CN210963893U - Amusement slide device - Google Patents

Abstract

The utility model discloses an amusement slide device, which comprises a buffer pool, a slide body, a sliding platform, a platform and a conveying device, wherein the conveying device comprises a first belt conveying section, a second belt conveying section and a third belt conveying section, one end of the first belt conveying section extends into the buffer pool, the other end is arranged close to the second belt conveying section, the first belt conveying section and the slide body are distributed at intervals, the third belt conveying section is arranged between the second belt conveying section and the sliding platform, and the one end setting of third belt conveyor section is on playing smooth platform, and third belt conveyor section passes through the transitional conveying section with the slide body and is connected, and the transitional conveying section includes a plurality of running rollers, and each running roller can rotate around its self axis, and each running roller sets up side by side from high to low in proper order from third belt conveyor section to the slide body, and the platform setting is in one side of second belt conveyor section. It can be automatic carry the raft body to the slide body in from the pond of falling into water, practices thrift the personnel selection cost.

Description

Amusement slide device

Technical Field

The utility model relates to an amusement equipment especially relates to a slide device of travelling.

Background

In recent years, amusement equipment on water is popular among people, and an amusement slide device is common amusement equipment on water in a water park. The existing amusement slide way device comprises a sliding platform, a water falling pool and a slide way body, and when in actual amusement, a player takes a skin raft to slide from top to bottom on the sliding platform from an inlet end of the slide way body to the water falling pool. However, in the prior art, a special worker is usually required to manually push the skin raft to slide into the slide way body from the sliding platform on the sliding platform, the working strength of the worker is high, and the labor cost is high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: the utility model provides a slide device of travelling, it can be automatic carry the raft body to the slide body in from the pond of falling into water, makes things convenient for visitor's raft body from top to bottom.

In order to achieve the purpose, the utility model adopts the following technical proposal:

the amusement slide way device comprises a buffer pool, a slide way body, a sliding platform, a platform and a conveying device, wherein the buffer pool is positioned below the sliding platform, the inlet end of the slide way body is arranged on the sliding platform, the outlet end of the slide way body is connected with the buffer pool, the conveying device comprises a first belt conveying section, a second belt conveying section and a third belt conveying section, one end of the first belt conveying section extends into the buffer pool, the other end of the first belt conveying section is close to the second belt conveying section, the first belt conveying section and the slide way body are distributed at intervals, the third belt conveying section is arranged between the second belt conveying section and the sliding platform, one end of the third belt conveying section is arranged on the sliding platform, and the third belt conveying section is connected with the slide way body through a transition conveying section, the transitional conveying section comprises a plurality of rollers, each roller can rotate around the axis of the roller, each roller is arranged from the third belt conveying section to the slide way body from high to low in sequence side by side, and the platform is arranged on one side of the second belt conveying section.

As a preferable aspect of the amusement slide device, the second belt conveying section includes a first section and a second section, the first section is disposed between the first belt conveying section and the second section, the second section is disposed between the third belt conveying section and the first section, and the platform is located on one side of the first section and the second section.

As a preferable technical scheme of the amusement slide device, a conveying surface of the second belt conveying section is horizontally arranged, a conveying surface of the third belt conveying section is upwards inclined from the second belt conveying section towards the direction of the sliding platform, a buffer belt conveying section is arranged between the second belt conveying section and the third belt conveying section, the conveying surface of the buffer belt conveying section is upwards inclined from the second belt conveying section towards the third belt conveying section, and an included angle between the conveying surface of the third belt conveying section and a horizontal plane is equal to an included angle between the conveying surface of the buffer belt conveying section and the horizontal plane.

As a preferable technical solution of the amusement slide device, the third belt conveying section includes a third segment and a fourth segment which are identical, the third segment and the fourth segment are arranged in parallel and at an interval, and the length of the third segment and the length of the fourth segment are both greater than the length of the first belt conveying section and the length of the second belt conveying section.

As a preferable technical scheme of the amusement slide device, the first belt conveying section, the first segment, the second segment and the buffering belt conveying section respectively comprise a first rotating wheel, a second rotating wheel, a first conveying belt and a plurality of first rotating rollers, the first rotating wheel is far away from the sliding platform, the second rotating wheel is close to the sliding platform, each first rotating roller is arranged between the first rotating wheel and the second rotating wheel, the first conveying belt is wound on the first rotating wheel, the first rotating roller and the second rotating wheel, and the first rotating wheel or the second rotating wheel is driven by a first rotating motor.

