CN114293841B - Environment-friendly energy-saving air film building - Google Patents

Abstract

The invention relates to the field of air film buildings and discloses an environment-friendly energy-saving air film building, which comprises an air film building body, wherein bases are fixedly arranged on two sides of the air film building body, a driving assembly is arranged on the two bases together, and a first air charging sleeve is detachably connected to the driving assembly; the outer surface of the first air charging sleeve is fixedly provided with N shells which are distributed in an annular array; according to the invention, through the cooperation among the first air charging sleeve, the sliding component, the supporting component, the traction component and the like, the rotation of the sliding component and the continuous exhaust of the air outlet can be realized, so that the sliding component can realize rapid snow removal when moving along the air film building body; the rotary sliding component can be ensured to be in stable contact with the surface of the air film building body, so that snow on the surface of the air film building body can be completely removed, and the effect is better when the air film building body is suitable for the air film building body with the concave surface; the air outlet for continuously exhausting is arranged at the bottom of the square block, so that the snow can be flushed.

Description

Environment-friendly energy-saving air film building

Technical Field

The invention relates to the technical field of air film buildings, in particular to an environment-friendly energy-saving air film building.

Background

The air film building is a building structure system which uses special building film materials as a shell, is provided with an intelligent electromechanical device to provide positive pressure of air in the air film building and supports a building main body without any frame or beam column support.

Chinese patent publication No. CN113494135a discloses a gas film building with track type sliding snow removing structure, relates to gas film building technical field, including settling the subassembly and collecting energy subassembly, settling the middle part of subassembly and being provided with the subassembly of ventilating, and settling the outside of subassembly and be provided with snow removing subassembly. The invention has good snow removing effect on the outer surface of the film body, effectively avoids the situation that the snow on the outer surface of the film body is excessively thick and cannot be completely removed, is convenient for replacing the flexible scraping plate, and ensures the persistence and the effectiveness of the snow removing work.

But the overall structure of the device is fixed, and the snow removing effect on the surface of the air film building body is poor, and meanwhile, the device cannot be applied to the air film building body with the concave surface, and certain use limitations exist.

Therefore, it is necessary to provide an environment-friendly energy-saving air film building to solve the above technical problems.

Disclosure of Invention

The invention aims to provide an environment-friendly energy-saving air film building, which aims to solve the problems that in the prior art, the whole structure is fixed, the snow removing effect on the surface of an air film building body is poor, and the air film building body with a concave surface cannot be suitable for the air film building body.

In order to achieve the above purpose, the air film building body with the advantages of being foldable and good in snow removing effect is arranged.

Based on the thought, the invention provides the following technical scheme: the environment-friendly energy-saving air film building comprises an air film building body, wherein bases are fixedly arranged on two sides of the air film building body, a driving assembly is arranged on the two bases together, and a first air charging sleeve is detachably connected to the driving assembly;

the surface fixed mounting of first cover that aerifys has N to be the casing that annular array was arranged, the surface of casing runs through and slidable mounting has sliding component, the inside of N casings is provided with jointly and can dismantle with drive assembly and with every sliding component equal fixed connection's supporting component, sliding component includes the gas outlet of square and square bottom offer, wherein the standing groove has been seted up to the bottom of N-1 square, the inside slidable mounting of standing groove has the traction component who is used for blocking corresponding gas outlet, a plurality of traction component is in proper order rather than adjacent square fixed connection, until with the square fixed connection who does not offer the standing groove.

As a further aspect of the invention: the driving assembly comprises air cylinders fixedly arranged on the two bases, the movable ends of the two air cylinders are fixedly provided with air guide blocks which are detachably connected with the first air charging sleeve and the supporting assembly, and the surface of one air guide block is communicated with an air pump.

As a further aspect of the invention: the support assembly comprises first hoses detachably connected with the driving assembly, top plates equal to the shells in number are fixedly arranged on the surfaces of the first hoses, first springs are fixedly arranged between the top plates and the corresponding shells, supporting rods fixedly connected with the sliding assembly are fixedly arranged on the surfaces of the top plates, and connecting pipes communicated with the sliding assembly are fixedly arranged on the surfaces of the first hoses.

