CN216974556U - Window frame member and window frame device - Google Patents

Abstract

The utility model relates to the technical field of window frames, and discloses a window frame component and a window frame device. In the window frame member, a frame base includes an internal space, an outdoor body is provided on an outdoor side of the frame base and capable of opening and closing the internal space, an indoor frame is provided on an indoor side of the frame base, the indoor frame and the frame base form a functional space for installing an air treatment device, and a fan is provided in the functional space. Because the indoor frame sets up the indoor side at the frame for indoor frame and frame form the functional space, like this, can install required air treatment device in the functional space with handling the air as required, then can improve the flow velocity of air when the fan operation, like this, this window frame component can realize indoor and outdoor initiative ventilation in order to promote ventilation efficiency.

Description

Window frame member and window frame device

Technical Field

The utility model relates to the technical field of window frames, in particular to a window frame component and a window frame device.

Background

At present, most of windows installed on the wall body or glass curtain wall of a building adopt a bridge-cut aluminum window, and the bridge-cut aluminum window comprises a window frame installed with the wall body of the building and a vacuum glass component arranged in the window frame. The bridge-cut-off aluminum window has good heat insulation and sound insulation effects, and can achieve certain passive energy conservation.

When ventilation and air exchange are needed indoors, the window is usually manually opened to perform natural ventilation and air exchange with the outdoors, and the window is manually closed when the window needs to be closed.

Although the bridge-cut-off aluminum window has good heat insulation and sound insulation effects, so as to meet the daily life requirements of people. However, there are certain disadvantages in practical use, for example, when outdoor air quality is poor, people are generally reluctant to open windows to ventilate a relatively closed room for a long time. In addition, when the air quality is poor, people usually prefer to use an indoor purifier to purify the indoor air. For another example, for some non-transparent building structures, when a person opens a window, the efficiency of opening the window for natural ventilation is relatively poor because the building structure is not conducive to air flow.

SUMMERY OF THE UTILITY MODEL

In one aspect, an object of the present invention is to provide a window frame member capable of performing active ventilation indoors and outdoors to improve ventilation efficiency, thereby effectively improving cleanliness of indoor air and comfort of an indoor environment.

In order to achieve the above object, the present invention provides a window frame member including a bezel including an inner space; an outdoor body disposed at an outdoor side of the bezel and capable of opening and closing the inner space; the indoor frame is arranged on the indoor side of the frame base, and the indoor frame and the frame base form a functional space for installing an air treatment device; a fan disposed within the functional space.

In this technical scheme, because the indoor frame sets up the indoor side at the sash seat for indoor frame and sash seat form the functional space, like this, can install required air treatment device in the functional space in order to handle the air as required, then can improve the flow velocity of air when the fan operation, like this, this window frame component can realize indoor and outdoor initiative ventilation in order to promote ventilation efficiency.

In some embodiments, a support beam is disposed across the frame base, and the air treatment device is disposed on the support beam.

In some embodiments, the support beam is adjustable in position along the height direction of the sash member.

In some embodiments, the support beams are plural in number and arranged at intervals in a height direction of the window frame member, and the fans are plural in number and provided on the respective support beams.

In some embodiments, the window frame member comprises an air treatment device comprising a purification unit, wherein the window frame member comprises a ventilation mode and an indoor air purification mode, wherein, in the ventilation mode, the outdoor body opens the interior space to allow outdoor air to enter the room through the interior space and the purification unit; in the indoor air purification mode, the indoor body closes the inner space, and the fan can drive indoor air to flow into the functional space, flow through the purification unit and then flow into the indoor space.

Like this, when the inner space was opened to the outdoor body, outdoor air will enter into indoorly through inner space and purification unit, carry out filtration purification to the air from outdoor entering indoorly like this, in addition, when the fan rotates, will realize indoor and outdoor initiative ventilation in order to promote ventilation efficiency, and after the inner space was closed to the outdoor body, then can order about the room air when the fan rotates and flow in the functional space and flow through purification unit after again flow into indoorly, like this, can circulate the purification to the room air, thereby effectively promote the cleanliness factor of room air and the travelling comfort of indoor environment. Therefore, the window frame member can filter and purify air entering the room from the outside, can realize active ventilation and air exchange of the room and the outside to improve the ventilation and air exchange efficiency, and can also circularly purify the indoor air.

In some embodiments, the ventilation mode includes a fresh air mode in which the fan is configured to drive outdoor air to flow through the purification unit and then into the room.

In some embodiments, the ventilation mode includes a natural ventilation mode in which the purification unit is configured to allow outdoor air to naturally flow into the room after flowing through the purification unit under a pressure difference between an indoor side and an outdoor side of the purification unit.

In some embodiments, the ventilation mode comprises a natural ventilation mode in which the purification unit is configured to be removed from within the functional space.

In some embodiments, the filter layer of the purification unit is configured to be removable from within the functional space.

In some embodiments, a space wall of the functional space is provided with an indoor valve that is openable by a negative pressure in the functional space in the indoor air cleaning mode.

In some embodiments, the bottom frame edge of the inner frame of the chamber is formed with an air inlet, the inner valve of the chamber comprises a pressing sheet which is positioned in the functional space and can be movably arranged on the bottom frame edge, and the pressing sheet covers the air inlet and can move inwards under the action of the negative pressure to open the air inlet.

In some embodiments, the purification unit includes a filter layer disposed in the chamber inner frame, and the fan is disposed on the frame base.