As a preferable technical solution of the amusement slide device, the third segment and the fourth segment each include a third rotating wheel, a fourth rotating wheel, a second conveyor belt, and a plurality of second rotating rollers, the third rotating wheel is arranged far away from the sliding platform, the fourth rotating wheel is arranged close to the sliding platform, the second rotating rollers are arranged between the third rotating wheel and the fourth rotating wheel side by side, the second conveying belt is wound on the third rotating wheel, the second rotating roller and the fourth rotating wheel, the third rotating wheel of the third segment and the third rotating wheel of the fourth segment are synchronously driven by a second rotating motor, or, the fourth rotating wheel of the third segment and the fourth rotating wheel of the fourth segment are synchronously driven by a second rotating motor.

As a preferable technical solution of the amusement slide device, at least one of the first belt conveying section, the second belt conveying section, the transitional conveying section, the third section and the fourth section comprises a first tightness adjusting mechanism arranged below a conveying surface thereof, the first tightness adjusting mechanism comprises a first adjusting roller, a second adjusting roller and a first supporting frame, the number of the first adjusting rollers is two, the second adjusting roller is arranged between the two first adjusting rollers, and is positioned below the two first adjusting rollers, the second adjusting roller can selectively move along the height direction of the first supporting frame, the first adjusting roller and the second adjusting roller are connected with the first support frame, and the second conveying belt pulley is wound on the upper surface of the first adjusting roller and the lower surface of the second adjusting roller.

As a preferable technical scheme of the amusement slide device, the third section and the fourth section each further include a second tightness adjusting mechanism located between the first tightness adjusting mechanism and the second belt conveying section, the second tightness adjusting mechanism includes a second support frame, a third adjusting roller, a fourth adjusting roller and an adjusting roller mounting seat for mounting the fourth adjusting roller, two third adjusting rollers are provided, the fourth adjusting roller is provided between the two third adjusting rollers, the second support frame includes a base and two support columns, the support columns are arranged between the base and the third belt conveying section, two ends of the adjusting roller mounting seat are provided with connecting sleeves for being sleeved on the peripheries of the support columns, the connecting sleeves can move along the height direction of the support columns, and the connecting sleeves are selectively positioned on the support columns through a positioning mechanism, and the second conveying belts of the third subsection and the fourth subsection deviating from the conveying planes of the third subsection are wound on the upper surface of the third adjusting roller and the lower surface of the fourth adjusting roller.

As a preferred technical scheme of the amusement slide device, the buffering water tank comprises a first water tank, a second water tank and a third water tank which are of a U-shaped structure, the first water tank is connected with the slide body, the third water tank is close to the first belt conveying section, the second water tank is located between the first water tank and the second water tank, the width of the first water tank is larger than that of the third water tank, the width of the second water tank is gradually reduced from the direction close to the first water tank to the direction close to the third water tank, a water flow pushing mechanism is arranged on the side wall of the first water tank, and the water flow pushing mechanism is used for enabling water flow to flow from the direction of the first water tank to the direction of the second water tank.

As a preferable technical scheme of the amusement slide device, the slide body comprises a first spiral slide and a second spiral slide which are sequentially connected, one end, far away from the second spiral slide, of the first spiral slide is connected with the transition conveying section, and one end, far away from the first spiral slide, of the second spiral slide is connected with the buffer water pool.

The utility model has the advantages that: the conveying device is used for conveying the skin raft upwards from the flushing pool to the sliding platform, and the skin raft is conveyed to the first belt conveying section, the second belt conveying section and the third belt conveying section in sequence in the process. Under the combined action of the third belt conveying section and the transition conveying section, the skin raft is moved into the slide way body at a certain initial speed. The inside rivers that have of slide body to the slide body from top to bottom slope distributes, and the skin raft can slide smoothly to the exit end of slide body from the entry end of slide body, finally falls into inside the buffering pond. Through foretell design for skin raft can carry to the slide body from the buffering bath automatically, does not need the manual work to promote skin raft and slides at whole process, and the material resources of using manpower sparingly make things convenient for skin raft to rise to slide.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Fig. 1 is a schematic perspective view of an amusement slide device according to an embodiment (a buffer pool is not shown).

