CN220705514U - Insect-proof window structure - Google Patents

Abstract

The utility model discloses an insect-proof window structure which comprises an outer window frame, two inner window frames, two groups of first translation assemblies, a second translation assembly and an insect-proof assembly, wherein two first sliding grooves are formed in the outer window frame, the two groups of first translation assemblies are respectively arranged in the corresponding first sliding grooves, the two inner window frames are arranged in the corresponding first sliding grooves of the outer window frame and are in transmission connection with the corresponding first translation assemblies, the second translation assemblies are arranged on the outer surface of the outer window frame, and the insect-proof assembly is arranged on the outer side of the outer window frame and is in transmission connection with the second translation assemblies. The insect-proof window structure can open the inner window frame and simultaneously close the insect-proof component, so that mosquitoes are prevented from flying into a room when the window is opened, insect-proof effect is enhanced, and the insect-proof window structure is more convenient to use.

Description

Insect-proof window structure

Technical Field

The utility model relates to the field of windows, in particular to an insect-proof window structure.

Background

Windows, in the construction of buildings, refer to openings made in walls or roofs for allowing light or air to enter the room. Modern window windows consist of three parts, the window frame, glass and moving members (hinges, handles, pulleys, etc.). The window frame is responsible for supporting the main structure of the window body, and can be made of wood, metal, ceramic or plastic materials, and the transparent part is attached to the window frame and can be made of paper, cloth, silk or glass materials. The movable member is mainly made of metal materials, and heat insulation materials such as plastics can be wrapped in places where people touch the movable member. But the fly net of current most windows sets up in the room inboard, and current fly net can not open and shut voluntarily, and current window needs the user to open the window after closing the fly net again manually, and such operation is inconvenient inadequately, and the mosquito is also likely to fly into indoor when opening the window moreover, consequently can not fine play the effect of protection against insects.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide an insect-proof window structure.

In order to solve the technical problems, the utility model provides the following technical scheme:

the utility model relates to an insect-proof window structure which comprises an outer window frame, two inner window frames, two groups of first translation assemblies, a second translation assembly and an insect-proof assembly, wherein two first sliding grooves are formed in the outer window frame, the two groups of first translation assemblies are respectively arranged in the corresponding first sliding grooves, the two inner window frames are arranged in the corresponding first sliding grooves of the outer window frame and are in transmission connection with the corresponding first translation assemblies, the second translation assemblies are arranged on the outer surface of the outer window frame, and the insect-proof assembly is arranged on the outer side of the outer window frame and is in transmission connection with the second translation assemblies.

As a preferable technical scheme of the utility model, the first translation assembly comprises two first motors, two first sliding blocks and two first screw rods, wherein the two first screw rods are respectively arranged at the upper end and the lower end in the corresponding first sliding grooves of the outer window frame, are rotationally connected with the outer window frame through bearings, the two first sliding blocks are respectively arranged at the upper end and the lower end in the corresponding first sliding grooves of the outer window frame, are respectively in threaded connection with the corresponding first screw rods, are respectively fixedly connected with the upper end and the lower end of the inner window frame, are respectively arranged on the outer window frame, and are coaxially connected with the corresponding first screw rods through couplings.

As a preferred technical scheme of the utility model, the second translation assembly comprises two supporting beams, two second motors, two second sliding blocks and two second screw rods, wherein the two supporting beams are respectively arranged at the upper end and the lower end of the outer wall of the outer window frame, each supporting beam is provided with a second sliding groove, the two second screw rods are respectively arranged in the corresponding second sliding grooves of the supporting beams and are rotationally connected with the corresponding supporting beams through bearings, the second sliding blocks are respectively arranged in the corresponding second sliding grooves of the supporting beams and are respectively in threaded connection with the corresponding second screw rods, the two second sliding blocks are respectively connected with the upper end and the lower end of the insect prevention assembly, the two second motors are respectively arranged on the corresponding supporting beams, and the output shafts of the two second motors are coaxially connected with the corresponding second screw rods through couplings.

As a preferable technical scheme of the utility model, the insect prevention component comprises two baffles and a plurality of skeletons, wherein the two baffles are respectively arranged at the left side and the right side of the two supporting beams, the plurality of skeletons are respectively arranged between the two baffles, the upper end and the lower end of one of the skeletons at the rightmost side are respectively and fixedly connected with the two second sliding blocks, a gauze is respectively arranged between each of the skeletons, and the gauze is arranged between one of the baffles at the left side and one of the skeletons at the leftmost side.

As a preferable technical scheme of the utility model, the outer wall of the outer window frame is provided with a control panel, each inner window frame is internally provided with double-layer glass, the two baffles are transparent acrylic plates, and the framework is made of aluminum alloy.