In some embodiments, the window frame member includes an air treatment device including a temperature conditioning device capable of heating and cooling air, and/or the air treatment device includes a negative oxygen ion generating module.

In some embodiments, the sash member includes an indoor body disposed on the indoor frame, the indoor body being capable of opening the functional space.

In some embodiments, the indoor body is capable of closing the functional space.

In some embodiments, the interior body includes a thermal and acoustical insulation layer.

In some embodiments, the indoor body includes a wind aperture region, and the window frame member includes a filter layer that removably covers the wind aperture region

In some embodiments, the inner chamber body is adhered to the inner chamber frame by an adhesive layer.

In some embodiments, the entire chamber inner body is detachably disposed on the chamber inner frame.

In some embodiments, the outdoor body includes an inner cavity, a thickness of the outdoor body is adjustable to adjust a size of the inner cavity in a thickness direction, and a heat and sound insulating layer is disposed in the inner cavity.

In some embodiments, an electric power storage device is disposed in the internal space of the bezel, and a solar cell panel is disposed on an outdoor-side surface of the outdoor body, the solar cell panel being connected to the electric power storage device.

In some embodiments, an automatic driving device is disposed on the frame seat, and the automatic driving device is connected with the outdoor body to drive the outdoor body to move.

In some embodiments, the automatic driving device includes a motor, a support beam is spanned on the frame seat, and the motor is disposed on the support beam, wherein a through hole is formed on the support beam, and a transmission member between the motor and the outdoor body passes through the through hole.

In some embodiments, the window frame member includes an indicator light located indoors and capable of indicating that the outdoor body is open or closed.

In some embodiments, the window frame member includes a power connection terminal located indoors.

In some embodiments, the window frame member includes a display device located indoors and capable of displaying operational status information of the window frame member, the operational status information including at least one of air quality, air temperature, mode type, mode operational status, battery charge, and networking status.

In some embodiments, the window frame member includes a communication module configured to be communicatively connectable to a router to monitor and/or control the operational status of the window frame member via an APP on a cloud server or mobile terminal.

In another aspect, the present invention provides a window frame device, including: the window frame comprises a frame, wherein a space surrounded by the frame is used for installing window glass; and a sash member as described in any of the above; wherein the frame base of the sash member is connected to a side portion of the side frame in a planar extending direction of the window glass.

As described above, since the indoor frame is disposed at the indoor side of the bezel, the indoor frame and the bezel form a functional space, so that a desired air treatment device can be installed in the functional space as required to treat air, and the flow rate of air can be increased when the fan operates, so that the window frame device can realize active indoor and outdoor ventilation to improve the ventilation efficiency.

For example, in some embodiments, through the above window frame member, when the interior space is opened by the outdoor body, the outdoor air will enter the interior through the interior space and the purification unit, thus filtering and purifying the air entering the interior from the exterior, in addition, when the fan rotates, the active ventilation of the interior and the exterior will be realized to improve the ventilation efficiency, and after the interior space is closed by the outdoor body, the fan rotates to drive the indoor air to flow into the functional space and flow through the purification unit and then flow into the interior, thus, the indoor air can be circularly purified, thereby effectively improving the cleanliness of the indoor air and the comfort of the indoor environment. Therefore, the window frame device can filter and purify air entering the room from the outside, can realize active ventilation of the room and the outside to improve the ventilation efficiency, and can also circularly purify the indoor air.

In a further aspect, the present invention provides a sash arrangement comprising a jamb defining a space for mounting window glass, wherein at least a portion of the jamb is formed by a sash member as defined in any of the preceding claims.

As described above, since at least a portion of the side frame is formed by the window frame member as described in any of the above, the indoor frame is disposed at the indoor side of the frame base such that the indoor frame and the frame base form a functional space, so that a desired air treatment device can be installed in the functional space as needed to treat air, and the flow rate of air can be increased when the fan is operated, so that the window frame device can achieve active ventilation both indoors and outdoors to improve ventilation efficiency.

For example, in some embodiments, when the interior space is opened by the outdoor body, the outdoor air will enter the room through the interior space and the purification unit, thus filtering and purifying the air entering the room from the outside, in addition, when the fan rotates, the active ventilation of the indoor and the outdoor will be realized to improve the ventilation efficiency, and after the interior space is closed by the outdoor body, the fan rotates to drive the indoor air to flow into the functional space and flow into the room through the purification unit, thus, the indoor air can be circularly purified, thereby effectively improving the cleanliness of the indoor air and the comfort of the indoor environment. Therefore, the window frame device can filter and purify air entering the room from the outside, can realize active ventilation of the room and the outside to improve the ventilation efficiency, and can also circularly purify the indoor air.

Other features and aspects of the present invention will become apparent by consideration of the following detailed description and accompanying drawings.

Drawings

Fig. 1 is an exploded state view of one viewing angle of a sash member according to one embodiment of the present application.

Fig. 2 is an exploded view of the sash member of fig. 1 from another viewing angle.

Fig. 3 is a partial structural view of the window frame member of fig. 1, in which the outdoor body opens the inner space.

Fig. 4 is a schematic view of the window frame member of fig. 3 in a fresh air mode.

Fig. 5 is a partial structural view of the window frame member of fig. 1, in which an outdoor body closes an inner space.

Fig. 6 is a partially enlarged schematic view of a circled portion in fig. 5.

Fig. 7 is a schematic view of the window frame member of fig. 5 performing an indoor air cleaning mode.

