape. A space maintaining surface 119' may be formed in a plane on both outer surfaces of the fixed cam 119. An abutment surface 119″ may be formed on the outer surface of the fixed cam 119 at a position corresponding to between the space holding surfaces 119'. The contact surface 119″ may be formed as a curved surface. The furthest distance between the abutment surfaces 119″ on both sides is longer than the distance between the space maintaining surfaces 119' on both sides.

As the locking disk 118 rotates, the positions of the abutment surface 119″ and the space maintaining surface 119' of the fixed cam 119 may alternate. That is, as the locking plate 118 rotates 90 degrees, the abutment surface 119″ and the interval maintaining surface 119' will alternate positions, thereby being spaced apart from or abutted against the corresponding portion of the second frame 102, thereby enabling the second frame 102 to be moved or fixed with respect to the first frame 101. The second frame 102 may be fixed relative to the first frame 101 with the abutment surface 119 "abutting against a corresponding portion of the second frame 102. As the locking plate 118 rotates 90, the second frame 102 may be moved relative to the first frame 101 when the abutment surface 119″ is no longer in abutment with a corresponding portion of the previously abutted second frame 102, but is facing away from each other at a spaced apart distance.

Here, a specific structure of the first frame 101 will be mainly described with reference to fig. 5. As described above, the first frame 101 may be composed of the first base 101' and the first frame 101″ may be composed of the lower connection bar 120, the first and second bars 122 and 124 integrally erected from both ends of the lower connection bar 120, respectively, and the upper connection bar 126 connecting the upper portions of the first and second bars 122 and 124 to each other.

A handle through hole 126' may be formed at the upper connecting rod 126. The handle through hole 126' is a portion through which a handle 142 (see fig. 6) provided in the second frame 102 passes. When the second frame 102 is not lifted from the first frame 101, the handle 142 may be disposed through the handle through hole 126'.

A fastening hole 127 may be formed at a front surface of the upper connection bar 126 of the first frame 101, and the fastening hole 127 may be opened forward. The locking screw 230 of the air management unit 200 to be described below may be fastened at the fastening hole 127.

A locking hole 127 'may be formed at a lower surface of the upper connecting rod 126, i.e., a top surface of the installation space 100'. The fastening projection 248 described below can be fastened to the fastening hole 127'. The locking hole 127' may be formed in a groove shape.

First locking slits 128 may be formed in the first and second rods 122 and 124, respectively. The first locking slits 128 may be formed at upper and lower portions of the first and second bars 122 and 124 corresponding to the rear surface of the first frame 101, respectively. The first locking slit 128 can lock a second locking piece 168 of the second outer cover 160 to be described later.

A lifting space 130 may be formed inside the first and second bars 122 and 124, respectively, and both sides of the second frame 102 may be located in the lifting space 130 and lifted. At least a portion of the cross section of the elevation space 130 may have a shape corresponding to at least a portion of the cross section of the first leg 132 and the second leg 134 of the second frame 102. In other words, the cross-sectional shape of the first leg 132 of the second frame 102 may be the same as the cross-sectional shape of the lifting space of the first lever 122 so as to be capable of lifting along the lifting space 130 inside the first lever 122. Also, the cross-sectional shape of the second leg 134 of the second frame 102 may be the same as the cross-sectional shape of the elevation space 130 inside the second lever 124.

As shown in fig. 5, the second frame 102 may have an inverted "U" shape. The second frame 102 may be configured such that upper portions of the first leg 132 and the second leg 134 may be connected using a connection member 136.

A second extension relief 138 may be formed on the first leg 132. The second extension concave-convex portion 138 may have the same shape as the second coupling concave-convex portion 106 provided on the first frame 101. The second extension concave-convex 138 may have the same cross-sectional shape as the lifting space 130 formed on the first lever 122 of the first frame 101. An upper portion of the second extension concave-convex 138 may form a part of the second coupling concave-convex 106. This is best shown in fig. 3 and 4.

A third extension relief 140 may be formed on the second leg 134. The third extension concave-convex 140 may have the same shape as the third coupling concave-convex 108 provided on the first frame 101. The third extension concave-convex 140 may have the same cross-sectional shape as the lifting space 130 formed on the second rod 124 of the first frame 101. An upper portion of the third extension concave-convex 140 may form a part of the third coupling concave-convex 108. This is best shown in fig. 3 and 4.

A handle 142 may be provided at a position corresponding to the handle through hole 126' formed at the upper connection bar 126 of the first frame 101 at the inner surface of the connection member 136 of the second frame 102. The handle 142 is a portion that is held by a hand of an operator when moving the second frame 102.

A second locking slit 143 may be formed at the front surface of the second frame 102. The second locking slits 143 may be formed at both sides of the front surface of the second frame 102, respectively. The second locking slit 143 can lock a panel locking piece 256 of the first front panel 250 to be described below.

A locking piece 144 may be provided on the back surface of the second frame 102. The locking piece 144 may be inserted into a first locking slit 158 of the first outer cover 150 to be described below. The locking pieces 144 may be provided one at each end of the back surface of the connection member 136. The front end portion of the locking piece 144 may extend parallel to the rear surface of the second frame 102. The portion of the locking piece 144 extending from the second frame 102 may be orthogonal to the back surface of the second frame 102. The front end portion of the locking piece 144 may be parallel to the rear surface of the second frame 102, and may particularly extend in a direction opposite to the gravitational force.

A moving slit 146 may be formed at rear surfaces of the first and second legs 132 and 134 of the second frame 102, respectively. The moving slit 146 may be formed at the rear surfaces of the first and second legs 132 and 134. The moving slit 146 may be formed longer along the length direction of the first and second legs 132 and 134. The moving slit 146 may be formed to lower ends of the first and second legs 132 and 134. The moving slit 146 is configured to avoid interference with a second locking piece 168 of a second external cover 160 to be described later inserted into the first locking slot 128 and locked during the process of accommodating the second frame 102 in the first frame 101, and the second locking piece 168 may be provided and guided in the moving slit 146.

A folding plate 148 may be provided at the second frame 102. The state in which the folding plate 148 is provided to the second frame 102 is shown in fig. 6. The folding plate 148 may be located at the rear end side opposite to the second frame 102. The folding plate 148 may be folded when the second frame 102 is received inside the first frame 101. The folding plate 148 may be unfolded in a corresponding size when the second frame 102 protrudes from the first frame 101. The folding plate 148 may prevent external air or the like from flowing in through the second frame 102. Additional insulation may also be provided in the space inside the second frame 102 that is shielded by the fold plate 148.

The structures of the first and second outer covers 150 and 160 are described with reference to fig. 9 to 11. The first and second external covers 150 and 160 may be provided at the rear surface of the mounting frame 100. The first outer cover 150 may move together with the second frame 102. The second outer cover 160 may be fixedly provided to the first frame 101.

The first and second outer covers 150 and 160 may prevent precipitation such as rain or snow from entering from the outside into the inside of the installation frame 100. Or in the case where the air management unit 200 is an air conditioner, for example, the first and second outer covers 150 and 160 may function to guide the direction in which the hot wind is discharged to the outside.

The first outer cover 150 may mainly serve to shield a portion corresponding to the rear surface of the second frame 102. The second outer cover 160 may serve to shield the installation space 100' corresponding to the rear surface of the first frame 101.

The first outer cover 150 may have a quadrangular plate-shaped first cover main body 152. The first cover main body 152 may be constructed in a plate shape. First cover sidewalls 153 may be orthogonally disposed at both ends of the first cover main body 152, respectively. The first cover sidewall 153 may be constructed in a rectangular plate shape. A first connection wall 153' and a second connection wall 153″ connecting between the first cover side walls 153 may be provided at upper and lower portions of the first cover main body 152, respectively. The first cover sidewall 153, the first connection wall 153', and the second connection wall 153″ may form a prescribed space together with the first cover main body 152.

A plurality of first louver blades 154 may be formed at the first cover main body 152. The first louver 154 may have a prescribed inclination. The first louver 154 may extend obliquely toward the lower portion from the inner side thereof with reference to fig. 10. With the first louver 154 formed, a first through hole 154' may be formed in the first cover main body 152. The air introduced into the air management unit 200 or the air discharged from the air management unit 200 can be guided through the first through-hole 154'. In the case where the air management unit 200 is an air conditioner, air having a relatively high temperature by heat exchange in the outdoor side heat exchanger may be guided along the first louver 154 and discharged to the outside through the first through hole 154'. The outside air may flow into the air management unit 200 through the first through hole 154' and be guided by the first louver 154.

The first louver 154 may not protrude to the outside of the first outer cover 150 but protrude to the inside. This is to avoid interference when the first outer cover 150 moves with respect to the second outer cover 160 to be described below. Of course, in the case where the first louver 154 is formed to protrude to the outside of the first outer cover 150, a protruding position of the second louver 164 of the second outer cover 160 to be described below may be opposite to that shown in the drawings. The second louver 164 of the second outer cover 160 protrudes outward from the outer surface of the second cover main body 162 in the drawing.

The first cover side walls 153 of the first outer cover 150 may be provided with first extension ribs 156, respectively, protruding at a prescribed width. The first extension rib 156 may be bent twice at right angles from the first cover sidewall 153. As shown in the enlarged view of fig. 10, the first extension rib 156 may be formed in a "匚" shape in cross section together with a portion of the first cover sidewall 153. A portion of the first extension rib 156 may be parallel to the first cover main body 152, and the remaining portion may be parallel to the first cover sidewall 153. The first extension rib 156 may extend longer along the first cover sidewall 153.

A first locking slit 158 may be formed at each of the upper and lower portions of the first extension rib 156. Accordingly, a total of four first locking slits 158 are formed in the drawing. The first locking slit 158 may be formed at a portion of the first extension rib 156 facing the mounting frame 100. The first locking slit 158 may be inserted into the locking piece 144 of the mounting frame 100. The first outer cover 150 may be mounted on the upper rear surface of the mounting frame 100 by inserting the locking piece 144 into the first locking slit 158. With the first locking slits 158 formed symmetrically up and down at the upper and lower portions of the first extension rib 156, respectively, the first outer cover 150 may be mounted to the mounting frame 100 in an upside-down manner. That is, the first outer cover 150 may be mounted to the mounting frame 100 in the state of fig. 11A and 11B.

