CN214943788U - Ventilation energy-saving door and window - Google Patents

Abstract

The utility model relates to the technical field of doors and windows, in particular to a ventilation energy-saving door and window, which comprises a window frame, a shielding mechanism, a screen and a driving motor, wherein the screen is connected with the window frame, and the driving motor is arranged on the window frame; shelter from the mechanism including the first shielding layer and the second shielding layer that the dislocation set up, first shielding layer with the second shielding layer all includes a plurality of cylinders that set up along first horizontal direction interval, and with the one end fixed connection's of cylinder connecting plate, driving motor's output shaft with first shielding layer the connecting plate is connected, in order to drive first shielding layer is followed first horizontal direction removes. The first shielding layer and the second shielding layer are arranged in a staggered mode to form an air duct, the second shielding layer is connected with the driving motor and can horizontally move under the driving of the motor to adjust the size of the air duct.

Description

Ventilation energy-saving door and window

Technical Field

The utility model relates to a door and window technical field particularly, relates to a ventilation energy-saving door and window.

Background

Indoor effective wind energy of ventilating improves indoor air quality, but when satisfying the ventilation, shading sunshade protection privacy that can not be fine again, patent CN105134043B discloses a door and window ventilator, and it adopts multilayer dislocation arrangement's hexagonal prism, has the interval between the layer, and hexagonal prism between the layer shelters from each other simultaneously, can protect the privacy, has the wind channel again, can realize the ventilation.

However, in the scheme, the hexagonal prisms of the two middle layers can only be adjusted front and back, and the relative positions of the hexagonal prism layers cannot be adjusted, namely the size of the air duct cannot be adjusted, and the air inlet volume cannot be adjusted. In addition, in the ventilation process, mosquitoes cannot be prevented, and outdoor mosquitoes can easily enter the room.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy-conserving door and window ventilates, it has and shelters from the mechanism, should shelter from the mechanism and include first shielding layer and second shielding layer, and first shielding layer and second shielding layer dislocation set form the wind channel, and the second shielding layer is connected with driving motor, but horizontal migration under the drive of motor to adjust the size in wind channel.

The utility model discloses a realize through following technical scheme:

a ventilation energy-saving door and window comprises a window frame, a shielding mechanism, a screen and a driving motor, wherein the screen is connected with the window frame, and the driving motor is arranged on the window frame;

shelter from the mechanism including the first shielding layer and the second shielding layer that the dislocation set up, first shielding layer with the second shielding layer all includes a plurality of cylinders that set up along first horizontal direction interval, and with the one end fixed connection's of cylinder connecting plate, driving motor's output shaft with first shielding layer the connecting plate is connected, in order to drive first shielding layer is followed first horizontal direction removes.

The connecting plate of the second shielding layer is in threaded connection with the adjusting screw rod;

the window frame comprises a left side frame and a right side frame which are symmetrically arranged, sliding grooves are formed in the bottoms of the left side frame and the right side frame along a second horizontal direction, and two ends of the connecting plate of the second shielding layer are respectively connected with the two sliding grooves in a sliding mode; the first horizontal direction is perpendicular to the second horizontal direction, and the adjusting screw is arranged along the second horizontal direction.

Further, the adjusting screw is located at the bottom of the window frame.

Furthermore, the top of the left side frame is provided with an accommodating cavity, the driving motor is arranged in the accommodating cavity, an output shaft of the driving motor is connected with a gear, one end of the connecting plate of the first shielding layer extends into the accommodating cavity, a rack is arranged at the end of the connecting plate, and the gear is meshed with the rack.

Furthermore, the shielding mechanisms are two, the two shielding mechanisms are symmetrically arranged, a space is reserved between the two shielding mechanisms, and the gauze is located between the two shielding mechanisms.

Furthermore, the two first shielding layers are arranged in a staggered mode, and the two second shielding layers are also arranged in a staggered mode.

Furthermore, the cylinder of the first shielding layer is made of a transparent material, and the cylinder of the second shielding layer is made of a semitransparent material.

