CN114197709A - Green building curtain wall capable of keeping warm and draining water and operation method thereof - Google Patents

Abstract

The invention discloses a green building curtain wall based on heat preservation and drainage and an operation method thereof, relating to the technical field of green building curtain walls and comprising the following steps: a ground contacting support plate; the top end of the grounding support plate is vertically welded with a U-shaped support frame, the left and right vertical support rods of the U-shaped support frame are symmetrically welded with eight long support plates before and after being spaced at equal intervals from top to bottom, and the eight long support plates are respectively welded and fixed with a winding drum which is transversely supported; the winding device is characterized in that a winding roller is arranged at the center inside the winding drum, two coil springs are arranged at the left end section and the right end section of the winding roller, the head ends of the two coil springs are connected with felt cloth, the bottom of the felt cloth is connected with a cross-bracing vertical pipe, and the coil springs can rebound, pull and wind the pulled felt cloth in the winding drum. The sliding convex side baffle plate and the felt cloth drawn out by pulling down can surround to form a closed rectangular heat insulation space to completely and comprehensively shield wind and insulate green plants in the space, and the problem of poor heat insulation effect on the green plants is solved.

Description

Green building curtain wall capable of keeping warm and draining water and operation method thereof

Technical Field

The invention relates to the technical field of green building curtain walls, in particular to a green building curtain wall capable of keeping warm and draining water and an operation method thereof.

Background

The ecological curtain wall covered with green plants is also called as a green curtain wall at present, compared with light pollution generated by a glass curtain wall, the green curtain wall can beautify a building and bring green vitality, but the green plants on the curtain wall need to be kept warm in low-temperature weather, particularly at night; the heat preservation system of the existing green building curtain wall is not perfect enough in optimization, can not shield to form a relatively closed and complete heat preservation space, is poor in cold-resisting and heat-preserving effect, and the folding and unfolding driving structure of the heat preservation assembly is not reasonable enough, so that the heat preservation assembly can be completely opened by manually operating the driving structure step by step for multiple times when the heat preservation assembly is unfolded and used, and time and labor are wasted.

Disclosure of Invention

In view of the above, the invention provides a green building curtain wall capable of keeping warm and draining water and an operation method thereof, wherein the green building curtain wall is provided with a plurality of press blocks, and through power transmission of the press blocks, a driving frame can be linked and jacked to drive a sliding ring to move downwards when being stepped downwards to pull felt cloth, so that a sliding driving force is provided for a side baffle plate, the trouble of manually pulling out the side baffle plate is omitted, and the problems of complicated operation steps and inconvenience and time consumption in unfolding a curtain wall heat preservation mechanism are solved.

The invention provides the following technical scheme: a green building curtain wall based on warmth retention and drainage and an operation method thereof comprise a ground contact support plate; the top end of the grounding support plate is vertically welded with a U-shaped support frame, the left and right vertical support rods of the U-shaped support frame are symmetrically welded with eight long support plates before and after being spaced at equal intervals from top to bottom, and the eight long support plates are respectively welded and fixed with a winding drum which is transversely supported; the winding device is characterized in that a winding roller is arranged at the central position in the winding drum, two coil springs are arranged at the left end section and the right end section of the winding roller, the head ends of the two coil springs are connected with felt cloth, the bottom of the felt cloth is connected with a cross-bracing vertical pipe, and the coil springs can rebound, pull and wind the pulled felt cloth in the winding drum; the right and left vertical support rods of the U-shaped support frame are locked and provided with four rows of planting boxes which are transversely arranged at intervals in an up-down equidistant manner, the end faces of the right and left outer sides of the vertical support rods at two positions of the U-shaped support frame are symmetrically welded with eight positioning shaft sleeves, and one driving frame penetrates through and slides on the eight positioning shaft sleeves; sixteen side baffle plates are symmetrically arranged on the left and right vertical supporting rods of the U-shaped supporting frame in a penetrating and sliding manner in a front-back opposite left-right symmetrical manner; the side blocking plates are integrally rectangular, the bottoms of the sixteen side blocking plates are connected with sixteen connecting rods in a front-back opposite rotating mode, the head ends of two connecting rods which are correspondingly arranged in a group in the front-back mode are rotationally connected together through one sliding ring, the sliding rings are totally provided with eight positions, and the eight sliding rings are correspondingly matched with eight vertical supporting shaft rods in a sliding mode through spring pushing; eight pressing blocks are abutted and contacted with eight sliding rings along with the sliding of the driving frame, and the longitudinal connecting plate is abutted and contacted with the inclined plane of the L-shaped inserted bar along with the sliding of the driving frame; the top end of the ground contact supporting plate is fixedly welded with a water receiving tray with a trapezoidal structure, two vertical strips are symmetrically welded at the central position of a bottom plate of the water receiving tray, an L-shaped inserted bar is inserted between the top end sections of the two vertical strips through spring pushing, and the head end section of the L-shaped inserted bar is of an oblique section structure.

