CN205442513U - Multi -functional energy -concerving and environment -protective lifting machine of stainless steel flat belt drive - Google Patents

Abstract

The utility model discloses multi -functional energy -concerving and environment -protective lifting machine of stainless steel flat belt drive compares with current lifting machine, its safety, energy consumption, benefit, environmental protection etc. And the effect promotes and is showing, thoroughly roots out malignant accident. This scheme includes multiple classification: holding surface hoist, combined supporting face through -hole rings, solid hoist. Connecting tool: the stainless steel flat belt. The flat belt is folded radially mutually, is radially twined in flat sheave race. The deformation work can be strong flat grooved pulley connected power shaft or driven shaft, connection variable force or change speed the driven shaft, connect invisible linear guide. The energy -conserving transmission of multi -functional driven shaft. Decide the holding surface and move holding surface safety, stable transmission combination. The special structure of the flat sheave of holding surface and with the special transmission combination of flat belt. Aerial support static or dynamic and static combination face or solid still can be constructed to the local except that confession spider -man, perpendicular elevator and various lift, hoist safety are used, supply special classification load safety such as sentry post, parking, advertisement, dining room to use.

Description

Rustless steel Belt Drive Easy assembling glass electric elevator

Technical field

Rustless steel Belt Drive Easy assembling glass electric elevator.

Background technology

Existing elevator, maximum problem is safety problem, begins from power source, to unloading eventually, there is heavy unsafe factor:

(1) power source: only spread out of a power steel wire rope from power source, forms the safety of a steel wire rope, affects the safe of entire combination transmission and transmission quality.Article one, steel wire rope, stress is considerably complicated, carries making a concerted effort of various power, once can't bear the heavy load, great serious accident can occur.

(2) steel wire rope: as the steel wire rope of primary drive instrument, profile is the concavo-convex of twisted shape, when carrying out transmission, considerably complicated with transmission race contact site stress, especially again and again, the frictional force produced, during starting operation and braking stop, the dynamic load power being subject to, the race that will make steel wire rope and drive is the most impaired.It, cause deforming in pairs for a long time.The steel wire rope of deformation and race, the transmission being naturally deformed.And the transmission deformed, the most naturally exacerbate the race deformation of steel wire rope and drive.Or even bring disaster to wheel shaft, bearing and other component, thus form vicious cycle.So result, exhausted difficulty is avoided.The impaired deformation of steel wire rope, can produce fracture of wire time serious.Frequent impaired deformation, will again and again produce fracture of wire, thus cause wire rope gearing malfunction, be difficult to ensure safe transmission.Steel wire rope should not be grown rope and be wound around in race, is wound around and takes up space greatly, at power source, has steel wire rope may produce the unsafe factor that mistake is folded in reel race, and to sum up, steel wire rope has heavy unsafe problem.

(3) transmission combination

1. transmission: in combination transmission, owing to steel wire rope is when passing around tackle pulley, steel wire rope produces drift angle in pulley groove.In transmission, the drift angle being difficult to ensure in pulley groove is without departing from 4 °～within 6 ° of allowed bands, its unsafe factor is, when drift angle is excessive, steel wire rope aggravates with the abrasion of pulley groove side, steel wire rope easily skids off grooving, causing lifting operation not to be normally carried out, therefore have an accident 2. transmission combination: the problem of its transmission combination maximum is to drive to suspender, the support being supplied to suspender is only a little, or the point that point-blank number differs.Suspender function is closely bound up with transmission combination.Therefore, it is also only point that suspender is supplied to the support of load, or the point that point-blank number differs.Limit to the function of suspender greatly.

(4) suspender function: the suspender that function is limited to, can only be supplied to the support of the point of load with hook, ring, rope, or number differs, the support point-blank put.Load is caused to sway indefinite.Because load be difficult to ensure its center of gravity and suspender fulcrum on a vertical line, load does not possess steady-state conditions.Therefore, load is unstable.Unstable load, produces and a series of hinders safe problem.To sum up, existing elevator, from power source to suspender, hidden danger, passes through all the time.

