CN205114765U - Variable gradient slant operation container towline adjusting device - Google Patents
Variable gradient slant operation container towline adjusting device Download PDFInfo
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- CN205114765U CN205114765U CN201520837792.8U CN201520837792U CN205114765U CN 205114765 U CN205114765 U CN 205114765U CN 201520837792 U CN201520837792 U CN 201520837792U CN 205114765 U CN205114765 U CN 205114765U
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- hoist ropes
- towline
- operation container
- counterweight
- gradient
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- 238000000034 method Methods 0.000 description 3
- 238000011161 development Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 238000012423 maintenance Methods 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 238000007665 sagging Methods 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
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Abstract
The utility model provides a variable gradient slant operation container towline adjusting device, is applicable to and receives building appearance or tunnel operating mode to influence the slant operation container railway carriage or compartment body or the people's car that makes change of gradient or become the orbit operation. The device pushes down device, towline third wheel device including towline lifting device, towline. Through towline lifting device, prevent that the towline is flagging, push down the device through the towline and prevent the towline rope that wafts, through towline third wheel device, make the railway carriage or compartment body and push down the device through the towline smoothly to heavy to the realization to the towline force direction and the railway carriage or compartment body with to heavy reliable smooth and easy operation. The utility model discloses a variable gradient slant operation container towline adjusting device can satisfy change of gradient's requirement, can realize the reliability service of slant operation container under the change of gradient condition, makes the change of the towline adaptation slope, has solved the big obstacle that slant operation container develops towards slope self -adaptation direction. The utility model discloses simple structure, reliable operation, simple to operate.
Description
Technical field
The utility model relates to a kind of change gradient oblique operation container hoist ropes control apparatus, is particularly useful for affecting by building profile or tunnel operating mode the oblique operation container making slope change or become track operation.
Background technology
Elevator carries important effect as modern vehicles in skyscraper transport, the product that oblique operation container develops as special elevator, can be applied to sight-seeing resort, house is built in the area on hillside, complicated tunnel because city area is nervous and be used for maintainer and carry out high tower, the daily attention of bridge and maintenance.Become the communications and transportation that the gradient oblique operation container goes for the slope of certain slope change, broken the layout principle of traditional oblique operation container, thus there is very strong creativeness and pioneering.Along with the raising of people's living standard, for to go sightseeing and the oblique operation container of upper and lower house is widely used in the area, hillside that tilts and building, and strong, that speed is high, stroke the is far away feature of oblique operation container transport ability also enables visitor enjoy fine scene well.
At present, the use of oblique operation container becomes more and more extensive, existing most of oblique operation container is all that the gradient is constant, this brings very large restriction to the development of oblique operation container, the development becoming the gradient oblique operation container is greatly improved making the applicable elements of oblique operation container, and become the gradient oblique operation container steel rope in operational process there will be sagging and waft rope phenomenon, therefore need to design a kind of gradient oblique operation container hoist ropes control apparatus that becomes to solve the problem, enable traction steel-cable adapt to the change of the gradient.
Summary of the invention
The purpose of this utility model is for problems of the prior art, provide a kind of simple and compact for structure, safe and reliable, take up room the change gradient oblique operation container hoist ropes control apparatus little, to make the smooth and easy operation of whole system.
For achieving the above object: the change gradient of the present utility model oblique operation container hoist ropes control apparatus, comprise upper and lower guide rail, counterweight, hoist ropes, towing machine, the supporting seat supporting envelope and ride on upper rail, described towing machine is located at and becomes top, slope, described hoist ropes pile warp towing machine, one end is connected with the supporting seat run at upper rail, the other end is connected with the counterweight run at lower guideway, and the bottom of hoist ropes connection envelope and counterweight is respectively equipped with hoist ropes and crosses wheel apparatus; The bracing frame that described upper and lower guide rail is positioned at slope hypomere is provided with hoist ropes lifting apparatus, and the bracing frame being positioned at slope epimere is provided with hoist ropes hold-down devices; The below of described towing machine is provided with hoist ropes track adjusting wheel; Be provided with bottom described envelope and be actively coupled plate, be actively coupled side, up front end between plate and supporting seat hinged, side, up rear end is connected with automatic leveling assembly.
Described supporting seat comprises to be lifted platform, is located at the bracing frame of lifting platform upper and is located at the car lifting mesa base and lead boots.
Described hoist ropes lifting apparatus comprises supporting parts, is located at the tie angle bar at supporting parts two ends and the adapter shaft being connected supporting parts and tie angle bar.