The second outer cover 160 may have a second cover body 162 having a quadrangular plate shape. A second cover sidewall 163 may be provided at both ends of the second cover main body 162 in an orthogonal manner, respectively. The second cover sidewall 163 may be constructed in a rectangular plate shape. The second cover side walls 163 may be opened between the upper and lower portions of the second cover main body 162. This is to enable the first and second outer covers 150 and 160 to relatively move in a state where at least a portion thereof is overlapped with each other. In the illustrated embodiment, as shown in fig. 9, the first outer cover 150 may be accessible to the inside of the second outer cover 160. For example, the distance between the first cover side walls 153 of the first outer cover 150 may be slightly smaller than the distance between the second cover side walls 163 of the second outer cover 160.

Although the first connection wall 153 'is provided at the first outer cover 150 in the illustrated embodiment, as another embodiment, a connection wall that connects between the second cover side walls 163 similar to the first connection wall 153' may be provided at the second outer cover 160. In this case, it is necessary to design such that the second outer cover 160 is disposed inside the first outer cover 150.

A second louver 164 may be formed at the second cover body 162. The second louver 164 may be formed to be inclined downwardly toward the inside of the second outer cover 160 with reference to fig. 10. The second louver 164 may extend longer left and right of the second cover main body 162. The second cover main body 162 may have a second through hole 164' formed therein by the formation of the second louver 164. Air can flow through the second through hole 164'. The functions of the second through-hole 164 'and the second louver 164 may be the same as the functions of the first through-hole 154' and the first louver 154.

A second extension rib 166 may be formed at the second cover sidewall 163. The second cover sidewall 163 may be formed with the second extension rib 166 protruding at a prescribed width. The second extension rib 166 may be bent twice at right angles from the end portion of the second cover sidewall 163. A portion of the second extension rib 166 may be parallel to the second cover body 162, and the remaining portion may be parallel to the second cover sidewall 163. The second extension rib 166 may extend longer along the second cover sidewall 163.

The second extension rib 166 may be provided with a second locking piece 168. The second locking piece 168 may be formed with two on one second extension rib 166. The second locking piece 168 can be inserted into and locked to the first locking slit 128 (see fig. 5) of the mounting frame 100. The portion of the second locking piece 168 connected to the second extension rib 166 may be orthogonal to the second extension rib 166. The front end portion of the second locking piece 168 may extend parallel to the surface of the second extension rib 166. The second locking piece 168 is formed in a T-shape in the drawing, and thus the front end portion thereof may extend along both sides. However, the second locking piece 168 may have the same shape as the locking piece 144 and a front end portion thereof may extend only to one side. Referring to fig. 9, the front end portion of the second locking piece 168 located at the upper portion may extend downward, and the front end portion of the second locking piece 168 located at the lower portion may extend upward. This is to automatically move and lock the second outer cover 160 in the gravitational direction with respect to the mounting frame 100 by gravity.

Interference preventing slits 169 may be formed at upper and lower ends of the second extension rib 166, respectively. The interference preventing slit 169 is used for avoiding interference with the locking piece 144 of the mounting frame 100. In the mounting frame 100, the locking piece 144 is positioned in the interference preventing slit 169 in a state where the second frame 102 is accommodated in the first frame 101. At this time, since the first outer cover 150 needs to be received inside the second outer cover 160, the locking piece 144 may be positioned in the interference preventing slit 169.

The interference preventing slits 169 are formed at both upper and lower portions of the second extension rib 166 in order to invert the first and second outer covers 150 and 160 upside down so that the inclined directions of the first and second louver blades 154 and 164 are opposite to each other for use. The state described above is better shown in fig. 11A and 11B. In the second outer cover 160, the second locking piece 168 and the interference preventing slit 169 may be provided vertically symmetrically. This is to enable the second outer cover 160 to be used upside down.

First, fig. 11A shows a case where the first louver 154 and the second louver 164 are provided so as to be inclined upward (inclined downward toward the indoor side) toward the outdoor side (right side in the drawing). Fig. 11B shows a case where the first louver 154 and the second louver 164 are disposed obliquely downward toward the outdoor side (right side in the drawing).

As described in more detail below. The state of fig. 11A may be used when the outdoor side is not suitable to discharge hot air at the same height as the window sash 20. That is, the first louver 154 and the second louver 164 inclined upward toward the outdoor side discharge hot air to a relatively high position.

Furthermore, the state of fig. 11B can be used when the device of the present invention is installed in a window of a high-rise building, for example. This is the case when the direction of discharging hot air to the outside can be any direction. However, if the outside of the window is open and unobscured, it is necessary to block precipitation from entering the interior of the mounting frame 100 through the first and second through-holes 154 'and 164'. For this purpose, the first louver 154 and the second louver 164 in fig. 11B may be configured to be inclined downward toward the outdoor side.

The state of fig. 11B is a case where the first and second external covers 150 and 160 in the state of fig. 11A are each rotated 180 degrees in the up-down direction to be mounted on the mounting frame 100. As described above, the installation states of the first and second external covers 150 and 160 may be selected according to the environment in which the apparatus of the present invention is installed.

Next, a moving mechanism 170 for moving the second frame 102 relative to the first frame 101 in the mounting frame 100 will be described with reference to fig. 12 to 17. The moving mechanism 170 may use, for example, elastic force, air pressure, hydraulic pressure, or the like.

The movement mechanism 170 may be actuated by pressing the action key 116. A linkage coupling 172 may be provided at the first base 101'. The action key 116 is provided at a middle portion of the link coupling 172. The action key 116 may be exposed to the outside through the lower connection bar 120 of the first frame 101″. The linkage coupling 172 may be located in a space between the first base 101' and the lower connecting rod 120.

The link coupling 172 may extend long left and right along the first base 101'. A guide space 172' may be formed at the lower inner side of the portion of the link coupling 172 where the action key 116 is disposed as shown in fig. 13. An action guide 171 may be provided in the guide space 172'. The motion guide 171 may be provided on the first base 101'. A part of the operation guide 171 may be formed in a cylindrical shape. The cylindrical portion of the action guide 171 may be located in the guide space 172'. In this case, the guide space 172' may be formed in a cylindrical shape. The inner diameter of the guide space 172' may be equal to or slightly larger than the outer diameter of the cylindrical portion of the action guide 171. The motion guide 171 may guide the movement of the link coupling 172 and the motion key 116.

An elastic member 171 'may be provided between a top portion of the guide space 172' and a cylindrical portion of the action guide 171. The elastic member 171' may exert an elastic restoring force such that the surface of the operation key 116 is positioned at the same position as the surface of the lower link 120. As an example of the elastic member 171', there is a spring having a cylindrical spiral shape.

The link guide 173 may be used in order to manage the motion trajectory of the link 172. The link guide 173 may be provided at the first base 101', which may serve to guide the up-and-down movement of the link 172 to be accurately achieved. The link guide 173 may be configured to guide the upper surface and the front and rear surfaces of the link 172. In the illustrated embodiment, the cross section of the link coupling 172 is a quadrangular shape, and thus, the coupling guide 173 may take a form of rotating the "匚" shape by 90 degrees in correspondence thereto.

An extension link 174 may be provided at both side ends of the link 172. The extension link 174 may also be integrally formed with the linkage link 172. Of course, the linkage coupling 172 and the extension coupling 174 may be separately manufactured and then combined by assembly. The extension link 174 may extend inward of the first and second bars 122 and 124 of the first frame 101″. The extension link 174 may be integrally actuated with the linkage link 172.

A link stopper 175 may be provided at a front end of the extension link 174. The interlocking locking piece 175 is used for locking one end of the locking coupling piece 176, so that the locking coupling piece 176 is operated together by the operation of the interlocking coupling piece 172. One end of the locking link 176 may be locked in a space opened to both sides of the interlocking locking piece 175. As shown in fig. 14, by inserting and locking one end of the locking coupling member 176 into the inner space of the interlocking locking member 175, the locking coupling member 176 and the extension coupling member 174 can be operated together.

The locking coupling member 176 is rotatable at a predetermined angle around a rotation center 176'. The locking coupling member 176 is rotatably provided in a space formed inside the first lever 122 and the second lever 124 of the first frame 101 with the rotation center 176' as a center. The latching coupling 176 may have a substantially L-shape extending with reference to the rotation center 176' such that virtual lines of the two end portions facing each other may be at an acute angle or a right angle. The latching links 176 may be used in a pair of two. As described above, by using the pair of locking coupling members 176, the second frame 102 can be stably held in a locked and fixed state within the first frame 101.

A locking protrusion 177 may be formed at the other end of the locking coupling member 176. The locking protrusion 177 may be selectively locked to one side of the second frame 102. More precisely, the locking protrusion 177 may be selectively locked to an action suppressing protrusion 186, which will be described below, provided inside the first leg 132 and the second leg 134 of the second frame 102. The locking projection 177 may be configured to guide the movement suppressing projection 186 when it moves together with the second frame 102 and approaches. With the movement restraining projection 186 guided to the upper end of the locking projection 177, the locking coupling 176 can be rotated against the elastic force of the restoring member 179 to be described later.

A connection piece 178 may be provided between the locking protrusion 177 and the rotation center 176' in the locking coupling member 176. One end of the restoring member 179 may be connected to the connection piece 178. The restoring member 179 may be configured to be movable to an original position after the locking link 176 is actuated. The restoring member 179 may use a spring. One end of the restoring member 179 may be coupled to the connection piece 178, and the other end is coupled to one side of the first and second bars 122 and 124 of the first frame 101. The restoring member 179 may function substantially the same as the elastic member 171' (provided between the link 172 and the operation guide 171) that returns the link 172 to the original state after being pressed by the operation key 116.

The power to project the second frame 102 relative to the first frame 101 may be provided by a push member 180. The pushing member 180 may use various structures. An air damper is used as the pushing member 180 in the embodiment shown in the drawings. The pushing member 180 may be composed of a housing 182 filled with air inside and an access lever 184 that is accessed to the inside and the outside of the housing 182. The access rod 184 may always protrude to the outside of the housing 182 due to the air pressure inside the housing 182. The lower portion of the housing 182 may be fixed to a lower end side of the first frame 101, and the front end of the access lever 184 may be fixed to an upper portion side of the second frame 102.

