CN114249168A - Anti-adhesion folding collecting device for inflatable slide - Google Patents

Abstract

The invention relates to the field of plastics, in particular to an anti-adhesion folding and collecting device for an inflatable slide. The technical implementation problem is as follows: because the material of inflatable slide is soft, appear surface fold and partial surface coincidence easily for local not scribbling when artificial scattering talcum powder, thereby lead to local bonding, use the local damage and fold because of the bonding firmly to produce at the secondary. The technical scheme is as follows: an anti-adhesion folding and collecting device of an inflatable slide comprises wheels, a bottom plate, a spreading mechanism and the like; the upper parts of the five wheels are provided with a bottom plate; the right part of the bottom plate is provided with a strutting mechanism for strutting the inflatable slide. The folding device realizes the folding of the inflatable slide, talcum powder can be sprayed at the joint of the inflatable slide while the inflatable slide is folded, the storage is convenient, the inflatable slide is prevented from being bonded together during the storage, the secondary use is convenient and fast, and the operation of the device is simple.

Description

Anti-adhesion folding collecting device for inflatable slide

Technical Field

The invention relates to the field of plastics, in particular to an anti-adhesion folding and collecting device for an inflatable slide.

Background

The mobile water park equipment needs to be reused in the next year, therefore, some stains on the equipment need to be cleaned, then, the dried talcum powder which is scattered is aired and dried to be stored, the wet equipment is easy to mildew and smell, the talcum powder plays a role in preventing adhesion and preventing moisture, and the talcum powder can be wiped off in the next year.

In summary, there is a need for an anti-adhesion folding collecting device for an inflatable slide to overcome the above problems.

Disclosure of Invention

The invention provides an anti-adhesion folding and collecting device for an inflatable slide, aiming at overcoming the defects that due to the fact that the inflatable slide is soft in material, surface wrinkles and partial surface coincidence are easy to occur, when talcum powder is manually scattered, partial bonding is caused due to the fact that partial talcum powder is not coated, and damage and wrinkles are generated due to the fact that bonding is firm in secondary use and partial talcum powder is used.

The technical implementation scheme of the invention is as follows: an anti-adhesion folding and collecting device of an inflatable slide comprises wheels, a bottom plate, a spreading mechanism, a folding mechanism and a supporting seat; the upper parts of the five wheels are provided with a bottom plate; a stretching mechanism for stretching the inflatable slide is arranged at the right part of the bottom plate; the left part of the bottom plate is provided with a folding mechanism for folding the inflatable slide, and the left part of the bottom plate is provided with a supporting seat; the supporting seat is positioned in front of the folding mechanism.

Optionally, the opening mechanism comprises a first connecting plate, a first slide rail, a first slide block, a first bearing seat, a slide bar, a powder sprayer and an opening assembly; the right part of the bottom plate is fixedly connected with three first connecting plates; the upper parts of the three first connecting plates are fixedly connected with a first sliding rail; the first sliding rail is connected with a first sliding block in a sliding manner; the upper part of the first sliding block is fixedly connected with a first bearing seat; the upper part of the first bearing seat is fixedly connected with a sliding rod; the middle part of the sliding rod is connected with a powder sprayer in a sliding way; the slide bar is connected with two spreading assemblies which are symmetrically distributed left and right in a sliding way; the powder sprayer is positioned between the two spreading assemblies.

Optionally, the right opening assembly comprises a first electric rotating shaft, a second bearing seat, a second connecting plate, a first U-shaped plate, a first T-shaped plate, a first missing gear, an extrusion block, a third bearing seat, a third connecting plate, a second U-shaped plate, a second T-shaped plate, a second missing gear, a fourth connecting plate and a first air bag; the sliding rod is connected with a first electric rotating shaft in a sliding manner; the left part of the first electric rotating shaft is fixedly connected with three second bearing seats in an annular array; the three second bearing seats are respectively and movably connected with a second connecting plate; the left parts of the three second connecting plates are fixedly connected with a first U-shaped plate respectively; the three first U-shaped plates are respectively connected with a first T-shaped plate in a rotating way through a rotating shaft; the upper parts of the three first T-shaped plates are fixedly connected with a first gear lack respectively; the sliding rod is fixedly connected with an extrusion block; the extrusion block is positioned at the left of the first electric rotating shaft; the outer surface of the extrusion block is fixedly connected with three third bearing seats in annular array; the three third bearing seats are respectively and movably connected with a third connecting plate; the right parts of the three third connecting plates are fixedly connected with a second U-shaped plate respectively; the three second U-shaped plates are respectively connected with a second T-shaped plate in a rotating way through a rotating shaft; the upper parts of the three second T-shaped plates are fixedly connected with second gear-lacking wheels; the three second missing gears are meshed with the three first missing gears; two fourth connecting plates are rotatably connected to rotating shafts of the three first T-shaped plates respectively, two fourth connecting plate sliding rods are rotatably connected between the adjacent first U-shaped plates and the adjacent second U-shaped plates, first air bags are connected to the first connecting plate sliding rods, and the first air bags are located between the first electric rotating shafts and the extrusion blocks; the left part of the first air bag is fixedly connected to the sliding rod, and the right part of the first air bag slides on the sliding rod; the first air bag is connected with the powder sprayer through an external air pipe.

Optionally, the folding mechanism comprises a third U-shaped plate, a second slide rail, a second slide block, a bracket, a seventh connecting plate, a nozzle and a folding assembly; the left rear part of the bottom plate is fixedly connected with a third U-shaped plate; two second slide rails which are distributed symmetrically left and right are fixedly connected to the third U-shaped plate; the two second sliding rails are respectively connected with a second sliding block in a sliding manner; the opposite sides of the two second sliding blocks are fixedly connected with a bracket; two folding assemblies which are symmetrically distributed left and right are arranged at the upper part of the bracket; the opposite sides of the two folding assemblies are connected with a seventh connecting plate; the front part of the seventh connecting plate is fixedly connected with a plurality of nozzles.