As a further aspect of the invention: the traction assembly comprises a cover plate which is in sliding fit with the placing groove and used for blocking the corresponding air outlet, a second spring is fixedly arranged between the cover plate and the placing groove, and a pull rope fixedly connected with the corresponding square is fixedly arranged on the surface of the cover plate.

As a further aspect of the invention: the sliding component comprises a sliding block which is in sliding connection with the shell and is fixedly connected with the square, a round cavity communicated with the air outlet is formed in the square, an air inlet communicated with the round cavity and the connecting pipe is formed in the sliding block, a short rod is installed in the round cavity in a rotating mode, fan blades are fixedly installed on the outer surface of the short rod, a support is fixedly installed on the end portion, far away from the fan blades, of the short rod, a plurality of end portions are arranged on the support, cleaning pieces are fixedly installed on each end portion, and balls are movably installed on the end portions.

As a further aspect of the invention: the cleaning piece is a scraping plate and a brush which are arranged at intervals, and the size of the scraping plate is matched with that of the ball and is smaller than that of the brush.

As a further aspect of the invention: the support is arranged on the front side or the rear side of the square block.

As a further aspect of the invention: the N shells are provided with synchronous components together, the synchronous components comprise N-1 cross bars, the cross bars are arranged between two adjacent shells and are used for the corresponding traction components to pass through, and the surface of one base is fixedly provided with a wave lug which is movably attached to the synchronous components.

As a further aspect of the invention: the bottom of the shell is provided with an arc-shaped groove in a penetrating way for the sliding block to slide, and the connecting pipe is a telescopic hose.

As a further aspect of the invention: the sliding block is arranged as an I-shaped sliding block.

As a further aspect of the invention: the synchronous assembly comprises N second inflatable sleeves, one end of each marginal second inflatable sleeve is fixedly connected with a corresponding marginal sliding block, the other end of each marginal second inflatable sleeve is movably attached to each wave bump, two ends of the other second inflatable sleeves are respectively fixedly connected with two adjacent sliding blocks, the cross rod is fixedly installed on the outer surface of each corresponding second inflatable sleeve, and the N second inflatable sleeves are communicated with the first inflatable sleeve through second hoses.

Compared with the prior art, the invention has the beneficial effects that: through the cooperation among the first inflation sleeve, the sliding component, the supporting component, the traction component and the like, the first inflation sleeve can be formed to be matched with the air film building body, the sliding component can rotate and the air outlet can be continuously exhausted, and therefore the sliding component can realize rapid snow removal when moving along the air film building body; meanwhile, the stable contact between the rotating sliding component and the surface of the air film building body can be ensured, so that snow on the surface of the air film building body can be completely removed, the effect is better when the air film building body is suitable for an air film building body with a concave surface, and snow in the concave surface can be removed together; the air outlet for continuously exhausting is arranged at the bottom of the square, is opposite to the air film building body and can move along the air film building body, so that the snow sweeping effect can be achieved, and the snow removing effect is further improved; the first inflation sleeve, the support assembly and the driving assembly are detachably connected, and after the use is finished, the gas is discharged, so that the first inflation sleeve and the shell can be folded, a large amount of space is saved, the portable gas-liquid separator is convenient to use, and the portable gas-liquid separator is more environment-friendly and energy-saving.

Drawings

The invention is further illustrated by the following examples in conjunction with the accompanying drawings:

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

FIG. 2 is an enlarged view of the structure of FIG. 1 at A;

FIG. 3 is a schematic view of a first inflatable sleeve and housing construction of the present invention;

FIG. 4 is a schematic view of a housing structure according to the present invention;

FIG. 5 is a schematic view of the internal structure of the housing according to the present invention;

FIG. 6 is an enlarged view of the structure at E in FIG. 5;

FIG. 7 is an enlarged view of the structure at F in FIG. 5;

FIG. 8 is an enlarged view of the structure at B in FIG. 3;

FIG. 9 is an enlarged view of the structure of FIG. 3 at C;

fig. 10 is an enlarged view of the structure at D in fig. 3.