Therefore, when the operation suppressing projection 186 provided on the second frame 102 is locked to the locking projection 177 of the locking coupling member 176, the access lever 184 cannot protrude from the housing 182. However, when the locking protrusion 177 of the locking coupling member 176 is disengaged from the movement suppressing protrusion 186, the second frame 102 can be moved by the protrusion of the access lever 184.

In addition, an elastic member providing an elastic force may be used instead of the push member 180. One end of the elastic member may be fixed to one side of the first frame 101, and the other end of the elastic member may be fixed to one side of the second frame 102. In this case, the elastic member may be configured to apply a restoring force in a direction to push up the second frame 102. Therefore, when the locking of the locking protrusion 177 of the locking coupling member 176 is released from the operation suppressing protrusion 186, the second frame 102 can be moved convexly with respect to the first frame 101 by the elastic force of the elastic member. As another example for actuating the pushing member 180, hydraulic pressure may be used.

In order to make the movement of the second frame 102 with respect to the first frame 101 softer, an additional structure may be used. This structure is shown in fig. 16.

First, a guide post 190 (guide column) may be provided. The guide post 190 is configured in a bar shape, and may be disposed at the first frame 101 or the second frame 102. A guide block (not shown) through which the guide post 190 passes may be provided on the opposite side of the guide post 190, that is, on the second frame 102 or the first frame 101. By penetrating the guide post 190 through the guide block, the relative movement of the second frame 102 with respect to the first frame 101 can be made smooth.

In order to avoid abrupt lifting and lowering of the second frame 102 with respect to the first frame 101, a damping mechanism 192 may be further provided. For example, the outside of the damping body 194, which is internally filled with a damping material, may be provided with a pinion 195. With the damping material inside the damping body 194, abrupt occurrence of the rotation of the pinion 195 can be avoided.

Furthermore, the rack 196, which engages with the pinion 195, may be extended long. For example, the rack gear 196 may be fixedly disposed inside the first and second legs 132 and 134 of the second frame 102, and the damping body 194 and pinion 195 may be disposed inside the first and second bars 122 and 124 of the first frame 101. Wherein the speed of the snap action of the pinion 195 and the rack 196 with respect to each other may be controlled by the damping material inside the damping body 194, thereby controlling the moving speed of the second frame 102 with respect to the first frame 101.

The structure of the air management unit 200 is described with reference to fig. 18 to 20. The appearance of the air management unit 200 may be formed by the housing 202. The housing 202 may include a front end plate 204 and a housing body 206. The front end plate 204 may be configured in a plate shape. The housing body 206 may be formed in a substantially rectangular parallelepiped shape. Various components constituting the air management unit 200 may be disposed in the inner space of the front end plate 204 and the housing body 206.

A chamber suction port 208 may be formed at a front surface of the front end plate 204. The indoor suction port 208 may be a passage for sucking air in the internal space where the air management unit 200 is located into the air management unit 200. A chamber discharge port 209 may be formed on the front surface of the front plate 204, side by side with the chamber suction port 208. The indoor discharge port 209 is a portion through which air managed in the air management unit 200 is discharged. The area of the indoor discharge port 209 may be up to about 1/3 of the area of the indoor suction port 208. In the illustrated embodiment, the indoor discharge port 209 may be formed longer up and down on the front surface side of the front end plate 204. The position of the indoor discharge port 209 may be changed. For example, the front end plate 204 may be formed longer in the left-right direction with respect to the upper portion. The position of the indoor suction port 208 may also vary across the front surface of the front end plate 204.

An adjustment flap 209' may be provided in the indoor discharge port 209. The adjusting vane 209' can adjust the flow direction of the air discharged through the indoor discharge port 209. The opening and closing angle of the adjustment wings 209' may be directly adjusted by a user or automatically adjusted using the driving force of the driving source.

An operation portion 210 may be provided at a front surface side of the front end plate 204. The operation part 210 may be located at a lower corner side of the front end plate 204. The operation part 210 may be located at a position where the user conveniently operates the air management unit 200. The operating portion 210 is not necessarily located on the front surface of the front end plate 204.

A body electrode 212 may be provided at both side corners of the lower portion of the front end plate 204. The body electrode 212 may function to supply power to a second front panel 260 to be described below. The body electrode 212 may also serve to lock and secure the second front panel 260. The body electrode 212 may be formed in a groove shape, and may be configured in a groove shape into which a panel electrode 266 of the second front panel 260 to be described below can be inserted. Structures for electrical connection may be provided inside the grooves of the body electrode 212. The grooves of the body electrode 212 may be formed in a curved shape having a prescribed radius of curvature.

A power supply line 213 may be provided to supply power to the body electrode 212 and the electric components inside the air management unit 200. The power cord 213 may extend to the outside through the lower surface of the front end plate 204 of the housing 202 (see fig. 23). As the power supply line 213 extends to the outside through the lower surface of the front end plate 204, it is not necessary to perform additional processing for passing the power supply line 213 in the window frame 10 or the like when the air management device is installed in the window. In contrast, the power line 213 may extend to the outside through both side surfaces and an upper surface other than the front surface and the rear surface of the front end plate 204.

A moving slot 214 may be formed at both sides of the front end plate 204. The mobile slot 214 may extend from a substantially middle position of the front end plate 204 to an upper portion. The mobile slot 214 may be formed from the front surface edge of the front end plate 204. Accordingly, a moving slot entrance 216, which is an entrance to the moving slot 214, may be provided at both side edges of the front surface of the front end plate 204. With the moving slot entrance 216 formed at the front surface edge of the front end plate 204, a first front panel 250, which will be described below, can be easily installed.

A seal (not shown) of an elastic material may be provided on a portion of the rear surface of the front end plate 204 adjacent to the housing body 206, that is, a portion facing the front surface of the mounting frame 100. The seal may be provided on at least one side of the rear face of the front end plate 204 or the front face of the mounting frame 100. The seal may function to provide waterproofing, airtight, etc.

The upper surface of the housing body 206 of the housing 202 may be formed obliquely. The upper surface of the housing body 206 may be inclined downward from the rear surface of the front end plate 204 closer to the rear surface of the housing body 206. As described above, when the upper surface of the housing body 206 of the housing 202 is formed obliquely, the upper end of the rear surface of the housing body 206 of the housing 202 can be easily inserted without being caught on the top surface of the installation space 100 'when the housing 202 is inserted into the installation space 100' of the installation frame 100. That is, even if the lower rear end of the housing body 206 is rotated about the front end projection 112 of the installation space 100 'and inserted into the installation space 100', the upper surface of the housing body 206 can be prevented from being locked to the first frame 101.

An outdoor port 218 may be formed at the rear of the housing body 206. The outdoor inlet/outlet 218 allows outdoor air to enter the inside and outside of the air management unit 200 and to be discharged. In the case where the air management unit 200 is an air conditioner, the air flow may be formed in such a manner that the outdoor air enters and exchanges heat, and then is discharged to the outside again. In the case that the air management unit 200 is an air cleaner, outdoor air may pass through the outdoor inlet and outlet 218 and enter the room through the air management unit 200, and indoor air may be discharged to the outside through the outdoor inlet and outlet 218 after passing through the air management unit 200.

A moving passage 220 may be formed at the lower surface of the housing 202, more precisely, the lower surface of the housing body 206. The moving passage 220 may be formed longer in a groove shape at the lower surface of the housing body 206. The front end protrusion 112 of the mounting frame 100 may be provided at the moving path 220 while the front end protrusion 112 is guided. The width of the moving channel 220 may be greater than or equal to the width of the front-end protrusion 112. As another example, the moving path 220 may not be provided. Even if the moving passage 220 is not provided, both side surfaces of the housing 202 may be guided to be inserted by both side inner surfaces of the first frame 101.

A locking groove 222 may be formed in the moving path 220 at a position adjacent to the front surface of the housing 202. The locking groove 222 may be formed more concavely from the moving path 220. The front-end protrusion 112 may be provided in the locking groove 222. The number of the moving channels 220 may be the same as the number of the front-end protrusions 112. In the illustrated embodiment, the moving path 220 may have two parallel grooves formed on the lower surface of the housing 202.

The lower protrusions 224 may be provided in the lower surface of the housing 202 at positions adjacent to the front and rear ends of the moving path 220, i.e., the front and rear ends, respectively, to protrude. The lower protrusions 224 may be caught at the front and rear ends of the lower connection bar 120 of the mounting frame 100, respectively. With the lower protrusions 224 respectively caught at the front and rear ends of the lower connection bar 120, it is possible to prevent the air management unit 200 from moving more than a predetermined degree from the installation frame 100 even if an external force acts on the air management unit.

A through hole 226 may be formed in an upper portion of the housing 202, more precisely, in an upper portion of the front end plate 204 of the housing 202. The through hole 226 may extend through the front end plate 204. A head seating groove 228 may be concavely formed at a front surface of the front end plate 204 corresponding to an inlet of the through hole 226.

The locking screw 230 may be inserted through the through hole. The locking screw 230 may be fastened to the fastening hole 127 (refer to fig. 3) of the mounting frame 100. The locking screw 230 may include a screw head 232 seated in the head seating groove 228 and a screw body 234 penetrating the through hole 226. A threaded portion may be formed on an outer surface of the screw body 234. Although the locking screw 230 is not necessarily used, it may be used in order to maintain the air management unit 200 fastened to the mounting frame 100. The tool groove formed in the screw head 232 of the locking screw 230 may be formed to be large enough to insert not only a screwdriver but also copper money. Thereby, the locking screw 230 can be tightened or loosened by using copper money even without a tool.

On the upper surface of the housing 202, more precisely, the upper surface of the front end plate 204 of the housing 202 may be provided with a release button 236 protruding through a key hole 235. The release button 236 may be accessible from the inside and outside of the upper surface of the front end plate 204 through the button hole 235. A key body 238 may be attached to the release key 236 and located inside the front end panel 204.

A stopper 240 may be provided at a portion where the release button 236 and the button body 238 are connected. The stopper 240 may limit the extent to which the release button 236 protrudes through the button hole 235. The stopper 240 may be caught on an inner surface of a key housing 242 to be described below, thereby preventing the release key 236 from being further separated to the outside. If the key housing 242 is not used, the stopper 240 is caught at the edge of the key hole 235, so that the release key 236 can be prevented from being further separated to the outside.