Preferably, the U-shaped supporting frame is provided with sixteen longitudinal supporting positioning short shafts symmetrically welded to the left and right vertical supporting rods in the front and back direction, the bottoms of the sixteen side baffle plates are respectively provided with a positioning ring, the sixteen positioning rings are correspondingly matched with the sixteen longitudinal supporting short shafts in a penetrating and sleeving manner, the sixteen side baffle plates can slide forwards and backwards to cover the left end and the right end of the four-row planting box, ventilation spaces on the left side and the right side of the four-row planting box are sealed, and wind shielding and heat preservation are implemented on green plants on a curtain wall.

Preferably, eight vertical supporting shaft rods are symmetrically welded on eight positioning shaft sleeves, and three water intercepting plates are welded and blocked at the bottoms of spacing spaces among six long supporting plates at the bottom side; the long supporting plates at the front and the back corresponding to each other, the water-stopping plates at the bottoms of the long supporting plates and the left and right vertical supporting rods of the U-shaped supporting frame jointly surround to form a rectangular water-receiving groove, wherein the left and right vertical supporting rods and the corresponding parts at the left and right ends of the rectangular water-receiving groove are symmetrically provided with four water outlets in a penetrating manner, the three rectangular water-receiving grooves can contain irrigation water which is benefited from the three seed-metering planting boxes at the upper side and guide overflow water to the water-receiving tray at the bottommost through the water outlets at the left and right sides for centralized storage.

Preferably, the driving frame is integrally composed of a left vertical supporting sliding shaft, a right vertical supporting sliding shaft and a rectangular stepping frame welded at the bottoms of the two vertical supporting sliding shafts, wherein a longitudinal connecting plate is welded in the middle of the rectangular stepping frame; eight vertical supporting pull rods are symmetrically welded on the two vertical supporting sliding shafts at equal intervals, the front end and the rear end of each eight pull rod are correspondingly sleeved and connected with the left end and the right end of each sixteen cross-supporting vertical pipe, and eight pressing blocks are oppositely welded on the middle sections of the eight pull rods left and right.

Preferably, the method comprises the following operation steps:

the rectangular stepping frame is driven by downwards stepping of the foot, and the rectangular stepping frame drives the driving frame, the eight pull rods and the eight pressing blocks to synchronously slide downwards; the eight pull rods slide downwards to drive the ten cross-bracing vertical tubes to slide downwards to pull down and spread felt cloth in the eight winding drums and seal and cover the front side and the rear side of the four rows of planting boxes; along with the continuous downward sliding of the driving frame, the eight pressing blocks are in contact with the eight sliding rings and push the eight sliding rings to slide downward; the eight sliding rings slide down to drive the sixteen side blocking plates to slide out in a front-back opposite direction and block the left side and the right side of the four rows of planting boxes; and finally, along with the continuous descending of the rectangular stepping frame, the longitudinal connecting plate is abutted against the inclined surface of the L-shaped inserted bar and is used for inserting and positioning the driving frame, so that the felt cloth and the sixteen side baffle plates are kept in a use state of surrounding and insulating green plants in the four-seed-metering planting box.

