CN115538912A - Green building energy-saving sunshade green door and window structure - Google Patents

Abstract

The invention discloses an energy-saving and sun-shading green door and window structure for a green building, which relates to the technical field of door and window structures and comprises a window frame; a cross-brace intercepting rod is welded in the lower half part of the window frame, two windows are oppositely and slidably mounted between the cross-brace intercepting rod and the top stay bar of the window frame, and a planting groove is penetratingly and slidably mounted between the cross-brace intercepting rod and the bottom stay bar of the window frame; the planting groove is of a rectangular structure, and three partition plates are welded in the planting groove at equal intervals; the sun shield is characterized in that a downward-inclined sun shield is fixedly welded on the front side of the top end of the window frame, two groups of vertical positioning shafts are welded on the lower half section of the left and right supporting rods of the window frame in a bilateral symmetry mode, and two L-shaped racks are symmetrically sleeved on the two groups of vertical positioning shafts in a sliding mode. According to the flower planting device, the planting groove can slide inside and outside, the exposure state of the flower plants can be flexibly switched according to different requirements of culturists and different weather conditions, and the problems that the convex or hidden states of the flower plants are inconvenient to switch and the flower plants are troublesome to use are solved.

Description

Green building energy-saving sunshade green door and window structure

Technical Field

The invention relates to the technical field of door and window structures, in particular to an energy-saving and sun-shading green door and window structure for a green building.

Background

Along with the development of green building, green plant has all been utilized in the door and window structure example of many green buildings, utilize green plant to build ecological atmosphere, current door and window is structural for the supporting rail mechanism of green flower plant can not stretch out and draw back the exhibition mostly, be in for a long time and expand bellied support state, the great easy damage of tearing of windward area is blown by the wind, and although the exhibition of can stretching out and drawing back of some rail mechanisms, but all need personnel's extra manual operation of exerting oneself, can not combine synchronous ordering about with the flexible sliding mechanism linkage of planting the container, it is difficult inconvenient to use.

Disclosure of Invention

The invention aims to provide an energy-saving sunshade green door and window structure for a green building, which is provided with L-shaped ejector rods, the L-shaped ejector rods are matched with springs on a front convex positioning shaft for use through power transmission of the two L-shaped ejector rods, and a planting groove can be linked to eject and drive two sliding rings to slide inside and outside when the planting groove slides inwards and is hidden, so that driving force for up-and-down folding and unfolding is provided for a fence mechanism, and the problems that the fence mechanism needs to be operated by extra manual force to fold and unfold when the planting groove stretches back and forth, the operation is troublesome, time-consuming and labor-consuming are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a green building energy-saving sunshade green door and window structure comprises a window frame; a cross-brace intercepting rod is welded in the lower half part of the window frame, two windows are oppositely and slidably mounted between the cross-brace intercepting rod and the top stay bar of the window frame, and a planting groove is penetratingly and slidably mounted between the cross-brace intercepting rod and the bottom stay bar of the window frame; the planting groove is of a rectangular structure, and three partition plates are welded in the planting groove at equal intervals; the front side of the top end of the window frame is fixedly welded with a downward-inclined sun shield, the lower half section of a left stay bar and a right stay bar of the window frame is welded with two groups of vertical positioning shafts in a bilateral symmetry manner, and two L-shaped racks are symmetrically sleeved on the two groups of vertical positioning shafts in a sliding manner; one side of the transverse support intercepting rod positioned in the room is provided with a positioning insertion frame with a U-shaped structure in a pushing and sliding manner through a spring; the bottom side parts of the two groups of vertical positioning shafts on the left and right stay bars of the window frame are symmetrically and rotatably connected with four parallel swing rods, two vertical connecting rods are rotatably connected between head end sections of the four parallel swing rods, one nylon fence net is hung and pulled between the two vertical connecting rods, and two nylon fence nets are also hung and pulled between the left and right parallel swing rods.

Preferably, two forward convex positioning shafts are symmetrically welded to positions of the two groups of vertical positioning shafts on the left and right supporting rods of the window frame, and two driven gears are sleeved on a tail end rotating shaft of two parallel swing rods at the top end of the window frame.

Preferably, two vertical supporting rods are symmetrically welded on the front side wall of the planting groove, the top ends of the two vertical supporting rods are rotatably connected with an L-shaped ejector rod, and the planting groove is rotatably connected with a handle at the middle position of the indoor side wall.