Fig. 8 is an enlarged view of a portion of the structure of fig. 7.

Fig. 9 is a partial structural view of the sash member of fig. 1, in which the filter layer is not shown.

Fig. 10 is a schematic view of the sash member of fig. 9 performing a natural ventilation mode.

FIG. 11 is a schematic view of a window frame arrangement according to an embodiment of the present application.

Description of reference numerals:

1-frame seat, 2-internal space, 3-outdoor body, 4-indoor frame, 5-fan, 6-bottom frame edge, 7-air inlet, 8-pressing sheet, 9-filtering layer, 10-supporting beam, 11-indoor body, 12-automatic driving device, 13-through hole, 14-driving member, 15-frame and 16-window frame member.

Before any embodiments of the utility model are explained in detail, it is to be understood that the utility model is not limited in its application to the details of construction and the arrangement of components set forth in the following description or illustrated in the following drawings. The utility model is capable of other embodiments and of being practiced or of being carried out in various ways. Also, it is to be understood that the phraseology and terminology used herein is for the purpose of description and should not be regarded as limiting.

Detailed Description

In the following detailed description of the embodiments, reference is made to the accompanying drawings, which form a part hereof. The drawings show, by way of example, specific embodiments in which the utility model may be practiced. The embodiments shown are not intended to be exhaustive of all embodiments according to the utility model. It is to be understood that other embodiments may be utilized and structural or logical changes may be made without departing from the scope of the present invention. With respect to the drawings, directional terminology, such as "lower," "upper," "left," "right," etc., is used with reference to the orientation of the drawings as described. Because components of embodiments of the present invention can be implemented in a variety of orientations, the directional terminology is used for purposes of illustration and is in no way limiting. The following detailed description, therefore, is not to be taken in a limiting sense, and the scope of the present invention is defined by the appended claims.

In one aspect, referring to fig. 1 and 2, the present invention provides a window frame member 16 including a frame base 1, an outdoor body 3, an indoor frame 4, and a fan, wherein the frame base 1 includes an internal space 2, the outdoor body 3 is disposed at an outdoor side of the frame base 1 and is capable of opening and closing the internal space 2, the indoor frame 4 is disposed at an indoor side of the frame base 1, the indoor frame 4 and the frame base 1 form a functional space for installing an air treatment device, and the fan 5 is disposed in the functional space.

In this window frame member 16, since the indoor frame 4 is provided at the indoor side of the frame base 1 so that the indoor frame 4 and the frame base 1 form a functional space, it is possible to install a required air processing device in the functional space as needed to process air, and the fan 5 is operated to increase the flow rate of air, so that the window frame member 16 can realize active ventilation both indoors and outdoors to improve the ventilation efficiency.

In some embodiments of the window frame member, referring to fig. 1 and 2, a support beam 10 is disposed on the frame base 1 in a crossing manner, and the air treatment device is disposed on the support beam 10, so that the support beam 10 not only can enhance the structural strength of the frame base 1, but also can be used as an installation base of the air treatment device, and the support beam 10 can effectively reduce the vibration generated during the operation of the air treatment device and improve the silencing effect by crossing over the suspended beam section formed by the frame base 1.

The support beam 10 can be attached to the frame base 1 in various ways, such as welding, screwing or clipping, etc.

In addition, in order to facilitate the installation of different types of air treatment devices, in some embodiments, the support beam 10 is adjustable in position along the height direction of the window frame member. In this way, the installation position of the support beam 10 can be adjusted accordingly according to the required size of the space of the air treatment device to be installed, thereby providing an appropriate installation space position for the air treatment device. Of course, the height adjustment of the support beam 10 along the sash member can be achieved in various ways, for example, in one way, the support beam 10 and the sash holder 1 are engaged with each other by a sliding groove and a sliding rail, and a fastening screw is provided on a side wall of the sliding groove, so that when the fastening screw is loosened, the support beam 10 can be adjusted in position, and when the desired position is adjusted, the fastening screw is locked to the sliding rail again. Or, in another mode, a plurality of positioning holes are formed in the frame base 1 at intervals in the height direction, and the support beam 10 is provided with positioning pins, and the positioning pins can be fitted into the positioning holes at various positions, so that after the positioning pins are removed from the positioning holes, the support beam 10 can be adjusted in position, and after the positioning pins are adjusted to a desired position, the positioning pins are inserted into the positioning holes at the position again.

In addition, the number of the support beams 10 may be one, or the number of the support beams 10 may be plural and arranged at intervals in the height direction of the window frame member, and of course, at least one of the support beams 10 can be adjusted in position in the height direction. For example three as shown in fig. 1 and 2, or may be another number, such as five or six, etc. In addition, in order to improve the efficiency of active ventilation, a plurality of fans 5 are provided on the support beams 10 corresponding to each other.

Furthermore, in some embodiments of the sash member comprising an air treatment device, the fan 5 may be a separate component or may be a component of the air treatment device. Different air treatment device can carry out different processing to the air to satisfy user's variety demand. For example, in some embodiments, the window frame member may include a plurality of air treatment devices therein that are not of the type that are capable of treating air differently as desired.

For example, in some embodiments, the air treatment device includes a purification unit, further, the purification unit includes a fan 5, wherein the window frame member includes a ventilation mode and an indoor air purification mode, wherein, in the ventilation mode, the outdoor body 3 opens the inner space 2 to allow outdoor air to enter the indoor through the inner space and the purification unit; in the indoor air purification mode, referring to fig. 5 to 7, the outdoor body 3 closes the inner space 2, and the fan 5 can drive the indoor air to flow into the functional space and flow through the purification unit and then into the room.