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

1. according to the invention, the heat-insulating felt cloth can be pulled out by adopting foot-operated force through the rectangular stepping frame, compared with manual force-applying operation, the trouble of bending down and attaching to the body can be saved, the use is more labor-saving and convenient, and the driving frame can slide downwards to pull out the felt cloth in the winding drum synchronously, so that the trouble of manually pulling down and pulling out the felt cloth step by step is saved;

2. the side blocking plates which are protruded in a sliding mode and the felt cloth which is pulled out in a pulling mode can surround to form a rectangular heat preservation space which is relatively closed in four places, the rectangular heat preservation space in the four places can completely and comprehensively shield wind and preserve heat of green plants in four seed planting boxes inside the rectangular heat preservation space, the heat preservation effect of the green plants is good, the side blocking plates and the felt cloth can be contracted and hidden, and the phenomenon that sunlight is shielded in the daytime to influence the illumination growth of the green plants is avoided;

3. according to the curtain wall heat-insulating mechanism, through power transmission of the pressing blocks, the driving frame can be linked with the jacking pressure to drive the sliding ring to move downwards when the driving frame is stepped downwards to pull the felt cloth, so that a sliding-out driving force is provided for the side baffle plate, the trouble of manually drawing out the side baffle plate is omitted, the unfolding operation step of the curtain wall heat-insulating mechanism is simplified, and the curtain wall heat-insulating mechanism is convenient to use and time-saving.

Drawings

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

FIG. 2 is a rear side view of the overall structure of the present invention;

FIG. 3 is a schematic view of the present invention in a heat-insulating use state;

FIG. 4 is a right side schematic view of the heat-insulating use state of the present invention;

FIG. 5 is a schematic view of the sliding mounting of the driving frame according to the present invention;

FIG. 6 is a schematic diagram of a driving frame according to the present invention;

FIG. 7 is a schematic view of a side rail structure according to the present invention;

FIG. 8 is a schematic view of a half-section internal structure of the winding drum of the present invention;

FIG. 9 is an enlarged view of portion A of FIG. 1;

FIG. 10 is an enlarged view of portion B of FIG. 4 according to the present invention;

FIG. 11 is an enlarged view of the portion C of FIG. 5 according to the present invention;

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

1. a ground contacting support plate; 101. a U-shaped supporting frame; 102. a water pan; 103. an L-shaped insert rod; 104. a strip supporting plate; 105. positioning a short shaft; 106. positioning the shaft sleeve; 107. a vertical support shaft lever; 108. a water interception plate; 2. planting boxes; 3. winding the roll; 301. a cross-bracing vertical tube; 302. a coil spring; 4. a drive frame; 401. a rectangular stepping frame; 402. a pull rod; 403. briquetting; 5. a side rail plate; 501. a connecting rod; 502. and a slip ring.

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.

Please refer to fig. 1 to 11;

the invention provides a green building curtain wall based on warmth retention and drainage and an operation method thereof, wherein the method comprises the following steps: a ground contacting support plate 1; the top end of the grounding support plate 1 is vertically welded with a U-shaped support frame 101, the left and right vertical support rods of the U-shaped support frame 101 are symmetrically welded with eight long support plates 104 at intervals from top to bottom and from front to back, and the eight long support plates 104 are all welded and fixed with a transverse supporting winding cylinder 3; a winding roller is arranged at the central position in the winding drum 3, two coil springs 302 are arranged at the left end section and the right end section of the winding roller, the head ends of the two coil springs 302 are connected with felt cloth, and the bottom of the felt cloth is connected with a cross-bracing vertical pipe 301; four rows of planting boxes 2 which are transversely arranged are locked and installed between the left vertical supporting rods and the right vertical supporting rods of the U-shaped supporting frame 101 at equal intervals from top to bottom, eight positioning shaft sleeves 106 are symmetrically welded on the left outer end face and the right outer end face of the vertical supporting rods at two positions of the U-shaped supporting frame 101, and a driving frame 4 penetrates through and slides on the eight positioning shaft sleeves 106; sixteen side barrier plates 5 are symmetrically arranged on the left and right vertical supporting rods of the U-shaped supporting frame 101 in a penetrating and sliding manner in a front-back opposite left-right manner; a water pan 102 with a trapezoidal structure is welded and fixed at the top end of the ground contact support plate 1, two vertical strips are symmetrically welded at the central position of the bottom plate of the water pan 102, an L-shaped inserted rod 103 is inserted between the top end sections of the two vertical strips through spring pushing, and the head end section of the L-shaped inserted rod 103 is in an oblique section structure; eight vertical supporting shaft rods 107 are symmetrically welded on the eight positioning shaft sleeves 106, and three water intercepting plates 108 are welded and blocked at the bottoms of spacing spaces among the six long supporting plates 104 at the bottom side; sixteen longitudinal supporting short shafts 105 are symmetrically welded on the left and right vertical supporting rods of the U-shaped supporting frame 101 in a front-back manner, and the bottoms of the sixteen side baffle plates 5 are respectively welded with a positioning ring, and the sixteen positioning rings are correspondingly sleeved with the sixteen positioning short shafts 105; two long supporting plates 104 corresponding to the front and the back, a water interception plate 108 at the bottom of the long supporting plates, and left and right vertical supporting rods of the U-shaped supporting frame 101 surround together to form a rectangular water receiving tank, wherein four water outlet holes are symmetrically formed in the left and right vertical supporting rods and the corresponding parts of the left and right ends of the rectangular water receiving tank in a penetrating manner;