In the figure: 1. a base; 2. a drive assembly; 3. a support assembly; 4. a first inflatable sleeve; 5. a housing; 6. a sliding assembly; 7. a traction assembly; 8. a synchronization component; 9. an arc-shaped groove; 10. a placement groove; 11. wave convex blocks; 12. a gas film building body; 201. a cylinder; 202. an air guide block; 203. an air pump; 301. a first hose; 302. a top plate; 303. a first spring; 304. a support rod; 305. a connecting pipe; 601. a slide block; 602. a square block; 603. a short bar; 604. a fan blade; 605. an air inlet; 606. an air outlet; 607. a bracket; 608. a cleaning member; 609. a ball; 701. a pull rope; 702. a cover plate; 703. a second spring; 801. a second inflatable sleeve; 802. a cross bar; 803. and a second hose.

Detailed Description

Embodiment one:

referring to fig. 1 to 4 and fig. 9, an embodiment of the present invention provides an environment-friendly energy-saving air film building: the building structure comprises a gas film building body 12, wherein the gas film building body 12 is an existing mature technology and is not described in detail herein; the left and right sides of air film building body 12 all fixed mounting has base 1, and two bases 1 are provided with drive assembly 2 jointly, and drive assembly 2 is last to be dismantled and to be connected with first inflation cover 4, and first inflation cover 4 presss from both sides net material and oxford surface fabric and aerifys goods, and under drive assembly 2's effect when first inflation cover 4, with the shape adaptation of air film building body 12 after being full of gas.

The outer surface of the first air charging sleeve 4 is fixedly provided with N housings 5 which are distributed in an annular array, in the embodiment, the number of the housings 5 is odd and three, the housings 5 are hollow, the bottoms of the housings penetrate through the housings and are slidably provided with sliding assemblies 6, the interiors of the three housings 5 are jointly provided with supporting assemblies 3 which are detachably connected with the driving assemblies 2, the supporting assemblies 3 are fixedly connected with the sliding assemblies 6 in each housing 5, each sliding assembly 6 comprises a square 602 and an air outlet 606 which is formed in the bottom of the square 602, the bottoms of the square 602 which are positioned at two sides are respectively provided with a placing groove 10, the interiors of the placing grooves 10 are slidably provided with a traction assembly 7 which is fixedly connected with the middle housing 5, the traction assembly 7 is used for blocking the air outlet 606 on the corresponding square 602, so that the air outlet 606 is in a small air outlet amount, and the air outlet 606 is completely exposed after the traction assembly 7 moves, and the air outlet amount is increased; that is, the number of the blocks 602 provided with the placing grooves 10 is N-1, so that the traction assemblies 7 are also corresponding to N-1, the corresponding traction assemblies 7 are sequentially and fixedly connected with the adjacent blocks 602, and the connection direction faces the blocks 602 without the placing grooves 10 until the blocks 602 without the placing grooves 10 are connected.

In the present embodiment, it is preferable that: when the air-film building device is used, the first air-filling sleeve 4 and the supporting component 3 are fixedly connected with the driving component 2, then the driving component 2 is used for filling air into the first air-filling sleeve 4 and the supporting component 3, and at the moment, the traction component 7 blocks a part of the air outlet 606 to enable the air outlet to be smaller, so that the driving component 2 can firstly enable the first air-filling sleeve 4 to be filled with air and be molded, and the space between any positions of the molded first air-filling sleeve 4 and the air-film building body 12 is equal, and the shell 5 is supported; when the first air-filling sleeve 4 is formed and the shell 5 is spread, the shell 5 drives the square 602 to move synchronously, the square 602 drives the traction assembly 7 to slide along the corresponding placing groove 10, so that the air outlet 606 is exposed, at the same time, the driving assembly 2 keeps air supply, so that the first air-filling sleeve 4 keeps unchanged in a forming state and continues to supply air to the supporting assembly 3 stably, and the supporting assembly 3 conveys air to the sliding assembly 6 and discharges the air through the air outlet 606 at the bottom of the square 602, and simultaneously, the sliding assembly 6 starts to rotate; and the driving assembly 2 drives the first air charging sleeve 4 and the supporting assembly 3 to move along the air film building body 12, the first air charging sleeve 4 drives the shell 5, the sliding assembly 6, the supporting assembly 3 and the traction assembly 7 to synchronously move, and the snow removing work of the surface of the air film building body 12 is completed along with the rotation of the sliding assembly 6 and the continuous air outlet of the air outlet 606.