Since the indoor frame 4 is disposed at the indoor side of the frame base 1, the functional space between the indoor frame 4 and the frame base 1 can be provided with a purification unit, thus, when the interior space 2 is opened by the outdoor unit 3, outdoor air is introduced into the room through the interior space 2 and the purification unit, the air from the outdoor to the indoor is filtered and purified, at this time, the fan 5 can rotate or not rotate, for example, the ventilation of the indoor and outdoor can be realized when the fan 5 stops rotating, and the fan 5 will realize active ventilation for indoor and outdoor when rotating to improve the ventilation efficiency, and when the outdoor body 3 closes the inner space 2, the fan 5 rotates to drive the indoor air to flow into the functional space and flow through the purification unit and then flow into the indoor, can circulate and purify the indoor air, thereby effectively improving the cleanliness of the indoor air and the comfort of the indoor environment. Therefore, the sash member 16 can filter and purify air entering the room from the outside, can perform active ventilation and air exchange between the inside and the outside to improve ventilation and air exchange efficiency, and can also perform circulation purification of indoor air.

In some embodiments, the ventilation mode may include a fresh air mode, referring to fig. 3 and 4, in which the fan 5 is configured to force outdoor air to flow through the purification unit and then into the room. Thus, the rotation of the fan 5 can apply a driving force or a suction force to the outdoor air entering the inner space 2 to force the outdoor air to rapidly flow through the filter layer 9 of the purification unit for purification and to rapidly enter the room after purification, thereby improving the efficiency of ventilation of the indoor environment. Of course, when the outdoor air quality is good or better and purification is not required, the purification unit may be removed, for example, the filter layer 9 of the purification unit may be removed.

In some embodiments, the ventilation mode may include a natural ventilation mode, referring to fig. 9 and 10, in which the purification unit is configured to allow outdoor air to naturally flow into the room after flowing through the purification unit under a pressure difference between an indoor side and an outdoor side of the purification unit. Thus, a certain pressure difference exists between the indoor and outdoor during an initial period when the indoor body 3 opens the inner space 2, so that the external air can naturally flow through the purification unit by the pressure difference between the indoor side and the outdoor side of the purification unit and then flow into the indoor for ventilation, and the purification unit can purify the air naturally flowing through the purification unit.

In addition, in a natural ventilation mode of the ventilation mode, the purification unit is configured to be removed from the functional space, so that outdoor air can be introduced into the room without hindrance, improving ventilation efficiency.

Of course, the purification unit may be removed entirely, for example the filter layer 9 may be removed together with the fan 5, and in some embodiments the filter layer 9 and the fan 5 form an integral module which may then be removed entirely. In other embodiments, the filter layer 9 of the purification unit may be configured to be removable from the functional space, while the fan 5 may remain. Thus, the outdoor air is rapidly introduced into the room. At this time, the fan 5 can rotate to accelerate the outdoor air to enter the room, which is beneficial to the indoor air flow for some non-permeable house structures, and improves the efficiency of natural ventilation. Of course, the fan 5 may also stop rotating.

In addition, in some embodiments, an air inlet is formed on a space wall of the functional space, for example, a portion of the frame base 1 extending into the indoor and/or the indoor frame 4, so that in the indoor air purification mode, the outdoor unit 3 closes the internal space 2, and when the fan 5 rotates, the indoor air can flow into the functional space through the air inlet and flow through the purification unit and then flow into the indoor, so as to realize circulation purification of the indoor air.

In some other embodiments, the space wall of the functional space is provided with an indoor valve, and in the indoor air cleaning mode, the indoor valve can be opened under the negative pressure in the functional space. Thus, in the ventilation mode, the indoor valve may be closed, so that outdoor air, particularly outdoor air to be purified, does not flow into the indoor through the intake opening. And in the indoor air purification mode, the outdoor body 3 closes the inner space 2, when the fan 5 rotates, negative pressure is generated in the functional space, under the action of the negative pressure, the indoor valve is opened, and at the moment, the indoor air flows into the functional space rapidly under negative pressure suction and flows into the indoor space after passing through the purification unit under the driving of the fan 5, so that the circulation purification of the indoor air is realized.

Of course, the indoor valve may have a plurality of types, for example, in one type, the indoor valve may be a check valve that can be opened only toward the inside of the functional space, for example, a space wall of the functional space is provided with a plurality of check valves arranged at intervals along a circumferential direction thereof. Alternatively, in another type, referring to fig. 6, 7 and 8, an air inlet 7 is formed on the bottom frame edge 6 of the indoor frame 4, the indoor valve includes a pressing sheet 8, the pressing sheet 8 is located in the functional space and can be movably disposed on the bottom frame edge 6, and the pressing sheet 8 covers the air inlet 7 and can be moved inward under the negative pressure to open the air inlet 7. Thus, when the outdoor body 3 opens the inner space 2, the fan 5 rotates and does not generate a negative pressure in the functional space, and at this time, the pressing piece 8 is not opened. When the outdoor body 3 closes the inner space 2, the fan 5 rotates to form negative pressure in the functional space, and at the moment, the pressing sheet 8 moves inwards under the action of the negative pressure to open the air inlet 7.