Compared with the prior art, the utility model has the following beneficial effects:

the indoor window can be opened and the insect prevention assembly can be closed at the same time, so that mosquitoes are prevented from flying into the room when the window is opened, the insect prevention effect is enhanced, and the indoor window is more convenient to use.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a rear view of the present utility model;

FIG. 4 is a schematic view of the use of the present utility model;

FIG. 5 is a schematic cross-sectional view of the present utility model;

FIG. 6 is a second schematic cross-sectional view of the present utility model;

in the figure: 1. an outer window frame; 2. an inner window frame; 3. a first translation assembly; 31. a first motor; 32. a first slider; 33. a first screw rod; 4. a second translation assembly; 41. a support beam; 42. a second motor; 43. a second slider; 44. a second screw rod; 5. an insect prevention assembly; 51. a baffle; 52. a skeleton; 6. and a control panel.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Wherein like reference numerals refer to like elements throughout.

As shown in fig. 1-6, the utility model provides an insect-proof window structure, which comprises an outer window frame 1, two inner window frames 2, two groups of first translation assemblies 3, a second translation assembly 4 and an insect-proof assembly 5, wherein two first sliding grooves are arranged in the outer window frame 1, the two groups of first translation assemblies 3 are respectively arranged in the corresponding first sliding grooves, the two inner window frames 2 are arranged in the corresponding first sliding grooves of the outer window frame 1 and are in transmission connection with the corresponding first translation assemblies 3, the second translation assembly 4 is arranged on the outer surface of the outer window frame 1, and the insect-proof assembly 5 is arranged on the outer side of the outer window frame 1 and is in transmission connection with the second translation assembly 4.

In this embodiment, the two inner window frames 2 can be driven to move in the horizontal direction in the first sliding groove of the outer window frame 1 by the two first translation assemblies 2, so as to drive the inner window frames 2 to open or close, i.e. to open or close, the insect prevention assembly 5 arranged on the outer side of the outer window frame 1 facing the outside of the lower room can be driven to open or close by the second translation assembly 4.

Further, the first translation assembly 3 includes two first motors 31, two first sliders 32 and two first lead screws 33, the two first lead screws are respectively disposed at the upper and lower ends in the corresponding first sliding grooves of the outer window frame 1 and are rotationally connected with the outer window frame 1 through bearings, the two first sliders 32 are respectively disposed at the upper and lower ends in the corresponding first sliding grooves of the outer window frame 1 and are respectively in threaded connection with the corresponding first lead screws 33, the two first sliders 32 are respectively fixedly connected with the upper and lower ends of the inner window frame 2, the two first motors 31 are disposed on the outer window frame 1, and output shafts of the two first motors are coaxially connected with the corresponding first lead screws 33 through couplings.

In this embodiment, the two first motors 31 respectively drive the two first screws 33 disposed in the upper and lower ends of the first sliding groove of the outer window frame 1 to rotate, so as to drive the corresponding first sliding blocks 32 to move in the first sliding groove in the horizontal direction, and further drive the inner window frame 2 fixedly connected with the two first sliding blocks 32 to move in the first sliding groove in the horizontal direction.

Further, the second translation assembly 4 includes two support beams 41, two second motors 42, two second sliders 43 and two second lead screws 44, the two support beams 41 are respectively disposed at the upper and lower ends of the outer wall of the outer window frame 1, each support beam 41 is provided with a second chute, the two second lead screws 44 are respectively disposed in the corresponding second chute of the support beam 41 and are rotationally connected with the corresponding support beam 41 through bearings, the second sliders 43 are respectively disposed in the corresponding second chute of the support beam 41 and are respectively in threaded connection with the corresponding second lead screws 44, the two second motors 42 are respectively disposed on the corresponding support beam 41, and the output shafts of the two second motors are coaxially connected with the corresponding second lead screws 44 through couplings.

In this embodiment, two support beams 41 are used for installing and supporting the insect prevention component 5, and two second screws 44 in the second sliding grooves of the two support beams 41 are respectively driven by two second motors 42 to rotate, so as to drive the second sliding blocks 43 in the second sliding grooves to move horizontally, and further drive the insect prevention component 5 to be opened and closed.

Further, the insect prevention assembly 5 includes two baffles 51 and a plurality of skeletons 52, the two baffles 51 are respectively arranged at the left side and the right side of the two supporting beams 41, the plurality of skeletons 52 are respectively arranged between the two baffles 51, the upper end and the lower end of one skeleton 52 at the rightmost side are respectively fixedly connected with the two second sliding blocks 43, a gauze is respectively arranged between each skeleton 52, and the gauze is arranged between one baffle 51 at the left side and one skeleton 52 at the leftmost side.