The utility model discloses following advantage and beneficial effect have at least:

the utility model discloses in, first shielding layer and second shielding layer dislocation set form the wind channel, and the second shielding layer is connected with driving motor, but horizontal migration under the drive of motor to adjust the size in wind channel. When needs were transferred the wind channel big, can adjust the cylinder of first shielding layer to with the second shielding layer on same straight line, outdoor wind can directly enter into indoorly, can be as required, will adjust the size in wind channel to control the amount of wind that gets into indoorly.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic front view of a ventilation energy-saving door and window provided by the present invention;

FIG. 2 is a schematic cross-sectional view taken along the line A-A in FIG. 1;

fig. 3 is a schematic sectional view of a ventilation energy-saving door and window provided by the present invention;

FIG. 4 is a schematic cross-sectional view of the first and second masking layers of FIG. 3 in the direction B-B, offset from each other;

FIG. 5 is a schematic cross-sectional view of the first and second barrier layers of FIG. 3 taken in the direction B-B;

icon: 1-window frame, 11-sliding chute, 12-accommodating cavity, 2-gauze, 3-driving motor, 4-shielding mechanism, 41-first shielding layer, 411-column, 412-connecting plate, 42-second shielding layer and 5-adjusting screw rod.

Detailed Description

Example (b): as shown in the attached figures 1-5,

the embodiment provides a ventilation energy-saving door and window, which comprises a window frame 1, a shielding mechanism 4, a screen 2 and a driving motor 3, wherein the screen 2 is connected with the window frame 1, and the driving motor 3 is arranged on the window frame 1; the window frame 1 is a common window frame 1 in the prior art and comprises a left side frame and a right side frame which are arranged on two sides, one end of a screen 2 is connected with the left side frame, and the other end of the screen is connected with the right side frame so as to prevent outdoor mosquitoes from entering the room.

Specifically, in this embodiment, the shielding mechanism 4 includes a first shielding layer 41 and a second shielding layer 42 which are arranged in a staggered manner, and the first shielding layer 41 and the second shielding layer 42 both include a plurality of columns 411 which are arranged at intervals along a first horizontal direction, and a connecting plate 412 which is fixedly connected to one end of each of the columns 411, as shown in fig. 2 and 4, the staggered arrangement of the first shielding layer 41 and the second shielding layer 42 means that the columns 411 of the first shielding layer 41 and the columns 411 of the second shielding layer 42 are staggered, so that an air duct is formed, and the first shielding layer 41 and the second shielding layer 42 can shield each other. In addition, in this embodiment, the number of the shielding mechanisms 4 is two, the two shielding mechanisms 4 are symmetrically arranged, a space is provided between the two shielding mechanisms 4, and the gauze 2 is located between the two shielding mechanisms 4. The columns 411 of the two first shielding layers 41 are arranged in a staggered manner, and the columns 411 of the two second shielding layers 42 are also arranged in a staggered manner. In the two shielding mechanisms 4, the cylinder 411 of the first shielding layer 41 is made of a transparent material, and the cylinder 411 of the second shielding layer 42 is made of a translucent material. The translucent material refers to a material such as ground glass, etc., through which light can pass but an outdoor person cannot see an indoor object, and because the columns 411 of the second shielding layers 42 are arranged in a staggered manner, the two second shielding layers 42 are matched with each other, so that a function of blocking a sight line can be achieved, and privacy is protected.

The output shaft of the driving motor 3 is connected to the connecting plate 412 of the first shielding layer 41, specifically, in this embodiment, the top of the left side frame has an accommodating cavity 12, the driving motor 3 is disposed in the accommodating cavity 12, the output shaft of the driving motor 3 is connected to a gear, one end of the connecting plate 412 of the first shielding layer 41 extends into the accommodating cavity 12, the end of the connecting plate 412 is provided with a rack, and the gear is engaged with the rack. The driving motor 3 rotates to drive the gear to rotate, and further drives the rack to move, so that the first shielding layer 41 moves left and right. In the present embodiment, the driving motor 3 used is a micro motor that can rotate in the forward and reverse directions.

The window frame further comprises a regulating screw rod 5, and the regulating screw rod 5 is located at the bottom of the window frame 1. The adjusting screw 5 is provided with threads with opposite rotation directions at two ends, and is respectively in threaded connection with the connecting plate 412 of the second shielding layer 42 of the two shielding mechanisms 4; through rotatory regulation and control screw rod 5, can make two seconds shelter from mechanism 4 and draw close or keep away from, shelter from the mechanism 4 when keeping away from as two seconds, the second shelters from mechanism 4 and just draws close and the coincidence to first sheltering from mechanism 4, the cylinder 411 of second shelter from layer 42 can enter into the interval between the cylinder 411 of first shelter from layer 41 promptly, mutual butt between cylinder 411 and the cylinder 411, the wind channel that will form is closed, it is more preferred, cylinder 411 can be positive quadrangular, still can set up the sealing strip at cylinder 411, shelter from layer 41 and second when the coincidence back, can be better with this window sealed.