In some embodiments, the pressing piece 8 can move in a direction perpendicular to the inner surface of the bottom rim 6, for example, a vertical column is provided on the inner surface of the bottom rim 6, and the pressing piece 8 is sleeved on the vertical column and can move vertically. Alternatively, in other embodiments, referring to fig. 8, one end of the pressing sheet 8 is pivotally disposed to enable the pressing sheet 8 to be turned over, so that the pressing sheet 8 can be turned downward under its own weight to press against the inner side surface of the bottom frame 6 to cover the air inlet 7, and the fan 5 generates negative pressure when rotating, and the pressing sheet 8 is turned upward to open the air inlet 7 under the negative pressure. For example, a pivot groove is formed on the inner side surface of the bottom rim 6, and a pivot shaft is formed at one end of the pressing piece 8, which is pivotally fitted in the pivot groove.

In addition, in this window frame member, the purification unit includes the filter layer 9, and the filter layer 9 and the fan 5 may be provided at any position, for example, in some embodiments, the filter layer 9 is disposed on the indoor side with respect to the fan 5 and the fan 5 is disposed on the outdoor side with respect to the filter layer 9 in the direction from the outdoor to the indoor, for example, the filter layer 9 is provided in the indoor frame 4 and the fan 5 is provided on the frame base 1. Alternatively, in other embodiments, the filter layer 9 is arranged on the outdoor side with respect to the fan 5, and the fan 5 is arranged on the indoor side with respect to the filter layer 9.

In addition, in some embodiments, referring to fig. 1 and 2, a plurality of support beams 10 are provided on the frame base 1 at intervals in the height direction of the window frame member, and each support beam 10 is connected across the frame base 1, so that a plurality of support beams 10 are connected across the frame base 1, whereby the strength of the frame base 1 can be increased to enable the frame base 1 to be more stably and reliably mounted. In addition, the supporting beam 10 may be used to mount the fan 5 or a motor described below, so that the supporting beam 10 may also provide a vibration damping effect for the fan 5 or the motor, thereby effectively reducing the vibration of the fan 5 or the motor, reducing noise, and improving the comfort of indoor ventilation.

In addition, the fan 5 may be one, or the number of the fans 5 is plural and is disposed on the supporting beam 10 corresponding to each of them, so that the supporting beam 10 not only can increase the strength of the frame base 1 itself, but also can be used as the mounting base of the fan 5 to locate the fan 5 in the internal space and the functional space, so that the structure of the window frame member is more compact.

In addition, in some embodiments, the air treatment device comprises a temperature adjusting device capable of heating and cooling air, so that a user can adjust the indoor air temperature according to the requirement, and the indoor environment comfort is improved. The temperature adjusting device can comprise a fan and an electric heating module with radiating fins, the electric heating module can adopt an indoor power supply or adopt solar energy described below to collect and store electric quantity of the electric power storage device, thus, when the fan operates, cool air and cold air can be blown into a room, and when the electric heating module operates, the fan can blow hot air emitted by the radiating fins into the room. In addition, the temperature adjusting device can also adopt other existing heating and refrigerating devices.

In addition, in some embodiments, the air treatment device includes a negative oxygen ion generating module. Therefore, the negative oxygen ion generation module can treat indoor air by circulation or outdoor air entering the room through the negative oxygen ion generation module, so that the freshness of the indoor air is improved.

In addition, the air treatment device can be other devices which can beneficially treat air to facilitate indoor environments, such as an air sterilizer and the like.

Additionally, in some embodiments, the decontamination unit may be viewed directly within the chamber through the chamber inner frame 4. Alternatively, in other embodiments, referring to fig. 1 and 2, the window frame member includes an indoor body 11, the indoor body 11 is disposed on the indoor frame 4, and the indoor body 11 can open the functional space in the ventilation mode and the indoor air cleaning mode. Thus, in the ventilation mode and the indoor air purification mode, the outdoor air or the indoor air passing through the purification unit can be introduced into the room through the opened indoor body 11. The interior body 11 can enhance the aesthetic appearance of the window frame member in the room. It should be noted here that the indoor body 11 is not limited to the structure shown in fig. 1 and 2.

In addition, the indoor unit 11 may be normally opened, or the indoor unit 11 may be closed, that is, the functional space may be opened by the indoor unit 11 in the ventilation mode and the indoor air purification mode, and the functional space may be closed by the indoor unit 11 when the ventilation mode or the indoor air purification mode is finished, and the indoor unit 11 in the closed state may further provide the sound insulation effect.

In addition, in some embodiments, the indoor unit 11 includes a thermal and acoustic insulation layer, for example, the inside of the indoor unit 11 is filled with a thermal and acoustic insulation material to form the thermal and acoustic insulation layer, or the indoor unit 11 is hollow glass. Thus, when the indoor body 11 is in the closed state, the thermal and acoustic insulation layer can further improve the thermal and acoustic insulation effect of the indoor body 11. In addition, the inner chamber body 11 can have various opening modes, such as being capable of being opened by pushing horizontally towards the inner chamber, being opened by pivoting towards the inner chamber, or being opened by pushing horizontally towards the side.

In addition, in alternative other embodiments, the indoor body 11 includes a wind hole area, wherein the window frame member includes a filter layer 9 (e.g., the filter layer 9 of the purification unit), and the filter layer 9 is detachably capable of covering the wind hole area. That is, the filter layer 9 is installed when the filtering and purifying effect is required, and the filter layer 9 can be removed when the filtering and purifying effect is not required, so that the filter can be flexibly used according to actual requirements. Thus, the outdoor air or the indoor air passing through the purification unit can be introduced into the room through the air hole region. In addition, the air hole area may have an aesthetic shape, which allows the indoor body 11 to further enhance the aesthetic appearance of the window frame member in the room.