In this embodiment, when the insect prevention assembly 5 is closed, the two second motors 42 respectively drive the two second screw rods 44 to drive the two second sliding blocks 43 to move from left to right, so as to drive the rightmost one of the frameworks 52 to move to the right until contacting with the right baffle plate 51, at this time, the gauze on each framework 52 is spread, and the two baffle plates 51, the multiple frameworks 52 and the gauze form an insect prevention net structure for preventing mosquitoes from flying into the room;

when the insect prevention assembly 5 is opened, the two second motors 42 respectively drive the two second screw rods 44 to drive the two second sliding blocks 43 to move from right to left, so as to drive the rightmost one of the frameworks 52 to move to the left until the rightmost one of the frameworks is contacted with the adjacent one of the frameworks 52, and at the moment, the gauze on each of the frameworks 52 is contracted.

Further, the outer wall of the outer window frame 1 is provided with a control panel 6, each inner window frame 2 is internally provided with double-layer glass, two baffle plates 51 are transparent acrylic plates, and a framework 52 is made of aluminum alloy.

In this embodiment, the control panel 6 (in the prior art) is disposed on an inner wall of a side of the outer window frame 1 facing the indoor, the control panel 6 is electrically connected with the first motor 31 and the second motor 42, the inner window frame 2 can be controlled to be opened by the control panel 6, and the insect prevention assembly 5 is closed at the same time, the baffle 51 adopts a transparent acrylic plate to not shade the view and lighting of the window, and the baffle 51 can also adopt other available transparent materials, such as toughened glass, etc.

The insect-proof window structure can open the inner window frame and simultaneously close the insect-proof component, so that mosquitoes are prevented from flying into a room when the window is opened, insect-proof effect is enhanced, and the insect-proof window structure is more convenient to use.

Finally, it should be noted that: the above is only a preferred embodiment of the present utility model, and the present utility model is not limited thereto, but it is to be understood that the present utility model is described in detail with reference to the foregoing embodiments, and modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (5)

1. The utility model provides a window structure of protection against insects, its characterized in that includes outer window frame (1), two interior window frames (2), two sets of first translation subassembly (3), second translation subassembly (4) and protection against insects subassembly (5), be equipped with two first spouts in outer window frame (1), two sets of in first translation subassembly (3) are located respectively in the first spout that corresponds, two interior window frame (2) are located in the first spout that corresponds of outer window frame (1), and with the transmission of corresponding first translation subassembly (3) is connected, second translation subassembly (4) are located on the surface of outer window frame (1), protection against insects subassembly (5) are located the outside of outer window frame (1), and with second translation subassembly (4) transmission is connected.

2. The insect-proof window structure according to claim 1, wherein the first translation assembly (3) comprises two first motors (31), two first sliding blocks (32) and two first screw rods (33), the two first screw rods are respectively arranged at the upper end and the lower end in the corresponding first sliding grooves of the outer window frame (1), and are rotationally connected with the outer window frame (1) through bearings, the two first sliding blocks (32) are respectively arranged at the upper end and the lower end in the corresponding first sliding grooves of the outer window frame (1), are respectively in threaded connection with the corresponding first screw rods (33), the two first sliding blocks (32) are respectively fixedly connected with the upper end and the lower end of the inner window frame (2), the two first motors (31) are arranged on the outer window frame (1), and the output shafts of the two first sliding blocks are coaxially connected with the corresponding first screw rods (33) through couplers.

3. The insect-proof window structure according to claim 2, wherein the translation assembly (4) comprises two support beams (41), two second motors (42), two second sliders (43) and two second screw rods (44), the two support beams (41) are respectively arranged at the upper end and the lower end of the outer wall of the outer window frame (1), each support beam (41) is provided with a second sliding groove, the two second screw rods (44) are respectively arranged in the corresponding second sliding grooves of the support beam (41) and are rotationally connected with the corresponding support beam (41) through bearings, the second sliders (43) are respectively arranged in the corresponding second sliding grooves of the support beam (41) and are respectively in threaded connection with the corresponding second screw rods (44), the two support beams (41) are respectively connected with the upper end and the lower end of the outer wall of the outer window frame (5), the two second motors (42) are respectively arranged on the corresponding support beams (41), and the output shafts of the second motors are coaxially connected with the corresponding second screw rods (44) through bearings.

4. A window structure for insect prevention according to claim 3, wherein the insect prevention component (5) comprises two baffles (51) and a plurality of skeletons (52), the two baffles (51) are respectively arranged at the left side and the right side of the two supporting beams (41), the plurality of skeletons (52) are respectively arranged between the two baffles (51), the upper end and the lower end of one of the skeletons (52) at the rightmost side are respectively fixedly connected with the two second sliding blocks (43), a gauze is respectively arranged between each of the skeletons (52), and the gauze is arranged between one of the baffles (51) at the left side and the one of the skeletons (52) at the leftmost side.

5. The insect-proof window structure according to claim 4, wherein a control panel (6) is disposed on an outer wall of the outer window frame (1), double-layer glass is disposed in each inner window frame (2), two baffles (51) are transparent acrylic plates, and the skeleton (52) is made of aluminum alloy.