Preferably, two positioning holes are symmetrically formed in one end, close to the two vertical supporting rods, of the left side wall and the right side wall of the planting groove, and the left inserting rod and the right inserting rod of the positioning inserting frame are correspondingly matched with the two positioning holes in an inserting mode.

Preferably, two U-shaped mounting frames are symmetrically welded to the top end sections of the two vertical supporting rods, and two insertion shafts are inserted into the two U-shaped mounting frames in a penetrating manner through the spring pushing.

Preferably, two positioning lug plates are symmetrically welded on the bottom section of the L-shaped ejector rod, and the top end sections of the two insertion shafts are correspondingly matched with the two positioning lug plates in an inserted manner.

Preferably, the two L-shaped racks are correspondingly engaged with the two driven gears for transmission, the top end sections of the two L-shaped racks are respectively and rotatably connected with a connecting rod, the head end sections of the two connecting rods are respectively and rotatably provided with a sliding ring, and the two sliding rings are correspondingly and slidably matched with the two front convex positioning shafts through spring pushing.

Preferably, the two slip rings are upwards welded and supported with a vertical stressed short shaft, and when the L-shaped ejector rod is in a turnover vertical state, the horizontal rod section at the top end of the L-shaped ejector rod slides towards the indoor along with the planting groove and correspondingly abuts against and contacts with the two vertical stressed short shafts.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, four parallel swing rods and two vertical connecting rods are connected together to form a parallelogram fence mechanism, when the four parallel swing rods are swung and rotated to be in a horizontal state, the whole fence mechanism is unfolded (refer to fig. 1), at the moment, three nylon fence nets on the fence mechanism and two windows surround to form a relatively closed rectangular fence space, and the rectangular fence space can contain and shield fallen leaves and petals of flowers and plants, so that the fallen leaves and the petals are prevented from blowing with wind to fall around neighbors to cause contradictions and damage the environment in a plot;

2. according to the invention, the planting groove can slide inside and outside, when the flowers in the planting groove need to be irradiated by sunlight, the planting groove can slide and protrude, and when the flowers are at night or in strong wind and heavy rain, the planting groove can be hidden indoors, so that the exposure states of the flowers can be flexibly switched according to different requirements of culturists and different weather conditions, and the use is convenient;

3. according to the invention, two L-shaped push rods can be inserted and positioned in an upturned vertical pushing driving state by two inserting shafts, and when the planting trough needs to be pulled and pulled inwards in a temporary sliding manner and the enclosure mechanism does not need to be contracted, the two L-shaped push rods can swing downwards and be placed in a hanging state, so that the two sliding rings are prevented from being pushed, and the linkage folding and unfolding function of the enclosure mechanism can be effective or not according to the needs, therefore, the invention has better applicability and wide application;

4. according to the invention, when the enclosure mechanism is in a state that the lower hem is contracted, the enclosure mechanism is attached to the planting groove in an inward sliding state, so that the supporting occupied area can be reduced, the wind area of the whole enclosure mechanism can be reduced, the probability that the nylon fence net is blown, torn and damaged by wind is greatly reduced, and the service life of the whole enclosure mechanism is prolonged;

5. according to the invention, through the power transmission of the two L-shaped push rods, the planting grooves can be linked to push and drive the two sliding rings to slide inwards to provide driving force for the enclosure mechanism to retract downwards when the inner slide is hidden, and when the outer slide protrusion of the planting grooves is separated from the two sliding rings, the springs on the two front convex positioning shafts can push and drive the two sliding rings to slide forwards to provide driving force for the enclosure mechanism to expand upwards, so that the trouble of operating the enclosure mechanism to fold and unfold by additional manual force when the planting grooves are stretched forwards and backwards is eliminated, the use and operation steps are simplified, and the use is convenient, time-saving and labor-saving.

Drawings

FIG. 1 is a schematic view of a window frame structure according to the present invention;

FIG. 2 is a schematic view of an indoor side structure of a window frame according to the present invention;

FIG. 3 is a schematic view of a three-dimensional structure of a planting groove of the present invention;

FIG. 4 is a schematic view of an L-shaped rack structure according to the present invention;

FIG. 5 is a schematic view of a parallel swing link structure according to the present invention;

FIG. 6 is a schematic view of an L-shaped rack structure according to the present invention;

FIG. 7 is an enlarged view of the portion A of FIG. 1;

FIG. 8 is an enlarged view of portion B of FIG. 3 according to the present invention;

