CN219440676U - High-speed arc track flight Weiya equipment - Google Patents

High-speed arc track flight Weiya equipment Download PDF

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Publication number
CN219440676U
CN219440676U CN202320643385.8U CN202320643385U CN219440676U CN 219440676 U CN219440676 U CN 219440676U CN 202320643385 U CN202320643385 U CN 202320643385U CN 219440676 U CN219440676 U CN 219440676U
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China
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rope
self
arc
pulley
flying
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禄志成
张博
王煊
刘亚
陈建雷
颜青山
葛文鹏
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Big Stage Of Gansu Engineering Technology Engineering Co ltd
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Big Stage Of Gansu Engineering Technology Engineering Co ltd
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Abstract

The utility model provides a high-speed arc track flight Weiya device, and relates to the field of stage performance mechanical equipment. The device comprises an arc-shaped track, a flying trolley, a bearing wheel assembly, a horizontal flying drive, a horizontal flying pulley, a lifting drive, a lifting pulley, a half-body Weiya clothing, a traction mechanism, a rope guiding wheel assembly, a self-rope-arranging mechanism, an actor aerial steering mechanism, a self-tensioning mechanism, a trolley line assembly, a wave leakage cable and an electric control box. The horizontal driving of this equipment can install alone and test run, and guide rope wheel subassembly and traction mechanism cooperation make horizontal flight wire rope accurately get into guide rope wheel subassembly race from straining device, guarantee that the flying trolley is walked along arc track high speed with speed and the load of design, adopt wiping line network and leaky wave cable to form two sets of communication mode combinations of wired network and wireless leaky wave, and the communication is good when guaranteeing the flying trolley high-speed operation, and control is accurate.

Description

High-speed arc track flight Weiya equipment
Technical Field
The utility model relates to the field of stage performance mechanical equipment, in particular to a high-speed arc track flight Weiya device.
Background
An arc (or curve) orbital flight Weiya is equipment applied to aeroperformance such as acrobatics, clapping, outdoor entertainment and the like, and is used for performing with visual impact such as air flight, jumping, air wall running and the like. With the development and innovation of performance industry in recent years, the requirements on the performance and the speed of the arc track flight Weiya are higher and higher. The existing arc track flier often has a plurality of problems in the use process, such as loud noise, inaccurate positioning, abnormal sound during high-speed operation, clamping stagnation at a curve, degluing and ageing of a rubber coating wheel, power supply system faults, poor control signals and the like. The patent with the application number of 202210857422.5 provides rail-mounted Weiya equipment, which mainly solves the problem that the existing rail-mounted Weiya equipment occupies large area because a steel wire winding mechanism is arranged on the ground, but a first driving device of the rail-mounted Weiya equipment is directly connected with a rolling wheel, so that the weight of a pulley running on a preset rail is increased, and the problems of slipping of the rolling wheel, abnormal noise generation, inaccurate positioning and the like are also caused; the control box and the control module in the control box are not provided with the external power supply and communication modes, and the problems of power supply system faults, poor control signals and the like can exist.
Disclosure of Invention
Aiming at the problems existing in the use process of the existing arc track flight weiya, the utility model provides high-speed arc track flight weiya equipment which has high running speed and heavy bearing weight, can be used for outdoor shows, indoor theatres and the like, is arranged above side walls on two sides of a seat, is used for realizing the shocking effect of an actor on a cornice along the side walls, and can also be used for other scientific artistic performances.
In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:
the utility model provides a high-speed arc track flight weiya equipment, including arc track, the flight dolly, the bearing wheel subassembly, horizontal flight drive, horizontal flight pulley, lift drive, lift pulley, the sub-clothing of body, the arc track cross-section is H, it is fixed in on the grid top maintenance layer through track horizontal adjustment mechanism, the bearing wheel of bearing wheel subassembly and arc track rolling contact, the bearing wheel is held to the wheel carrier upper portion of bearing wheel subassembly, the sub-car of lower part connection, a plurality of horizontal flight pulleys are installed in grid top maintenance layer and arc track both ends, horizontal flight drive installs on grid top maintenance layer, horizontal flight drive is electric hoist engine, horizontal flight drive's reel is twined horizontal flight wire rope, horizontal flight wire rope is got back to on the reel after horizontal flight pulley leads round, horizontal flight wire rope's both ends are all fixed on horizontal flight drive's reel, the wheel frame of bearing wheel subassembly is last to be installed and is used for centre gripping horizontal flight wire rope's traction mechanism, install from rope mechanism on the flight dolly, from rope mechanism and lift drive connection, the sub-actor connects the sub-clothing steering mechanism through the sub-clothing after the lift pulley of installing on the self-rope mechanism.