Inside the front end plate 204, the key body 238 may be located inside a key housing 242. The key body 238 may be disposed through the inside of the key housing 242, and thus, the key housing 242 may limit a moving trace of the key body 238. A key restoring member 244 may be provided inside the key housing 242. The key restoring member 244 has an elastic restoring force so that the release key 236 may be protruded to an original position when the user does not press any more after the release key 236 is pressed by the user. The key restoring member 244 may be provided in the key housing 242 with one end supported at the stopper 240 and the other end supported at one side of the key housing 242.

A rear extension hook 246 may be protruded at a lower portion of the key main body 238 to penetrate a rear surface of the front end plate 204. The rear extension hook 246 may be integrally operated with the key main body 238. As shown in fig. 20, a free end of the front end of the rear extension hook 246 may be provided with a fastening protrusion 248. The fastening boss 248 may be fastened to a fastening hole 127' (see fig. 6) formed in the mounting frame 100. With the fastening boss 248 caught in the catching hole 127', the upper portion of the air management unit 200 may be caught in the upper portion of the mounting frame 100. The fastening boss 248 may be disengaged from the locking hole 127' by pressing the release button 236.

A first front panel 250 and a second front panel 260 provided on the front surface of the air management unit 200 are described with reference to fig. 21 to 24.

A first front panel 250 may be provided in order to shield a portion of the front surface of the air management unit 200 and the front surface of the second frame 102 of the mounting frame 100. The first front panel 250 may be connected to the front end plate 204 of the housing 202 at a lower portion thereof and to the second frame 102 of the mounting frame 100 at an upper portion thereof. The first front panel 250 may mainly shield the front surface of the second frame 102 of the mounting frame 100. The first front panel 250 may have a first panel body 252. The first panel body 252 may be configured in a quadrangular plate shape. The first panel body 252 may be provided with first panel sidewalls 254 on both sides thereof, respectively. The first panel side walls 254 may shield portions of both side surfaces of the second frame 102 of the mounting frame 100 corresponding to the front. The front-to-back width of the first panel side wall 254 may be equal to or slightly greater than the thickness of the front end panel 204 of the air management unit 200. This is so that the first panel side wall 254 can block the front panel 204 side of the air management unit 200. A connecting wall 255 may be provided for connecting the upper ends of the first panel side walls 254. The connection wall 255 may be formed to have the same front-rear width as the first panel side wall 254.

A panel locking piece 256 may be provided on an upper portion of the first panel side wall 254. In the illustrated embodiment, a panel locking tab 256 is provided at the upper end of the first panel side wall 254. The panel locking tab 256 may be formed protruding from the first panel side wall 254. The panel locking piece 256 may have the same shape as the locking piece 144 or the second locking piece 168. That is, for the portion connected to the first panel side wall 254, the front end portion may extend parallel to the first panel main body 252. The front end portion of the panel locking piece 256 may extend toward the lower portion. In summary, the panel locking piece 256 may be formed in a shape of a "l" and inserted into and locked to the second locking slit 143 (see fig. 6) of the mounting frame 100.

The panel locking pieces 256 may be formed on the first panel side walls 254 on both sides, respectively, and may be locked to the second locking slits 143 on both sides of the mounting frame 100, respectively. As another embodiment, a magnet may be used instead of the panel locking piece 256 or in addition to the panel locking piece 256. Magnets may be provided at positions corresponding to each other of the first front panel 250 and the second frame 102, or magnets and magnetic bodies may be provided at positions corresponding to each other. This may be the same structure as the magnet 276 and the magnetic body 276' provided between the second front panel 260 and the front end plate 204, which will be described later.

A tab 257 may be provided to protrude at a lower portion of the first panel side wall 254. The tab 257 may be more convex than the first panel body 252. The lugs 257 may be formed on the first panel side walls 254 on both sides, respectively. The tab 257 may be narrower in width as it approaches the free end. A guide projection 258 projecting in a direction facing each other may be provided at a front end, i.e., a free end, of the projection 257. The guide protrusion 258 may guide movement along the movement slot 214 of the air management unit 200. The guide projection 258 may enter the mobile slot 214 through a mobile slot entrance 216 formed at the front surface edge of the front end plate 204 of the housing 202.

The upper portion of the first front panel 250 may be coupled to the mounting frame 100 through the panel locking piece 256 located at the second locking slit 143 of the mounting frame 100. The lower portion of the first front panel 250 may be connected to the front end plate 204 by a moving slot 214 provided on the side of the front end plate 204 of the air management unit 200 by the guide protrusion 258.

A second front panel 260 may be provided to cover the front surface of the air management unit 200 and the lower portion of the first front panel 250. The second front panel 260 may have a second panel body 262 in the shape of a quadrangular plate. The left-right width of the second panel body 262 may be equal to the left-right width of the front surface of the front end panel 204 of the air management unit 200. Second panel sidewalls 264 are provided at both ends of the second panel body 262, respectively, and the second panel sidewalls 264 may be orthogonal to the second panel body 262. The second panel side wall 264 is of similar construction to the first panel side wall 254 of the first front panel 250. The distance between the second panel side walls 264 may be slightly greater than the distance between the first panel side walls 254 so that the outer surface of the first panel side walls 254 may be contacted between the inner surfaces of the second panel side walls 264. The front-to-back width of the second panel sidewall 264 may also be equal to or slightly greater than the thickness of the front end panel 204 of the air management unit 200. The second panel side wall 264 may conceal the front panel 204 side of the air management unit 200. In particular, in order to prevent the movable socket 214 from being exposed to the outside, the entire area of the movable socket 214 not covered by the first front panel 250 may be covered by the second panel sidewall 264.

A lower sidewall 265 may be provided at a lower portion of the second panel body 262. The lower side wall 265 may connect the second panel side walls 264 to conceal the lower surface of the front panel 204 of the air management unit 200. A power line passing portion 265' may be formed at one side of the lower sidewall 265. The power line 213 may be not interfered by the power line passing portion 265'.

A panel electrode 266 may be provided at the rear surface of the second panel body 262 of the second front panel 260. The panel electrode 266 may be inserted and locked into the body electrode 212 provided on the front surface of the air management unit 200. The panel electrodes 266 may be disposed at both sides of the rear lower portion of the second front panel 260, respectively. The panel electrode 266 may have a shape capable of being inserted into and locked to the inside of the body electrode 212. In the illustrated embodiment, the panel electrode 266 is configured as a convex shape having a prescribed radius of curvature. Reference numeral 268 is a panel cut-out formed on the one-sided second panel sidewall 264.

To fix the second front panel 260 to the front surface of the air management unit 200, the panel electrode 266 may be inserted into the body electrode 212 while using the magnet 276. By providing the magnet 276 or the magnet 276 and the magnet 276' at the upper side of the second front panel 260 and at the corresponding positions of the upper part of the front surface of the front end plate 204 of the air management unit 200, respectively, the bonded state can be maintained by the magnetic force.

A panel suction port 270 may be provided at the second front panel 260. A plurality of louver blades (not shown) may be disposed in parallel to the panel suction port 270. The panel suction port 270 having the louver may be formed in a region corresponding to the indoor suction port 208 of the air management unit 200.

The second front panel 260 may be provided with a panel discharge port 272. The panel discharge port 272 may be formed in a shape corresponding to the shape of the indoor discharge port 209. The panel discharge port 272 may be formed in a shape that simply penetrates. Of course, the panel discharge port 272 may be provided with the same structure as the adjustment vane 209' provided in the indoor discharge port 209. In this case, the adjustment vane 209' may not be provided in the indoor discharge port 209.

An operation portion 274 may be provided on the second front panel 260. The operation portion 274 is a portion that can be directly operated by a user. The operation portion 274 may be provided at a position corresponding to the operation portion 210 of the air management unit 200. The operation portion 274 of the second front panel 260 may simply penetrate so as to expose the operation portion 210 of the air management unit 200 to the outside. In contrast, the operation portion 274 of the second front panel 260 may have a transparent member so as to expose the operation portion 210 of the air management unit 200. Alternatively, the operation portion 210 may not be provided in the air management unit 200, but the operation portion 274 may be provided only in the second front panel 260, so that the user may perform an operation on the front surface of the second front panel 260.

Further, the operation sections 210, 274 may be operated by using a remote controller or a wireless terminal. The operation units 210 and 274 may be connected to a home network and operated by a home network server.

Next, a structure for performing locking after closing the window sash 20 when the installation frame 100 is provided in the window frame 10 will be described with reference to fig. 25 to 30.

In the illustrated embodiment, a double window sash 20 may be provided at the window frame 10 where the mounting frame 100 is mounted. Therefore, two locking mechanisms are required for locking the respective window sashes 20. In the illustrated embodiment, a first locking mechanism 280 and a second locking mechanism 280' may be used for this purpose. The first and second locking mechanisms 280, 280' are nearly identical in structure, differing only in the structure of the operating lever 288. This is to change the shape of the operation lever 288 in order to set the operation lever 288 at a position that is easily operated by the user. Therefore, the structure is described with reference to the first lock mechanism 280.

The appearance of the first locking mechanism 280 may be formed by the housing 282. The housing 282 may be configured in a generally hexahedral shape and may be formed of at least two components. A driving body 284 may be provided inside the housing 282. The drive body 284 is linearly reciprocable within the housing 282. A guide pin 284 'may be formed at the driving body 284, and a guide hole 282' may be formed at the housing 282. In contrast, a guide hole may be formed in the driving body 284, and a guide pin may be formed in the housing 282. As the guide pin 284 'is guided through the guide hole 282', the linear reciprocation of the driving body 284 can be guided.

On the basis of having the structure as described above, an elastic member 284″ may be provided surrounding the guide pin 284'. The elastic member 284″ may be located in a space between the driving body 284 and an inner surface of the housing 282. The elastic member 284″ may provide an elastic restoring force to the driving body 284, such that the driving body 284 has a tendency to move to a specific position. In this configuration, the driving body 284 is always kept in close contact with the inner top of the housing 282 with reference to the drawing, and thus the operation of the first lock mechanism 280 can be made smooth.