Fig. 2 is a schematic side view of the amusement slide apparatus of the embodiment (buffer pool not shown).

FIG. 3 is a top view of the amusement slide apparatus of an embodiment.

Fig. 4 is a partial structural schematic view of a third belt conveying section according to the embodiment.

Fig. 5 is an enlarged view of a point a in fig. 1.

Fig. 6 is an enlarged view at B in fig. 4.

FIG. 7 is a schematic structural view of a second slack adjustment mechanism according to an embodiment.

In the figure:

10. a buffer pool; 11. a first belt conveying section; 12. a first segment; 13. a second section; 14. a buffer belt conveying section; 15. a third belt conveying section; 16. a slideway body; 17. a transition conveying section; 18. a station; 19. a third support frame; 20. a sliding platform; 21. a skin raft;

100. a first spiral slideway; 101. a second spiral slideway; 102. an edge plate; 103. protecting the fence; 104. a fourth rotating wheel; 105. a motor mounting seat; 106. a first frame; 107. a roller; 108. a first support frame; 109. a first regulating roller; 110. a second dancer roll; 111. a buffer spring; 112. a second frame; 113. a second mounting seat; 114. a second rotating roller; 115. mounting a plate; 116. a fourth regulating roller; 117. a third regulating roller; 118. a regulating roller mounting seat; 119. connecting sleeves; 120. positioning a shaft pin; 121. an adjusting plate; 122. a guide plate; 123. a first pool; 124. a second pool; 125. a third water tank; 126. a second conveyor belt; 127. connecting a screw rod; 128. and (4) a support column.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 7, the utility model provides an amusement slide device, which comprises a buffer pool 10, a slide body 16, a sliding platform 20, a platform 18 and a conveying device, wherein the conveying device is used for conveying a skin raft 21. Wherein, the buffering pond 10 is located the below of the platform 20 that plays to slide, the entry end setting of slide body 16 is in play to slide on the platform 20, the exit end of slide body 16 with the buffering pond 10 is connected. Conveyor includes first belt conveyor section 11, second belt conveyor section and third belt conveyor section 15, the one end of first belt conveyor section 11 stretches into the inside in buffering pond 10, the other end is close to second belt conveyor section sets up, first belt conveyor section 11 with 16 interval distribution of slide body. Third belt conveyor section 15 sets up the second belt conveyor section with between the smooth platform 20, just the one end setting of third belt conveyor section 15 is in on the smooth platform 20, third belt conveyor section 15 with slide body 16 is connected through transition conveyor section 17. The transitional conveying section 17 comprises a plurality of rollers 107, each roller 107 can rotate around the axis of the roller 107, each roller 107 is arranged from the third belt conveying section 15 to the slide way body 16 from high to low in sequence side by side, and the platform 18 is arranged on one side of the second belt conveying section. Wherein the transitional conveying section 17 comprises a first frame 106, and each roller 107 is mounted on the first frame 106. Specifically, the first frame 106 is provided with a plurality of first mounting seats, and the rollers 107 are respectively mounted in the first mounting seats.

The conveying device is used for conveying the skin raft 21 from the buffer pool 10 to the sliding platform 20, and in the process, the skin raft 21 is conveyed to the first belt conveying section 11, the second belt conveying section and the third belt conveying section 15 in sequence. Under the combined action of the third belt conveying section 15 and the transition conveying section 17, the skin raft 21 moves into the slide body 16 at a certain initial speed. The slide way body 16 is internally provided with water flow, the slide way body 16 is obliquely distributed from top to bottom, and the skin raft 21 can smoothly slide to the outlet end of the slide way body 16 from the inlet end of the slide way body 16 and finally fall into the buffer pool 10. Because the one end of first belt conveyor section 11 stretches into the inside in buffering pond 10, the skin raft 21 is carried by first belt conveyor section 11 to the second belt conveyor section and is stopped earlier on the surface of water, waits that the visitor gets into in the skin raft 21 from platform 18 after, the second belt conveyor section starts in order to carry the skin raft 21 to third belt conveyor section 15, then under the effect of third belt conveyor section 15 for skin raft 21 is carried in slide body 16 through transition conveyor section 17. Through foretell design for skin raft 21 can carry to slide body 16 from the buffering bath 10 automatically, need not artifical promotion skin raft 21 slip at whole process, makes things convenient for visitor's skin raft 21 from top to bottom, uses manpower and materials sparingly.