As shown in fig. 4-5, sliding grooves 11 are formed in the bottoms of the left side frame and the right side frame along a second horizontal direction, and two ends of the connecting plate 412 of the second shielding layer 42 are slidably connected to the two sliding grooves 11 respectively; the first horizontal direction (horizontal direction in the drawing) is perpendicular to the second horizontal direction (vertical direction in the drawing), and the adjusting screw 5 is disposed along the second horizontal direction.

The connecting plate 412 of the first shielding layer 41 is arranged at the top of the column 411, and a corresponding accommodating groove is arranged on the window frame 1, the connecting plate 412 of the second shielding layer 42 is arranged at the bottom of the column 411, and the uppermost end of the column 411 of the first shielding layer 41 is higher than the uppermost end of the column 411 of the second shielding layer, and correspondingly, the lowermost end of the column 411 of the first shielding layer 41 is higher than the lowermost end of the column 411 of the second shielding layer, so as to provide a space for the movement of the second shielding layer 42, and thus the first shielding layer 41 can coincide with the second shielding layer 42.

When the air duct is used, the position of the first shielding layer 41 is adjusted by controlling the driving motor 3, when the column 411 of the first shielding layer 41 and the column 411 of the second shielding layer 42 are on the same straight line, the air duct is the largest, when the air duct is located at other positions, the air duct is reduced to some extent, and the size of the air duct can be adjusted by adjusting the position of the first shielding layer 41. When the air duct needs to be completely closed, the first shielding layer 41 and the second shielding layer 42 can be overlapped by rotating the adjusting screw 5, so that the air duct is closed.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a ventilation energy-conserving door and window which characterized in that: the screen window comprises a window frame (1), a shielding mechanism (4), a screen (2) and a driving motor (3), wherein the screen (2) is connected with the window frame (1), and the driving motor (3) is arranged on the window frame (1);

shelter from mechanism (4) including dislocation set's first shielding layer (41) and second shielding layer (42), first shielding layer (41) with second shielding layer (42) all include a plurality of cylinder (411) that set up along first horizontal direction interval, and with the one end fixed connection's of cylinder (411) connecting plate (412), the output shaft of driving motor (3) with first shielding layer (41) connecting plate (412) are connected, in order to drive first shielding layer (41) are followed first horizontal direction removes.

2. The ventilation energy-saving door and window of claim 1, characterized in that: the adjusting screw rod (5) is in threaded connection with the connecting plate (412) of the second shielding layer (42);

the window frame (1) comprises a left side frame and a right side frame which are symmetrically arranged, sliding grooves (11) are formed in the bottoms of the left side frame and the right side frame along a second horizontal direction, and two ends of the connecting plate (412) of the second shielding layer (42) are respectively in sliding connection with the two sliding grooves (11); the first horizontal direction is perpendicular to the second horizontal direction, and the adjusting screw (5) is arranged along the second horizontal direction.

3. The ventilation and energy-saving door window according to claim 2, wherein: the adjusting screw (5) is positioned at the bottom of the window frame (1).

4. The ventilation and energy-saving door window according to claim 2, wherein: the top of the left side frame is provided with an accommodating cavity (12), the driving motor (3) is arranged in the accommodating cavity (12), an output shaft of the driving motor (3) is connected with a gear, one end of the connecting plate (412) of the first shielding layer (41) extends into the accommodating cavity (12), a rack is arranged at the end of the connecting plate (412), and the gear is meshed with the rack.

5. The ventilation energy-saving door and window of claim 1, characterized in that: the shielding mechanism (4) is two, the shielding mechanisms (4) are symmetrically arranged, an interval is arranged between the shielding mechanisms (4), and the gauze (2) is positioned between the shielding mechanisms (4).

6. The ventilation and energy-saving door window according to claim 5, wherein: the two first shielding layers (41) are arranged in a staggered mode, and the two second shielding layers (42) are also arranged in a staggered mode.

7. The ventilation and energy-saving door window of claim 6, wherein: the cylinder (411) of the first shielding layer (41) is made of a transparent material, and the cylinder (411) of the second shielding layer (42) is made of a semitransparent material.

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