An actuation lever 286 may be connected to one side of the actuation body 284. The driving lever 286 may protrude to the outside of the housing 282 in a state of being connected to the driving body 284. A lock lever 287 may be connected to one end of the drive lever 286, and the lock lever 287 may be rotatable by a predetermined angle around the connection pin 286'. The locking lever 287 can be rotated by a prescribed angle inside the mounting frame 100. The lock lever 287 can be rotated by a prescribed angle about the rotation center 287'. The lock lever 287 may be rotated by a predetermined angle around a rotation center axis (not shown) passing through the rotation center 287'. The rotation center shaft may penetrate the rotation center 287 '(see fig. 25) in a state of being positioned in the support piece 108' provided in the third coupling concave-convex portion 108 of the mounting frame 100.

A locking protrusion 287″ may be provided at a front end of the locking lever 287. The locking protrusion 287″ may be locked to the fastening locking member 298 as an inserted counterpart through an opening 108″ formed in the third coupling concave-convex portion 108 of the mounting frame 100. The outer surface of the front end of the locking protrusion 287″ is configured to be curved so that the interlocking with the fastening locking piece 298 as the counterpart can be smoothly achieved.

An operating lever 288 may be connected to the other side of the driving body 284. The operation lever 288 may protrude to the outside of the housing 282. The operation lever 288 may protrude not only to the outside of the housing 282 but also to the outside of the mounting frame 100 (see fig. 25). This is to make it easy for the user to operate the operation lever 288. In the first locking mechanism 280, the operating lever 288 may extend in a straight line.

In addition, as shown in fig. 29, in the structure of the second locking mechanism 280', the structure of the operation lever 288 is different from that of the operation lever 288 in the first locking mechanism 280. This is to allow the operation lever 288 of the second locking mechanism 280' to protrude toward the front surface of the side of the mounting frame 100 as shown in fig. 3. The operating lever 288 of the second locking mechanism 280' may be located at the panel cut-out 268 of the second front panel 260. The operation lever 288 of the second locking mechanism 280' may be provided at a front side of the installation frame 100 to enable a user to perform an operation in a room to release the locking, and the operation lever 288 of the first locking mechanism 280 may be exposed to a side surface of the installation frame 100 to be accessible when opening the window sash 20 at the indoor side.

The structure of the window side locking mechanism 290 that is locked by the first locking mechanism 280 and the second locking mechanism 280' to lock the window sash 20 will be described with reference to fig. 28 and 29. The window side locking mechanism 290 may be provided at an inner side of the window sash 20 to be exposed through a side of the window sash 20. A body plate 292 is provided for fixing the window side locking mechanism 290 to one side of the window sash. The body plate 292 is perforated at both ends thereof with fastening holes 292' respectively, which can be fastened to the window sash 20 using screws.

The body plate 292 may be provided with a bent portion 294, and a predetermined mounting space 294' may be formed inside the bent portion. A lever cap 296 'and an elastic member 297, which will be described below, may be provided in the installation space 294'. The push rod 296 may protrude to the outside through one side of the bent portion 294 of the body plate 292 so that the installation space 294' of the body plate 292 communicates with the outside. The rear end portion of the push lever 296 may be positioned in the installation space 294', and the front end portion protrudes outside the installation space 294' of the body plate 292. A lever cap 296' may be provided at a rear end of the push lever 296. The lever cap 296' is a portion supporting one end of the elastic member 297. The lever cap 296' may be configured to surround one end portion of the elastic member 297. In the case where the elastic member 297 is a coil spring, the lever cap 296' may be formed in a cylindrical shape.

The push rod 296 may be abutted against the mounting frame 100 when the window sash 20 is closed to be abutted against the mounting frame 100. That is, when the locking mechanisms 280, 280' and the window side locking mechanism 290 are fastened to each other, the push lever 296 may elastically deform the elastic member 297. When the fastening between the locking mechanisms 280, 280', 290 is released, the restoring force of the elastic member 297 may space the window sash 20a prescribed distance from the mounting frame 100.

A fastening clip 298 is provided on one side of the body plate 292. The fastening catch 298 may be shaped to closely resemble the front end of the locking lever 287. A locking projection 298″ may be formed at the front end of the fastening locking member 298. The outer surface of the front end of the locking projection 298″ may also be formed as a curved surface.

As another embodiment of the window-side locking mechanism 290, the structure related to the push lever 296 and the elastic member 297 in the window-side locking mechanism 290 may be separately constructed separately from the body plate 292. The functions performed by the push lever 296 and the elastic member 297 may also be provided separately from the mounting frame 100 side. In more detail, in the body plate 292, a bent portion 294 and a structure provided therein are separately provided at one side of the window 20 or the installation frame 100.

Further, as another embodiment, the first locking mechanism 280 and the second locking mechanism 280' may be fixed to one side of the window frame 10 instead of the mounting frame 100. For example, the first and second locking mechanisms 280 and 280 'are provided at the window frame 10 corresponding to the space between the first coupling concave-convex portions 104 of the first base 101'. At this time, the operation lever 288 of the second locking mechanism 280' may be exposed to the indoor space through one side of the mounting frame 100.

The first and second locking mechanisms 280 and 280' are fastened to the window-side locking mechanisms 290 provided on the corresponding window sashes 20, respectively, and the fastening process is sequentially shown in fig. 30A to 30C. When the installation of the air management unit 200 is completed after the installation frame 100 is installed in the window frame 10 and then the installation space 100' of the installation frame 100, the window sash 20 needs to be closed to be divided into indoor and outdoor in order to use the air management unit 200. For this, it is necessary to move the window sash 20 to be closely attached to the side of the mounting frame 100. Fig. 30A shows a state in which the window sash 20 is opened, and fig. 30B shows a state in which the third coupling concave-convex portion 108 of the installation frame 100 enters the inside of the window frame 22 as the window sash 20 is closed, so that the locking lever 287 and the fastening clip 298 start to be coupled. Fig. 30C shows a state in which window sash 20 is fully closed and locked.

In fig. 30B, when the fastening locking piece 298 moves together with the window sash 20, the front end outer surface of the locking protrusion 298″ contacts the locking protrusion 287″ of the locking lever 287, whereby the locking lever 287 can be rotated clockwise with reference to the drawing about the rotation center 287'. In this state, when the window sash 20 and the fastening locking piece 298 are moved further toward the mounting frame 100 side, the locking protrusion 298 "of the fastening locking piece 298 passes the locking protrusion 287", the locking lever 287 including the locking protrusion 287 "rotates counterclockwise about the rotation center 287' so that the locking protrusion 287" is locked to the locking protrusion 298 "of the fastening locking piece 298. At this time, the pushing lever 296 compresses the elastic member 297 to be elastically deformed as it is closely attached to the outer surface of the mounting frame 100.

In the state of fig. 30C, when the user presses the operation lever 288 in the arrow a direction, the locking protrusion 287″ may be separated from the locking protrusion 298″ of the fastening locking piece 298 as the locking lever 287 rotates clockwise about the rotation center 287'. At this time, the elastic member 297 is to be restored to the original state, so that the push lever 296 can be protruded. Thus, the sash 20 can be moved relative to the mounting frame 100 while the push lever 296 is kept in close contact with the outer surface of the mounting frame 100. At this time, the state of fig. 30A is reached, and the window sash 20 can be slightly opened, whereby the user can easily further open the window sash 20.

The structure of the support frame 300 is described with reference to fig. 31 to 34. The support frame 300 may support the mounting frame 100 at a prescribed height. The support frame 300 may be used when the open portion cannot be shielded only by the mounting frame 100 due to the high height of the vertical bar 16 of the window frame 10. For example, the support frame 300 may be used when the air management unit 200 is installed on a living room window or bedroom window having a height of the window frame 10 of the order of 1400 to 2300 mm.

The support frame 300 as described above can be combined with the installation frame 100 while stably supporting the load of the air management unit 200 to maintain a closed structure to avoid lowering the function of the window.

The support frame 300 may be very similar in structure to the mounting frame 100. Since the support frame 300 is provided at the window frame 10 to function as the mounting frame 100, it may be very similar to the mounting frame 100 in the structure of the outer surface, particularly, both sides and the lower surface. However, the upper surface portion of the support frame 300 needs to be coupled with the lower surface portion of the installation frame 100, and thus, it may be different from the structure of the corresponding portion of the installation frame 100 coupled with the upper rail 12 of the window frame 10.

The support frame 300 may have a quadrangular shape, and an inner space 300' is formed to penetrate the inside thereof front and rear. The inner space 300' may be filled with a heat insulating material. In contrast, a filter may be provided in the internal space 300' to purify air and flow the air from the outside to the inside. In contrast, an additional air management unit 200 that functions differently from the air management unit 200 may be provided in the internal space 300' of the support frame 300.

The support frame 300 may be configured to have a lower portion formed by extending the first connection member 302 in the left-right direction, and a second connection member 304 may be provided at an upper portion, and the second connection member 304 may be configured to have an upper portion formed by extending the first connection member 302 in the left-right direction in parallel. A first post 306 and a second post 308 may be provided in order to connect both ends of the first and second connection members 302 and 304. The first and second posts 306, 308 may extend longer up and down.

A cover locking hole 310 may be provided at the front surface of the support frame 300. The cover locking hole 310 is inserted into and locked to a front locking piece 326 of a front cover 320 to be described later. The cover locking hole 310 may be provided in plural for stable coupling of the front cover 320. The cover locking holes 310 may be formed at both sides of the upper portion and both sides of the lower portion of the support frame 300, respectively. More precisely, the cover locking holes 310 may be formed at the upper and lower portions of the first column 306 and the upper and lower portions of the second column 308, respectively. The cover locking hole 310 may be formed in the back surface of the support frame 300. The cover locking hole 310 formed on the back surface of the support frame 300 is used for mounting a rear cover 330 to be described below.

A structure for closely contacting the window frame 10 and the window sash 20 may be provided so as to surround the outer surface of the support frame 300.

First, second, third, and fourth coupling concave-convex portions 312, 314, 316, and 318 may be formed at four outer surfaces of the support frame 300.

The first coupling concave-convex 312 may be formed at a lower surface of the support frame 300. Although the first coupling concave-convex portion 312 is convexly provided in the drawing, a groove may be formed longer along the inner side thereof to be coupled with the lower rail 14' formed on the lower rail 14 of the window frame 10 in a convex shape. As also mentioned in the structural description of the mounting frame 100, when a channel-shaped structure is provided in the lower rail 14 instead of the lower rail 14' for guiding the movement of the window sash 20, the first coupling recess and projection 312 may be constructed in a convex shape and coupled to the lower rail 14 of the window frame 10.