Through the cooperation of the structures of the first inflating sleeve 4, the sliding component 6, the supporting component 3, the traction component 7 and the like, the first inflating sleeve 4 can be formed to be matched with the air film building body 12, the sliding component 6 can rotate and the air outlet 606 can continuously exhaust, and therefore the sliding component 6 can realize rapid snow removal when moving along the air film building body 12; simultaneously, under the action of the supporting component 3, the rotating sliding component 6 can be in stable contact with the surface of the air film building body 12, so that snow on the surface of the air film building body 12 can be completely removed, the effect is better when the air film building body is suitable for the air film building body 12 with the concave on the surface, and snow in the concave can be removed together; the air outlet 606 for continuously exhausting is arranged at the bottom of the square 602, is opposite to the air film building body 12 and can move along the air film building body 12, so that the snow cleaning effect can be achieved, and the snow cleaning effect is further improved; the first inflatable sleeve 4, the supporting component 3 and the driving component 2 are detachably connected, after the usage is finished, the gas is discharged, the first inflatable sleeve 4 and the shell 5 can be folded, a large amount of space is saved, the portable type inflatable cushion is convenient to use, the environment is protected, energy is saved, and the practicability is higher.

Embodiment two:

referring to fig. 1 to 9, on the basis of the first embodiment, the driving assembly 2 includes air cylinders 201 fixedly mounted on two bases 1, air guide blocks 202 detachably connected to the first air-filling sleeve 4 and the supporting assembly 3 are fixedly mounted on movable ends of the two air cylinders 201, two ends of the first air-filling sleeve 4 are respectively connected to the two air guide blocks 202, an air pump 203 is connected to a surface of one air guide block 202 for supplying air to the air guide block 202, and the air guide block 202 can supply air to the first air-filling sleeve 4 and the supporting assembly 3.

The support assembly 3 comprises a first hose 301 detachably connected with the air guide blocks 202, two ends of the first hose 301 are respectively communicated with the two air guide blocks 202, top plates 302 with the same number as the shells 5 are fixedly arranged on the upper surface of the first hose 301, the top plates 302 are positioned in the corresponding shells 5, a first spring 303 is fixedly arranged between the top plates 302 and the inner top wall of the shells 5, the top plates 302 drive the first hose 301 to move downwards along the shells 5 under the action of the first spring 303, and in an initial state, the cover plate 702 is in a state of blocking the air outlets 606; the surface fixed mounting of roof 302 has the branch 304 with slip subassembly 6 fixed connection for the roof 302 still can drive slip subassembly 6 synchronous motion when moving, and the lower surface fixed mounting of first hose 301 has the connecting pipe 305 that is linked together with slip subassembly 6, makes first hose 301, connecting pipe 305 and slip subassembly 6 can carry out the gas circulation, and connecting pipe 305 can be the stereoplasm also can be soft in this embodiment.

The sliding assembly 6 comprises a sliding block 601 penetrating through the shell 5 and slidably connected with the shell 5, and the sliding block 601 can slide up and down relative to the shell 5; the bottom of the sliding block 601 is fixedly connected with the block 602, a round cavity communicated with the air outlet 606 is formed in the block 602, an air inlet 605 communicated with the round cavity and the connecting pipe 305 is formed in the block 602 and the sliding block 601 together, so that the connecting pipe 305, the air inlet 605, the round cavity and the air outlet 606 can be in air circulation, a short rod 603 is rotatably arranged in the center of the round cavity, a fan blade 604 is fixedly arranged on the outer surface of the short rod 603, and when air enters from the air inlet 605 and flows out from the air outlet 606, the fan blade 604 can be driven to rotate, and the short rod 603 is driven to rotate; the end part of the short rod 603 far away from the fan blade 604 is fixedly provided with a bracket 607, in the embodiment, the bracket 607 is arranged at the front side of the square 602, of course, the bracket 607 and the short rod 603 can also be arranged at the rear side of the square 602, and the effect of blowing snow in advance is achieved when the bracket 603 is arranged at the front side, the accumulation before snow removal is reduced, the effect of subsequent snow removal is achieved when the bracket 603 is arranged at the rear side, the residue after snow removal is reduced, and the snow removal effect can be ensured; the support 607 is provided with a plurality of tip, and every tip all fixed mounting has cleaning piece 608, in this embodiment, cleaning piece 608 is scraper blade and brush, scraper blade and brush are the interval setting, every tip of support 607 all movable mounting with the ball 609 of scraper blade size looks adaptation, under the effect of first spring 303, roof 302 drives slider 601 through branch 304 and descends, and then make ball 609 and the surface of air film building body 12 can remain the contact throughout, the distance that the protruding support 607 of ball 609 and the distance that the protruding support 607 of scraper blade are equal, and be less than the distance that the protruding support 607 of brush for the brush can sweep snow work after the scraper blade scraped snow.