Further, track level adjustment mechanism includes first bolt, goes up fixed plate, lower fixed plate, second bolt, mounting panel, goes up fixed plate and mounting panel and passes through first bolted connection, goes up fixed plate and mounting panel and be located bars top maintenance layer upper and lower both sides respectively, and lower fixed plate is fixed in bars top maintenance layer downside, and the second bolt passes the lower fixed plate back butt mounting panel downwards from bars top maintenance layer, mounting panel bottom fixed connection arc track.
Further, a plurality of rope guiding wheel assemblies contacted with the horizontal flying steel wire rope are transversely arranged at the bottom of the arc-shaped track.
Further, a plurality of rope supporting wheel assemblies are vertically arranged at the bottom of the arc-shaped track, and the horizontal flying steel wire rope is not lower than the rope supporting wheel assemblies.
Further, the traction mechanism comprises a stand column and a pressing plate, wherein the stand column is fixed on a wheel frame of the bearing wheel assembly, the pressing plate is connected to the top of the stand column through a bolt, one sides, close to the rope guiding wheel assembly, of the stand column and the pressing plate are respectively connected with a semicircular pressing fixing piece, and the two semicircular pressing fixing pieces enclose a circle to be used for clamping and pressing a horizontal flying steel wire rope.
Further, still include install from straining device on bars top maintenance layer, from straining device includes frame, fixed pulley subassembly, movable pulley subassembly, second counter weight, and the frame is fixed in bars top maintenance layer on, and two fixed pulley subassemblies are installed at the frame top, and the movable pulley subassembly is located the frame, and is located between two fixed pulley subassemblies, and the second counter weight is connected in fixed pulley subassembly bottom, and the wire rope between two fixed pulley subassemblies bypasses the movable pulley subassembly.
Further, a rope stabilizing wheel assembly is further arranged on the flying trolley, the rope stabilizing wheel assembly is located below the lifting pulley, and the lifting steel wire rope passes through the rope stabilizing wheel assembly downwards after bypassing the lifting pulley and is connected with an actor aerial steering mechanism.
Further, the aerial steering mechanism of the actor comprises a lantern ring, a first counterweight, a steering ring, a D-shaped wire lock and a double-bearing pulley, wherein the lower end of a lifting steel wire rope is connected to the lantern ring through a pressing joint, the upper end of the lantern ring is connected with the lantern ring, the lower end of the lantern ring is rotationally connected with the steering ring, the double-bearing pulley is connected to the steering ring through the D-shaped wire lock, and the Willia lifting rope bypasses the double-bearing pulley.
Further, still include the wiping line subassembly, the wiping line subassembly includes the wiping line of laying along arc track one side, installs the current collector on the flight dolly through the support frame, current collector and wiping line sliding connection still are equipped with electric control box on the flight dolly, and electric control box is interior to set up PLC, and PLC is connected with lift drive and current collector respectively, and electric control box passes through the wiping line subassembly power supply and communicates.
Further, the device also comprises a leaky wave cable which is arranged along the arc-shaped track, wherein the arc-shaped track is positioned between the leaky wave cable and the sliding contact line, and the leaky wave cable is in communication connection with a PLC (programmable logic controller) which is arranged in the electrical control box through a wireless signal receiver which is arranged on the electrical control box.
Further, two guide wheel assemblies are mounted on the wheel frame of the bearing wheel assembly, the bearing wheel of the bearing wheel assembly is located between the two guide wheel assemblies, and the horizontally arranged guide wheel assemblies are in rolling contact with the arc-shaped guide rail.