Summary of the invention

For in prior art configuration, from power source beginning, to unloading eventually, the heavy unsafe factor existed, the purpose of the present invention, it is to provide one elevator, promotes in operation to ensure, load safety, stablize lifting and move.

Annotation: rustless steel Belt Drive Easy assembling glass electric elevator.It is called for short: energy-conserving and environment-protective elevator.

For achieving the above object, the technical solution used in the present invention is to provide a kind of energy-conserving and environment-protective elevator, includes:

Fastening means: rustless steel flat rubber belting；Radially being stacked in flat sheave race with flat rubber belting in flat two or more flat rubber belting taking the lead to fix of flat sheave race is folded flat rubber belting, and single flat rubber belting or folded flat rubber belting are radially wound around in flat sheave race；The flat sheave of supporting surface is two grooves or the most same flat sheave of two grooves above race groover rot diameter dimensional values；It is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves that flat sheave connects driven shaft, one or more flat sheaves respectively it are connected with the one or more driven shaft on or one or more axis, respectively taking the lead to fix with one or one or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection；Parallel support face is the line shaft on power source, of diverse location power source or one or more axis or driven shaft, power transmission shaft respectively connect one or more and allocate kerve wheel, flat sheave fixed block, surely take the lead to fix, respectively it is connected one or more to move flat sheave, flat-bottom slot wheel fly block with the line shaft on or one or more axis or driven shaft, power transmission shaft, move and take the lead to fix, respectively connects with flat rubber belting；Supporting surface suspender is the line shaft on or one or more axis or driven shaft, power transmission shaft respectively connect one or more move flat sheave, flat-bottom slot wheel fly block, dynamic taking the lead are fixed, are respectively connected with flat rubber belting；Flat sheave connect linear guide be in flat sheave circular sliding slopes flat rubber belting, terminate tangency location to determining deviation supporting surface and in flat sheave straight line connect flat rubber belting to the supporting surface of the one or both sides of determining deviation, in each supporting surface, each connection one or straight line connect more than one axle parallel with flat rubber belting or eccentric shaft, axle or eccentric shaft and connect directive wheel or circular arc termination guide runner；Flat sheave connects solid suspender and is the line shaft on parallel, intersect or one or more axis or driven shaft, power transmission shaft respectively connect one or more and move flat sheave, flat-bottom slot wheel fly block, dynamic take the lead to fix, and respectively connects with flat rubber belting；Combined support face through hole suspension ring are that coaster clamping plate connect cross bar, cross bar interval connects one piece or more than one piece arc end head-clamp plate, circular arc termination adjacent support surfaces in each arc end head-clamp plate reserves one or more arc surface through holes, two or more than two arc end head-clamp plate combination 3 or more than 3 arc surface through holes the most point-blank；Same configuration Symmetric Composite line slideway is the one or more line shaft on or one or more axis or driven shaft respectively connects one or more flat sheaves, and it is parallel the most contrary with one or more direction of rotation on or one or more axis, line shaft or driven shaft that angular velocity is identical respectively connect one or more flat sheaves, respectively connect with flat rubber belting.

This elevator also includes:

Described flat sheave join aggregation power driven shaft is two on or one or more axis or more than two line shafts respectively connect one or more flat sheaves, and one or more the flat sheaves being respectively connected with same driven shaft on an axis, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

Described flat sheave connects and decomposes power driven shaft is that a line shaft on an axis connects one or more flat sheaves, and respectively it is connected one or more flat sheaves with one or two of one or more axis or more than two driven shafts, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

It is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves that described flat sheave connects speed change driven shaft, the flat sheave that the race groover rot diameter dimensional values of one or more flat sheaves being connected with line shaft is the most same respectively it is connected with the one or more driven shaft on or one or more axis, respectively take the lead to fix with one or one or more flat rubber belting one end being radially wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end is taken the lead to fix and is connected the flat sheave that driven shaft connects.

To sum up, these energy-conserving and environment-protective elevator compares with existing elevator, its safety, energy consumption, benefit, environmental protection etc., and effect promoting is notable, thoroughly eradicates serious accident.The machine, in addition to for spider-man, vertical lift and various elevator, crane safety application, also can construct the static or aerial support of be association of activity and inertia face or solid, for special category load safety applications such as sentry post, parking, advertisement, dining rooms.