In addition, in some embodiments, the inner chamber body 11 is adhered to the inner chamber frame 4 by an adhesive layer. The adhesive layer may be a painted adhesive. Alternatively, the adhesive layer may be an adhesive tape arranged on the inner frame 4 for mounting the inner mounting surface of the inner housing 11, the adhesive tape having a protective film, and the protective film may be torn off when the inner housing 11 is mounted, and then the inner housing 11 and the inner mounting surface are adhesively fitted. Thus, the adhesive layer can effectively improve the connection tightness between the indoor body 11 and the indoor frame 4.

In addition, in some embodiments, the entire indoor body 11 is detachably provided on the indoor frame 4. Thus, after the entire indoor body 11 is removed, the cleaning unit can be maintained, for example, by replacing the filter layer or cleaning the fan.

In addition, the indoor body 11 may be a perforated aluminum plate on which a plurality of regularly arranged, e.g., arrayed or irregularly arranged, wind holes are formed to form a wind hole region. Alternatively, the indoor body 11 may have a lattice structure including an outer frame and an inner lattice member, the inner lattice member being pivotably (e.g., by a hinge or a hinge) or slidably coupled to the outer frame, the outer frame being mounted on an indoor side surface of the indoor frame 4, and a plurality of lattice bars on the inner lattice member forming a wind hole area, the plurality of lattice bars being normally open or being opened and closed.

In addition, a sealing member may be provided on the outdoor body 3 to improve sealability when the outdoor body 3 closes the inner wall space 2. In addition, the outdoor body 3 may have various structural forms, for example, in some embodiments, the outdoor body 3 may be a single layer board or a multi-layer board. Alternatively, in other embodiments, the outdoor body 3 includes an internal cavity, the thickness of the outdoor body is adjustable to adjust the size of the internal cavity in the thickness direction, and a heat insulating and sound insulating layer is provided inside the internal cavity. For example, the outdoor body 3 may have a structure of a bridge-cut aluminum window or may have inner and outer channel bodies nested in sequence in the thickness direction, the notches of the inner and outer channel bodies being arranged toward each other. Thus, passive energy saving of the sash member can be achieved by the thermal and acoustic insulation layer. In addition, can come the thickness of adjustment outdoor body according to actual need in order to adjust the internal cavity to install the thermal-insulated puigging that corresponds thickness in the internal cavity that corresponds thickness, in order to realize different thermal-insulated sound-proof effects.

In some embodiments, a power storage device is provided in the internal space 2 of the frame base 1, a solar panel is provided on the outdoor surface of the outdoor unit 3, and the solar panel is connected to the power storage device. In this way, the solar panel can charge the power storage device using solar energy, and the power storage device can supply power to electric components in the window frame member, such as a motor, a control panel, and an operation indicator, or can supply power to other electric components in a room.

In addition, in this window frame member, the outdoor body 3 may be manually opened, for example, the outdoor body 3 may be manually opened after the purification unit is removed. Alternatively, the outdoor body 3 is connected to a manual lever extending into the room, and the outdoor body 3 can be pushed out horizontally or pushed out horizontally to the side or pivoted out.

In addition, in some embodiments, referring to fig. 1, an automatic driving device 12 is disposed on the frame base 1, and the automatic driving device 12 and the outdoor body 3 are connected to drive the outdoor body 3 to move. Thus, operating the button or operating the remote controller, the automatic driving device 12 can be controlled to automatically open the outdoor body 3, for example, the outdoor body 3 is automatically driven to be horizontally pushed outwards (refer to fig. 3), or to be horizontally pushed sideways to be opened, or to be pivoted outwards to be opened.

In addition, the automatic driving device 12 may include a cylinder, and the cylinder is retractable to automatically drive the outdoor body 3 to be horizontally pushed and opened outwards (refer to fig. 3). Alternatively, the automatic driving means 12 may comprise a motor, for example, a support beam 10 is spanned on the frame base 1, the motor is disposed on the support beam 10, wherein a through opening 13 is formed on the support beam 10, and a transmission member 14 between the motor and the outdoor body 3 passes through the through opening 13. In this way, the motor can automatically drive the outdoor body 3 via the transmission member 14 to be pushed open horizontally outwards (see fig. 3), or to be pushed open horizontally sideways, or to be pivoted open outwards. In addition, the transmission member 14 may have various forms, for example, may be a plurality of links hinged in sequence (refer to fig. 9 and 10), or may be a rack and pinion structure, or may be a sprocket and chain structure as long as it can automatically drive the outdoor body 3 to be pushed open horizontally outward (refer to fig. 3), or pushed open horizontally sideways, or pivoted open outward.

In addition, in some embodiments, the window frame member includes an indicator lamp located indoors and capable of displaying whether the outdoor body 3 is opened or closed. The indicator lamp may be provided on an indoor side surface of the indoor frame 4, or may be provided on an indoor side surface of the indoor body 11.

Additionally, in some embodiments, the window frame member includes a power connection located indoors. The power connection terminal may be a jack or a plug. In this way, the power connection terminal may be connected to an external power source to access external power to powered components within the window frame member, such as motors, control panels, operation indicators, and the like. Alternatively, the electric storage device may supply power to the indoor electric component through the power supply connection terminal.