When the first coupling concave-convex portion 312 is coupled to the lower rail 14' and the first coupling concave-convex portion 312 is disposed along the front and rear ends of the lower surface of the support frame 300, the support frame 300 can be prevented from protruding from the inside to the outside of the window frame 10 of the window. This may be equally applicable to the second coupling concave-convex portion 314 to be described below. Accordingly, as shown in fig. 32, the first and second coupling concave-convex portions 312 and 314 may extend along the front and rear end edges of the support frame 300, respectively. According to such a structure, the lower surface of the support frame 300 may be located in the region of the lower rail 14 of the window frame 10. The lower surface of the support frame 300 may be located at a region between the end bosses 14″ of the lower rail 14, and the upper surface of the support frame 300 has a front-rear width corresponding to the lower surface of the mounting frame 100 and is coupled to each other. Also, the right side of the support frame 300 may be located in the region of the vertical bar 16.

The distance between the first coupling concave-convex portions 312 may be the same as the interval between the lower rails 14' provided on the lower rail 14. In the case of using a single sash window other than the double sash window, only one of the first coupling concave-convex portions 312 may be provided. In a single sash window, the lower rails 14' may be provided in two, and in a double sash window, the lower rails 14' may be provided in four, and in the illustrated embodiment, the distance between the first coupling recesses and projections 104 may be the same as the distance between the lower rail 14' closest to the indoor side and the next lower rail 14' after skipping one lower rail 14 '.

When the first coupling concave-convex portion 312 is coupled to the lower rail 14' and the first coupling concave-convex portion 312 is disposed along the front and rear ends of the lower surface of the support frame 300, the support frame 300 can be prevented from protruding from the inside to the outside of the window frame 10 of the window. In particular, when the front surface of the support frame 300 is disposed in a facing manner on the inner surface of the end boss 14″ of the front end of the lower rail 14, and the rear surface of the support frame 300 is disposed in a facing manner on the inner surface of the end boss 14″ of the rear end of the lower rail 14, the support frame 300 can be stably positioned within the window frame 10, and the support frame 300 can be moved along the lower rail 14'.

In addition, the structure formed on the outer surface of the support frame 300 is similar to that formed on the outer surface of the window sash 20, and thus, the structure related to the first coupling concave-convex 312 may be equally applicable to the second coupling concave-convex 314 to be described below. As shown in fig. 32, the first and second coupling concave-convex portions 312 and 314 may extend along the front and rear end edges of the support frame 300, respectively.

The second coupling concave-convex 314 may be formed at the right outer surface of the support frame 300 with reference to fig. 32. The second coupling concave-convex portion 314 has a groove shape, and although the second coupling concave-convex portion 314 is convexly provided in the drawing, grooves may be formed longer up and down along the inner side thereof. The vertical projections and recesses 16' of the vertical bar 16 can be inserted to effect the coupling. The second coupling concave-convex 314 may be simply formed in a groove shape on the right outer surface of the support frame 300.

The third coupling concave-convex 316 may be formed at the left outer surface of the support frame 300. The third coupling concave-convex portion 316 is provided at an outer surface of an opposite side to the second coupling concave-convex portion 314, and may be formed in a convex shape. The third coupling recess and protrusion 316 may be coupled with a groove portion formed on the window frame 22 of the window 20. The second coupling concave-convex portion 314 and the third coupling concave-convex portion 316 may be replaced with each other. In this case, a convex shape may be provided to the window sash 22 of the window sash 20, and a groove shape into which the convex shape of the window sash 22 is inserted may be provided to the vertical bar 16 of the window frame 10.

The fourth coupling concave-convex 318 may be located at an upper surface of the support frame 300. The fourth coupling concave-convex portion 318 may have a convex shape. The fourth coupling concave-convex 318 may be inserted into and coupled to the groove of the first coupling concave-convex 104 of the mounting frame 100.

The fourth coupling concave-convex portion 318 may be provided with a locking piece 319. As shown in fig. 34, the locking piece 319 may be inserted into and locked to a coupling groove 101' a formed on the lower surface of the mounting frame 100. The locking piece 319 may be formed at a position on the upper surface side of the support frame 300 instead of the fourth coupling concave-convex portion 318. In this case, the position of the coupling groove 101' a formed on the lower surface of the mounting frame 100 may be configured as a corresponding portion. The locking piece 319 may protrude from the fourth coupling concave-convex portion 318 to an upper portion, and the upper portion extends in parallel with the second connection member 304. The extended portion may be caught in the coupling groove 101' a.

Unlike the first coupling concave-convex portion 312 and the second coupling concave-convex portion 314, which are formed in a shape protruding more than the outer surface of the support frame 300 and in which grooves are formed, only grooves may be formed without protruding toward the outer surface of the support frame 300.

In order to achieve waterproof, soundproof, and windproof between the support frame 300 and the window frame 10 and between the support frame 300 and the window sash 20, the first, second, third, and fourth coupling recesses and protrusions 312, 314, 316, and 318 formed on the outer surface of the support frame 300 may follow structures such as mohair and a filler used in a window.

A front cover 320 may be provided at the front surface of the support frame 300. The front cover 320 may serve to shield an inner space 300' formed inside the support frame 300 from the front surface of the support frame 300. The front cover 320 is provided with a front cover body 322 having a quadrangular plate shape, and front cover side walls 324 may be provided at both sides of the front cover body 322, respectively. The front cover side walls 324 may be orthogonal to the front cover body 322. The front cover sidewall 324 may extend from an upper end to a lower end of the front cover body 322. The width of the front cover side walls 324 may be equal to or slightly greater than the front-to-back thickness of the front end panel 204 of the air management unit 200. The front cover sidewall 324 may have a front-to-back width equal to a front-to-back width of the second panel sidewall 264 of the second front panel 260.

A front locking piece 326 that can be inserted into and locked to the cover locking hole 310 may be provided at the front cover side wall 324. The front catch 326 may be disposed at a plurality of locations on the front cover sidewall 324. In the illustrated embodiment, four protrusions are formed from the end of the front cover sidewall 324 toward the support frame 300.

In the case where the additional air management unit 200 is provided in the internal space 300', a structure for the function of the additional air management unit 200 may be provided in the front cover 320. For example, structures such as a panel suction port 270, a panel discharge port 272, and an operation portion 274 formed on the second front panel 260 may be formed on the front cover 320.

A rear cover 330 may be provided at the rear surface of the support frame 300. The rear cover 330 may serve to shield an inner space 300' formed inside the support frame 300 from the rear surface of the support frame 300. The rear cover 330 may be provided with a rear cover body 332 having a quadrangular plate shape, and rear cover sidewalls 334 may be provided at both sides of the rear cover body 332, respectively. The rear cover sidewall 334 may be orthogonal to the rear cover body 332. The rear cover sidewall 334 may extend from an upper end to a lower end of the rear cover body 332. The width of the rear cover sidewall 334 may be equal to the width of the second cover sidewall 163.

A rear locking piece 336 that can be inserted into and locked to the cover locking hole 310 may be provided at the rear cover side wall 334. The rear catch tab 336 may be disposed at a plurality of locations on the rear cover side wall 334. In the illustrated embodiment, four protrusions are formed from the end of the rear cover sidewall 334 toward the rear surface of the support frame 300.

In the case where the additional air management unit 200 is provided in the internal space 300', the rear cover 330 may be provided with an arrangement structure related to the function of the additional air management unit 200.

An arrangement for locking may also be provided between the support frame 300 and the window sash 20. For example, the first and second locking mechanisms 280, 280' may be further provided to the support frame 300, and the window side locking mechanism 290 may be provided to the window sash 20 corresponding thereto. The locking mechanism 280, 280', 290 may be provided between the mounting frame 100 and the window sash 20 and between the support frame 300 and the window sash 20 simultaneously or selectively.

Next, a case where the mounting frame 100 is mounted on the window frame 10 will be described with reference to fig. 35A, 35B, and 36.

In order to install the air management unit 200, the installation frame 100 is installed on the lower rail 14 of the window frame 10 in a state that the window sash 20 of the window frame 10 is opened more than a predetermined degree. At this time, the second frame 102 of the mounting frame 100 is in a state of not protruding from the first frame 101. Since the height of the installation frame 100 is in the lowest state, the user can easily set the installation frame 100 in the window frame 10.

In order to couple the first coupling concave-convex portion 104 of the mounting frame 100 at the lower rail 14' of the lower rail 14, the mounting frame 100 may be positioned at the lower rail 14. The mounting frame 100 may move along the lower rails 14 'while the first coupling concavities and convexities 104 of the mounting frame 100 are respectively inserted into the lower rails 14'.

In fig. 35A and 35B, since the window is a double sash, the lower rails 14 'may be provided with a total of four, and one of the four lower rails 14' may be skipped to couple the first coupling concave-convex portions 104. When the mounting frame 100 is pushed in the direction of the vertical bar 16 in a state where the first coupling concave-convex portion 104 of the mounting frame 100 is coupled to the lower rail 14', the mounting frame 100 can be moved along the lower rail 14'.

Fig. 35A shows a state in which the right outer surface of the mounting frame 100 is closely attached to the vertical bar 16 of the window frame 10. In more detail, it shows a state in which the vertical concave-convex portion 16' formed on the vertical bar 16 and the second coupling concave-convex portion 106 of the mounting frame 100 are coupled to each other. The groove at the second coupling concave-convex 106 may be inserted into and coupled to the vertical concave-convex 16'. In the process of disposing the mounting frame 100 on the window frame 10, one side of the mounting frame 100 may be closely attached to the vertical member 16 after the second frame 102 at one end is coupled to the upper rail 12 constituting the upper portion of the window frame 10. Of course, the mounting frame 100 may be attached to the vertical member 16 in advance before the second frame 102 protrudes from the first frame 101.

The first and second exterior covers 150 and 160 may be mounted to the mounting frame 100 before the mounting frame 100 is mounted to the window frame 10. Since the first and second exterior covers 150 and 160 are located at the outdoor side, for example, in the case of high-rise installation of the apparatus of the present invention, it is required to be installed in the installation frame 100 in advance. But the first and second outer covers 150 and 160 are not necessarily pre-installed in case of not being a high level or even being a high level but easily accessible to a user.