The traction assembly 7 comprises a cover plate 702 which is in sliding fit with the placing groove 10 and blocks the corresponding air outlet 606, a second spring 703 is fixedly arranged between the cover plate 702 and the placing groove 10, and the cover plate 702 always has a trend of moving towards the corresponding air outlet 606 under the action of the second spring 703; the surface of the cover plate 702 is fixedly provided with a pull rope 701 fixedly connected with the corresponding square 602, when the pull rope 701 is tensioned, the movement of the cover plate 702 can be realized, and the air outlet 606 is changed from a blocking state to an exposing state along with the movement of the cover plate 702, so that the change of air outlet quantity is realized.

In the present embodiment, it is preferable that: when the air pump is used, the first air charging sleeve 4 and the first hose 301 are fixedly connected with the two air guide blocks 202, then the air pump 203 is started to charge the first air charging sleeve 4 and the first hose 301 through the air guide blocks 202, because the cover plate 702 shields part of the air outlet 606 so that the air outlet is smaller, the air conveyed by the air guide blocks 202 can firstly enable the first air charging sleeve 4 to be fully inflated and support the shell 5, under the action of the first spring 303, the top plate 302 drives the sliding block 601 to move along the shell 5 towards the direction of the air film building body 12 through the supporting rod 304, the sliding block 601 drives the square block 602, the short rod 603, the support 607, the ball 609 and the cleaning piece 608 to synchronously move until the ball 609 contacts with the outer surface of the air film building body 12, when the ball 609 contacts with the outer surface of the air film building body 12, the scraping plate just contacts with the outer surface of the air film building body 12, and under the action of the first spring 303, the square block 602, the support 607 and the ball 609 always have a trend of moving towards the air film building body 12.

When the first air-filling sleeve 4 is formed and the shell 5 is spread, the shell 5 drives the sliding block 601 and the square 602 to synchronously move, the square 602 tightens the pull rope 701 and drives the cover plate 702 to slide along the corresponding placing groove 10, the cover plate 702 presses the second spring 703 and exposes the air outlet 606, so that the air outlet is increased, the first air-filling sleeve 4 keeps a formed state unchanged along with continuous air supply of the air pump 203, air is discharged to the first hose 301, the first hose 301 discharges the air through the connecting pipe 305, the air inlet 605, the circular cavity and the air outlet 606, and when the air is discharged from the air outlet 606 at the bottom of the square 602 through the circular cavity, the fan blade 604 and the short rod 603 can be driven to rotate, and then the bracket 607, the hairbrush, the scraping plate and the ball 609 are driven to synchronously rotate; at this time, the air guide block 202, the first air-filling sleeve 4, the housing 5 and the first hose 301 are driven by the air-starting cylinder 201 to move along the air film building body 12, the top plate 302 and the short rod 603 are driven by the first hose 301 to keep synchronous with the housing 5, the slide block 601, the square 602, the bracket 607, the brush, the scraper blade and the ball 609 are driven by the housing 5 to move synchronously, and the snow removing work of the surface of the air film building body 12 is completed along with the rotation of the brush and the scraper blade and the continuous air outlet of the bottom air outlet 606.