Further, the self-discharging rope mechanism comprises a self-discharging rope support, a self-discharging rope winding drum and a rotating screw rod, wherein the self-discharging rope winding drum and the rotating screw rod are all rotatably arranged on the self-discharging rope support, the self-discharging rope winding drum and the rotating screw rod are arranged in parallel, the self-discharging rope winding drum is positioned above the rotating screw rod, one end of a lifting steel wire rope is wound on the self-discharging rope winding drum, the other end of the lifting steel wire rope is connected with an actor aerial steering mechanism through the rotating screw rod, the self-discharging rope winding drum and the lifting pulley, one end of the lifting driving shaft is far away from the rotating screw rod, the self-discharging rope winding drum is connected with a first sprocket after being penetrated, the self-discharging rope winding drum is far away from one end of the lifting driving shaft, the self-discharging rope winding drum is connected with a second sprocket after being penetrated, and the first sprocket and the second sprocket are connected through a self-discharging rope transmission chain, and a rotating shaft of the self-discharging rope winding drum is fixedly connected with a lifting driving output shaft.
Preferably, a tensioning chain wheel used for tensioning the self-discharging rope transmission chain is further arranged between the first chain wheel and the second chain wheel, and the tensioning chain wheel is in transmission connection with the self-discharging rope transmission chain.
Further, a travel limit switch is arranged on a rotating shaft of the self-rope-arranging winding drum far away from one side of the lifting drive, and the travel limit switch is connected with a PLC in the electric control box.
The beneficial technical effects of the utility model are as follows:
1. the equipment has high running speed and large load, the load reaches 260KG according to the development requirement of the performance industry, and the translation and lifting speeds reach 3.3m/s.
2. The equipment is accurate in positioning, the walking wheel is easy to slip when the equipment with high speed and large load operates in the past, positioning inaccuracy is caused, abnormal sound is generated, the equipment is used for placing the horizontal driving on the grid top and pulling through the horizontal flying steel wire rope, the self weight of the flying trolley is effectively reduced, and the accuracy of position walking is guaranteed by the travel limit switch synchronous with the rotating shaft of the self-rope-arranging winding drum on the self-rope-arranging mechanism.
3. The horizontal driving of the device can be independently installed and tested, the horizontal flying steel wire rope with horizontal circulation is skillfully designed, and the device can also freely run along a curved track and set travel limit under the condition of not driving the flying trolley.
4. The device is provided with the self-tensioning mechanism, and the second counterweight of the self-tensioning mechanism can ensure that the horizontal flying steel wire rope is in a set tensioning range at any time because the position accuracy of the flying trolley can be influenced by the elastic increment when the steel wire rope runs for a long time.
5. The device is independently provided with the special rope guiding wheel assembly and the traction mechanism, and is matched with the self-tensioning mechanism, so that the horizontal flying steel wire rope can accurately enter the rope guiding wheel assembly wheel groove, and the flying trolley can be ensured to walk at a high speed along a curved track at a designed speed and load.
6. The device adopts a combination of a sliding contact line network and a leaky wave cable to form a wired network and a wireless leaky wave communication mode, so that the communication is good when the flying trolley runs at a high speed, and the control is accurate.
Drawings
FIG. 1 is a front view of a high-speed arc orbital flight Weiya apparatus of the utility model;
FIG. 2 is a side view of the flying cart of the present utility model;
FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1;
FIG. 4 is an enlarged view of a portion of FIG. 1 at B;
FIG. 5 is a schematic view of the self-tensioning mechanism of the present utility model;
FIG. 6 is a side view of the self-organizing cord mechanism of the present utility model;
FIG. 7 is a side view of the self-organizing cord mechanism of the present utility model;
reference numerals: 1-arc track, 2-flying trolley, 3-track horizontal adjusting mechanism, 301-first bolt, 302-upper fixed plate, 303-lower fixed plate, 304-second bolt, 305-mounting plate, 4-bearing wheel assembly, 5-horizontal flying drive, 6-horizontal flying steel wire rope, 7-horizontal flying pulley, 8-traction mechanism, 801-upright post, 802-pressing plate, 803-pressing fixing piece, 9-lifting drive, 10-self-rope-discharging mechanism, 1001-self-rope-discharging bracket, 1002-self-discharging rope reel, 1003-rotating screw rod, 1004-self-discharging rope pulley, 1005-self-discharging rope transmission chain, 1006-first sprocket, 1007-tensioning sprocket, 1008-second sprocket, 11-lifting pulley, 12-lifting wire rope, 13-actor aerial steering mechanism, 1301-lantern ring, 1302-first counterweight, 1303-steering ring, 1304-D wire lock, 1305-duplex bearing pulley, 14-Willia lifting rope, 15-half-body Willia clothing, 16-self-tensioning mechanism, 1601-frame, 1602-fixed pulley assembly, 1603-movable pulley assembly, 1604-second counterweight, 17-sheave stabilizing assembly, 18-trolley wire, 19-current collector, 20-leaky wave cable, 21-electrical control box, 22-wireless signal receiver, 23-rope guiding pulley assembly, 24-rope supporting pulley assembly, 25-guide pulley assembly, 26-grid top maintenance layer, 27-travel limit switch.