the whole frame 401 of stepping on by controlling the vertical stay sliding shaft and welding in the rectangle of two department vertical stay sliding shaft bottoms of drive frame 4 constitutes jointly, and wherein the rectangle steps on the middle position welding of frame 401 and has a vertical connecting plate, steps on frame 401 through the rectangle and can adopt the foot to exert oneself and pull out heat preservation felt cloth, compares in the manual trouble of exerting oneself and can save the bow and attach to the body, uses laborsaving convenience more.

As shown in fig. 2, eight longitudinally supported pull rods 402 are symmetrically welded on two vertical supporting sliding shafts at equal intervals, the front and rear ends of the eight pull rods 402 are correspondingly sleeved and connected with the left and right ends of the sixteen cross-supporting vertical tubes 301, eight press blocks 403 are oppositely welded on the middle sections of the eight pull rods 402 in the left and right directions, and the driving frame 4 can slide downwards to pull out the felt cloth in the eight winding drums 3 synchronously, so that the trouble of manually pulling out the eight felt cloth in steps is eliminated.

As shown in FIG. 7, the side barrier plates 5 are rectangular, the bottom of the sixteen side barrier plates 5 are connected with sixteen connecting rods 501 in a front-back opposite direction rotation manner, the front ends of two connecting rods 501 arranged in a front-back corresponding manner are connected together in a rotation manner through one sliding ring 502, the sliding rings 502 are provided with eight positions, the eight sliding rings 502 are correspondingly matched with the eight vertical supporting shaft rods 107 in a sliding manner through spring pushing, the four connecting rods 501, the four side barrier plates 5 and the two sliding rings 502 at the same height are connected together to form a four-crank sliding block mechanism, the two sliding rings 502 are slid downwards through the mechanism, the four side barrier plates 5 can be pushed to slide out in opposite directions, the sixteen sliding convex side barrier plates 5 and the eight felt cloths drawn out by pulling can surround to form a four relatively closed rectangular heat preservation space, and the four rectangular heat preservation space can completely and comprehensively insulate green plants in the four rows of planting boxes 2 inside the rectangular heat preservation space, the heat preservation effect preferred to green planting, and sixteen places side sideboard 5 and eight felt cloth homoenergetic shrink are hidden, avoid sheltering from sunshine when the day, influence the illumination growth of green planting.

As shown in fig. 4, eight press blocks 403 are in contact with eight sliding rings 502 along with the downward sliding of the driving frame 4, the longitudinal connecting plate is in contact with the downward sliding of the driving frame 4 along with the inclined plane of the L-shaped insertion rod 103, the L-shaped insertion rod 103 can insert and position the driving frame 4, so that the felt cloth and the sixteen side baffles 5 are kept in the use state of heat preservation for green plant enclosure, and through the power transmission of the eight press blocks 403, the driving frame 4 can be linked and pressed to drive the eight sliding rings 502 to move downwards when being stepped to pull the felt cloth downwards, so as to provide sliding driving force for the sixteen side baffles 5, thereby eliminating the additional trouble of manually pulling out the side baffles 5, simplifying the unfolding operation steps of the curtain wall heat preservation mechanism, and being convenient and time-saving in use.