Accompanying drawing explanation

Fig. 1 is the vertical section structure partial schematic diagram of the symmetry three flat sheave of groove supporting surface of the present invention.

Fig. 2 .1 is the vertical section structure partial schematic diagram of the symmetry three groove flat sheave of assembly supporting surface of the present invention.

Fig. 2 .2,2.3 it is the local device figure of Fig. 2 .1 of the present invention respectively.

Fig. 3 be the present invention terminating set in flat rubber belting circle around steel pipe organigram.

Fig. 4 .1,4.2,4.3 be respectively the present invention terminating set in the front view of arc end head-clamp plate, top view, left view.

Fig. 5 is the terminating set profile construction schematic diagram of the present invention.

Fig. 6 is suspender or the cleat shapes schematic diagram of coaster cross bar connection of the present invention；

Fig. 7 .1,7.2,7.3 are the front view of the eccentric shaft of the present invention, top view, left view respectively.

Fig. 8 is the left view of the assembly eccentric shaft of the present invention.

Fig. 9 is connecting shaft or the channel-section steel organigram of eccentric shaft of the present invention.

Figure 10 is connecting shaft or the assembly channel-section steel organigram of eccentric shaft of the present invention.

Figure 11 is that the three groove supporting surface flat-bottom slot skating car cross bars of the present invention connect the steel pipe organigram in terminating set.

Figure 12 is that the flat rubber belting of the present invention arranges the profile construction schematic diagram taking the lead to fix composition couple connection in flat sheave race planar base surface.

Figure 13 .1 is that the flat rubber belting of the present invention arranges the profile construction schematic diagram taking the lead to fix composition couple connection at flat sheave race cambered surface.

Figure 13 .2,13.3 it is the local device figure of Figure 13 .1 of the present invention respectively.

Figure 14 is that the flat rubber belting of the present invention arranges the profile construction schematic diagram taking the lead to fix composition couple connection outside flat sheave race planar base surface.

Figure 15 .1,15.2 be respectively the present invention flat rubber belting take the lead and take the lead fixed connection method schematic diagram.

Figure 16 .1 be the flat rubber belting of the present invention be to be bordering in more than the 0.01 millimeter flat sheave race of zero the vertical section structure partial schematic diagram being radially wound around at symmetrical flat sheave race groove wing radial dimension.

Figure 16 .2 is the vertical section structure partial schematic diagram that the flat rubber belting of the present invention is radially wound around in symmetrical flat sheave race.

Figure 17 is the vertical section structure partial schematic diagram that three folded flat rubber beltings of the present invention are radially wound around in symmetrical three groove flat sheave race.

Figure 18 is the vertical section structure partial schematic diagram that three folded flat rubber beltings of the present invention are radially wound around in symmetrical three groove supporting surface flat sheave race.

Figure 19 is the vertical section structure partial schematic diagram being radially wound around in two symmetry flat sheave races in two flat rubber beltings platoon combined support face on the same axis of the present invention.

Figure 20 is that two flat rubber beltings of the present invention are spaced in two symmetry flat sheave races of Side by side groupings supporting surface the vertical section structure partial schematic diagram being radially wound around on the same axis.

Figure 21 is the schematic diagram that the flat rubber belting of the present invention connects in linear guide.

Figure 22 is the schematic diagram that the flat rubber belting of radially winding connects at linear guide in flat sheave race of the present invention.

Figure 23 is the organigram of the flat-bottom slot skating car clamping plate connection linear guide of the present invention.

Figure 24 is line shaft and the driven shaft constructed embodiment schematic diagram of the directive wheel connection of the present invention.

Figure 25 is line shaft and the driven shaft constructed embodiment schematic diagram of the line shaft connection of the present invention.

Figure 26 is the identical driven shaft constructed embodiment schematic diagram of two direction of rotation that the two flat sheaves of groove of the present invention connect.