Detailed Description
The utility model will be further described in detail by means of preferred embodiments in order to make the objects, technical solutions and advantages of the utility model more apparent.
In the description of the present utility model, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present patent and simplify the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present patent. The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise. It should be noted that, unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "disposed" are to be construed broadly, and may be fixedly connected, disposed, detachably connected, disposed, integrally connected, disposed, mechanically connected, or electrically connected, for example; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.
Examples
Referring to fig. 1-7, the high-speed arc track flight weiya equipment of the embodiment comprises an arc track 1, a flight trolley 2, a bearing wheel assembly 4, a horizontal flight driving 5, a horizontal flight pulley 7, a lifting driving 9, a lifting pulley 11 and a half-body weiya clothing 15, wherein the section of the arc track 1 is H-shaped, the arc track 1 is fixed on a grid top maintenance layer 26 through a track horizontal adjusting mechanism 3, the bearing wheels of the bearing wheel assembly 4 are in rolling contact with the arc track 1, the bearing wheels are clamped on the upper parts of wheel frames of the bearing wheel assembly 4, the lower parts of the bearing wheels are connected with the flight trolley 2, a plurality of horizontal flight pulleys 7 are arranged on the grid top maintenance layer 26 and two ends of the arc track 1, the horizontal flight driving 5 is arranged on the grid top maintenance layer 26, the horizontal flight driving 5 is an electric hoist, a winding wire rope 6 is wound on a winding drum of the horizontal flight driving 5, the horizontal flight wire rope 6 is guided to the winding drum through the horizontal flight pulley 7, two ends of the horizontal flight wire rope 6 are fixed on the winding drum of the horizontal flight driving 5, a wheel frame of the bearing wheel assembly 4 is arranged on the horizontal flight wire rope 6, a traction mechanism 8 for clamping the horizontal flight wire rope 6 is arranged on the winding wire rope 2 is connected with the lifting mechanism 10 of the half-body rope 13, and the steering wire rope is connected with the lifting mechanism 10 of the half-body rope 13 through the lifting driving mechanism 10 and the steering wire rope is connected with the lower part of the lifting pulley 13.
In the embodiment, the arc-shaped track 1 is formed by mutually connecting segmented H-steels, and the joints are connected in a pin positioning and bolt fastening mode. Because the equipment has higher speed in operation, the requirements on equipment machining and installation accuracy are extremely high, the joint of the arc-shaped track 1 is matched in a factory for machining, pre-installed and marked, and the arc-shaped track 1 is required to be horizontal and smooth and free of warping. The horizontal and lifting movement speed is 0.01-3.3m/s, the load is 260kg, the horizontal stroke is 36m, and the lifting stroke is 15m. During installation, the high-speed arc track flight weiya equipment is arranged above the left-side auditorium side wall of the upper court opening and above the right-side auditorium side wall of the lower court opening symmetrically, the flying trolley 2 is installed to finish manual traction test run, smooth operation is ensured, and the horizontal flight steel wire rope 6 is wound on the winding drum for at least three circles and then serves as a starting point for calculating the travel.