Optionally, the folding assembly on the right comprises a limiting clamping block, a fifth connecting plate, a first rack, a sixth connecting plate, a first gear, a second electric rotating shaft, a connecting frame, a second rack, an electric clamp, a fourth bearing seat, a second gear, a fifth bearing seat and a second air bag; the upper part of the bracket is fixedly connected with two limiting clamping blocks which are symmetrically distributed front and back; the lower parts of the two limiting clamping blocks are connected with a fifth connecting plate in a sliding manner; the upper part of the fifth connecting plate is fixedly connected with a first rack; the opposite sides of the two limiting clamping blocks are fixedly connected with two sixth connecting plates which are symmetrically distributed left and right; a first gear is rotatably connected between the two sixth connecting plates through a rotating shaft; the left part of the sixth connecting plate on the left side is fixedly connected with a second electric rotating shaft; an output shaft of the second electric rotating shaft is fixedly connected with a rotating shaft connected with the first gear; the first gear is meshed with the first rack; the upper parts of the two limiting clamping blocks are connected with a connecting frame in a sliding manner; the lower part of the connecting frame is fixedly connected with a second rack; the second rack is meshed with the first gear; the front part of the connecting frame is fixedly connected with an electric clamp; the middle part of the fifth connecting plate is fixedly connected with two fourth bearing seats which are symmetrically distributed left and right; a second gear is rotatably connected between the two fourth bearing seats through a rotating shaft; the second gear is meshed with the first rack; the second gear is meshed with the second rack; the front part of the fifth connecting plate is rotatably connected with a fifth bearing seat through a rotating shaft; the front part of the fifth bearing seat is fixedly connected with a second air bag; and the fourth bearing seat is fixedly connected with a seventh connecting plate of a rotating shaft connected with the second gear.

Optionally, the second bladder is adapted to engage a surface of the inflatable slide to avoid damage to the inflatable slide.

Optionally, the first air bag is connected with the powder sprayer through an air pipe.

Optionally, the device further comprises a turnover mechanism; the left part of the bottom plate is provided with a turnover mechanism which is positioned in front of the third U-shaped plate; the turnover mechanism comprises an eighth connecting plate, a sixth bearing seat, a ninth connecting plate, a tenth connecting plate, a first arc-shaped plate, a seventh bearing seat, a third electric rotating shaft, an electric push rod, an eighth bearing seat, an eleventh connecting plate, a second arc-shaped plate, a rolling ball and a fourth electric rotating shaft; the left part of the bottom plate is fixedly connected with four eighth connecting plates which are symmetrical in pairs; the left part of the bottom plate is fixedly connected with two sixth bearing seats which are symmetrically distributed left and right; the two sixth bearing seats are positioned between the four eighth connecting plates; the upper parts of the two eighth connecting plates in front are fixedly connected with a ninth connecting plate; the upper parts of the two sixth bearing seats are rotatably connected with a ninth connecting plate through a rotating shaft; the upper part of the left side surface of the sixth bearing seat on the left side is fixedly connected with a fourth electric rotating shaft; an output shaft of the fourth electric rotating shaft is fixedly connected with a rotating shaft connected with the sixth bearing seat and the ninth connecting plate; the rear part of the ninth connecting plate is rotatably connected with a tenth connecting plate through a rotating shaft; the tenth connecting plate is placed on the two eighth connecting plates at the rear part; the rear part of the tenth connecting plate is rotatably connected with a first arc-shaped plate through a rotating shaft; the front part of the upper surface of the ninth connecting plate is fixedly connected with two seventh bearing seats which are symmetrically distributed left and right; the upper parts of the two seventh bearing seats are connected with a third electric rotating shaft; the output shaft of the third electric rotating shaft is fixedly connected with two electric push rods which are symmetrically distributed left and right; the telescopic ends of the two electric push rods are respectively and fixedly connected with an eighth bearing seat; the two eighth bearing seats are respectively and rotatably connected with an eleventh connecting plate through rotating shafts; the rear parts of the two eleventh connecting plates are fixedly connected with a second arc-shaped plate; the lower part of the second arc-shaped plate is rotationally connected with a plurality of rolling balls distributed at equal intervals through a rotating shaft.

Optionally, the first arc-shaped plate is of an arc-shaped structure and used for receiving the talcum powder falling from the surface of the inflatable slide, so that waste of the talcum powder is avoided.

Optionally, the second arc is provided with a plurality of groups of grooves on the arc surface for guiding the talcum powder to be uniformly coated on the inflatable slide.

Compared with the prior art, the invention has the following advantages: the folding of the inflatable slide is realized, the talcum powder can be sprayed at the joint of the inflatable slide while the inflatable slide is folded, the storage is convenient, the inflatable slide is prevented from being bonded together during the storage, the secondary use is convenient and fast, and the device is simple to operate;

in the present invention: the expanding mechanism is arranged, so that the inner wall of the inflatable slide is firstly expanded, the folds and the overlapped parts can be stretched while the inner wall of the inflatable slide is expanded, and then the talcum powder is sprayed on the inner wall of the inflatable slide;

in the present invention: by arranging the folding mechanism, the talcum powder is sprayed on the folded surface of the inflatable slide before folding, and then the inflatable slide is folded;

in the present invention: through having set up and turning over a mechanism, realized aerifing the folding of slide, avoided the waste of talcum powder simultaneously, adopted the mode of guide to paint the talcum powder evenly on aerifing the surface of slide.