FIG. 9 is an enlarged view of the portion C of FIG. 2;

in the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a window frame; 101. a sun visor; 102. a forward convex positioning shaft; 103. parallel swing rods; 104. a vertical connecting rod; 105. a vertical positioning shaft; 106. a driven gear; 2. a window; 3. planting a groove; 301. a vertical supporting rod; 302. an L-shaped ejector rod; 303. installing a frame; 304. inserting a shaft; 305. positioning holes; 4. an L-shaped rack; 401. a connecting rod; 402. a slip ring; 5. and positioning the inserting frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 9, an embodiment of the present invention includes: a green building energy-saving sunshade green door and window structure comprises a window frame 1; a cross-brace intercepting rod is welded in the lower half part of the window frame 1, two windows 2 are installed between the cross-brace intercepting rod and the top support rod of the window frame 1 in a sliding mode in opposite directions, and a planting groove 3 is installed between the cross-brace intercepting rod and the bottom support rod of the window frame 1 in a penetrating and sliding mode; the planting groove 3 is of a rectangular structure, and three partition plates are welded in the planting groove at equal intervals; a downward-inclined sun shield 101 is fixedly welded on the front side of the top end of the window frame 1, two groups of vertical positioning shafts 105 are welded on the lower half sections of the left and right supporting rods of the window frame 1 in a bilateral symmetry manner, and two L-shaped racks 4 are symmetrically sleeved on the two groups of vertical positioning shafts 105 in a sliding manner; one side of the transverse support intercepting rod positioned in the room is provided with a positioning insertion frame 5 with a U-shaped structure in a pushing and sliding way through a spring; the bottom side parts of two groups of vertical positioning shafts 105 on left and right support rods of the window frame 1 are symmetrically and rotatably connected with four parallel swing rods 103, two vertical connecting rods 104 are rotatably connected between the head end sections of the four parallel swing rods 103, one nylon barrier net is hung and pulled between the two vertical connecting rods 104, and two nylon barrier nets are hung and pulled between the left and right parallel swing rods 103; two positioning lug plates are symmetrically welded on the bottom sections of the two L-shaped ejector rods 302, and the top end sections of the two insertion shafts 304 are correspondingly matched with the two positioning lug plates in an insertion manner; two positioning holes are symmetrically formed in one end, close to the two vertical support rods 301, of the left side wall and the right side wall of the planting groove 3, the left insertion rod and the right insertion rod of the positioning insertion frame 5 are correspondingly matched with the two positioning holes in an inserting mode, the positioning insertion frame 5 can enable the planting groove 3 to be positioned in a use state in which the inner slide is hidden in an inserting mode, and the situation that the planting groove 3 is pushed by springs on the two front convex positioning shafts 102 to move to affect the sealing performance when the inner slide is closed is avoided.

As shown in fig. 1, two front convex positioning shafts 102 are symmetrically welded on two groups of vertical positioning shafts 105 on left and right supporting rods of a window frame 1, two driven gears 106 are sleeved on tail end rotating shafts of two parallel swing rods 103 at the top ends, the four parallel swing rods 103 are connected with two vertical connecting rods 104 together to form a parallelogram barrier mechanism, when the four parallel swing rods 103 swing and rotate in a horizontal state, the whole barrier mechanism is unfolded (refer to fig. 1), at the moment, three nylon fence nets on the barrier mechanism and two windows 2 surround to form a relatively closed rectangular barrier space, and the rectangular barrier space can contain and shield fallen leaves and petals of flowers, so that neighbors around the fallen leaves and petals are prevented from blowing with wind to cause domestic contradiction and damage the environment inside a small area.

As shown in fig. 2, the symmetrical welding has two places to erect branch 301 on planting groove 3's the preceding lateral wall, the top that two places erect branch 301 all rotates and is connected with L form ejector rod 302, and it is connected with a handle to plant groove 3 and be located the intermediate position of indoor lateral wall to rotate, it can inside and outside slip to plant groove 3, when its inside flower is planted needs to carry out sunshine and shines, it is protruding to plant groove 3 slidable, when night or during strong wind and heavy rain weather, it can interior slip hide in indoor to plant groove 3, can carry out nimble switching according to the demand that breeders are different and the exposure state of different weather conditions to the flower is planted, high durability and convenient use.