Figure 27 is the different driven shaft constructed embodiment schematic diagram of two direction of rotation that the two flat sheaves of groove of the present invention connect.

Figure 28 is that three line shafts of the present invention connect a driven shaft constructed embodiment schematic diagram.

Figure 29 is the parallel support surface construction embodiment schematic diagram of three groove supporting surface flat sheaves connections of the present invention.

Figure 30 is the parallel support surface construction embodiment schematic diagram of two supporting surface flat sheaves connections in the combined support face of the present invention.

Figure 31 is the connection of the supporting surface of the three flat sheaves of groove supporting surface of the present invention, parallel support surface construction embodiment schematic diagram.

Figure 32 is the parallel support face of the present invention, superposing type combination solid suspender embodiment schematic diagram.

Figure 33 .1 is the parallel support surface construction embodiment schematic diagram of the line shaft connection of the equidirectional rotation of the present invention.

Figure 33 .2 is the driven shaft constructed embodiment schematic diagram of the equidirectional rotation of Figure 33 .1 of the present invention.

Figure 34 .1 is the parallel support surface construction embodiment schematic diagram that the line shaft that the different direction of the present invention rotates connects.

Figure 34 .2 is the driven shaft constructed embodiment schematic diagram that the different direction of Figure 34 .1 of the present invention rotates.

Figure 35 is the connection of the supporting surface of the three flat sheaves of groove supporting surface of the present invention, parallel support face, solid suspender constructed embodiment schematic diagram.

Figure 36 is the parallel support face of two flat sheaves connections of the present invention, solid suspender constructed embodiment schematic diagram.

Figure 37 is the duel spreader frames organigram of the present invention.

Figure 38 is the band of the present invention, the rope public coaster organigram of connection.

Figure 39 is the solid suspender schematic diagram of the present invention.

Figure 40 is flat rubber belting and the solid suspender schematic diagram of rope connection of the present invention.

Figure 41 is flat rubber belting and the nonmetallic materials solid suspender schematic diagram of rope connection of the present invention.

Figure 42 is the solid suspender schematic diagram of the superposing type combination of the present invention.

Figure 43 is the superposing type assemblage zone of the present invention, rope connection solid suspender schematic diagram.

Figure 44 is that the flat sheave of the present invention connects reduction driven axle embodiment schematic diagram.

Figure 45 is that the two flat sheaves of groove supporting surface of the present invention connect the embodiment schematic diagram that reduction driven axle flat rubber belting is continuously connected with.

Figure 46 is that the two flat sheaves of groove of the present invention connect two reduction driven axle embodiment schematic diagrams.

Figure 47 is that the flat sheave of the present invention connects reduction driven axle embodiment schematic diagram.

Figure 48 is that the two flat sheaves of groove supporting surface of the present invention connect different transmission direction, the different reduction driven axle embodiment schematic diagram slowed down.

Figure 49 .1 be the present invention line slideway in the composite construction embodiment schematic diagram of a parallel line shaft opposite to the direction of rotation of line shaft.

Figure 49 .2 be the present invention line slideway in the composite construction embodiment schematic diagram of a parallel driven shaft opposite to the direction of rotation of driven shaft.

Figure 49 .3 be the present invention line slideway in the composite construction embodiment schematic diagram of a parallel driven shaft opposite to the direction of rotation of line shaft.

Figure 49 .4 be the present invention line slideway in two parallel two driven shaft composite construction embodiment schematic diagrams opposite to the direction of rotation of line shaft.

Figure 49 .5 be the present invention line slideway in three line shafts or parallel three line shafts opposite to the direction of rotation of driven shaft or driven shaft composite construction embodiment schematic diagram.

Figure 50 is the line slideway constructed embodiment schematic diagram of two line shafts connections of the rightabout rotation of the present invention.