Through the cooperation of the structures of the first air charging sleeve 4, the air outlet 606, the cover plate 702, the square 602 and the like, the first air charging sleeve 4 can be formed to be matched with the air film building body 12, the rotation of the hairbrush and the scraping plate and the continuous exhaust of the air outlet 606 are realized, and then the hairbrush and the scraping plate can realize rapid snow removal when moving along the air film building body 12, and the snow removal effect is good; under the cooperation of the first spring 303, the top plate 302, the supporting rod 304 and the sliding block 601, the rotating brush and the scraping plate can keep stable contact with the surface of the air film building body 12, so that snow on the surface of the air film building body 12 can be completely removed, and the bracket 607, the scraping plate, the brush and the rolling balls 609 always have a trend of moving towards the air film building body 12 because of the first spring 303, so that the effect is better when the air film building body with the concave surface is suitable for the air film building body 12, and the rolling balls 609 can relatively descend to correspond to the concave position, so that the scraping plate and the brush can remove snow in the concave; meanwhile, an air outlet 606 for continuously exhausting air is arranged at the bottom of the square 602, corresponds to the position of the air film building body 12 and can move along the air film building body 12, so that the snow cleaning effect can be achieved, and the snow cleaning effect is further improved; the first inflatable sleeve 4, the first hose 301 and the air guide block 202 are detachably connected, after the use is finished, the air is discharged, the first inflatable sleeve 4 and the first hose 301 can be taken down and correspondingly folded, a large amount of space is saved, the air guide block is convenient to use, more environment-friendly and energy-saving, and more requirements in actual use are met.

Embodiment III:

referring to fig. 1 to 10, on the basis of the second embodiment, an arc groove 9 is formed in the bottom of the housing 5 in a penetrating manner, the sliding block 601 is an i-shaped sliding block 601, the i-shaped sliding block 601 is slidably mounted in the arc groove 9, and the length of the i-shaped sliding block 601 is larger, i.e. the i-shaped sliding block 601 can slide along the arc groove 9 and also can slide up and down relative to the arc groove 9, and meanwhile, the i-shaped sliding block 601 cannot fall off from the arc groove 9; the connecting tube 305 is a flexible tube providing the possibility for the i-shaped slide to slide along the arcuate slot 9.

Be provided with synchronization assembly 8 jointly between N shells 5, synchronization assembly 8 includes N-1 horizontal pole 802, horizontal pole 802 is U-shaped design and sets up between two adjacent shells 5, pass corresponding horizontal pole 802 and rather than adjacent square 602 fixed connection after the stay cord 701 is drawn forth from apron 702, the surperficial fixed mounting of one of them base 1 has the wave lug 11 with the synchronous assembly 8 activity laminating of marginal horizontal pole 802, when cylinder 201 drives air guide block 202 and removes, air guide block 202 drives first inflation cover 4, shell 5 and synchronization assembly 8 and removes for synchronization assembly 8 and wave lug 11 cooperation motion.

The synchronization assembly 8 comprises N second inflatable sleeves 801, the second inflatable sleeves 801 are the same as the first inflatable sleeves 4 in material, in this embodiment, one end of the rightmost second inflatable sleeve 801 is fixedly connected with the rightmost i-shaped slide block 601, the other end of the second inflatable sleeve 801 is arc-shaped and movably attached to the wave bump 11, two ends of the remaining second inflatable sleeves 801 (i.e., N-1 second inflatable sleeves) are fixedly connected with the surfaces of the two adjacent i-shaped slide blocks 601 respectively, a cross rod 802 is fixedly installed on the outer surface of the corresponding second inflatable sleeve 801, and the N second inflatable sleeves 801 are all communicated with the first inflatable sleeve 4 through a second hose 803; in this embodiment, in order to limit the movement direction of the second inflatable sleeve 801 attached to the wave bump 11, so that it can stably drive the rightmost slide to move, an orientation sleeve may be further disposed, and the orientation sleeve may be fixedly connected with the air guide block 202.

In the present embodiment, it is preferable that: when the air pump 203 and the air guide block 202 are used, the first air-filling sleeve 4 is filled with air and is molded, the shell 5 is supported, the first air-filling sleeve 4 also conveys a part of air to the second air-filling sleeve 801 through the second hose 803, the second air-filling sleeve 801 is molded to support the cross rod 802, the second air-filling sleeve 801 also plays a role of positioning the sliding block 601 and the square block 602 after being molded, and when the first air-filling sleeve 4 and the second air-filling sleeve 801 are molded, the balls 609, the scraping plates and the hairbrushes are contacted with the outer surface of the air film building body 12 under the action of the first spring 303 and have a trend of moving towards the air film building body 12. After the first inflatable sleeve 4 and the second inflatable sleeve 801 are formed, the pull rope 701 is tensioned and drives the cover plate 702 to slide along the corresponding placing groove 10 through the cooperation of the structures such as the sliding block 601, the square block 602, the pull rope 701 and the cross rod 802, so that the air outlet 606 is exposed to increase the air outlet amount, and the air is discharged through the first hose 301, the connecting pipe 305, the air inlet 605, the circular cavity and the air outlet 606, so that the fan blade 604, the short rod 603, the bracket 607, the brush, the scraping plate and the ball 609 rotate.