As shown in fig. 8, two u-shaped mounting frames 303 are symmetrically welded to the top end sections of the two vertical supporting rods 301, two insertion shafts 304 are inserted through the two u-shaped mounting frames 303 by spring pushing, the two insertion shafts 304 can insert and position two L-shaped push rods 302 in an upward-turned vertical pushing driving state, and when the planting tank 3 is temporarily pulled and pulled in an inward-sliding manner and the enclosure mechanism is not required to be retracted, the two L-shaped push rods 302 can swing downward and be placed in a hanging state, so that the two sliding rings 402 are prevented from being pushed, the linkage folding and unfolding function of the enclosure mechanism can be effective or not as required, and the enclosure mechanism is better in applicability and wide in application.

As shown in fig. 1, two L-shaped racks 4 are correspondingly engaged with two driven gears 106 for transmission, the top end sections of the two L-shaped racks 4 are rotatably connected with a connecting rod 401, the head end sections of the two connecting rods 401 are rotatably provided with a sliding ring 402, the two sliding rings 402 are correspondingly in sliding fit with the two front convex positioning shafts 102 through spring pushing, the two connecting rods 401, the two L-shaped racks 4 and the two sliding rings 402 are jointly connected to form a two-crank slider rod mechanism, the two sliding rings 402 can drive the two L-shaped racks 4 to slide up and down through sliding the mechanism back and forth, the two L-shaped racks 4 can be meshed to drive the two parallel swing rods 103 at the top end to swing up and down to control the extension and contraction of the whole enclosure mechanism, and the enclosure mechanism is attached to the inner sliding groove 3 when the enclosure mechanism is in the lower swing contraction state, so that the supporting occupied area can be reduced, the wind area of the whole enclosure mechanism can be greatly reduced, the probability that the nylon fence net is torn and damaged by wind can be greatly reduced, and the service life of the whole enclosure mechanism can be prolonged.

As shown in fig. 7, two sliding rings 402 are welded and supported upwards to form a vertical stressed short shaft, when the L-shaped push rod 302 is in a turned and upright state, the horizontal rod section at the top end of the L-shaped push rod slides towards the indoor along with the planting groove 3 and correspondingly abuts against and contacts with the two vertical stressed short shafts, through the power transmission of the two L-shaped push rods 302, the planting groove 3 can be linked to push and push to drive the two sliding rings 402 to slide inwards to provide driving force for the enclosure mechanism to retract downwards, and when the outer sliding protrusion of the planting groove 3 is separated from the two sliding rings 402, the springs on the two front convex positioning shafts 102 can push and push the two sliding rings 402 to slide forwards to provide driving force for the enclosure mechanism to expand upwards, so that the trouble of manually applying force to operate the enclosure mechanism to expand and contract forwards and backwards during the telescopic planting of the groove 3 is eliminated, the use operation steps are simplified, and the use is convenient, time-saving and labor-saving.

In another embodiment, the sun visor 101 can be replaced by a solar power generation panel, and the solar power generation panel can not only shade sun but also generate power, so that certain energy-saving and emission-reducing effects are achieved.

The working principle is as follows: when the device is used, the planting groove 3 can slide inside and outside, when the flowers in the planting groove need to be irradiated by sunlight, the planting groove 3 can slide and protrude, when the device is at night or in strong wind and heavy rain, the planting groove 3 can be concealed indoors in a sliding manner, the positioning insertion frame 5 can insert and position the planting groove 3 in a use state in which the planting groove is concealed in the sliding manner, and the situation that the sealing performance when the planting groove 3 is closed in the sliding manner is influenced by the pushing and displacement of the springs on the two front convex positioning shafts 102 is avoided;

two connecting rods 401, two L-shaped racks 4 and two sliding rings 402 are connected together to form a two-slider-crank rod mechanism, the two sliding rings 402 which slide back and forth on the mechanism can drive the two L-shaped racks 4 to slide up and down, the two L-shaped racks 4 can slide up and down and can be meshed with the two parallel swing rods 103 at the top end to swing up and down to control the whole enclosure mechanism to be folded and unfolded, further, through the power transmission of the two L-shaped push rods 302, the planting groove 3 can be linked to push and drive the two sliding rings 402 to slide inwards to provide driving force for the enclosure mechanism to contract downwards when the planting groove 3 slides inwards, and when the planting groove 3 slides outwards to protrude and is separated from the two sliding rings 402, the springs on the two forward-convex positioning shafts 102 can push and drive the two sliding rings 402 to slide forwards to provide driving force for the enclosure mechanism to unfold upwards;