Drawings

FIG. 1 is a schematic view of a first three-dimensional structure of an anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 2 is a schematic view of a second three-dimensional structure of the anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 3 is a schematic view of a partial structure of the anti-adhesion folding and collecting device of the inflatable slide of the present invention;

FIG. 4 is a schematic structural view of the expanding mechanism of the anti-adhesion folding and collecting device of the inflatable slide of the present invention;

FIG. 5 is a schematic view of a partial structure of a spreading mechanism of the anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 6 is an enlarged view of the area A of the inflatable slide anti-adhesion folding and collecting device of the invention;

FIG. 7 is a first schematic structural view of a folding mechanism of the anti-adhesion folding and collecting device for an inflatable slide according to the invention;

FIG. 8 is a second schematic view of the folding mechanism of the anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 9 is a schematic view of a partial structure of the folding mechanism of the anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 10 is a schematic view of a first structure of the folding mechanism of the anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 11 is a schematic view of a second structure of the folding mechanism of the anti-adhesion folding and collecting device for an inflatable slide according to the present invention;

FIG. 12 is a schematic view of one of the inflatable slides being processed according to the present invention;

FIG. 13 is a schematic illustration of the present invention in a folded-in-half process.

The parts are labeled as follows: 1-wheel, 2-bottom plate, 3-spreading mechanism, 4-folding mechanism, 5-support seat, 6-folding mechanism, 301-first connecting plate, 302-first slide rail, 303-first slide block, 304-first bearing seat, 305-slide bar, 306-first electric rotating shaft, 307-second bearing seat, 308-second connecting plate, 309-first U-shaped plate, 3010-first T-shaped plate, 3011-first lacking gear, 3012-extruding block, 3013-third bearing seat, 3014-third connecting plate, 3015-second U-shaped plate, 3016-second T-shaped plate, 3017-second lacking gear, 3018-fourth connecting plate, 3019-first air bag, 3020-powder sprayer, 401-third U-shaped plate, 402-second slide rail, 403-a second sliding block, 404-a bracket, 405-a limiting clamping block, 406-a fifth connecting plate, 407-a first rack, 408-a sixth connecting plate, 409-a first gear, 4010-a second electric rotating shaft, 4011-a connecting frame, 4012-a second rack, 4013-an electric clamp, 4014-a fourth bearing seat, 4015-a second gear, 4016-a fifth bearing seat, 4017-a second air bag, 4018-a seventh connecting plate, 4019-a nozzle, 601-an eighth connecting plate, 602-a sixth bearing seat, 603-a ninth connecting plate, 604-a tenth connecting plate, 605-a first arc-shaped plate, 606-a seventh bearing seat, 607-a third electric rotating shaft, 608-an electric push rod, 609-an eighth bearing seat, 6010-an eleventh connecting plate, 6011-a second arc-shaped plate, 6012-crush ball, 6013-fourth motorized spindle.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

An anti-adhesion folding and collecting device of an inflatable slide is shown in figures 1-9 and comprises wheels 1, a bottom plate 2, a spreading mechanism 3, a folding mechanism 4 and a supporting seat 5; the upper parts of the five wheels 1 are provided with a bottom plate 2; the right part of the bottom plate 2 is provided with a spreading mechanism 3; the left part of the bottom plate 2 is provided with a folding mechanism 4, and the left part of the bottom plate 2 is provided with a supporting seat 5; the support base 5 is located in front of the folding mechanism 4.

Firstly, a worker moves the anti-adhesion folding and collecting device of the inflatable slide to a place needing to be used through the wheels 1, then an external power supply is electrified to operate, then the worker places the inflatable slide on the bottom plate 2, the inflatable slide is positioned at the left side of the opening mechanism 3 and in front of the folding mechanism 4, and the inflatable slide is positioned at the right side of the supporting seat 5; then controlling the spreading mechanism 3 to spread the inner wall of the inflatable slide and spraying powder to the inside of the inflatable slide; then the folding mechanism 4 is controlled to clamp the inflatable slide and fold the inflatable slide, the talcum powder is sprayed on the folded contact surface of the inflatable slide in the process, and then the talcum powder is sprayed on the surface of the inflatable slide; then, the inflatable slide is folded again, and finally the folded inflatable slide is stored in a warehouse; the folding device realizes folding of the inflatable slide, talcum powder can be sprayed on the joint of the inflatable slide while folding, storage is convenient, the inflatable slide is prevented from being bonded during storage, secondary use is convenient, and the folding device is simple to operate.

Example 2

On the basis of embodiment 1, as shown in fig. 1 to 9, the spreading mechanism 3 includes a first connecting plate 301, a first sliding rail 302, a first sliding block 303, a first bearing seat 304, a sliding rod 305, a powder sprayer 3020, and a spreading assembly; the right part of the bottom plate 2 is fixedly connected with three first connecting plates 301; the upper parts of the three first connecting plates 301 are fixedly connected with a first slide rail 302; a first sliding block 303 is connected to the first sliding rail 302 in a sliding manner; a first bearing seat 304 is fixedly connected to the upper part of the first sliding block 303; a sliding rod 305 is fixedly connected to the upper part of the first bearing seat 304; the middle part of the slide bar 305 is connected with a powder sprayer 3020 in a sliding way; the sliding rod 305 is connected with two stretching components which are symmetrically distributed left and right in a sliding way; the duster 3020 is located between the two spreader assemblies.