Specifically, the track level adjustment mechanism 3 includes a first bolt 301, an upper fixing plate 302, a lower fixing plate 303, a second bolt 304, and a mounting plate 305, where the upper fixing plate 302 and the mounting plate 305 are connected by the first bolt 301, the upper fixing plate 302 and the mounting plate 305 are respectively located at the upper and lower sides of the gate top maintenance layer 26, the lower fixing plate 303 is fixed at the lower side of the gate top maintenance layer 26, the second bolt 304 passes through the lower fixing plate 303 from the inside of the gate top maintenance layer 26 downward and then abuts against the mounting plate 305, and the bottom of the mounting plate 305 is fixedly connected with the arc track 1.
Specifically, a plurality of rope guiding wheel assemblies 23 contacted with the horizontal flying steel wire rope 6 are transversely arranged at the bottom of the arc-shaped track 1. The horizontal flying steel wire rope 6 is guided by the rope guiding wheel assembly 23, so that the horizontal flying steel wire rope 6 circularly runs along the arc-shaped track 1.
Specifically, a plurality of rope supporting wheel assemblies 24 are vertically arranged at the bottom of the arc-shaped track 1, and the horizontal flying steel wire rope 6 is not lower than the rope supporting wheel assemblies 24.
Specifically, the traction mechanism 8 comprises a stand 801 and a pressing plate 802, the stand 801 is fixed on a wheel frame of the bearing wheel assembly 4, the pressing plate 802 is connected to the top of the stand 801 through bolts, one sides, close to the rope guiding wheel assembly 23, of the stand 801 and the pressing plate 802 are respectively connected with a semicircular pressing fixing piece 803, and the two semicircular pressing fixing pieces 803 enclose a circle to be used for clamping and pressing the horizontal flying steel wire rope 6. The horizontal flying steel wire rope 6 is clamped by the traction mechanism 8, and when the horizontal flying steel wire rope 6 runs horizontally, the traction mechanism 8 drives the flying trolley 2 to move along the arc-shaped track 1.
Specifically, the self-tensioning device 16 is further arranged on the gate top maintenance layer 26, the self-tensioning device 16 comprises a frame 1601, a fixed pulley assembly 1602, a movable pulley assembly 1603 and a second counterweight 1604, the frame 1601 is fixed on the gate top maintenance layer 26, two fixed pulley assemblies 1602 are arranged on the top of the frame 1601, the movable pulley assembly 1603 is located in the frame 1601 and between the two fixed pulley assemblies 1602, the second counterweight 1604 is connected to the bottom of the fixed pulley assemblies 1602, and a steel wire rope between the two fixed pulley assemblies 1602 bypasses the movable pulley assemblies 1603. The second counterweight 1604 adopts a plurality of counterweights, each of which weighs 20KG, and is recommended to be kept at 60-160KG, and the frame body for bearing the counterweights weighs 40KG.
Specifically, the flying trolley 2 is also provided with a rope stabilizing wheel assembly 17, the rope stabilizing wheel assembly 17 is positioned below the lifting pulley 11, the lifting steel wire rope 12 passes through the rope stabilizing wheel assembly 17 downwards after bypassing the lifting pulley 11 and is connected with the actor aerial steering mechanism 13, and the rope stabilizing wheel assembly 17 has a stable guiding function on the lifting steel wire rope 12.
Specifically, the aerial steering mechanism 13 for actors comprises a collar 1301, a first counterweight 1302, a steering ring 1303, a D-shaped screw lock 1304 and a double-bearing pulley 1305, wherein the lower end of the lifting wire rope 12 is connected to the collar 1301 through a pressing joint, the upper end of the collar 1301 is connected to the collar 1301, the lower end of the collar 1301 is rotatably connected to the steering ring 1303, the double-bearing pulley 1305 is connected to the steering ring 1303 through the D-shaped screw lock 1304, and the waya hoist rope 14 bypasses the double-bearing pulley 1305. The double-bearing pulley 1305 has a dead weight of 0.292KG, a breaking force of 25KN, a main body made of high-strength aluminum alloy and a roller made of 316 stainless steel.
Specifically, still include the wiping line 18 subassembly, the wiping line 18 subassembly includes the wiping line 18 of laying along arc track 1 one side, installs the current collector 19 on the travelling car 2 through the support frame, current collector 19 and wiping line 18 sliding connection still are equipped with electric control box 21 on the travelling car 2, set up PLC in the electric control box 21, PLC is connected with lift drive 9 and current collector 19 respectively, and electric control box 21 passes through the power supply of wiping line 18 subassembly and communicates.