At this time, the starting cylinder 201 drives the first air-filling sleeve 4, the shell 5, the sliding block 601, the first hose 301 and the second air-filling sleeve 801 to move along the air film building body 12, the rightmost second air-filling sleeve 801 is movably attached to the wave convex block 11, and then in the moving process, the I-shaped sliding block 601 can be driven to slide reciprocally along the arc-shaped groove 9 in cooperation with the forming of the second air-filling sleeve 801, and because the connecting pipe 305 is a telescopic hose, even when the I-shaped sliding block 601 slides reciprocally, the air supply of the air inlet 605 in the I-shaped sliding block is still continuous, namely, the brush, the scraping plate and the ball 609 can still keep continuously rotating, and the snow removing work of the surface of the air film building body 12 is completed along with the rotation of the brush, the rotation of the scraping plate and the continuous air outlet of the bottom air outlet 606.

In the second embodiment, after the housing 5 is supported by the first air-filling sleeve 4, the pull rope 701 can be tensioned by the block 602, so as to change the air output of the air outlet 606, but the pull rope 701 can be extruded with the outer surface of the air film building body 12 after being tensioned, so as to affect the air film building body 12, and meanwhile, the positions of the bracket 607, the brush and the scraper are fixed, so that the overall cleaning effect of the air film building body is still to be improved, and a certain use limitation exists. Compared with the second embodiment, through the cooperation of the structures such as the second inflatable sleeve 801, the wave bump 11, the sliding block 601 and the cross rod 802, the cross rod 802 is positioned after the second inflatable sleeve 801 is molded, so that the guiding effect on the pull rope 701 can be realized, the pull rope 701 can not contact with the air film building body 12 even after being tensioned, and the stable use of the air film building body 12 can be ensured; meanwhile, when the cylinder 201 drives to move, the second air-filling sleeve 801 can also drive the I-shaped sliding block 601 to slide left and right along the arc-shaped groove 9, and the direct cleaning range of the brush and the scraping plate can be greatly increased along with the continuous rotation of the brush, the scraping plate and the ball 609, so that the direct contact sweeping of snow in a larger range is realized, and the overall snow removing effect can be further improved; meanwhile, the second air-filling sleeve 801 and the second hose 803 are arranged, so that the air-filling sleeve can be better linked with the first air-filling sleeve 4 and air, the air is discharged after the air-filling sleeve is used, the later folding storage cannot be influenced, the whole air-filling sleeve is convenient to use, and the applicability is stronger.

The working principle of the invention is as follows: when the novel air-filling device is used, the first air-filling sleeve 4 and the first hose 301 are fixedly connected with the two air guide blocks 202, then the air pump 203 is started to fill air into the first air-filling sleeve 4 and the first hose 301 through the air guide blocks 202, and the cover plate 702 blocks part of the air outlet 606 to enable the air outlet to be smaller, so that the first air-filling sleeve 4 is firstly filled with air for forming and the shell 5 is supported, the first air-filling sleeve 4 also conveys part of air into the second air-filling sleeve 801 through the second hose 803, the second air-filling sleeve 801 is formed, the cross rod 802 is supported, and the limit of the sliding block 601 is realized; under the action of the first spring 303, the top plate 302 is driven to cooperate through structures such as the supporting rod 304, the sliding block 601, the square block 602 and the short rod 603, and the like, so that the hairbrush, the scraping plate and the ball 609 are driven to move along the shell 5 until the hairbrush, the scraping plate and the ball 609 are in contact with the outer surface of the air film building body 12, and under the action of the first spring 303, the hairbrush, the scraping plate and the ball 609 always have a trend of moving towards the air film building body 12.