The right opening component comprises a first electric rotating shaft 306, a second bearing seat 307, a second connecting plate 308, a first U-shaped plate 309, a first T-shaped plate 3010, a first missing gear 3011, an extrusion block 3012, a third bearing seat 3013, a third connecting plate 3014, a second U-shaped plate 3015, a second T-shaped plate 3016, a second missing gear 3017, a fourth connecting plate 3018 and a first air bag 3019; the sliding rod 305 is connected with a first electric rotating shaft 306 in a sliding way; the left part of the first electric rotating shaft 306 is fixedly connected with three second bearing seats 307 in an annular array; the three second bearing seats 307 are hinged to a second connecting plate 308; the left parts of the three second connecting plates 308 are fixedly connected with a first U-shaped plate 309 respectively; the three first U-shaped plates 309 are respectively connected with a first T-shaped plate 3010 in a rotating way through a rotating shaft; the upper parts of the three first T-shaped plates 3010 are fixedly connected with a first missing gear 3011; the sliding rod 305 is fixedly connected with an extrusion block 3012; the extrusion block 3012 is located at the left of the first electric rotating shaft 306; the outer surface of the extrusion block 3012 is fixedly connected with three annular-array third bearing seats 3013; the three third bearing seats 3013 are respectively hinged with a third connecting plate 3014; the right parts of the three third connecting plates 3014 are fixedly connected with a second U-shaped plate 3015; the three second U-shaped plates 3015 are respectively connected with a second T-shaped plate 3016 through a rotating shaft; the upper parts of the three second T-shaped plates 3016 are fixedly connected with second missing gears 3017; the three second missing gears 3017 are meshed with the three first missing gears 3011; two fourth connecting plates 3018 are respectively connected on the rotating shafts of the three first T-shaped plates 3010 in a rotating mode, two fourth connecting plates 3018 are connected between the adjacent first U-shaped plates 309 and the adjacent second U-shaped plates 3015 in a rotating mode, a first air bag 3019 is connected on the sliding rod 305, and the first air bag 3019 is located between the first electric rotating shaft 306 and the extrusion block 3012; the left part of the first air bag 3019 is fixedly connected to the slide bar 305, and the right part slides on the slide bar 305; the first air bag 3019 is connected with the powder sprayer 3020 through an external air tube.

The folding mechanism 4 comprises a third U-shaped plate 401, a second slide rail 402, a second slide block 403, a bracket 404, a seventh connecting plate 4018, a nozzle 4019 and a folding assembly; a third U-shaped plate 401 is fixedly connected to the left rear part of the bottom plate 2; two second slide rails 402 which are distributed symmetrically left and right are fixedly connected to the third U-shaped plate 401; a second sliding block 403 is connected to each of the two second sliding rails 402; the opposite sides of the two second sliding blocks 403 are fixedly connected with a bracket 404; two folding assemblies which are symmetrically distributed left and right are arranged at the upper part of the bracket 404; the opposite sides of the two folding assemblies are connected with a seventh connecting plate 4018; a plurality of nozzles 4019 are fixedly connected to a front portion of the seventh connecting plate 4018.

The right folding component comprises a limit clamping block 405, a fifth connecting plate 406, a first rack 407, a sixth connecting plate 408, a first gear 409, a second electric rotating shaft 4010, a connecting frame 4011, a second rack 4012, an electric clamp 4013, a fourth bearing block 4014, a second gear 4015, a fifth bearing block 4016 and a second air bag 4017; the upper part of the bracket 404 is fixedly connected with two limiting clamping blocks 405 which are symmetrically distributed front and back; the lower parts of the two limiting clamping blocks 405 are connected with a fifth connecting plate 406 in a sliding manner; a first rack 407 is fixedly connected to the upper part of the fifth connecting plate 406; two sixth connecting plates 408 which are symmetrically distributed left and right are fixedly connected to opposite sides of the two limiting clamping blocks 405; a first gear 409 is rotatably connected between the two sixth connecting plates 408 through a rotating shaft; the left part of the sixth connecting plate 408 on the left side is fixedly connected with a second electric rotating shaft 4010; an output shaft of the second electric rotating shaft 4010 is fixedly connected with a rotating shaft connected with the first gear 409; the first gear 409 is meshed with the first rack 407; the upper parts of the two limiting clamping blocks 405 are connected with a connecting frame 4011 in a sliding manner; the lower part of the connecting frame 4011 is fixedly connected with a second rack 4012; the second rack 4012 is engaged with the first gear 409; the front part of the connecting frame 4011 is fixedly connected with an electric clamp 4013; the middle part of the fifth connecting plate 406 is fixedly connected with two fourth bearing seats 4014 which are symmetrically distributed left and right; a second gear 4015 is rotatably connected between the two fourth bearing seats 4014 through a rotating shaft; the second gear 4015 is engaged with the first rack 407; the second gear 4015 is engaged with the second rack 4012; the front part of the fifth connecting plate 406 is rotatably connected with a fifth bearing seat 4016 through a rotating shaft; the front part of the fifth bearing seat 4016 is fixedly connected with a second air bag 4017; and a rotating shaft connected with the fourth bearing seat 4014 and the second gear 4015 is fixedly connected with a seventh connecting plate 4018.

The second airbag 4017 is used to attach to the surface of the slide, avoiding damage to the slide.

The first air bag 3019 is connected with a powder sprayer 3020 through an air tube.