Specifically, the device further comprises a leaky wave cable 20 which is arranged along the arc-shaped track 1, wherein the arc-shaped track 1 is positioned between the leaky wave cable 20 and the trolley wire 18, and the leaky wave cable 20 is in communication connection with a PLC (programmable logic controller) which is arranged in the electric control box 21 through a wireless signal receiver 22 which is arranged on the electric control box 21.
The PLC in the electric control box 21 is connected with a control panel which is remotely arranged outside through a leaky wave cable 20 and/or a trolley line 18 assembly, the control panel is connected with a horizontal drive, and the lifting and horizontal movement of the flying trolley 2 are realized through manual or programming control of the control panel.
Specifically, two guide wheel assemblies 25 are installed on the wheel frame of the bearing wheel assembly 4, the bearing wheel of the bearing wheel assembly 4 is located between the two guide wheel assemblies 25, and the horizontally arranged guide wheel assemblies 25 are in rolling contact with the arc-shaped guide rail.
Specifically, the self-discharging rope mechanism 10 includes a self-discharging rope bracket 1001, a self-discharging rope drum 1002, and a rotating screw 1003, wherein the self-discharging rope drum 1002 and the rotating screw 1003 are rotatably installed on the self-discharging rope bracket 1001, the self-discharging rope bracket 1001 fixed on the flying car 2 is also installed with a self-discharging rope pulley 1004, the self-discharging rope drum 1002 is parallel to the rotating screw 1003, the self-discharging rope drum 1002 is located above the rotating screw 1003, one end of the lifting wire rope 12 is wound on the self-discharging rope drum 1002, the other end is connected with the actor aerial steering mechanism 13 through the rotating screw 1003, the self-discharging rope pulley 1004 and the lifting pulley 11, one end of the rotating screw 1003 far away from the lifting drive 9 penetrates through the self-discharging rope bracket 1001 and then is connected with a first sprocket 1006, one end of the self-discharging rope drum 1002 far away from the lifting drive 9 penetrates through the self-discharging rope bracket 1001 and then is connected with a second sprocket 1008, the first sprocket 1006 is in transmission connection with the second sprocket 1008 through the self-discharging rope transmission chain 1005, and the rotating shaft of the self-discharging rope drum 1002 is fixedly connected with the lifting drive shaft 9; a tensioning chain wheel 1007 for tensioning the self-rope-discharging transmission chain 1005 is further arranged between the first chain wheel 1006 and the second chain wheel 1008, and the tensioning chain wheel 1007 is in transmission connection with the self-rope-discharging transmission chain 1005; a travel limit switch 27 is arranged on a rotating shaft on one side, far away from the lifting drive 9, of the self-discharging rope winding drum 1002, and the travel limit switch 27 is connected with a PLC in an electrical control box.
In this embodiment, the self-rope-arranging mechanism 10 and the lifting drive 9 are located in the horizontal running flying trolley 2, and synchronously run along with the horizontal running flying trolley 2. During operation, the two self-rope-discharging pulleys 1004 are kept relatively fixed with the rope outlet point of the self-rope-discharging winding drum 1002 under the action of the rotary screw 1003, so that the lifting steel wire rope 12 can accurately enter the rope groove of the self-rope-discharging winding drum 1002, stable winding of the lifting steel wire rope 12 during high-speed operation is ensured, and the accurate operation position of the horizontal flying trolley 2 can be effectively ensured by the travel limit switch 27 at the tail part of the self-rope-discharging winding drum 1002.
The working principle and the using method of the utility model are as follows: the traction mechanism 8 on the flying trolley 2 is tightly pressed and fixed with the horizontal flying steel wire rope 6, the actor wears the half-body Weiya clothing 15, the flying trolley 2 is driven by the lifting steel wire rope 12 and the actor air steering mechanism 13, the horizontal driving realizes horizontal driving to drive the flying trolley 2 to move horizontally by driving the horizontal flying steel wire rope 6 to horizontally circulate along the arc-shaped track 1, and the bearing wheels and the guide wheels on the flying trolley 2 are matched to walk on the arc-shaped track 1 to realize curve translation; the lifting drive 9 drives the lifting steel wire rope 12 to lift so as to realize the lifting motion of the flying trolley 2.