After the first air-filling sleeve 4 and the second air-filling sleeve 801 are molded, the pull rope 701 is tensioned and drives the cover plate 702 to slide along the corresponding placing groove 10 through the cooperation of structures such as the sliding block 601, the square block 602, the pull rope 701 and the cross rod 802, so that the air outlet 606 is exposed to increase the air outlet amount, the air is discharged through the first hose 301, the connecting pipe 305, the air inlet 605, the circular cavity and the air outlet 606, and then the fan blade 604, the short rod 603, the bracket 607, the brush, the scraping plate and the ball 609 rotate; at this time, the starting cylinder 201 drives the brush, the scraping plate and the ball 609 to keep rotating and move along the air film building body 12, and through the cooperation of the structures such as the second inflating sleeve 801, the wave convex block 11, the connecting rod and the sliding block 601, the brush, the scraping plate and the ball 609 can be driven to rotate in a protection manner and slide reciprocally along the arc-shaped groove 9, so that the direct cleaning range of the brush and the scraping plate can be greatly increased, the direct contact sweeping of snow in a larger range is realized, and the snow removing work on the surface of the air film building body 12 is more effectively completed.

Claims (8)

1. The environment-friendly energy-saving air film building comprises an air film building body, and is characterized in that bases are fixedly arranged on two sides of the air film building body, a driving assembly is arranged on the two bases together, and a first air charging sleeve is detachably connected to the driving assembly;

the outer surface of the first air charging sleeve is fixedly provided with N shells which are distributed in an annular array, the surfaces of the shells penetrate through and are slidably provided with sliding components, the insides of the N shells are jointly provided with supporting components which are detachably connected with the driving components and fixedly connected with each sliding component, each sliding component comprises a square and an air outlet formed in the bottom of the square, a placing groove is formed in the bottom of each N-1 square, a traction component used for blocking the corresponding air outlet is slidably arranged in each placing groove, and a plurality of traction components are sequentially and fixedly connected with the adjacent square until the traction components are fixedly connected with the square which is not provided with the placing groove;

the driving assembly comprises air cylinders fixedly arranged on the two bases, the movable ends of the two air cylinders are fixedly provided with air guide blocks which are detachably connected with the first air charging sleeve and the supporting assembly, and the surface of one air guide block is communicated with an air pump;

the support assembly comprises first hoses detachably connected with the driving assembly, top plates equal to the shells in number are fixedly arranged on the surfaces of the first hoses, first springs are fixedly arranged between the top plates and the corresponding shells, supporting rods fixedly connected with the sliding assembly are fixedly arranged on the surfaces of the top plates, and connecting pipes communicated with the sliding assembly are fixedly arranged on the surfaces of the first hoses.

2. The environment-friendly energy-saving air film building according to claim 1, wherein the traction assembly comprises a cover plate which is in sliding fit with the placement groove and used for blocking the corresponding air outlet, a second spring is fixedly arranged between the cover plate and the placement groove, and a pull rope fixedly connected with the corresponding square is fixedly arranged on the surface of the cover plate.

3. The environment-friendly energy-saving air film building according to claim 1, wherein the sliding component comprises a sliding block which is in sliding connection with the shell and is fixedly connected with the square block, a round cavity communicated with the air outlet is formed in the square block, an air inlet communicated with the round cavity and the connecting pipe is formed in the square block and the sliding block together, a short rod is rotatably mounted in the round cavity, a fan blade is fixedly mounted on the outer surface of the short rod, a bracket is fixedly mounted at the end part of the short rod, far away from the fan blade, a plurality of end parts are arranged on the bracket, and cleaning pieces are fixedly mounted at each end part and balls are movably mounted at each end part.

4. The environmental protection and energy saving air film building according to claim 3, wherein the cleaning elements are scraping plates and brushes arranged at intervals, and the size of the scraping plates is matched with the size of the balls and is smaller than that of the brushes.

5. The environmentally friendly energy efficient air film building of claim 3 or 4 wherein said bracket is disposed on either the front or rear side of the square.

6. The environmentally friendly and energy-saving air film building according to claim 5, wherein the N shells are provided with synchronizing assemblies together, the synchronizing assemblies comprise N-1 cross bars, the cross bars are arranged between two adjacent shells and are penetrated by corresponding traction assemblies, and the surface of one base is fixedly provided with wave protrusions movably attached to the synchronizing assemblies.

7. The environment-friendly energy-saving air film building according to claim 6, wherein an arc-shaped groove for sliding of the sliding block is formed in the bottom of the shell in a penetrating manner, and the connecting pipe is a telescopic hose.

8. The environmentally friendly energy efficient air film building of claim 6 wherein said slider is configured as an i-shaped slider.

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