In figure:

1, line shaft 1A, driven shaft 1 ', power transmission shaft 1 ", axle (axle or eccentric shaft)

2, flat sheave 2 ', flat sheave fixed block 2 ", flat-bottom slot wheel fly block 3, single flat rubber belting

3 ', folded flat rubber belting 3 ", flat rubber belting (single flat rubber belting or folded flat rubber belting) 4 ", carry, public fly block 6 of restricting,

The flat sheave of supporting surface

6 ', supporting surface flat sheave fixed block 6 ", supporting surface flat-bottom slot wheel fly block

7 ", running rope head is fixed 8, is taken the lead to fix 8 ', surely take the lead to fix 8 ", dynamic take the lead to fix 9, lead

To wheel 10, channel-section steel 11, rope 12, steel pipe 13, arc end head-clamp plate 13 ', slide

Car clamping plate 13 ", clamping plate (duel spreader frames or suspension ring clamping plate) 14, cross bar

15, circular arc termination guide runner 16, nut 17, bolt 18, through hole suspension ring 19, packing ring

20, weight 21, duel spreader frames.

Detailed description of the invention

In conjunction with drawings and Examples, the energy-conserving and environment-protective elevator of the present invention is illustrated.

Rustless steel Belt Drive Easy assembling glass electric elevator, includes:

Fastening means: rustless steel flat rubber belting；Radially being stacked in flat sheave race with flat rubber belting in flat two or more flat rubber belting taking the lead to fix of flat sheave race is folded flat rubber belting, and single flat rubber belting or folded flat rubber belting are radially wound around in flat sheave race；The flat sheave of supporting surface is two grooves or the most same flat sheave of two grooves above race groover rot diameter dimensional values；It is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves that flat sheave connects driven shaft, one or more flat sheaves respectively it are connected with the one or more driven shaft on or one or more axis, respectively taking the lead to fix with one or one or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection；Parallel support face is the line shaft on power source, of diverse location power source or one or more axis or driven shaft, power transmission shaft respectively connect one or more and allocate kerve wheel, flat sheave fixed block, surely take the lead to fix, respectively it is connected one or more to move flat sheave, flat-bottom slot wheel fly block with the line shaft on or one or more axis or driven shaft, power transmission shaft, move and take the lead to fix, respectively connects with flat rubber belting；Supporting surface suspender is the line shaft on or one or more axis or driven shaft, power transmission shaft respectively connect one or more move flat sheave, flat-bottom slot wheel fly block, dynamic taking the lead are fixed, are respectively connected with flat rubber belting；Flat sheave connect linear guide be in flat sheave circular sliding slopes flat rubber belting, terminate tangency location to determining deviation supporting surface and in flat sheave straight line connect flat rubber belting to the supporting surface of the one or both sides of determining deviation, in each supporting surface, each connection one or straight line connect more than one axle parallel with flat rubber belting or eccentric shaft, axle or eccentric shaft and connect directive wheel or circular arc termination guide runner；Flat sheave connects solid suspender and is the line shaft on parallel, intersect or one or more axis or driven shaft, power transmission shaft respectively connect one or more and move flat sheave, flat-bottom slot wheel fly block, dynamic take the lead to fix, and respectively connects with flat rubber belting；Combined support face through hole suspension ring are that coaster clamping plate connect cross bar, cross bar interval connects one piece or more than one piece arc end head-clamp plate, circular arc termination adjacent support surfaces in each arc end head-clamp plate reserves one or more arc surface through holes, two or more than two arc end head-clamp plate combination 3 or more than 3 arc surface through holes the most point-blank；Same configuration Symmetric Composite line slideway is the one or more line shaft on or one or more axis or driven shaft respectively connects one or more flat sheaves, and it is parallel the most contrary with one or more direction of rotation on or one or more axis, line shaft or driven shaft that angular velocity is identical respectively connect one or more flat sheaves, respectively connect with flat rubber belting.

This elevator also includes:

Described flat sheave join aggregation power driven shaft is two on or one or more axis or more than two line shafts respectively connect one or more flat sheaves, and one or more the flat sheaves being respectively connected with same driven shaft on an axis, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

Described flat sheave connects and decomposes power driven shaft is that a line shaft on an axis connects one or more flat sheaves, and respectively it is connected one or more flat sheaves with one or two of one or more axis or more than two driven shafts, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

It is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves that described flat sheave connects speed change driven shaft, the flat sheave that the race groover rot diameter dimensional values of one or more flat sheaves being connected with line shaft is the most same respectively it is connected with the one or more driven shaft on or one or more axis, respectively take the lead to fix with one or one or more flat rubber belting one end being radially wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end is taken the lead to fix and is connected the flat sheave that driven shaft connects.