Additionally, in some embodiments, the window frame member includes a display device located indoors and capable of displaying operational status information of the window frame member, the operational status information including at least one of air quality (e.g., good, medium, bad, severe, etc.), air temperature, mode type, mode operational status, battery charge, and networking status. That is, the operating status information may include other information that needs to be displayed, if desired, in addition to air quality, mode type, mode operating status, battery charge, and networking status.

In addition, in some embodiments, the window frame member includes a communication module configured to be communicatively connectable with a router to monitor and/or control the operational status of the window frame member via the APP on the cloud server or the mobile terminal. In this way, the remoteness and convenience of the operation of the sash member can be improved.

In addition, the sash member 16 may be a separate product that can be separately installed on a wall. Or may be used in conjunction with the jamb of the window frame.

In another aspect, the present invention provides a window sash apparatus, referring to fig. 11, comprising a side frame 15 and a sash member 16 as described in any of the above, wherein the space surrounded by the side frame 15 is used for installing window glass, and a sash holder 1 of the sash member 16 is attached to a side portion of the side frame 15 in a planar extending direction of the window glass. Because the indoor frame sets up the indoor side at the frame seat for indoor frame and frame seat form the functional space, like this, can install required air treatment device in the functional space in order to handle the air as required, then can improve the flow velocity of air when the fan operation, like this, this window frame device can realize indoor and outdoor initiative ventilation in order to promote ventilation efficiency.

For example, in some embodiments, when the interior space 2 is opened by the outdoor body 3 through the above window frame member, outdoor air enters the interior space through the interior space 2 and the purification unit, so as to filter and purify air entering the interior space from the exterior space, at this time, the fan 5 may or may not rotate, for example, when the fan 5 stops rotating, indoor and outdoor ventilation may be implemented, and when the fan 5 rotates, active indoor and outdoor ventilation may be implemented to improve ventilation efficiency, and after the interior space 2 is closed by the outdoor body 3, the fan 5 may rotate to drive the indoor air to flow into the functional space and flow through the purification unit and then flow into the interior space, so that the indoor air may be circularly purified, thereby effectively improving cleanliness of the indoor air and comfort of the indoor environment. Therefore, the window frame device can filter and purify air entering the room from the outside, can realize active ventilation of the room and the outside so as to improve the ventilation efficiency, and can also circularly purify the indoor air.

In addition, in the window frame device of another aspect, the frame 15 may be filled with sound and sound insulating and heat insulating material, such as rock wool, to improve the heat and sound insulating effect of the frame 15.

In a further aspect, the present invention provides a sash arrangement comprising a frame 15, the frame 15 defining a space for mounting window glass, wherein at least a portion of the frame 15 is formed by a sash member 16 as described in any of the above. Since at least a part of the side frame is formed by the window frame member as described above, the indoor frame is disposed at the indoor side of the frame base, so that the indoor frame and the frame base form a functional space, and thus, a required air treatment device can be installed in the functional space to treat air as required, and the flow rate of air can be increased when the fan operates, so that the window frame device can realize active indoor and outdoor ventilation to improve the ventilation efficiency.

For example, in some embodiments, as described above, since at least a portion of the bezel 15 is formed by the window frame member 16 as described in any of the above, when the outdoor unit 3 opens the internal space 2, outdoor air will enter the room through the internal space 2 and the purification unit, the air from the outdoor to the indoor is filtered and purified, at this time, the fan 5 can rotate or not rotate, for example, the ventilation of the indoor and outdoor can be realized when the fan 5 stops rotating, and the fan 5 will realize active ventilation for indoor and outdoor when rotating to improve the ventilation efficiency, and when the outdoor body 3 closes the inner space 2, the fan 5 rotates to drive the indoor air to flow into the functional space and flow through the purification unit and then flow into the indoor, can circulate and purify the indoor air, thereby effectively improving the cleanliness of the indoor air and the comfort of the indoor environment. Therefore, the window frame device can filter and purify air entering the room from the outside, can realize active ventilation of the room and the outside to improve the ventilation efficiency, and can also circularly purify the indoor air.

In addition, in the window frame assembly of still another aspect, the other portions of the frame 15 may be filled with sound and sound insulating and heat insulating material, such as rock wool, to improve the heat and sound insulating effect of the frame 15.

Although the utility model has been described in detail with reference to certain preferred embodiments, variations and modifications exist within the scope and spirit of one or more of the independent aspects of the utility model described. Furthermore, those skilled in the art will appreciate that the above-described embodiments are illustrative and not restrictive. Different features which are present in different embodiments may be combined to advantage. Other variations to the disclosed embodiments can be understood and effected by those skilled in the art upon studying the drawings, the specification, and the claims. The mere fact that certain measures are recited in mutually different dependent claims does not indicate that a combination of these measures cannot be used to advantage.

Claims (29)

1. A window frame member, comprising:

a frame base (1), said frame base (1) comprising an inner space (2);

an outdoor body (3) which is provided on the outdoor side of the frame base (1) and which is capable of opening and closing the internal space (2);

the indoor frame (4), the indoor frame (4) is arranged at the indoor side of the frame base (1), and the indoor frame (4) and the frame base (1) form a functional space for installing an air treatment device;

a fan (5), the fan (5) being disposed within the functional space.

2. A window frame element according to claim 1, characterised in that a supporting beam (10) is arranged astride the frame base (1), and that the air-handling device is arranged on the supporting beam (10).

3. A window frame element according to claim 2, characterised in that the support beam (10) is position adjustable in the height direction of the window frame element.