Firstly, a worker places an inflatable slide on a base plate 2, the inflatable slide is in a hollow triangular prism shape, then controls a first slide rail 302 to be electrified and operated to drive a first slide block 303 to slide leftwards, then the first slide block 303 drives a first bearing seat 304 to move leftwards, then the first bearing seat 304 drives a slide bar 305 to move leftwards, then the slide bar 305 drives two spreading components to move leftwards, and meanwhile the slide bar 305 drives a powder sprayer 3020 to slide leftwards until the left part of the slide bar 305 is close to and contacts a support seat 5; taking the right spreader assembly as an example, the first electric rotating shaft 306 is controlled to operate electrically, the first electric rotating shaft 306 moves leftwards on the sliding rod 305, the first electric rotating shaft 306 drives the three second bearing seats 307 to move leftwards, the three second bearing seats 307 drive the three second connecting plates 308 to move leftwards, the three second connecting plates 308 drive the three first U-shaped plates 309 to move leftwards, the three first U-shaped plates 309 drive the three first T-shaped plates 3010 to move leftwards, the three first T-shaped plates 3010 drive the three first missing gears 3011 to move leftwards, the three first T-shaped plates 3010 drive the six fourth connecting plates 3018 to move leftwards, the six fourth connecting plates 3018 drive the three second T-shaped plates 3016 to move leftwards, the second T-shaped plates 3016 drive the three second missing gears 3017 to move leftwards, the three second T-shaped plates 3016 drive the three second U-shaped plates 3015 to move leftwards, the three second U-shaped plates 3015 drive the three third connecting plates 3014 to move leftwards, three third connecting plates 3014 drive a third bearing block 3013 to move leftward, under the limit of an extrusion block 3012, taking a group of first electric rotating shaft 306, a second bearing block 307, a second connecting plate 308, a first U-shaped plate 309, a first T-shaped plate 3010, a first missing gear 3011, an extrusion block 3012, a third bearing block 3013, a third connecting plate 3014, a second U-shaped plate 3015, a second T-shaped plate 3016, a second missing gear 3017 and a fourth connecting plate 3018, as an example, the third connecting plate 3014 takes the rotating shaft on the third bearing block 3013 as the rotating center to rotate clockwise from front to back, at the same time the second connecting plate 308 takes the rotating shaft on the second bearing block 307 as the rotating center to rotate counterclockwise from front to back, the second connecting plate 308 drives the first U-shaped plate 309 to swing, the third connecting plate 3014 drives the second U-shaped plate 3015 to swing, that is, that the first U309 and the second U-shaped plate 3015 drive the first T-shaped plate 3010 and the second T-shaped plate 3016 to contact the inner wall of the slide and approach the inner wall, meanwhile, the first U-shaped plate 309 and the second U-shaped plate 3015 drive the first missing gear 3011 and the second T-shaped plate 3016 to mesh, that is, the first missing gear 3011 drives the first T-shaped plate 3010 to rotate counterclockwise when viewed from front to back, the second missing gear 3017 drives the second T-shaped plate 3016 to rotate clockwise when viewed from front to back, so that the folds and the overlapped parts on the inner wall of the inflatable slide are stretched under the cooperation of the plurality of groups of first T-shaped plates 3010 and second T-shaped plates 3016 to be unfolded, in the process that the first electric rotating shaft 306 moves leftwards, the first electric rotating shaft 306 contacts and extrudes the first air bag 3019, so that the air in the first air bag 3019 is sent into the powder sprayer 3020 through an external air pipe, so that the powder sprayer 3020 sprays talcum powder, that the powder sprayer 3020 sprays talcum powder on the inner wall of the inflatable slide, so as to realize that the folds and the overlapped parts on the inflatable slide are stretched while the inflatable slide are unfolded and the talcum powder is sprayed, and then controlling the first electric rotating shaft 306 to perform power-on operation for resetting, finally controlling the first sliding rail 302 to perform power-on operation to drive the first sliding block 303 to slide rightwards, driving the first bearing seat 304 to move rightwards by the first sliding block 303, and driving the sliding rod 305 and associated parts to reset by the first bearing seat 304.

After the spreading mechanism 3 supports and sprays powder inside the inflatable slide, two second slide rails 402 are controlled to operate electrically to drive two second slide blocks 403 to move upwards, the two second slide blocks 403 drive one support 404 to move upwards, the support 404 drives two folding assemblies to move upwards, for example, when the folding assemblies move to a certain height, a second electric rotating shaft 4010 is controlled to operate electrically to drive a first gear 409 to rotate clockwise when viewed from left to right, because the first gear 409 is meshed with a second rack 4012, namely the second rack 4012 drives a connecting frame 4011 to move forwards, when the electric clamp 4013 moves right above the inflatable slide, the electric clamp 4013 is controlled to clamp the inflatable slide, in the process, the second rack 4012 drives a second gear 4015 to rotate clockwise when viewed from left to right, the second gear 4015 drives a seventh connecting plate 4018 to rotate clockwise when viewed from left to right, the seventh connecting plate 4018 rotates clockwise when viewed from left to right to drive the plurality of nozzles 4019 to rotate clockwise when viewed from left to right, meanwhile, the external air pipe sprays the talcum powder out of the nozzles 4019 and enables the talcum powder to be attached to the lower half part of the inclined surface of the inflatable slide, then the second electric rotating shaft 4010 is controlled to drive the first gear 409 to rotate anticlockwise when viewed from left to right, due to the fact that the first gear 409 is meshed with the first rack 407, the first rack 407 drives the fifth connecting plate 406 to move forwards, the fifth connecting plate 406 drives the fifth bearing 4016 to move forwards, the fifth bearing 4016 drives the second air bag 4017 to be close to and contact with the surface of the inflatable slide, in the process, the first gear drives the second rack 4012 to move backwards, the second rack 4012 drives the connecting frame 4011 to move backwards, the connecting frame 4011 drives the electric clamp 4013 to move backwards, namely, the electric clamp 4013 drives the upper part of the inflatable slide to move backwards, meanwhile, the second gear 4015 driven by the first rack 407 rotates counterclockwise when viewed from left to right, the second gear 4015 drives the seventh connecting plate 4018 to rotate counterclockwise when viewed from left to right, the seventh connecting plate 4018 drives the nozzles 4019 to rotate counterclockwise when viewed from left to right, and meanwhile, the upper half part of the inflatable slide is coated with talcum powder, in the process, the two second sliding rails 402 are controlled to be electrified to operate to drive the two second sliding blocks 403 to move downwards, the two second sliding blocks 403 drive the bracket 404 to move downwards, the bracket 404 drives the folding assembly to move downwards, then the electric clamp 4013 is controlled to release the inflatable slide, the second electric rotating shaft 4010 is controlled to be electrified to operate to drive the first gear 409 to rotate clockwise when viewed from left to right, namely, the first gear 409 drives the first rack 407 and the associated part to move backwards, so that the upper half part of the inflatable slide and the lower plate part are folded, and meanwhile, the nozzles 4019 are used for coating talcum powder on the surface of the folded inflatable slide, and manually folding the surface coated with the talcum powder again, and then transferring the surface to a warehouse.