As shown in fig. 3, the method comprises the following operation steps:

1. the rectangular stepping frame 401 is driven by stepping down of the foot, and the rectangular stepping frame 401 drives the driving frame 4, the eight pull rods 402 and the eight pressing blocks 403 to synchronously slide downwards;

2. the eight pull rods 402 slide downwards to drive the ten cross-bracing vertical tubes 301 to slide downwards, so that felt cloth in the eight winding drums 3 is pulled downwards to be unfolded, and the front side and the rear side of the four rows of planting boxes 2 are sealed and covered;

3. with the continuous sliding of the driving frame 4, the eight pressing blocks 403 contact the eight sliding rings 502 and push the eight sliding rings 502 to slide downwards;

4. the eight sliding rings 502 slide down to drive the sixteen side blocking plates 5 to slide out in the front-back opposite direction and block the left side and the right side of the four rows of planting boxes 2;

5. finally, along with the continuous descending of the rectangular stepping frame 401, the longitudinal connecting plate is abutted against the inclined surface of the L-shaped inserting rod 103 and is used for inserting and positioning the driving frame 4, so that the felt cloth and the sixteen side baffle plates 5 are kept in a heat-preserving use state for the green plant enclosure in the four rows of planting boxes 2.

The working principle is as follows: when the water collecting device is used, the three rectangular water collecting grooves can be used for containing irrigation water which is benefited from the three rows of planting boxes 2 on the upper side, overflow water is guided into the water collecting tray 102 at the bottommost part through the water outlet holes on the left side and the right side for centralized storage, and the overflow water in the row of planting boxes 2 on the bottom side can be directly drained into the water collecting tray 102 in a leaking mode; the rectangular stepping frame 401 can adopt foot-operated force to press and slide the driving frame 4 downwards, the driving frame 4 can slide downwards to pull out felt cloth in the eight winding drums 3 synchronously downwards through the eight pull rods 402, and the coil spring 302 can rebound and pull out the pulled felt cloth to be wound in the winding drum 3;

through the power transmission of eight pressing blocks 403, the driving frame 4 can be linked and pressed to drive eight sliding rings 502 to move downwards when felt cloth is dragged downwards, four connecting rods 501, four side baffles 5 and two sliding rings 502 which are positioned at the same height are connected together to form a four-crank-slider mechanism, the eight sliding rings 502 are slid downwards through the four-crank-slider mechanism to drive sixteen side baffles 5 to slide out oppositely, the sixteen side baffles 5 can slide out forwards and backwards and oppositely to block the left and right ends of the four rows of planting boxes 2, ventilation spaces on the left and right sides of the four rows of planting boxes 2 are blocked, the sixteen sliding convex side baffles 5 and the eight felt cloth drawn out by pulling downwards can surround and form four relatively closed rectangular heat preservation spaces, the four rectangular heat preservation spaces can completely and comprehensively block wind and preserve heat for green plants in the four rows of planting boxes 2 inside the rectangular heat preservation spaces, in addition, the driving frame 4 can be inserted and positioned by the L-shaped inserting rods 103, the felt cloth and the sixteen side baffle plates 5 are kept in a use state of keeping warm for the green plant enclosure.

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 (10)

1. The utility model provides a green building curtain based on can keep warm and drainage which characterized in that: comprises a ground contact support plate (1); the top end of the ground contact supporting plate (1) is vertically welded with a supporting frame (101), the left and right vertical supporting rods of the supporting frame (101) are symmetrically welded with eight long supporting plates (104) at intervals from top to bottom in a front-rear mode, and the eight long supporting plates (104) are respectively welded and fixed with a winding drum (3) which is transversely supported; a winding roller is arranged at the central position in the winding drum (3), two coil springs (302) are arranged at the left end section and the right end section of the winding roller, the head ends of the two coil springs (302) are connected with felt cloth, and the bottom of the felt cloth is connected with a cross-bracing vertical pipe (301); four rows of planting boxes (2) which are transversely arranged are locked and installed between the left vertical supporting rod and the right vertical supporting rod of the supporting frame (101) at equal intervals from top to bottom, eight positioning shaft sleeves (106) are symmetrically welded on the left outer end face and the right outer end face of the two vertical supporting rods of the supporting frame (101), and a driving frame (4) penetrates through and slides on the eight positioning shaft sleeves (106); sixteen side baffle plates (5) are arranged on left and right vertical support rods of the support frame (101) in a front-back opposite bilateral symmetry mode in a penetrating and sliding mode.

2. A green building curtain wall based on warmth retention and drainage as claimed in claim 1, wherein: the top welded fastening who contacts to earth backup pad (1) has water collector (102) of a trapezium structure, and the central point of water collector (102) bottom plate puts the symmetrical welding and has two vertical slats, and it has an L form inserted bar (103) to run through the cartridge through the spring top between the top section of two vertical slats, and the head end section of L form inserted bar (103) is the oblique cut structure.