The first and second outer covers 150 and 160 may selectively function by changing the installation direction as described above. As described above, in fig. 11A, in order to guide the air discharge to the outdoor side upward, the first louver 154 and the second louver 164 are provided to be inclined upward to the outdoor side, and in fig. 11B, are provided to be inclined downward to the outdoor side, so that the entry of moisture from the outdoor side to the mounting frame 100 side is prevented, and the air discharged to the outdoor side can be guided downward. Comparing the states of fig. 11A and 11B, the first and second external covers 150 and 160 are respectively rotated 180 degrees to be mounted on the mounting frame 100.

Then, when the action key 116 is pressed, the second frame 102 may be raised protruding from the first frame 101. The second frame 102 may be lifted up by the pushing force of the pushing member 180 of the moving mechanism 170. The operation of the pushing member 180 will be described in more detail below. The second frame 102 may be raised with the force provided by the push member 180 until it is snugly against the upper rail 12. The state described above is shown in fig. 35B.

The fourth coupling concave-convex portion 110 formed on the upper surface of the second frame 102 may be coupled with the upper rail 12' of the upper rail 12 when the second frame 102 is raised to protrude from the first frame 101. That is, the upper rail 12' may be inserted into a groove formed on the fourth coupling concave-convex portion 110 of the second frame 102. The state described above is better shown in fig. 36. As the second frame 102 is lifted upward relative to the first frame 101, the folding plate 148 is unfolded, so that a space formed by the lifting of the second frame 102 can be shielded from the outside.

To maintain this condition, the locking plate 118 may be rotated to fix the position of the second frame 102 relative to the first frame 101 as the second frame 102 is raised to engage the upper rail 12. When the lock disk 118 is rotated, inside the first lever 122 and the second lever 124 of the first frame 101, the abutting surface 119″ of the fixed cam 119 abuts against the first leg 132 and the second leg 134 of the second frame 102, so that the second frame 102 can be prevented from entering the inside of the first frame 101 (refer to fig. 15).

In the state of fig. 35B, the mounting frame 100 is coupled to the lower and upper rails 14 and 12 and the vertical bar 16 of the window frame 10, respectively. Thus, even if a force is applied in a direction penetrating the window frame 10, the installation frame 100 does not come off to the indoor side or the outdoor side of the window. The mounting frame 100 may be movable along the upper rail 12 'and the lower rail 14'. As described above, as the mounting frame 100 is seated on the lower rail 14 of the window frame 10 and combined with the upper rail 12, movement in the remaining directions other than movement in the directions of the upper rail 12 'and the lower rail 14' can be prevented without using additional fasteners.

The operation of the moving mechanism 170 will be described below. The moving mechanism 170 is configured to provide a force to raise the second frame 102, which can be activated by the activation key 116. When the action key 116 is pressed, the link 172 provided with the action key 116 may be lowered. The lifting and lowering action of the link coupling 172 may be guided by the action guide 171.

When the link coupling 172 descends, the extension coupling 174, which is orthogonal to both ends of the link coupling 172 and extends into the first and second bars 122 and 124 of the first frame 101, may descend together. When the extension link 174 is lowered, the locking links 176 are rotated in the arrow B direction of fig. 14 as one end portions of the locking links 176 provided in the first and second levers 122 and 124 are pulled in the arrow a direction of fig. 14.

With the rotation of the lock link 176, the lock projection 177 of the lock link 176 can be separated from the motion suppressing projection 186. The motion suppressing protrusions 186 are provided at the first and second legs 132 and 134 of the second frame 102, and when the latching coupling 176 is separated from the motion suppressing protrusions 186, the second frame 102 provided with the motion suppressing protrusions 186 can move as the in-out lever 184 of the push member 180 protrudes from the housing 182.

When the access lever 184 pushes up the second frame 102, the second frame 102 is lifted up with respect to the first frame 101. The guide posts 190 and the damping mechanism 192 may make the lifting operation of the second frame 102 softer and smoother. In the above-described operation, the operation key 116 can be moved to the original position by the restoring force of the elastic member 171' when the user does not press the operation key after the user presses the operation key.

In addition, a case where the second frame 102 is housed inside the first frame 101 will be described. The lock plate 118 is rotated in the opposite direction to release the state in which the fixed cam 119 is abutted against the second frame 102. Next, the user holds the handle 142 provided on the lower surface of the connection member 136 of the second frame 102, and moves the second frame 102 against the force of the push member 180. As the second frame 102 moves, the locking projections 177 of the locking coupling members 176 are locked to the movement suppressing projections 186 provided on the first leg 132 and the second leg 134 of the second frame 102. The locking coupling members 176 are separated relatively far from each other by the locking protrusions 177 of the locking coupling members 176 at both sides under the elastic force of the restoring member 179, and the locking protrusions 177 can be rotated in the direction approaching each other when the operation suppressing protrusions 186 descend and are guided along the locking protrusions 177. When the movement suppressing projection 186 passes the locking projection 177, the locking coupling 176 is restored by the restoring force of the restoring member 197, so that the locking projection 177 can be maintained in a locked state with the movement suppressing projection 186.

Next, a case where the air management unit 200 is inserted into the installation space 100' of the installation frame 100 to be installed will be described with reference to fig. 37 and 38A to 38D. The air management unit 200 may be located in the installation space 100' formed on the first frame 101 in the installation frame 100. The air management unit 200 is not entirely located within the installation space 100'. The air management unit 200 may be located in a large area of the installation space 100'. The front end plate 204 of the air management unit 200 may protrude forward of the mounting frame 100, and a rear end portion of the housing body 206 of the air management unit 200 may protrude rearward of the mounting frame 100.

As shown in fig. 37, the air management unit 200 is provided in front of the installation space 100', and the air management unit 200 is moved toward the installation space 100'.

Next, of the lower projections 224 provided on the lower surface of the air management unit 200, the lower projections 224 provided at the rear end of the housing body 206 are preferably locked to the rear surface of the front-end projection 112. For this reason, it is preferable to perform the work in a state where the upper portion of the air management unit 200 is inclined toward the worker side. This is to insert only a part of the lower rear end of the air management unit 200 into the interior of the installation space 100'. As shown in fig. 38A, only a minimal portion of the air management unit 200 may be located in the installation space 100', thereby locking the lower protrusion 224 at the front-end protrusion 112.

Then, the air management unit 200 may be rotated in a state where the rear end of the front end protrusion 112 is locked to the rear end-positioned lower protrusion 224 of the lower protrusions 224. That is, the air management unit 200 may be rotated centering on the lower portion of the first frame 101, so that the upper portion of the air management unit 200 is introduced into the installation space 100'.

By this operation, as shown in fig. 38B, the upper part of the air management unit 200 can be tilted backward, and the front end protrusion 112 of the mounting frame 100 is placed on the moving path 220 of the bottom surface of the air management unit 200. At this time, the lower projection 224 provided at the rear end of the lower projection 224 maintains its state on the guide projection 114 located at the rear position of the front end projection 112.

The above-described rotation operation is enabled because the upper surface of the housing body 206 of the housing 202 constituting the external appearance of the air management unit 200 is inclined downward toward the rear. Due to the inclined structure of the upper surface of the housing body 206, the housing body 206 may enter the inside of the installation space 100' instead of being caught at the lower portion of the upper connection bar 126 of the installation frame 100.

The lower projection 224 provided at the rear end side of the housing 202 among the lower projections 224 can move while rubbing on the guide projection 114 of the mounting frame 100. During the insertion of the air management unit 200 into the installation space 100', the front-end protrusion 112 may be guided along the moving channel 220, and the lower protrusion 224 may be moved along the guide protrusion 114, and thus, may be stably moved with minimal friction. The state described above is shown in fig. 38C.

The air management unit 200 may be moved until the rear edge of the front end plate 204 of the housing 202 abuts against the front surface edge of the mounting frame 100. In such an action, the front-end protrusion 112 is guided along the moving path 220, and then when the front-end protrusion 112 meets the catching groove 222, the front-end protrusion 112 may naturally be seated and caught to the catching groove 222. A state in which the front end projection 112 is inserted into and locked to the locking groove 222 is shown in fig. 38D.

During the insertion of the front-end protrusion 112 into the locking groove 222, the air management unit 200 may be obliquely moved along the inclination of the front-end protrusion 112 and enter the inside of the installation space 100'. At this time, the lower protrusion 224, which is oppositely disposed at the rear end among the lower protrusions 224, may pass through the bottom surface of the installation space 100'. That is, the lower protrusion 224 provided at the rear end among the lower protrusions 224 may be stopped after passing through the lower connection rod 120.

In addition, the fastening protrusion 248 of the rear extension hook 246 located at the upper portion of the front end plate 204 of the air management unit 200 may be fastened to the fastening hole 127' of the mounting frame 100. The fastening protrusion 248 is guided along the inner surface of the installation space 100' of the installation frame 100 and acts the key main body 238 to compress the key restoring member 244, thereby allowing the release key 236 to enter the inside of the front end plate 204. At the moment when the fastening boss 248 is received in the locking hole 127', the release button 236 may be protruded to be in an original state by the restoring force of the button restoring member 244. The action of the rear extension hook 246 may be caused during the insertion of the front end protrusion 112 into the locking groove 222.

When the rear extension hooks 246 are locked to the mounting frame 100 and the front protrusions 112 are locked to the locking grooves 222 of the air management unit 200, the air management unit 200 is fastened to the mounting frame 100. In this state, when the release button 236 is pressed and the air management unit 200 is pulled forward, the air management unit 200 may be detached from the mounting frame 100. At this time, in order to disengage the air management unit 200 from the installation space 100', it needs to be moved in an inclined direction of the front-end protrusion 112. That is, the air management unit 200 moves slightly upward along the inclination of the front-end projection 112.

In order that the above-described action is not performed even if the release button 236 is pressed, further fastening may be performed using the locking screw 230. When the locking screw 230 is fastened to the fastening hole 127 of the mounting frame 100, the fastened state of the mounting frame 100 and the air management unit 200 can be firmly maintained.

After the air management unit 200 is mounted on the mounting frame 100, the first front panel 250 may be mounted on the air management unit 200 and the mounting frame 100 to shield a space formed by the second frame 102. The first front panel 250 may function to shield an indoor side portion corresponding to the folding plate 148.