Wherein the second belt run comprises a first run 12 and a second run 13, the first run 12 being disposed between the first belt run 11 and the second run 13, the second run 13 being disposed between the third belt run 15 and the first run 12, and the station 18 being located on one side of the first run 12 and the second run 13. In a specific use, when the skin raft 21 is transferred from the first belt conveying section 11 to the first section 12, the first section 12 stops conveying, so that the skin raft 21 is suspended in the first section 12, the tourists on the skin raft 21 can fall from the skin raft 21 to the platform 18, after the tourists fall from the skin raft 21, the first section 12 is driven to move to transfer the skin raft 21 to the second section 13, in this position, the next group of tourists waiting for playing can enter the skin raft 21 from the platform 18, and after the tourists are stably seated in the skin raft 21, the second section 13 is driven to move, so that the skin raft 21 is transferred from the second section 13 to the third section. First subsection 12 and second subsection 13 separately set up, conveniently control the stop and the motion of first subsection 12 and second subsection 13, can separate the visitor of upper and lower skin raft 21, avoid the visitor too much and appear crowded phenomenon, are favorable to maintaining the order of leaving before and then going up, promote visitor's satisfaction.

The conveying surface of the second belt conveying section is horizontally arranged, the conveying surface of the third belt conveying section 15 faces the direction of the sliding platform 20 and inclines upwards, and a buffering belt conveying section 14 is arranged between the second belt conveying section and the third belt conveying section 15. The conveying surface of the buffer belt conveying section 14 is oriented towards the third belt conveying section 15 to incline upwards, and the included angle between the conveying surface of the third belt conveying section 15 and the horizontal plane is equal to the included angle between the conveying surface of the buffer belt conveying section 14 and the horizontal plane. The arrangement of the buffer belt conveying section 14 is mainly used for gradually transitioning the skin raft 21 from horizontal conveying to an inclined ascending conveying mode, so that the stability of the skin raft 21 is improved. In this embodiment, the included angle between the conveying surface of the third belt conveying section 15 and the horizontal plane and the included angle between the conveying surface of the buffer belt conveying section 14 and the horizontal plane are both 15 ℃. Specifically, the conveying surface of the first belt conveying section 11 is inclined upward from the buffer water tank 10 to the second belt conveying section, wherein the included angle between the conveying surface of the first belt conveying section 11 and the horizontal plane is about 10 °.

Third belt conveyor section 15 including the slope section and with the segmental arc that the slope section is connected, the segmental arc with the transition is carried section 17 and is connected, the arc structure is personally submitted in the transport of segmental arc, the slope section is carried the section with the second belt and is connected, the slope structure is personally submitted in the transport of slope section. In this embodiment, the length of the inclined section is about 60m, and the arc-shaped section is about 5.8 m.

In this embodiment, the first belt conveying section 11, the first segment 12, the second segment 13 and the buffer belt conveying section 14 each include a first rotating wheel, a second rotating wheel, a first conveying belt and a plurality of first rotating rollers. The first rotating wheel is far away from the sliding platform 20, the second rotating wheel is close to the sliding platform 20, and the first rotating rollers are arranged between the first rotating wheel and the second rotating wheel. The first conveying belt is wound on the first rotating wheel, the first rotating roller and the second rotating wheel, and the first rotating wheel or the second rotating wheel is driven by the first rotating motor. Because first conveying belt is around establishing on first runner, first live-rollers and second live-rollers, when first live-rollers drive first live-rollers or second live-rollers, drive first conveying belt and remove, at this in-process, utilize first conveying belt and live-rollers between frictional force, drive the second live-rollers and the first live-rollers that do not connect with first driving motor or not be connected with driving motor and rotate, and then make first conveying belt steadily carry skin raft 21.