the four parallel swing rods 103 are connected with the two vertical connecting rods 104 to form a parallelogram fence mechanism, when the four parallel swing rods 103 swing and rotate to be in a horizontal state, the whole fence mechanism is unfolded, at the moment, three nylon fence nets on the fence mechanism and two windows 2 surround to form a relatively closed rectangular fence space, and the rectangular fence space can be used for containing and shielding fallen leaves and petals of flowers, so that contradictions caused by the falling leaves and the petals falling in a scattered manner along with wind in neighbors and damaging the environment inside a small area are avoided.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. The utility model provides a green building energy-conserving sunshade green door and window structure which characterized in that: a sunshade green door and window structure comprises a window frame (1); a cross-brace intercepting rod is welded in the lower half part of the window frame (1), two windows (2) are oppositely and slidably mounted between the cross-brace intercepting rod and the top stay bar of the window frame (1), and a planting groove (3) is penetratingly and slidably mounted between the cross-brace intercepting rod and the bottom stay bar of the window frame (1); the planting groove (3) is of a rectangular structure, and three partition plates are welded in the planting groove at equal intervals; the front side of the top end of the window frame (1) is fixedly welded with a downward-inclined sun shield (101), the lower half sections of left and right support rods of the window frame (1) are welded with two groups of vertical positioning shafts (105) in a left-right symmetrical mode, and two L-shaped racks (4) are symmetrically sleeved on the two groups of vertical positioning shafts (105) in a sliding mode; one side of the transverse strut intercepting rod positioned in the room is provided with a positioning insertion frame (5) with a U-shaped structure in a sliding way through a spring; the bottom side parts of the left and right support rods of the window frame (1) positioned on the two groups of vertical positioning shafts (105) are symmetrically and rotatably connected with four parallel swing rods (103), two vertical connecting rods (104) are rotatably connected between the head end sections of the four parallel swing rods (103), one nylon fence net is arranged between the two vertical connecting rods (104) in a hanging and pulling mode, and two nylon fence nets are also arranged between the left and right parallel swing rods (103) in a hanging and pulling mode.

2. The green building energy-saving sunshade green door and window structure of claim 1, characterized in that: two forward convex positioning shafts (102) are symmetrically welded at the positions of two groups of vertical positioning shafts (105) on the left stay bar and the right stay bar of the window frame (1), and two driven gears (106) are sleeved on a tail end rotating shaft of two parallel swing rods (103) at the top ends.

3. The green building energy-saving sunshade green door and window structure of claim 2, characterized in that: plant the preceding lateral wall of groove (3) and go up the symmetrical welding and have two department to erect branch (301), the top of two department to erect branch (301) all rotates and is connected with L form ejector pin (302), and plants groove (3) and be located the intermediate position of indoor lateral wall and rotate and be connected with a handle.

4. The green building energy-saving sunshade green door and window structure of claim 1, characterized in that: two positioning holes are symmetrically formed in one end, close to the two vertical support rods (301), of the left side wall and the right side wall of the planting groove (3), and the left inserting rod and the right inserting rod of the positioning inserting frame (5) are correspondingly matched with the two positioning holes in an inserting mode.

5. The green building energy-saving sunshade green door and window structure of claim 3, characterized in that: two U-shaped mounting frames (303) are symmetrically welded on the top end sections of the two vertical supporting rods (301), and two insertion shafts (304) are inserted in the two mounting frames (303) in a penetrating manner through the pushing of a spring.

6. The green building energy-saving sunshade green door and window structure of claim 5, characterized in that: two positioning lug plates are symmetrically welded on the bottom section of the L-shaped ejector rod (302), and the top end sections of the two insertion shafts (304) are correspondingly matched with the two positioning lug plates in an inserted manner.

7. The green building energy-saving sunshade green door and window structure of claim 3, characterized in that: the two L-shaped racks (4) are correspondingly meshed with the two driven gears (106) for transmission, the top end sections of the two L-shaped racks (4) are respectively and rotatably connected with a connecting rod (401), the head end sections of the two connecting rods (401) are respectively and rotatably provided with a sliding ring (402), and the two sliding rings (402) are correspondingly matched with the two front convex positioning shafts (102) in a sliding mode through spring pushing.

8. The green building energy-saving sunshade green door and window structure of claim 7, wherein: the two slip rings (402) are respectively and upwards welded and supported with a vertical stressed short shaft, and when the L-shaped ejector rod (302) is in a turning and vertical state, the horizontal rod section at the top end of the L-shaped ejector rod slides towards the indoor along with the planting groove (3) and correspondingly abuts against and contacts with the two vertical stressed short shafts.

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