One of energy-conserving and environment-protective elevator feature of the present invention:

One, described fastening means: rustless steel flat rubber belting.

Rustless steel flat rubber belting 3 " feature:

1) flat rubber belting 3 ": for single flat rubber belting 3 or folded flat rubber belting 3 '.

2) function: single flat rubber belting 3 thickness and the thickness strain amplitude size with flexural property are more than 0.01 or 0.01 millimeter, and its flexural property is excellent.There is single flat rubber belting 3 width of flexural property and strain amplitude and folded flat rubber belting 3 ' be respectively provided with while increase carries traction function, keep flat rubber belting 3 " original close flexural property, it is excellent that it carries traction function.Therefore, flat rubber belting 3 " flexural property and to carry the function of traction excellent.

3) material: rustless steel.(recommending the omnipotent rustless steel of austenite)

4) performance: belong to heat resisting steel, has good flexibility, ductility, toughness height, acid and alkali-resistance, corrosion-resistant, at high temperature, has higher intensity and good antioxygenic property.

5) connect: with the face connection with face that flat sheave race is straightway support, phase mutual friction, produce the abrasion being bordering on zero.

6) it is stacked: carrying thin, flat, face is stacked with face, with favourable conditions.

7) being wound around: carry thin, flat, beneficially long band is radially wound around in flat sheave race, and demand space is little.

To sum up, rustless steel flat rubber belting 3 ", apply as transmission band, there is single flat rubber belting 3 and folded flat rubber belting 3 ' dual characteristics.Its transmission is unimpeded, in the application, produces the abrasion being bordering on zero, and rustless steel flat rubber belting and flat sheave race all will not deform, it is ensured that transmission is normal.Its thickness, width, material, being stacked flat rubber belting bar number, the data of four aspect scope of applications, be arranged combination, it strains function, is far superior to steel wire rope.Flat rubber belting radial direction in flat sheave race is stacked, and radially decomposes and is radially wound around, and advantage is incomparable.Rustless steel flat rubber belting, as primary drive instrument, completely eliminates using steel wire rope as unsafe factors many produced by primary drive instrument.There is known V belt translation to have simple in construction, stable drive, absorbing can be buffered, power can be transmitted in big distance between axles and many between centers, and be not required to the easy feature of lubricated maintenance.Rustless steel flat rubber belting is suitably applied as transmission band at elevator, and its transmission agency is excellent, and precision is high, and quality is good, durable, fault-free secret worry.

The two of the energy-conserving and environment-protective elevator feature of the present invention.

Two, be set forth in flat-bottom slot wheel flat two or more flat rubber belting taking the lead to fix of race and flat rubber belting are radially stacked in flat sheave race is folded flat rubber belting, and single flat rubber belting or folded flat rubber belting are radially wound around in flat sheave race.

Flat sheave feature:

1, structure: flat sheave race groove wing radial dimension is more than 0.01 or 0.01 millimeter.

2, classification: more than single cavity, two grooves or two grooves flat sheave.

3, structure: the flat sheave of supporting surface, the flat sheave of assembly.

The feature of folded flat rubber belting:

1) flat rubber belting 3 " be single flat rubber belting 3 or folded flat rubber belting 3 ', therefore, flat rubber belting 3 " with flat rubber belting 3 " radial direction be stacked to constitute folded flat rubber belting 3 ', which includes folded flat rubber belting and be radially stacked to constitute folded flat rubber belting with folded flat rubber belting.

2) folded flat rubber belting 3 ' is in the application, its structure, thick-and-thin connection.

3) folded flat rubber belting 3 ' is in the application, and its structure radially decomposes in the race of flat sheave 2, is stacked, is stacked, decomposes, go round and begin again, the connection moved in circles.

4) folded flat rubber belting 3 ' is while it increases and carry traction function, keeps the flat rubber belting 3 being stacked to constitute folded flat rubber belting 3 ' " original, close flexural property.