As a preferred technical solution, the third belt conveying section 15 comprises a third segment and a fourth segment which are identical, and the third segment and the fourth segment are arranged in parallel and at an interval. The length of the third subsection and the length of the fourth subsection are both greater than the length of the first belt conveying section 11 and the length of the second belt conveying section. Specifically, the third section and the fourth section each include a third rotating wheel, a fourth rotating wheel 104, a second conveyor belt 126 and a plurality of second rotating rollers 114, the third rotating wheel is far away from the sliding platform 20, the fourth rotating wheel 104 is close to the sliding platform 20, the second rotating rollers 114 are arranged side by side between the third rotating wheel and the fourth rotating wheel 104, and the second conveyor belt 126 is wound on the third rotating wheel, the second rotating rollers 114 and the fourth rotating wheel 104. The third rotating wheel of the third segment and the third rotating wheel of the fourth segment are synchronously driven by a second rotating motor. Alternatively, the fourth rotating wheel 104 of the third segment and the fourth rotating wheel 104 of the fourth segment are synchronously driven by a second rotating motor. Because the length of third segmentation and fourth segmentation is longer to lead to the whole weight of third belt conveyor section 15 to be great the degree of difficulty of installing heavier, separately set up third segmentation and fourth segmentation, can separately install both, reduce third belt conveyor section 15's the installation degree of difficulty. In addition, the uniformity of the movement of the second conveyor belt 126 on the two belt conveyor segments can be maintained by the second rotary motor synchronously driving the rotary wheels on the two belt conveyor segments to rotate. In this embodiment, the second rotating motor is mounted on the sliding platform 20 through a motor mounting base 105.

In this embodiment, both sides of the second conveying belt 126 and both sides of each of the first conveying belts are provided with a second frame 112, and a first rotating wheel, a second rotating wheel, a first rotating roller, a third rotating wheel, a fourth rotating wheel 104, and a second rotating roller 114 are provided on the second frame 112. The second frame 112 is provided with a second mounting seat 113, the first rotating roller and the second rotating roller 114 are mounted on the second mounting seat 113, the second frames 112 on two sides of the first belt conveying section 11, the buffer belt conveying section 14 and the third belt conveying section 15 are provided with edge plates 102, and the edge plates are arranged to add the width of each conveying section. Specifically, the docking station 18 is connected to the second belt run by the edge plate 102.

In order to improve the safety of the slide way device, guard rails 103 are arranged on one side of the third section, which is far away from the fourth section, one side of the fourth section, which is far away from the third section, and two sides of the transition conveying section 17, and the edge plate 102 on the third belt conveying section 15 is located between the guard rails 103 and the second frame 112.

Preferably, at least one of the first belt conveying section 11, the second belt conveying section, the transition conveying section 17, the third section and the fourth section includes the first tightness adjusting mechanism arranged below the conveying surface thereof, the first tightness adjusting mechanism includes a first adjusting roller 109, a second adjusting roller 110 and a first support frame 108, and the number of the first adjusting rollers 109 is two. The second adjusting roller 110 is disposed between the two first adjusting rollers 109 and below the two first adjusting rollers 109, and the second adjusting roller 110 is selectively movable in a height direction of the first support frame 108. The first adjusting roller 109 and the second adjusting roller 110 are connected to the first support frame 108, and the second conveying belt 126 is wound around the upper surface of the first adjusting roller 109 and the lower surface of the second adjusting roller 110. By adjusting the height of the second adjusting roller 110 relative to the second adjusting roller 110, the tightness degree of the conveying belt on each belt conveying section can be adjusted, and further the conveying speed of belt conveying is changed.

Specifically, a mounting plate 115 is disposed on the first support frame 108, and the second adjusting roller 110 is connected to the mounting plate 115 through a connecting screw 127. Wherein the one end of connecting bolt 127 rotates with second regulating roll 110 to be connected, mounting panel 115 runs through and has seted up the connecting hole, connecting screw 127 screw up in the connecting hole, connecting screw 127 is located mounting panel 115 with be provided with regulating plate 121 between the second regulating roll 110, regulating plate 121 rotates with connecting screw 127 to be connected, with regulating plate 121 with be provided with buffer spring 111 between the mounting panel 115, first support frame 108 is provided with two deflectors 122, two the deflector 122 interval just distributes along vertical direction, the both ends of regulating plate 121 respectively with two deflectors 122 butt, regulating plate 121 can be relative with deflector 122 removes along vertical direction. In a specific use, the connecting screw 127 is rotated to move the connecting screw 127 along a vertical direction relative to the first support frame 108, so as to drive the adjusting plate 121 and the second adjusting roller 110 to move along the vertical direction, and change a distance between the second adjusting roller 110 and the first adjusting roller 109, in this process, the existence of the guide plate 122 can prevent the moving direction of the connecting screw 127 from deviating. When the adjusting plate 121 moves towards the mounting plate 115, the adjusting plate 121 continuously compresses the buffer spring 111, and the buffer spring 111 is arranged to buffer the adjusting plate 121, so that the adjusting plate 121 is prevented from colliding with the mounting plate 115.