3. A green building curtain wall based on warmth retention and drainage as claimed in claim 1, wherein: the left vertical supporting rod and the right vertical supporting rod of the supporting frame (101) are symmetrically welded with sixteen positioning short shafts (105) which are longitudinally supported, the bottoms of the sixteen side baffle plates (5) are welded with one positioning ring, and the sixteen positioning rings correspond to the sixteen positioning short shafts (105) and are matched in a penetrating and sleeving mode.

4. A green building curtain wall based on warmth retention and drainage as claimed in claim 2, wherein: eight vertical supporting shaft rods (107) are symmetrically welded on the eight positioning shaft sleeves (106), and three water intercepting plates (108) are welded and plugged at the bottoms of spacing spaces among the six long supporting plates (104) at the bottom side.

5. A green building curtain wall based on can keep warm and drain off of claim 4, characterized by: the two corresponding front and back long supporting plates (104), the water-intercepting plates (108) at the bottoms of the long supporting plates and the left and right vertical supporting rods of the supporting frame (101) jointly surround to form a rectangular water receiving tank, and four water outlet holes are symmetrically formed in the corresponding parts of the left and right vertical supporting rods and the left and right ends of the rectangular water receiving tank in a penetrating mode.

6. A green building curtain wall based on can keep warm and drain off according to claim 5, characterized in that: the driving frame (4) is integrally composed of a left vertical supporting sliding shaft, a right vertical supporting sliding shaft and a rectangular stepping frame (401) welded to the bottoms of the two vertical supporting sliding shafts, wherein a longitudinal connecting plate is welded in the middle of the rectangular stepping frame (401).

7. A green building curtain wall based on can keep warm and drain off of claim 6, characterized by: eight vertical supporting pull rods (402) are symmetrically welded on the vertical supporting sliding shafts at equal intervals, the front ends and the rear ends of the eight pull rods (402) are correspondingly sleeved and connected with the left end and the right end of the sixteen cross-supporting vertical pipes (301), and eight pressing blocks (403) are oppositely welded on the middle sections of the eight pull rods (402) in a left-right opposite mode.

8. A green building curtain wall based on can keep warm and drain water of claim 7, characterized by: the side baffle plate (5) is integrally of a rectangular structure, the bottoms of sixteen side baffle plates (5) are connected with sixteen connecting rods (501) in a front-back opposite rotating mode, the head ends of two connecting rods (501) which are correspondingly arranged in a group are rotationally connected together through a sliding ring (502), the sliding ring (502) is provided with eight positions, and the eight sliding rings (502) are correspondingly matched with eight vertical supporting shaft rods (107) in a sliding mode through spring pushing.

9. A green building curtain wall based on can keep warm and drain off according to claim 8, characterized in that: eight press blocks (403) slide along the driving frame (4) to abut against and contact with eight sliding rings (502), and the longitudinal connecting plate slides along the driving frame (4) to abut against and contact with the inclined surface of the L-shaped inserted rod (103).

10. An operation method of a green building curtain wall based on heat preservation and water drainage is characterized by comprising the following operation steps:

1. firstly, a rectangular stepping frame (401) is driven by downwards stepping of a foot, and the rectangular stepping frame (401) drives a driving frame (4), eight pull rods (402) and eight pressing blocks (403) to synchronously slide downwards;

2. the eight pull rods (402) slide downwards to drive the ten cross-bracing vertical pipes (301) to slide downwards, felt cloth in the eight winding drums (3) is pulled downwards to be unfolded, and the eight winding drums are sealed and covered on the front side and the rear side of the four rows of planting boxes (2);

3. with the continuous downward sliding of the driving frame (4), the eight pressing blocks (403) are in contact with the eight sliding rings (502) and push the eight sliding rings (502) to slide downward;

4. the eight sliding rings (502) slide downwards to drive the sixteen side blocking plates (5) to slide out in a front-back opposite direction and block the left side and the right side of the four rows of planting boxes (2);

5. and finally, along with the continuous descending motion of the rectangular stepping frame (401), the longitudinal connecting plate is abutted against the inclined surface of the L-shaped inserting rod (103) and is used for inserting and positioning the driving frame (4), so that the felt cloth and the sixteen side baffle plates (5) are kept in a heat-preserving use state for surrounding and blocking green plants in the four rows of planting boxes (2), and a series of operation steps are further completed.

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