5) fold the decomposition of flat rubber belting 3 ', be stacked the connection of structure, not only expand the strong point but also increase connection assembled scheme.

6) it is all folded flat rubber belting and has different the dividing of bar number of the single flat rubber belting being radially stacked, and therefore construct difference, constitute folded flat rubber belting and be stacked as folded flat rubber belting mutually with folded flat rubber belting.

7) folded flat rubber belting be stacked flat rubber belting in flat sheave race, make angular velocity known to uniform circular motion at power or weight-driven identical, linear velocity is different, therefore, that folds flat rubber belting is stacked flat rubber belting, is respectively stacked curve location in circumference, in to boning out closure, make equidistant position and move.

8) folded flat rubber belting is radially wound around in flat sheave race.

Figure 17, Figure 18 are respectively shown in be that folded flat rubber belting is wound around in the radial direction of flat sheave 2 and flat sheave 6.

Figure 32, Figure 35, Figure 36, Figure 39, Figure 42, Figure 43 figure is respectively shown in be that folded flat rubber belting 3 ' radially decomposes in the race of flat sheave 2 and flat sheave 6, is radially stacked.

Lime light in force shown in its each figure: known particle is in the size of circular motion centerline velocities, equal to the product of radius Yu angular velocity size.The each flat rubber belting being stacked in stack flat rubber belting 3 ' shown in each figure is with flat sheave drive, and each linear velocity is different.Therefore, each flat rubber belting after the decomposition of stack flat rubber belting, should be connected with the flat sheave of different radii size, its each radius size difference numerical value, equal to each flat rubber belting gauge numerical value.As relatively thin in being stacked flat rubber belting, it is also possible to regulation wheel to be set, regulates the quality of connection of each flat rubber belting and flat sheave.

The three of the energy-conserving and environment-protective elevator feature of the present invention:

Three, the flat sheave of described supporting surface is two grooves or the most same flat sheave of two grooves above race groover rot diameter dimensional values.

The feature of the flat sheave of supporting surface:

1, the support that connects of the flat sheave of supporting surface is the supporting plane that two or more straightway support combinations being parallel to each other is constituted.As shown in the figure of Fig. 1, Fig. 2 .1, Figure 11.

2, the quantity of supporting surface flat sheave race, width size, the most same race groover rot diameter dimensional values difference amplitude and mutual alignment set the most crucial, and what degree was different affects quality of connection.

3, the flat sheave of assembly is known single cavity, more than two grooves or two grooves flat sheave and two grooves or supported above flat sheave of two grooves is identical or phase isostructure, the race bottom land of material, the race groove wing and bolt, soket head cap screw, sunk screw couples combination, constitutes removable assembly.

1. it being the signal of assembly flat sheave variety classes structure shown in Fig. 2 .1 figure, such as: A) diameter dimension of race bottom land left, center, right is the most same.B) the groove wing in sheave race is single cavity wing groove from left to right, double flute wing un-grooved, the 3 kinds of variety classes structural representations of double flute wing groove.C) in the middle of, race bottom land interference fits connects such as multiple permanent magnet material steel pipes such as carbon steel, wolfram steel, cobalt steels.Its material constructs signal from race bottom land and the different Special Category of groove wing material.

2. the flat sheave of assembly is with race bottom land center-hole diameter a size of positioning datum, and therefore, the center-hole diameter size of the race groove wing should equal to or more than race bottom land center-hole diameter size.

3. the connection of the flat sheave of assembly: screw in race bottom land and the through hole of the race groove wing with bolt, nut fastens.Inside race, the connection of the race groove wing and race bottom land screw is carried out with soket head cap screw or sunk screw.The race inside groove wing and the connection of bottom land in the middle of as shown in Fig. 2 .1 figure.

Soket head cap screw assembling structure shown in Fig. 2 .2, Fig. 2 .3 figure is suitable to sunk screw application.