In practical design, the mounting plate 115 may be disposed above the second adjustment roller 110, or may be disposed below the second adjustment roller 110.

In this embodiment, the first belt conveying section 11, the second belt conveying section, the transition conveying section 17, the third section and the fourth section all include the first tightness adjusting mechanism arranged on the conveying surface thereof.

For ease of installation, the first support bracket 108 of the third and fourth sections is mounted on the landing platform 20.

As a preferred embodiment, each of the third section and the fourth section further comprises a second tightness adjusting mechanism located between the first tightness adjusting mechanism and the second belt conveying section, as shown in fig. 7 (the base is not shown in the figure), and the second tightness adjusting mechanism comprises a second supporting frame, a third adjusting roller 117, a fourth adjusting roller 116 and an adjusting roller mounting seat 118 for mounting the fourth adjusting roller 116. The number of the third adjusting rollers 117 is two, the fourth adjusting roller 116 is disposed between the two third adjusting rollers 117, the first support frame 108 includes a base and two support columns 128, and the support columns 128 are established between the base and the third belt conveying section 15. The two ends of the adjusting roller mounting seat 118 are provided with connecting sleeves 119 used for being sleeved on the peripheries of the supporting columns 128, the connecting sleeves 119 can move along the height direction of the supporting columns 128, and the connecting sleeves 119 are selectively positioned on the supporting columns 128 through a positioning mechanism. The second conveyor belt 126, the third subsection and the fourth subsection of which deviate from the conveying plane thereof, is wound around the upper surface of the third regulating roller 117 and the lower surface of the fourth regulating roller 116. Due to the fact that the third section and the fourth section are long, the tightness of the second conveying belt 126 can be further adjusted through the second tightness adjusting mechanism. The height of the connecting sleeve 119 on the supporting column 128 is changed to drive the height of the fourth adjusting roller 116 arranged on the adjusting roller mounting seat 118 on the supporting column 128, so that the distance between the fourth adjusting roller 116 and the third adjusting roller 117 is changed, and the purpose of adjusting the tightness of the second conveying belt 126 is achieved. Specifically, the positioning mechanism includes a positioning shaft pin 120 and a plurality of positioning holes, each of which is vertically distributed along the height direction of the supporting column 128, and the positioning shaft pin 120 is selectively inserted into the positioning holes. When the connecting sleeve 119 needs to be positioned at a certain position on the supporting column 128, the positioning shaft pin 120 is inserted into the positioning hole below the connecting sleeve 119, the bottom end of the connecting sleeve 119 is abutted by the positioning shaft pin 120, the connecting sleeve 119 is limited by the positioning shaft pin 120, and the purpose of positioning the fourth adjusting roller 116 is further achieved.