Example 3

On the basis of the embodiment 2, as shown in fig. 1-2 and fig. 10-11, the folding device also comprises a folding mechanism 6; the left part of the bottom plate 2 is provided with a turnover mechanism 6, and the turnover mechanism 6 is positioned in front of the third U-shaped plate 401; the turnover mechanism 6 comprises an eighth connecting plate 601, a sixth bearing seat 602, a ninth connecting plate 603, a tenth connecting plate 604, a first arc-shaped plate 605, a seventh bearing seat 606, a third electric rotating shaft 607, an electric push rod 608, an eighth bearing seat 609, an eleventh connecting plate 6010, a second arc-shaped plate 6011, a rolling ball 6012 and a fourth electric rotating shaft 6013; the left part of the bottom plate 2 is fixedly connected with four eighth connecting plates 601, and the four eighth connecting plates 601 are symmetrical in pairs; the left part of the bottom plate 2 is fixedly connected with two sixth bearing seats 602 which are distributed in bilateral symmetry; two sixth bearing seats 602 are located between the four eighth connecting plates 601; the upper parts of the two eighth connecting plates 601 in front are fixedly connected with a ninth connecting plate 603; the upper parts of the two sixth bearing seats 602 are rotatably connected with a ninth connecting plate 603 through a rotating shaft; a fourth electric rotating shaft 6013 is fixedly connected to the upper portion of the left side surface of the sixth bearing pedestal 602 on the left side; an output shaft of the fourth electric rotating shaft 6013 is fixedly connected with a rotating shaft connected with the sixth bearing block 602 and the ninth connecting plate 603; the rear part of the ninth connecting plate 603 is rotatably connected with a tenth connecting plate 604 through a rotating shaft; the tenth connecting plate 604 is placed on the two eighth connecting plates 601 at the rear; the rear part of the tenth connecting plate 604 is rotatably connected with a first arc-shaped plate 605 through a rotating shaft; the front part of the upper surface of the ninth connecting plate 603 is fixedly connected with two seventh bearing seats 606 which are distributed in bilateral symmetry; the upper parts of the two seventh bearing blocks 606 are connected with a third electric rotating shaft 607; the output shaft of the third electric rotating shaft 607 is fixedly connected with two electric push rods 608 which are symmetrically distributed left and right; the telescopic ends of the two electric push rods 608 are fixedly connected with an eighth bearing seat 609 respectively; the two eighth bearing blocks 609 are respectively and rotatably connected with an eleventh connecting plate 6010 through a rotating shaft; the rear parts of the two eleventh connecting plates 6010 are fixedly connected with a second arc-shaped plate 6011; the lower part of the second arc-shaped plate 6011 is rotatably connected with a plurality of rolling balls 6012 distributed at equal intervals through a rotating shaft.

The first arc-shaped plate 605 is of an arc-shaped structure and is used for receiving the talcum powder falling from the surface of the inflatable slide, so that the waste of the talcum powder is avoided.

The second arc-shaped plate 6011 is provided with a plurality of groups of grooves on the arc-shaped surface, and is used for guiding the talcum powder to be uniformly coated on the inflatable slide.