Described hoist ropes hold-down devices comprises symmetry and is fixed on the identical gusset piece of two block structures on guide rail bracket, gusset piece is upper parallel is equidistantly provided with the identical riser of three block structures, the top of riser is provided with revolving wheel, the top of revolving wheel is provided with takes turns, parallelly respectively between three pieces of risers be connected with swivel pin and locating dowel pin, described swivel pin is provided with the swivel block that can rotate around swivel pin, the end of swivel block is provided with connecting pin, described swivel block upper weld have through revolving wheel and with on take turns the center shaft be connected, the bearing matched with center shaft is provided with in revolving wheel, one end of bearing is positioned by the shaft shoulder of center shaft, the other end is positioned by axle sleeve, one end of revolving wheel is undertaken spacing by bearing, the other end is undertaken spacing by back-up ring, spring is provided with between described locating dowel pin and connecting pin, one end of spring is fixed on locating dowel pin, the other end is fixed on connecting pin.
Described counterweight comprises front counterweight piece and rear counterweight piece, and former and later two counterweights are hinged, and the bottom of former and later two counterweights is all arranged with counterweight and leads boots.
The bolt that wheel apparatus comprised rope sheave, was distributed in the side plate of rope sheave both sides, connected rope sheave and side plate crossed by described hoist ropes.
Beneficial effect: owing to have employed technique scheme, by arranging hoist ropes lifting apparatus and hoist ropes hold-down devices on guide rail bracket, forced guiding is carried out to hoist ropes, effectively prevent hoist ropes and occur saggingly to restrict with wafing along with the fluctuating of the gradient, ensure that normal traction promotes; The hoist ropes be arranged on supporting seat and counterweight is crossed wheel apparatus and effectively be ensure that envelope and counterweight smoothly by hoist ropes hold-down devices, can make the smooth and easy operation of whole traction system.Compared with prior art, its structure is simple, and safe and reliable, easy to maintenance, successful, has practicality widely.
Accompanying drawing explanation
Fig. 1 is the front elevation of the installation of the overall traction system of the utility model;
Fig. 2 is the front elevation of the utility model hoist ropes lifting apparatus;
Fig. 3 is the front elevation of the hoist ropes hold-down devices that the utility model 2 is arranged in parallel;
Fig. 4 is the birds-eye view of the hoist ropes hold-down devices that the utility model 2 is arranged in parallel;
Fig. 5 is the front elevation that wheel apparatus crossed by the utility model hoist ropes;
Fig. 6 is that the relative position schematic diagram of wheel apparatus through hoist ropes hold-down devices crossed by the utility model hoist ropes.
In figure: 1-envelope; 2-is actively coupled plate; 3-automatic leveling assembly; 4-supporting seat; 4-1-lifts platform; 4-2-bracing frame; 4-3-car leads boots; 5-hoist ropes lifting apparatus; 5-1-supporting parts; 5-2-adapter shaft; 5-3-tie angle bar; 6-hoist ropes hold-down devices; The upper wheel of 6-1-; 6-2-revolving wheel; 6-3-riser; 6-4-gusset piece; 6-5-swivel pin; 6-6-swivel block; 6-7-locating dowel pin; 6-8-spring; 6-9-bearing; 6-10-center shaft; 6-11-axle sleeve; 6-12-back-up ring; 6-13-connecting pin; 7-counterweight; Counterweight piece after 7-1-; Counterweight piece before 7-2-; 7-3-counterweight leads boots; Wheel apparatus crossed by 8-hoist ropes; 8-1-bolt; 8-2-side plate; 8-3-crosses rope sheave; 9-hoist ropes track adjusting wheel; 10-hoist ropes; 11-towing machine.
Detailed description of the invention:
Below in conjunction with accompanying drawing, an embodiment of the present utility model is further described:
Shown in Fig. 1, become the gradient oblique operation container hoist ropes control apparatus, primarily of upper and lower guide rail, counterweight 7, hoist ropes 10, towing machine 11, supports envelope 1 and the supporting seat 4 ridden on upper rail is formed.Described towing machine 11 is located at and becomes top, slope, described hoist ropes 10 pile warp towing machine 11, one end is connected with the supporting seat 4 run at upper rail, the other end is connected with the counterweight 7 run at lower guideway, and described supporting seat 4 comprises to be lifted platform 4-1, be located at the bracing frame 4-2 that lifts platform 4-1 top and be located at the car lifted bottom platform 4-1 and lead boots 4-3.The bottom that hoist ropes 10 connects envelope 1 and counterweight 7 is respectively equipped with hoist ropes and crosses wheel apparatus 8; Described counterweight 7 comprises rear counterweight piece 7-1, the front counterweight piece 7-2 hinged with rear counterweight piece 7-1 and the counterweight be located at bottom rear counterweight piece 7-1 and front counterweight piece 7-2 and leads boots 7-3.The bracing frame that described upper and lower guide rail is positioned at slope hypomere is provided with hoist ropes lifting apparatus 5, and the bracing frame being positioned at slope epimere is provided with hoist ropes hold-down devices 6; The below of described towing machine 11 is provided with hoist ropes track adjusting wheel 9; Arrange bottom described envelope 1 and be actively coupled plate 2, the below being actively coupled plate 2 is provided with supporting seat 4, described in be actively coupled side, up front end between plate 2 and supporting seat 4 hinged, side, up rear end is connected with automatic leveling assembly 3.