In an embodiment, as shown in fig. 3, the buffering water tank 10 includes a first water tank 123, a second water tank 124 and a third water tank 125, which are respectively communicated with each other, the first water tank 123 is connected to the slide rail body 16, the third water tank 125 is close to the first belt conveying section 11, and the second water tank 124 is located between the first water tank 123 and the second water tank 124. The width in first pond 123 is greater than the width in third pond 125, the width in second pond 124 is by being close to the direction in first pond 123 is to being close to the direction in third pond 125 reduces gradually, the lateral wall in first pond 123 is provided with rivers pushing mechanism, rivers pushing mechanism be used for with rivers by the direction orientation in first pond 123 the direction in second pond 124 flows, and the direction that the arrow point in figure 3 indicates is the direction that water flows. Specifically, the water flow pushing mechanism is a water pump, and water is pumped into the first water tank 123 by the water pump to drive the water inside the first water tank 123 to flow to the second water tank 124. Because the width of the first water pool 123 is greater than the width of the third water pool 125, and the width of the second water pool 124 is gradually reduced from the direction close to the first water pool 123 to the direction close to the third water pool 125, the water in the first water pool 123 sequentially flows through the second water pool 124 and finally flows into the third water pool 125 under the action of the water flow pushing mechanism of the buffer water pool 10 with the structure, and the skin raft 21 is driven to automatically move from the first water pool 123 to the third water pool 125 in the process. Preferably, the width of the third water pool 125 is slightly larger than the width of the skin raft 21, one end of the third water pool 125 is connected with the second water pool 124, and the other end is connected with the first belt conveying section 11, in this design, the skin raft 21 is aligned before entering the third water pool 125, so that the head of the skin raft 21 enters the third water pool 125 first, and after entering the third water pool 125, the skin raft 21 automatically moves to the first belt conveying section 11 under the action of water flow, and the direction of the skin raft 21 does not need to be adjusted again.

Preferably, the third water basin 125 is provided with an obliquely arranged guiding surface near the first belt conveying section 11, and the guiding surface is used for guiding the raft 21 to move towards the first belt conveying section 11.

Wherein, the slide body 16 includes two first spiral slideway 100 and the second spiral slideway 101 that connect gradually, first spiral slideway 100 is kept away from the one end and the transition of second spiral slideway 101 are carried section 17 and are connected, the one end of second spiral slideway 101 is kept away from the one end of first spiral slideway 100 with buffering pond 10 is connected. The slide body 16 with the structure enables the tourist to see the two spiral slides in sequence in the sliding process, and the sharp turning of the spiral slides brings the thrill and stimulating pleasure to the tourist, so that the experience is improved.

In this embodiment, the amusement slide apparatus further includes a third support frame 19 for supporting the first belt conveying section 11, the second belt conveying section, the third belt conveying section 15, the buffer belt conveying section 14, and the slide body 16. Specifically, the structure of the third support frame 19 may be multiple, wherein the third support frame 19 may include a single support leg or multiple support legs, at least two support legs may be connected by a connecting rod, and the third support frame 19 is not limited to a specific structure, and the support structure may support the first belt conveying section 11, the second belt conveying section, the third belt conveying section 15, the buffer belt conveying section 14, and the slide rail body 16.

In the description herein, it is to be understood that the terms "upper," "lower," "left," "right," and the like are used in an orientation or positional relationship based on what is shown in the drawings for convenience of description and simplicity of operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be appropriately combined to form other embodiments as will be appreciated by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. An amusement slide device is characterized by comprising a buffer pool, a slide body, a sliding platform, a platform and a conveying device, wherein the buffer pool is positioned below the sliding platform, the inlet end of the slide body is arranged on the sliding platform, the outlet end of the slide body is connected with the buffer pool, the conveying device comprises a first belt conveying section, a second belt conveying section and a third belt conveying section, one end of the first belt conveying section extends into the buffer pool, the other end of the first belt conveying section is close to the second belt conveying section, the first belt conveying section and the slide body are distributed at intervals, the third belt conveying section is arranged between the second belt conveying section and the sliding platform, one end of the third belt conveying section is arranged on the sliding platform, and the third belt conveying section is connected with the slide body through a transition conveying section, the transitional conveying section comprises a plurality of rollers, each roller can rotate around the axis of the roller, each roller is arranged from the third belt conveying section to the slide way body from high to low in sequence side by side, and the platform is arranged on one side of the second belt conveying section.

2. The amusement slide apparatus of claim 1, wherein the second belt transport section includes a first segment disposed between the first belt transport section and the second segment, and a second segment disposed between the third belt transport section and the first segment, the platform being located on one side of the first segment and the second segment.

3. The amusement slide device according to claim 2, wherein the conveying surface of the second belt conveying section is arranged horizontally, the conveying surface of the third belt conveying section is inclined upward from the second belt conveying section toward the direction of the sliding platform, a buffer belt conveying section is arranged between the second belt conveying section and the third belt conveying section, the conveying surface of the buffer belt conveying section is inclined upward from the second belt conveying section toward the third belt conveying section, and the included angle between the conveying surface of the third belt conveying section and the horizontal plane is equal to the included angle between the conveying surface of the buffer belt conveying section and the horizontal plane.