Finally, it is also noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.
The foregoing is a preferred embodiment of the present utility model for more detailed description of the technical solution of the present utility model so that those skilled in the art may well understand and utilize the present utility model. Conventional modifications, equivalents, and improvements therein may occur to those skilled in the art without departing from the spirit and principles of the present utility model.

Claims (10)

1. The utility model provides a high-speed pitch arc track flight weiya equipment, includes arc track, travelling car, bearing wheel subassembly, horizontal flight drive, horizontal flight pulley, lift drive, lift pulley, half weiya clothing, and arc track cross-section is H type, its characterized in that: the device is characterized in that the arc-shaped track is fixed on a grid top maintenance layer through a track horizontal adjusting mechanism, a bearing wheel of the bearing wheel assembly is in rolling contact with the arc-shaped track, the upper part of a wheel frame of the bearing wheel assembly clamps the bearing wheel, the lower part of the bearing wheel assembly is connected with a flying trolley, a plurality of horizontal flying pulleys are arranged on the grid top maintenance layer and two ends of the arc-shaped track, a horizontal flying drive is arranged on the grid top maintenance layer, the horizontal flying drive is an electric winch, a horizontal flying steel wire rope is wound on a horizontal flying drive winding drum, the horizontal flying steel wire rope is guided by the horizontal flying pulleys to a circle and then returns to the winding drum, two ends of the horizontal flying steel wire rope are fixed on the horizontal flying drive winding drum, a traction mechanism for clamping the horizontal flying steel wire rope is arranged on a wheel frame of the bearing wheel assembly, the flying trolley is connected with a self-rope-discharging mechanism, the lifting steel wire rope wound on the self-discharging mechanism bypasses a lifting pulley arranged on the flying trolley and then is downwards connected with an actor air steering mechanism, and the air steering mechanism is connected with a half-body-in a way through a sub-lifting rope.
2. The high-speed arc orbital flight weiya apparatus according to claim 1, wherein: track level adjustment mechanism includes first bolt, goes up fixed plate, lower fixed plate, second bolt, mounting panel, goes up fixed plate and mounting panel and passes through first bolted connection, goes up fixed plate and mounting panel and be located bars top maintenance layer upper and lower both sides respectively, and lower fixed plate is fixed in bars top maintenance layer downside, and the second bolt passes the lower fixed plate back butt mounting panel downwards from bars top maintenance layer, mounting panel bottom fixed connection arc track.
3. The high-speed arc orbital flight weiya apparatus according to claim 1, wherein: a plurality of rope guiding wheel assemblies which are contacted with the horizontal flying steel wire rope are transversely arranged at the bottom of the arc-shaped track; a plurality of rope supporting wheel assemblies are vertically arranged at the bottom of the arc-shaped track, and the horizontal flying steel wire rope is not lower than the rope supporting wheel assemblies; two guide wheel assemblies are mounted on the wheel frame of the bearing wheel assembly, the bearing wheel of the bearing wheel assembly is positioned between the two guide wheel assemblies, and the horizontally arranged guide wheel assemblies are in rolling contact with the arc-shaped guide rail.
4. A high-speed arc orbital flight weiya apparatus according to claim 3, wherein: the traction mechanism comprises a stand column and a pressing plate, wherein the stand column is fixed on a wheel frame of the bearing wheel assembly, the pressing plate is connected to the top of the stand column through a bolt, one sides, close to the rope guiding wheel assembly, of the stand column and the pressing plate are respectively connected with a semicircular pressing fixing piece, and the two semicircular pressing fixing pieces are encircled to form a circle for clamping and pressing a horizontal flying steel wire rope.
5. The high-speed arc orbital flight weiya apparatus according to claim 1, wherein: still including installing from straining device on bars top maintenance layer, from straining device includes frame, fixed pulley subassembly, movable pulley subassembly, second counter weight, and the frame is fixed in bars top maintenance layer, and two fixed pulley subassemblies are installed at the frame top, and the movable pulley subassembly is located the frame, and is located between two fixed pulley subassemblies, and the second counter weight is connected in fixed pulley subassembly bottom, and the wire rope between two fixed pulley subassemblies bypasses the movable pulley subassembly.