Shown in Fig. 2, described hoist ropes lifting apparatus 5 comprises supporting parts 5-1, the tie angle bar 5-3 affixed respectively with supporting parts 5-1 two ends and is connected the adapter shaft 5-2 of supporting parts 5-1 and tie angle bar 5-3.
Shown in Fig. 3 Fig. 4, described hoist ropes hold-down devices 6 comprises symmetry and is fixed on the identical gusset piece 6-4 of on guide rail bracket two pieces, gusset piece 6-4 is upper parallel is equidistantly provided with the identical riser 6-3 of three block structures, the top of riser 6-3 is provided with revolving wheel 6-2, the top of revolving wheel 6-2 is provided with takes turns 6-1, parallelly respectively between three pieces of risers be connected with swivel pin 6-5 and locating dowel pin 6-7, described swivel pin 6-5 is provided with the swivel block 6-6 that can rotate around swivel pin 6-5, the end of swivel block 6-6 is provided with connecting pin 6-13, described swivel block 6-6 upper weld have through revolving wheel 6-2 and with on take turns the center shaft 6-10 that 6-1 is connected, the bearing 6-9 matched with center shaft 6-10 is provided with in revolving wheel 6-2, one end of bearing 6-9 is positioned by the shaft shoulder of center shaft 6-10, the other end is positioned by axle sleeve 6-11, one end of revolving wheel 6-2 is undertaken spacing by bearing 6-9, the other end is undertaken spacing by back-up ring 6-12, described locating dowel pin 6-7 and and connecting pin (6-13) between be provided with spring (6-8), one end of spring 6-8 is fixed on locating dowel pin 6-7, the spring 6-8 other end is fixed on connecting pin 6-13.
Shown in Fig. 5, the bolt 8-1 that wheel apparatus 8 comprised rope sheave 8-3, was distributed in the side plate 8-2 of rope sheave both sides, connected rope sheave 8-3 and side plate 8-2 crossed by described hoist ropes.
Working process: when oblique operation container runs: hoist ropes 10 holds up by the supporting parts 5-1 of hoist ropes lifting apparatus 5, hoist ropes 10 compresses by the revolving wheel 6-2 of hoist ropes hold-down devices 6, realize the forced guiding to hoist ropes 10, the bottom that wheel apparatus 8 is located at supporting seat 4 and counterweight 7 crossed by hoist ropes, and the number that wheel apparatus 8 crossed by hoist ropes lifting apparatus 5, hoist ropes hold-down devices 6, hoist ropes is all consistent with the number of hoist ropes 10.When envelope 1 or counterweight 7 are through hoist ropes hold-down devices 6 by side plate 8-2 by take turns 6-1 and push aside toward the left and right sides, make envelope 1 and counterweight 7 can smoothly by hoist ropes hold-down devices 6, when envelope 1 or counterweight 7 are by after hoist ropes hold-down devices 6, on take turns the effect return of 6-1 due to spring 6-8, hoist ropes 10 is crushed between revolving wheel 6-2 again, as shown in Figure 6.
Claims (6)
1. one kind becomes the gradient oblique operation container hoist ropes control apparatus, comprise, lower guideway, counterweight (7), hoist ropes (10), towing machine (11), the supporting seat (4) supporting envelope (1) and ride on upper rail, it is characterized in that: described towing machine (11) is located at and becomes top, slope, described hoist ropes (10) pile warp towing machine (11), one end is connected with the supporting seat (4) run at upper rail, the other end is connected with the counterweight (7) run at lower guideway, the bottom of hoist ropes (10) connection envelope (1) and counterweight (7) is respectively equipped with hoist ropes and crosses wheel apparatus (8), the bracing frame that described upper and lower guide rail is positioned at slope hypomere is provided with hoist ropes lifting apparatus (5), and the bracing frame being positioned at slope epimere is provided with hoist ropes hold-down devices (6), the below of described towing machine (11) is provided with hoist ropes track adjusting wheel (9), described envelope (1) bottom is provided with and is actively coupled plate (2), and be actively coupled side, up front end between plate (2) and supporting seat (4) hinged, side, up rear end is connected with automatic leveling assembly (3).