4. A sash member according to claim 2 or 3, wherein said support beams (10) are plural in number and arranged at intervals in the height direction of said sash member, and said fans (5) are plural in number and provided on respective corresponding said support beams (10).

5. The window frame member of claim 1, wherein the window frame member comprises an air treatment device comprising a purification unit,

wherein the window frame member includes a ventilation mode and an indoor air purification mode,

wherein, in the ventilation mode, the outdoor body (3) opens the inner space (2) to allow outdoor air to enter the indoor through the inner space and the purification unit; in the indoor air purification mode, the indoor body (3) closes the inner space (2), and the fan (5) can drive indoor air to flow into the functional space and flow through the purification unit and then flow into the indoor space.

6. The window frame member of claim 5, wherein the ventilation mode comprises a fresh air mode in which the fan (5) is configured to force outdoor air to flow through the purification unit and into the room.

7. The window frame member of claim 5, wherein the ventilation mode comprises a natural ventilation mode in which the purification unit is configured to allow outdoor air to naturally flow into the room after flowing through the purification unit under a pressure difference between an indoor side and an outdoor side of the purification unit.

8. The window frame member of claim 5, wherein the ventilation mode comprises a natural ventilation mode in which the purifying unit is configured to be removed from within the functional space.

9. A window frame member according to claim 8, characterised in that the filter layer (9) of the purification unit is configured to be removable from within the functional space.

10. The sash member according to claim 5, wherein a space wall of the functional space is provided with an indoor valve that is openable by a negative pressure in the functional space in the indoor air purification mode.

11. A window frame element according to claim 10, c h a r a c t e r i z e d in that the bottom rim (6) of the indoor frame (4) is formed with an air inlet opening (7), that the indoor valve comprises a press tab (8), that the press tab (8) is located in the functional space and movably arranged on the bottom rim (6), that the press tab (8) covers the air inlet opening (7) and is movable inwards under the influence of the underpressure to open the air inlet opening (7).

12. A window frame element according to claim 5, characterised in that the cleaning unit comprises a filter layer (9), which filter layer (9) is arranged in the indoor frame (4), and that the fan (5) is arranged on the frame base (1).

13. The window frame member of claim 1, wherein the window frame member comprises an air treatment device comprising a temperature conditioning device capable of heating and cooling air, and/or wherein the air treatment device comprises a negative oxygen ion generating module.

14. A sash member according to claim 1, characterized in that said sash member comprises an indoor body (11), said indoor body (11) being arranged on said indoor frame (4), said indoor body (11) being capable of opening said functional space.

15. A window frame element according to claim 14, c h a r a c t e r i z e d in that said indoor body (11) is adapted to close said functional space.

16. A window frame element according to claim 15, characterised in that said indoor body (11) comprises a heat and sound insulating layer.

17. A window frame element according to claim 14, characterised in that the indoor body (11) comprises a wind aperture area, the window frame element comprising a filter layer (9), the filter layer (9) detachably covering the wind aperture area.

18. A window frame element according to claim 14, c h a r a c t e r i z e d in that said indoor body (11) is glued to said indoor frame (4) by means of an adhesive layer.

19. A window frame element according to claim 14, c h a r a c t e r i z e d in that the chamber inner body (11) is integrally detachably arranged on the chamber inner frame (4).

20. A window frame element according to claim 1, characterised in that the outdoor body (3) comprises an internal cavity, the thickness of which is adjustable to adjust the size of the internal cavity in the thickness direction, and in that a heat and sound insulating layer is arranged in the internal cavity.

21. A window frame element according to claim 1, characterised in that an electrical storage device is arranged in the inner space (2) of the frame base (1), and a solar panel is arranged on the outdoor side surface of the outdoor body (3), the solar panel and the electrical storage device being connected.

22. A frame element according to claim 1, characterised in that an automatic drive (12) is arranged on the frame base (1), said automatic drive (12) being connected to the outdoor body (3) for driving the outdoor body (3) in motion.

23. A window frame element according to claim 22, characterized in that said automatic drive means (12) comprise an electric motor, across which a support beam (10) is spanned on said frame base (1), said electric motor being arranged on said support beam (10), wherein a through opening (13) is formed in said support beam (10), through which opening (13) a transmission element (14) between said electric motor and said outdoor body (3) is passed.

24. A window frame member according to claim 1, characterized in that it comprises an indicator light located indoors and able to show the outdoor body (3) opened or closed.

25. The window frame member of claim 1, wherein the window frame member includes a power connection terminal located indoors.

26. The window frame member of claim 1, wherein the window frame member includes a display device located indoors and capable of displaying operational status information of the window frame member, the operational status information including at least one of air quality, air temperature, mode type, mode operational status, battery charge level, and networking status.

27. The window frame member of claim 1, comprising a communication module configured to be communicatively connectable with a router to monitor and/or control the operational status of the window frame member via a cloud server or an APP on a mobile end.

28. A window frame assembly, comprising:

the window glass is characterized by comprising a frame (15), wherein a space surrounded by the frame (15) is used for installing window glass;

a sash member (16) according to any one of claims 1 to 27;

wherein the frame base (1) of the sash member (16) is connected to the side portion of the side frame (15) in the plane extending direction of the window glass.

29. A sash arrangement, comprising a frame (15), said frame (15) enclosing a space for mounting window glass, wherein at least a part of said frame (15) is formed by a sash member (16) according to any one of claims 1-27.

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