4. The amusement slide arrangement of claim 3 wherein the third belt transport section includes identical third and fourth segments, the third and fourth segments being arranged in parallel and spaced apart, the length of the third segment and the length of the fourth segment each being greater than the length of the first belt transport section and the length of the second belt transport section.

5. The amusement slide apparatus of claim 3 wherein the first belt transport section, the first segment, the second segment, and the buffer belt transport section each include a first rotating wheel disposed away from the ride platform, a second rotating wheel disposed proximate to the ride platform, a first transport belt disposed between the first rotating wheel and the second rotating wheel, and a plurality of first rotating rollers, the first transport belt being wound around the first rotating wheel, the first rotating roller, and the second rotating wheel, the first rotating wheel or the second rotating wheel being driven by a first rotating motor.

6. The amusement slide arrangement of claim 4, wherein the third segment and the fourth segment each comprise a third rotating wheel, a fourth rotating wheel, a second conveyor belt, and a plurality of second rotating rollers, the third rotating wheel is arranged far away from the sliding platform, the fourth rotating wheel is arranged close to the sliding platform, the second rotating rollers are arranged between the third rotating wheel and the fourth rotating wheel side by side, the second conveying belt is wound on the third rotating wheel, the second rotating roller and the fourth rotating wheel, the third rotating wheel of the third segment and the third rotating wheel of the fourth segment are synchronously driven by a second rotating motor, or, the fourth rotating wheel of the third segment and the fourth rotating wheel of the fourth segment are synchronously driven by a second rotating motor.

7. The amusement slide apparatus of claim 6 wherein at least one of the first belt transport section, the second belt transport section, the transitional transport section, the third section, and the fourth section includes a first slack adjustment mechanism disposed below a transport surface thereof, the first tightness adjusting mechanism comprises a first adjusting roller, a second adjusting roller and a first supporting frame, the number of the first adjusting rollers is two, the second adjusting roller is arranged between the two first adjusting rollers, and is positioned below the two first adjusting rollers, the second adjusting roller can selectively move along the height direction of the first supporting frame, the first adjusting roller and the second adjusting roller are connected with the first support frame, and the second conveying belt pulley is wound on the upper surface of the first adjusting roller and the lower surface of the second adjusting roller.

8. The amusement slide apparatus of claim 7, wherein each of the third segment and the fourth segment further comprises a second tightness adjusting mechanism located between the first tightness adjusting mechanism and the second belt conveying segment, the second tightness adjusting mechanism comprises a second support frame, a third adjusting roller, a fourth adjusting roller and an adjusting roller mounting seat for mounting the fourth adjusting roller, the third adjusting roller is provided with two third adjusting rollers, the fourth adjusting roller is provided between the two third adjusting rollers, the second support frame comprises a base and two support columns, the support columns are arranged between the base and the third belt conveying segment, two ends of the adjusting roller mounting seat are provided with connecting sleeves for being sleeved on the peripheries of the support columns, the connecting sleeves can move along the height direction of the support columns, and the connecting sleeves are selectively positioned on the support columns through positioning mechanisms, and the second conveying belts of the third subsection and the fourth subsection deviating from the conveying planes of the third subsection are wound on the upper surface of the third adjusting roller and the lower surface of the fourth adjusting roller.

9. The amusement slide device according to claim 1, wherein the buffering water pool comprises a first water pool, a second water pool and a third water pool in a U-shaped structure, the first water pool is connected with the slide body, the third water pool is arranged close to the first belt conveying section, the second water pool is arranged between the first water pool and the second water pool, the width of the first water pool is larger than that of the third water pool, the width of the second water pool is gradually reduced from a direction close to the first water pool to a direction close to the third water pool, and a water flow pushing mechanism is arranged on a side wall of the first water pool and used for enabling water flow to flow from the direction of the first water pool to the direction of the second water pool.

10. The amusement slide apparatus of any one of claims 1 to 9, wherein the slide body includes two first and second helical slides connected in series, an end of the first helical slide distal from the second helical slide being connected to the transition conveyor section, and an end of the second helical slide distal from the first helical slide being connected to the buffer pool.

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