2. one according to claim 1 becomes the gradient oblique operation container hoist ropes control apparatus, it is characterized in that: described supporting seat (4) comprises to be lifted platform (4-1), be located at the bracing frame (4-2) of lifting platform (4-1) top and be located at the car lifted bottom platform (4-1) and lead boots (4-3).
3. one according to claim 1 becomes the gradient oblique operation container hoist ropes control apparatus, it is characterized in that: described hoist ropes lifting apparatus (5) comprises supporting parts (5-1), is located at the tie angle bar (5-3) at supporting parts (5-1) two ends and is connected the adapter shaft (5-2) of supporting parts (5-1) with tie angle bar (5-3).
4. one according to claim 1 becomes the gradient oblique operation container hoist ropes control apparatus, it is characterized in that: described hoist ropes hold-down devices (6) comprises symmetry and is fixed on the identical gusset piece (6-4) of two block structures on guide rail bracket, gusset piece (6-4) is upper parallel is equidistantly provided with the identical riser of three block structures (6-3), the top of riser (6-3) is provided with revolving wheel (6-2), the top of revolving wheel (6-2) is provided with takes turns (6-1), parallelly respectively between three pieces of risers be connected with swivel pin (6-5) and locating dowel pin (6-7), described swivel pin (6-5) is provided with the swivel block (6-6) that can rotate around swivel pin (6-5), the end of swivel block (6-6) is provided with connecting pin (6-13), described swivel block (6-6) upper weld have through revolving wheel (6-2) and with on take turns the center shaft (6-10) that (6-1) be connected, the bearing (6-9) matched with center shaft (6-10) is provided with in revolving wheel (6-2), one end of bearing (6-9) is positioned by the shaft shoulder of center shaft (6-10), the other end is positioned by axle sleeve (6-11), one end of revolving wheel (6-2) is undertaken spacing by bearing (6-9), the other end is undertaken spacing by back-up ring (6-12), spring (6-8) is provided with between described locating dowel pin (6-7) and connecting pin (6-13), one end of spring (6-8) is fixed on locating dowel pin (6-7), the other end is fixed on connecting pin (6-13).
5. one according to claim 1 becomes the gradient oblique operation container hoist ropes control apparatus, it is characterized in that: described counterweight (7) comprises front counterweight piece (7-2) and rear counterweight piece (7-1), former and later two counterweights are hinged, and the bottom of former and later two counterweights is all arranged with counterweight and leads boots (7-3).
6. one according to claim 1 becomes the gradient oblique operation container hoist ropes control apparatus, it is characterized in that: the bolt (8-1) that wheel apparatus (8) comprised rope sheave (8-3), was distributed in the side plate (8-2) of rope sheave both sides, connected rope sheave (8-3) and side plate (8-2) crossed by described hoist ropes.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520837792.8U CN205114765U (en) | 2015-10-27 | 2015-10-27 | Variable gradient slant operation container towline adjusting device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520837792.8U CN205114765U (en) | 2015-10-27 | 2015-10-27 | Variable gradient slant operation container towline adjusting device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN205114765U true CN205114765U (en) | 2016-03-30 |
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| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201520837792.8U Expired - Fee Related CN205114765U (en) | 2015-10-27 | 2015-10-27 | Variable gradient slant operation container towline adjusting device |
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| Country | Link |
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| CN (1) | CN205114765U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105151951A (en) * | 2015-10-27 | 2015-12-16 | 中国矿业大学 | Variable-gradient slant operation container hoisting rope adjusting device and method |
-
2015
- 2015-10-27 CN CN201520837792.8U patent/CN205114765U/en not_active Expired - Fee Related
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105151951A (en) * | 2015-10-27 | 2015-12-16 | 中国矿业大学 | Variable-gradient slant operation container hoisting rope adjusting device and method |
| WO2017071028A1 (en) * | 2015-10-27 | 2017-05-04 | 中国矿业大学 | Variable gradient inclined running container traction rope adjustment apparatus and method |
| US10351391B2 (en) | 2015-10-27 | 2019-07-16 | China University Of Mining And Technology | Variable gradient inclined running container traction rope adjustment apparatus and method |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160330 Termination date: 20161027 |
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| CF01 | Termination of patent right due to non-payment of annual fee |