6. The high-speed arc orbital flight weiya apparatus according to claim 5, wherein: and the flying trolley is also provided with a rope stabilizing wheel assembly, the rope stabilizing wheel assembly is positioned below the lifting pulley, and the lifting steel wire rope passes through the rope stabilizing wheel assembly downwards after bypassing the lifting pulley and is connected with the aerial steering mechanism of the actor.
7. The high-speed arc orbital flight weiya apparatus according to claim 6, wherein: the actor aerial steering mechanism comprises a lantern ring, a first counterweight, a steering ring, a D-shaped wire buckle lock and a double-bearing pulley, wherein the lower end of a lifting steel wire rope is connected to the lantern ring through a pressing joint, the upper end of the lantern ring is connected with the lantern ring, the lower end of the lantern ring is rotationally connected with the steering ring, the double-bearing pulley is connected to the steering ring through the D-shaped wire buckle lock, and the Wiya hoist rope bypasses the double-bearing pulley.
8. The high-speed arc orbital flight weiya apparatus according to claim 1, wherein: still include the wiping line subassembly, the wiping line subassembly includes the wiping line of laying along arc track one side, installs the current collector on the travelling car through the support frame, current collector and wiping line sliding connection still are equipped with electric control box on the travelling car, set up PLC in the electric control box, PLC is connected with lift drive and current collector respectively, and electric control box passes through wiping line subassembly power supply and communication.
9. The high-speed arc orbital flight weiya apparatus according to claim 1, wherein: the electric control box is characterized by further comprising a leaky wave cable which is arranged along the arc-shaped track, wherein the arc-shaped track is positioned between the leaky wave cable and the sliding contact line, and the leaky wave cable is in communication connection with a PLC (programmable logic controller) which is arranged in the electric control box through a wireless signal receiver which is arranged on the electric control box.
10. The high-speed arc orbital flight weiya apparatus according to claim 1, wherein: the self-discharging rope mechanism comprises a self-discharging rope bracket, a self-discharging rope reel and a rotating screw rod, wherein the self-discharging rope reel and the rotating screw rod are rotatably arranged on the self-discharging rope bracket, the self-discharging rope reel and the rotating screw rod are arranged in parallel, the self-discharging rope reel is positioned above the rotating screw rod, one end of a lifting steel wire rope is wound on the self-discharging rope reel, the other end of the lifting steel wire rope is connected with an actor aerial steering mechanism through the rotating screw rod, the self-discharging rope reel and the lifting pulley, one end of the rotating screw rod, far away from the lifting drive, is connected with a first sprocket after penetrating through the self-discharging rope bracket, one end of the self-discharging rope reel, far away from the lifting drive, is connected with a second sprocket after penetrating through the self-discharging rope bracket, the first sprocket is in transmission connection with the second sprocket through a self-discharging rope transmission chain, and a rotating shaft of the self-discharging rope reel is fixedly connected with a lifting drive output shaft; a tensioning chain wheel used for tensioning the self-rope-arranging transmission chain is further arranged between the first chain wheel and the second chain wheel, and the tensioning chain wheel is in transmission connection with the self-rope-arranging transmission chain; and a travel limit switch is arranged on a rotating shaft on one side, far away from the lifting drive, of the self-rope-arranging winding drum, and the travel limit switch is connected with a PLC in the electric control box.
CN202320643385.8U 2023-03-29 2023-03-29 High-speed arc track flight Weiya equipment Active CN219440676U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320643385.8U CN219440676U (en) 2023-03-29 2023-03-29 High-speed arc track flight Weiya equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320643385.8U CN219440676U (en) 2023-03-29 2023-03-29 High-speed arc track flight Weiya equipment

Publications (1)

Publication Number Publication Date
CN219440676U true CN219440676U (en) 2023-08-01

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320643385.8U Active CN219440676U (en) 2023-03-29 2023-03-29 High-speed arc track flight Weiya equipment

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Country Link
CN (1) CN219440676U (en)

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