The guide protrusions 258 on both sides of the first front panel 250 are located at the moving slots 214 formed on both sides of the front end plate 204 of the housing 202 via the moving slot inlets 216. In this state, the first front panel 250 is tilted and moved as shown in fig. 39. At this time, the first front panel 250 may be moved in a state where the panel locking piece 256 of the first front panel 250 is disposed on the front surface of the mounting frame 100.

The guide protrusion 258 moves along the moving slot 214 so that the panel locking piece 256 of the first front panel 250 is inserted into the second locking slit 143 of the mounting frame 100. The position of the guide projection 258 in the moving slot 214 may be different according to the length of the second frame 102 protruding from the first frame 101. The first front panel 250 may shield the second frame 102 and an upper portion of the air management unit 200.

Next, a case where the second front panel 260 is mounted on the front surface of the air management unit 200 will be described with reference to fig. 40. The panel electrode 266 located at the rear surface of the second front panel 260 is inserted into the body electrode 212 of the front surface of the air management unit 200. For this purpose, the second front panel 260 is inclined such that the upper portion of the second front panel 260 is positioned on the user side and the lower portion is positioned on the front surface of the air management unit 200, and the panel electrode 266 is inserted into and locked to the body electrode 212, thereby achieving electrical connection. In addition, the second front panel 260 may be further attached to the front surface of the air management unit 200 using the magnetic force of the magnet 276.

The state in which the first and second front panels 250 and 260 are mounted on the front surfaces of the mounting frame 100 and the air management unit 200 is shown in fig. 41. With the electrical connection between the body electrode 212 and the panel electrode 266 of the second front panel 260, power can be supplied to the operation portion 210.

Fig. 42 and 43 show a state in which the window sash 20 is closed and the window sash 20 is fastened to the installation frame 100 in a state in which the air management device is installed in the window frame 10. When the window sash 20 is closed in a state where the air management unit 200 is installed in the installation space 100' of the installation frame 100 and the first and second front panels 250 and 260 are installed, the first and second locking mechanisms 280 and 290 and the second and window side locking mechanisms 280 and 290 may be fastened to each other, so that the window sash 20 can be prevented from being opened. The first locking mechanism 280 is located opposite to the outdoor side in the mounting frame 100, and may be fastened with a window side locking mechanism 290 of a window sash located at the outdoor side of the double window sash 20. The second locking mechanism 280' is located opposite to the indoor side in the mounting frame 100, and may be fastened to the window side locking mechanism 290 of the window sash 20 located at the indoor side of the double window sash 20.

The operating lever 288 of the second locking mechanism 280' may be located at the panel cut-out 268 of the second front panel 260. Accordingly, the user can operate the operation lever 288 at the indoor side. When the operation lever 288 is pressed, the locking lever 287 of the second locking mechanism 280' is lifted, so that the locking can be released from the fastening catch 298 provided on the window sash 20. Further, the window sash 20 on the indoor side can be opened to a predetermined degree by the restoring force of the elastic member 297.

When the indoor side window sash 20 is opened, the operation lever 288 of the first locking mechanism 280 can be seen, and when the user presses the operation lever 288 of the first locking mechanism 280, the coupling between the first locking mechanism 280 and the window side locking mechanism 290 of the outdoor side window sash 20 can be released. At this time, the window sash 20 at the outdoor side may be opened to a predetermined extent by the restoring force of the elastic member 297. When the fastening between the locking mechanisms 280, 280', 290 is released in this way, the user is free to further open the window sash 20.

Next, a case of using the support frame 300 will be described. The support frame 300 may be selectively used when the penetrating portion of the window frame 10 cannot be completely shielded only by the mounting frame 100. This may be used in the case of installing the air management unit 200 on a large living room window.

The support frame 300 may be installed at the window frame 10 in a state where the support frame 300 is coupled to the installation frame 100 as shown in fig. 34, or the installation frame 100 may be coupled to the support frame 300 after the support frame 300 is installed at the window frame 10.

The state in which the support frame 300 is mounted on the window frame 10 and the mounting frame 100 is mounted on the support frame 300 is shown in fig. 44. At this time, the second frame 102 of the mounting frame 100 is not yet lifted up from the first frame 101.

The lower rail 14 'of the lower rail 14 may be inserted at the first coupling concave-convex portion 312 of the support frame 300 such that the support frame 300 moves along the lower rail 14'. Fig. 44 shows a state in which the second coupling concave-convex portion 314 of the support frame 300 is coupled with the vertical concave-convex portion 16' of the vertical bar 16 of the window frame 10. The points of time at which the vertical bars 16 of the window frame 10 and the support frame 300 are combined with the mounting frame 100 may be the same as in the case of the mounting frame 100 described above.

Next, when the operation key 116 of the mounting frame 100 mounted on the support frame 300 is pressed, the moving mechanism 170 is operated to raise the second frame 102 with respect to the first frame 101, so that the upper portion of the second frame 102 can be coupled to the upper rail 12' of the upper rail 12. This process has been described above. The state in which the second frame 102 is raised as described above is shown in fig. 45.

Next, the air management unit 200 is installed in the installation space 100' of the installation frame 100. This process is shown in fig. 46. Fig. 47 shows a case where the front cover 320 is mounted on the support frame 300 after the air management unit 200 is mounted in the mounting space 100' of the mounting frame 100, and then the first front panel 250 is mounted on the upper portion of the air management unit 200.

There may be various cases at the time of mounting the front cover 320 on the support frame 300. For example, the front cover 320 and the rear cover 330 may be pre-installed on the support frame 300 before the support frame 300 is installed on the window frame 20.

A process of mounting the second front panel 260 on the front surface of the air management unit 200 is shown in fig. 48. The front panel 260 is mounted on the front surface of the air management unit 200, and the state in which the window sash 20 is closed is shown in fig. 49. Here, the window sash 20 may be fastened to the mounting frame 100 to be locked.

Fig. 50 shows a case where the rear cover 330 is mounted on the support frame 300, and the first and second external covers 150 and 160 are mounted on the mounting frame 100. The first louver 154 of the first outer cover 150 and the second louver 164 of the second outer cover 160 can guide the air flow between the outdoor space and the outdoor side of the air management unit 200, and can cut off the water from entering the inside of the mounting frame 100 in the direction of the first louver 154 and the second louver 164.

Although the above description has been made with respect to the operation after all the constituent elements constituting the embodiment of the present invention are integrated or combined, the present invention is not necessarily limited to such an embodiment. In other words, all the components may be selectively combined to operate after one or more operations within the scope of the object of the present invention. Unless specifically stated to the contrary, the terms "comprising," "having," or the like, as used above, mean that the corresponding structural elements may be included, and thus, it should be understood that other structural elements may be included as well, without excluding other structural elements.

Although the embodiment of the disclosed drawings is described in which the second frame 102 is movable in the opposite direction of gravity and the gravitational direction with respect to the first frame 101, the structure of the present invention is also applicable to a case where the second frame 102 is movable in the horizontal direction.

Claims (9)

1. A window type air management device, wherein,

Comprising the following steps:

a support frame positioned within the window frame;

A mounting frame having a first frame and a second frame, the first frame having a mounting space through the inside thereof, the second frame being installed on the support frame, the second frame being moved in and out from the first frame; and

An air management unit disposed in the installation space, performing air management;

The support frame includes a plurality of coupling concavities and convexities provided around an outer surface thereof, the coupling concavities and convexities being coupled with the concavities and convexities of the window frame, the window sash, and the installation frame, respectively;

A front cover shielding an inner space formed inside the support frame from an indoor side is provided on a front surface of the support frame, and a rear cover shielding the inner space from an outdoor side is provided on a rear surface of the support frame;

A front locking piece and a cover locking hole which are combined with each other are formed at corresponding positions of the front cover and the front surface of the support frame, and a rear locking piece and a cover locking hole which are combined with each other are formed at corresponding positions of the rear cover and the rear surface of the support frame.

2. The window air management device of claim 1, wherein,

The support frame includes:

a first connecting member;

a second connecting member parallel to the first connecting member;

A first column connecting one end of the first connecting member and one end of the second connecting member; and

And a second column connecting the other end portion of the first connecting member and the other end portion of the second connecting member.

3. The window air management device of claim 2, wherein,

The plurality of coupling concave-convex portions includes:

a first coupling concave-convex portion located at a lower surface of the first coupling member to be movably coupled with a lower rail provided on a lower rail of the window frame;

A second coupling concave-convex portion provided at an outer surface of the first column to be coupled with a vertical concave-convex portion provided on a vertical rod of the window frame;

A third coupling concave-convex portion provided on an outer surface of the second column to be coupled with the concave-convex portion of the window sash; and

And a fourth coupling concave-convex portion provided on an upper surface of the second connection member to be coupled with the concave-convex portion of the lower surface of the mounting frame.

4. The window air management device of claim 3, wherein,

The first coupling concave-convex portion of the support frame extends left and right along front and rear ends of the lower surface of the first coupling member, which is located in a region between end bosses provided at front and rear ends of the lower rail of the window frame.

5. The window air management device of claim 4, wherein,

The first coupling concave-convex portion is formed to protrude from a lower surface of the first connection member, a lengthwise groove is formed in the inside thereof, a rail of a lower rail of the window frame is inserted into and coupled to the groove, and the fourth coupling concave-convex portion is formed to protrude from an upper surface of the second connection member to be coupled with the concave-convex portion formed at a lower surface of the mounting frame.

6. The window air management device of claim 5, wherein,

The second connecting member is further provided with a locking piece which is inserted into and locked to a coupling groove formed on the lower surface of the mounting frame.

7. The window air management device of claim 6, wherein,

The locking piece is formed on the fourth combination concave-convex part.

8. The window air management device of claim 3, wherein,

The second coupling recess and protrusion formed at the outer surface of the first column is formed to extend up and down to be coupled with the vertical recess and protrusion formed at the vertical rod of the window frame, and the third coupling recess and protrusion formed at the outer surface of the second column is formed to extend up and down to be coupled with the recess and protrusion of the window sash.

9. The window air management device of claim 8, wherein,

The second coupling concave-convex portion is formed to protrude from an outer surface of the first column, a groove into which the vertical concave-convex portion is inserted is formed in the inside thereof, and the third coupling concave-convex portion is formed to protrude from an outer surface of the second column, and is inserted into the groove formed on the window sash.