Firstly, a worker places the inflatable slide on the ninth connecting plate 603 and the tenth connecting plate 604, when the folding mechanism 4 sprays the talcum powder on the front end of the inflatable slide after folding, because the surface of the inflatable slide has a certain inclination angle, part of the talcum powder floats downwards onto the first arc-shaped plate 605, and when the folding mechanism 4 sprays the talcum powder after folding the inflatable slide; controlling the third electric rotating shaft 607 to operate electrically to drive the two electric push rods 608 to rotate counterclockwise when viewed from left to right, the two electric push rods 608 driving the two eighth bearing seats 609 to swing, the two eighth bearing seats 609 driving the two eleventh connecting plates 6010 to swing, the two eleventh connecting plates 6010 driving the second arc-shaped plate 6011 to approach the inflatable slide and contact the surface thereof, i.e. the second arc-shaped plate 6011 driving the rolling balls 6012 to adhere to the surface of the inflatable slide, then controlling the two electric push rods 608 to operate electrically to push the two eighth bearing seats 609 and the two eleventh connecting plates 6010 to move backward, the two eleventh connecting plates 6010 driving the second arc-shaped plate 6011 to move backward, i.e. driving the rolling balls 6012 to roll and flatten the surface of the inflatable slide, then spraying talcum powder on the surface of the inflatable slide at the folding mechanism 4, and simultaneously controlling the two electric push rods 608 to contract to drive the two eighth bearing seats 609 and the associated parts thereof to move forward, that is, the talcum powder sprayed out of the folding mechanism 4 is blocked by the second arc-shaped plate 6011, so that the talcum powder flows downwards along the arc surface of the second arc-shaped plate 6011, thereby avoiding waste of the talcum powder, then the third electric rotating shaft 607 is controlled to operate electrically to drive the two electric push rods 608 and associated components to reset, then the fourth electric rotating shaft 6013 is controlled to operate electrically to drive the tenth connecting plate 604 to rotate clockwise when viewed from left to right, the tenth connecting plate 604 drives the first arc-shaped plate 605 to swing, so that the talcum powder collected on the first arc-shaped plate 605 is poured on the surface of the inflatable slide and transferred to the bottom of the inflatable slide, under the further drive of the fourth electric rotating shaft 6013, the tenth connecting plate 604 is attached to the ninth connecting plate 603, the tenth connecting plate 604 drives the inflatable slide to be folded, then the fourth electric rotating shaft 6013 is controlled to operate electrically to drive the tenth connecting plate 604 and associated components to reset, then the folded inflatable slide is transferred to a warehouse by a worker and is simply bound, the foldable inflatable slide is folded, meanwhile, the waste of talcum powder is avoided, and the talcum powder is uniformly coated on the surface of the inflatable slide in a guiding mode.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. An anti-adhesion folding and collecting device for an inflatable slide comprises wheels (1) and a bottom plate (2), wherein the bottom plate (2) is arranged at the upper parts of the five wheels (1); the method is characterized in that: the folding device also comprises a spreading mechanism (3), a folding mechanism (4) and a supporting seat (5); a stretching mechanism (3) for stretching the inflatable slide is arranged at the right part of the bottom plate (2); a folding mechanism (4) for folding the inflatable slide is arranged at the left part of the bottom plate (2), and a supporting seat (5) is arranged at the left part of the bottom plate (2); the supporting seat (5) is positioned in front of the folding mechanism (4).

2. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 1, which is characterized in that: the opening mechanism (3) comprises a first connecting plate (301), a first slide rail (302), a first slide block (303), a first bearing seat (304), a slide bar (305), a powder sprayer (3020) and an opening component; the right part of the bottom plate (2) is fixedly connected with three first connecting plates (301); the upper parts of the three first connecting plates (301) are fixedly connected with a first sliding rail (302); a first sliding block (303) is connected on the first sliding rail (302) in a sliding way; the upper part of the first sliding block (303) is fixedly connected with a first bearing seat (304); a sliding rod (305) is fixedly connected to the upper part of the first bearing seat (304); the middle part of the sliding rod (305) is connected with a powder sprayer (3020) in a sliding way; the sliding rod (305) is connected with two stretching components which are symmetrically distributed left and right in a sliding way; a powder sprayer (3020) is located between the two spreader assemblies.

3. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 2, which is characterized in that: the right opening component comprises a first electric rotating shaft (306), a second bearing seat (307), a second connecting plate (308), a first U-shaped plate (309), a first T-shaped plate (3010), a first missing gear (3011), an extrusion block (3012), a third bearing seat (3013), a third connecting plate (3014), a second U-shaped plate (3015), a second T-shaped plate (3016), a second missing gear (3017), a fourth connecting plate (3018) and a first air bag (3019); the sliding rod (305) is connected with a first electric rotating shaft (306) in a sliding way; the left part of the first electric rotating shaft (306) is fixedly connected with three second bearing seats (307) in an annular array; the three second bearing seats (307) are respectively movably connected with a second connecting plate (308); the left parts of the three second connecting plates (308) are fixedly connected with a first U-shaped plate (309) respectively; the three first U-shaped plates (309) are respectively connected with a first T-shaped plate (3010) in a rotating way through a rotating shaft; the upper parts of the three first T-shaped plates (3010) are fixedly connected with a first gear lack (3011) respectively; the sliding rod (305) is fixedly connected with an extrusion block (3012); the extrusion block (3012) is positioned at the left of the first electric rotating shaft (306); the outer surface of the extrusion block (3012) is fixedly connected with three third bearing seats (3013) in an annular array; the three third bearing seats (3013) are respectively movably connected with a third connecting plate (3014); the right parts of the three third connecting plates (3014) are fixedly connected with a second U-shaped plate (3015) respectively; the three second U-shaped plates (3015) are respectively connected with a second T-shaped plate (3016) in a rotating way through a rotating shaft; the upper parts of the three second T-shaped plates (3016) are fixedly connected with second segmental gears (3017); the three second gear lack (3017) is meshed with the three first gear lack (3011); two fourth connecting plates (3018) are respectively rotatably connected to rotating shafts of the three first T-shaped plates (3010), two fourth connecting plates (3018) are rotatably connected between the adjacent first U-shaped plates (309) and the second U-shaped plates (3015), a sliding rod (305) of each fourth connecting plate (3018) is connected with a first air bag (3019), and the first air bags (3019) are located between the first electric rotating shaft (306) and the extrusion block (3012); the left part of the first air bag (3019) is fixedly connected to the slide bar (305), and the right part slides on the slide bar (305); the first air bag (3019) is connected with the powder sprayer (3020) through an external air pipe.

4. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 3, which is characterized in that: the folding mechanism (4) comprises a third U-shaped plate (401), a second sliding rail (402), a second sliding block (403), a support (404), a seventh connecting plate (4018), a nozzle (4019) and a folding assembly; a third U-shaped plate (401) is fixedly connected to the left rear part of the bottom plate (2); two second slide rails (402) which are distributed in bilateral symmetry are fixedly connected to the third U-shaped plate (401); a second sliding block (403) is connected to each of the two second sliding rails (402) in a sliding manner; the opposite sides of the two second sliding blocks (403) are fixedly connected with a bracket (404); two folding assemblies which are symmetrically distributed left and right are arranged at the upper part of the bracket (404); the opposite sides of the two folding assemblies are connected with a seventh connecting plate (4018); the front part of the seventh connecting plate (4018) is fixedly connected with a plurality of nozzles (4019).

5. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 4, wherein: the folding assembly on the right comprises a limiting fixture block (405), a fifth connecting plate (406), a first rack (407), a sixth connecting plate (408), a first gear (409), a second electric rotating shaft (4010), a connecting frame (4011), a second rack (4012), an electric clamp (4013), a fourth bearing seat (4014), a second gear (4015), a fifth bearing seat (4016) and a second air bag (4017); the upper part of the bracket (404) is fixedly connected with two limiting clamping blocks (405) which are symmetrically distributed front and back; the lower parts of the two limiting clamping blocks (405) are connected with a fifth connecting plate (406) in a sliding manner; the upper part of the fifth connecting plate (406) is fixedly connected with a first rack (407); the opposite sides of the two limiting clamping blocks (405) are fixedly connected with two sixth connecting plates (408) which are distributed in a bilateral symmetry manner; a first gear (409) is rotatably connected between the two sixth connecting plates (408) through a rotating shaft; the left part of the sixth connecting plate (408) on the left side is fixedly connected with a second electric rotating shaft (4010); an output shaft of the second electric rotating shaft (4010) is fixedly connected with a rotating shaft connected with the first gear (409); the first gear (409) is meshed with the first rack (407); the upper parts of the two limiting clamping blocks (405) are connected with a connecting frame (4011) in a sliding way; the lower part of the connecting frame (4011) is fixedly connected with a second rack (4012); the second rack (4012) is meshed with the first gear (409); the front part of the connecting frame (4011) is fixedly connected with an electric clamp (4013); the middle part of the fifth connecting plate (406) is fixedly connected with two fourth bearing seats (4014) which are symmetrically distributed left and right; a second gear (4015) is rotatably connected between the two fourth bearing seats (4014) through a rotating shaft; the second gear (4015) is meshed with the first rack (407); the second gear (4015) is meshed with the second rack (4012); the front part of the fifth connecting plate (406) is rotatably connected with a fifth bearing seat (4016) through a rotating shaft; the front part of the fifth bearing seat (4016) is fixedly connected with a second air bag (4017); and a rotating shaft of the fourth bearing seat (4014) connected with the second gear (4015) is fixedly connected with a seventh connecting plate (4018).

6. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 5, which is characterized in that: the second airbag (4017) is used for being attached to the surface of the inflatable slide so as to avoid the inflatable slide from being damaged.

7. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 6, wherein: the first air bag (3019) is connected with a powder sprayer (3020) through an air pipe.

8. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 7, wherein: also comprises a turnover mechanism (6); the left part of the bottom plate (2) is provided with a turnover mechanism (6), and the turnover mechanism (6) is positioned in front of the third U-shaped plate (401); the turnover mechanism (6) comprises an eighth connecting plate (601), a sixth bearing seat (602), a ninth connecting plate (603), a tenth connecting plate (604), a first arc-shaped plate (605), a seventh bearing seat (606), a third electric rotating shaft (607), an electric push rod (608), an eighth bearing seat (609), an eleventh connecting plate (6010), a second arc-shaped plate (6011), a rolling ball (6012) and a fourth electric rotating shaft (6013); the left part of the bottom plate (2) is fixedly connected with four eighth connecting plates (601), and the four eighth connecting plates (601) are symmetrical in pairs; the left part of the bottom plate (2) is fixedly connected with two sixth bearing seats (602) which are symmetrically distributed left and right; two sixth bearing seats (602) are positioned between the four eighth connecting plates (601); the upper parts of the two eighth connecting plates (601) in front are fixedly connected with a ninth connecting plate (603); the upper parts of the two sixth bearing seats (602) are rotatably connected with a ninth connecting plate (603) through a rotating shaft; the upper part of the left side surface of the left sixth bearing seat (602) is fixedly connected with a fourth electric rotating shaft (6013); an output shaft of a fourth electric rotating shaft (6013) is fixedly connected with a rotating shaft connected with a sixth bearing seat (602) and a ninth connecting plate (603); the rear part of the ninth connecting plate (603) is rotatably connected with a tenth connecting plate (604) through a rotating shaft; the tenth connecting plate (604) is placed on the two eighth connecting plates (601) at the rear part; the rear part of the tenth connecting plate (604) is rotatably connected with a first arc-shaped plate (605) through a rotating shaft; the front part of the upper surface of the ninth connecting plate (603) is fixedly connected with two seventh bearing seats (606) which are distributed in bilateral symmetry; the upper parts of the two seventh bearing blocks (606) are connected with a third electric rotating shaft (607); the output shaft of the third electric rotating shaft (607) is fixedly connected with two electric push rods (608) which are distributed symmetrically left and right; the telescopic ends of the two electric push rods (608) are fixedly connected with an eighth bearing seat (609) respectively; the two eighth bearing blocks (609) are respectively and rotatably connected with an eleventh connecting plate (6010) through rotating shafts; the rear parts of the two eleventh connecting plates (6010) are fixedly connected with a second arc-shaped plate (6011); the lower part of the second arc-shaped plate (6011) is rotatably connected with a plurality of milling balls (6012) distributed at equal intervals through a rotating shaft.

9. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 8, wherein: the first arc-shaped plate (605) is of an arc-shaped structure and is used for receiving the talcum powder falling from the surface of the inflatable slide, so that the waste of the talcum powder is avoided.

10. The anti-adhesion folding and collecting device for the inflatable slide as claimed in claim 9, wherein: the second arc-shaped plate (6011) is provided with a plurality of groups of grooves on the arc-shaped surface and used for guiding the talcum powder to be uniformly coated on the inflatable slide.

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