4. the beneficial effect of the flat sheave of assembly: 1) it is easy to carry out, at race bottom land, the structure taking the lead to fix and connect permanent magnet material steel pipe that difficulty is bigger.As shown in Fig. 2 .1, Figure 12, Figure 13 .1, Figure 14 figure.2) there is just dress, regulation, partial alteration's strain function.3) with preferred permanent magnet material and the selected applicable magnetic force of tube wall thickness size of permanent magnetism steel pipe of permanent magnetism steel pipe, eliminate that the flat rubber belting that is likely to occur is connected with flat sheave throw switch, skidding, thus improve connection precision, guarantee quality of connection.

Terminating set

Terminating set is the transition connecting structure that flat rubber belting takes the lead to be connected with bolt, cross bar, axle or eccentric shaft.

Steel pipe 12 confession shown in Fig. 3 figure is connected with the bolt in terminating set, steel pipe 12 length size should be equal to or more than single flat rubber belting 3 width size.

The quantity of through hole, position shown in the figure of Fig. 4 .1,4.2,4.3, to apply needs to change.Steel pipe 12 shown in Fig. 5 figure is for being attached with bolt.Article one, the two ends of single flat rubber belting 3 are taken the lead, as shown in FIG., be stacked flat rubber belting 3 with two " one end take the lead; carry out riveting with the one of arc end head-clamp plate 13 among two pieces and be integrally formed; carry out riveting the one of arc end head-clamp plate 13 and other one block of arc end head-clamp plate 13 being integrally formed, as shown in FIG., with bolt 17; nut 16 is fastenedly connected, one of terminating set structure with three bands.

The two of terminating set structure:

With the flat rubber belting 3 shown in Fig. 5 figure " a section of one end takes the lead to replace single flat rubber belting 3 and encloses after steel pipe 12; take the lead and flat rubber belting 3 with one section of 1/2nd again " and two pieces among one of arc end head-clamp plate 13 carry out riveting and be integrally formed, the linker after it is integrally formed is described with one of terminating set structure identical.

The three of the structure of terminating set:

Remove the two clamping plates 13 shown in Fig. 5 figure, as shown in FIG., single flat rubber belting 3 of retention enclose after steel pipe 12 as shown in FIG. with flat rubber belting 3 " connection be to glued joint location, to rivet reinforcing.(lime light be single flat rubber belting 3 of being stacked be that straight line connect around tangent position to being stacked initial position from circle.As shown in Figure 12, Figure 14 figure.)

The four of terminating set structure:

The two of terminating set, and three combination.As shown in Fig. 5 figure, remove two shown in figure block arc end head-clamp plate 13, with flat rubber belting 3 " a section of one end takes the lead to replace single flat rubber belting 3 and encloses after steel pipe, then take the lead and flat rubber belting 3 with one section of 1/2nd " directly to glued joint location, it is stacked connection to rivet to fix.

Take the lead to fix:

Figure 12, Figure 14 are respectively shown in take the lead fixing be by known two equal in magnitude, the couple connecting structure of parallel force in opposite direction and not conllinear composition.It is beneficial to ensure that flat sheave is connected high-quality rotation status with axle.1) terminating set shown in figure, with applicable needs, can from as previously mentioned four kinds of terminating set structures preferably.2) couple as illustrated in the drawing is recommended to connect.The connection of non-one terminating set of couple type can also be carried out.3) as shown in Figure 12, Figure 14 figure, steel pipe 12 connecting shaft or eccentric shaft, the through hole reserved in axle or eccentric shaft screw in race planar base surface or outside face, it is connected so that threaded fastener and flat sheave are fixing.

Shown in Figure 13 .1 figure: 1) shown in two flat rubber beltings 3 " rivet with arc circular arc termination clamping plate 13 inner face respectively, carry out the race bottom land of arc circular arc termination clamping plate 13 and flat sheave 2 with soket head cap screw or sunk screw and fix and be connected.2) the arc circular arc termination clamping plate 13 shown in figure, two flat rubber beltings 3 are removed " the direct race cambered surface riveting with flat sheave 2, constitute couple and take the lead to fix.Soket head cap screw assembling structure shown in Figure 13 .2, Figure 13 .3 figure is suitable to sunk screw application.

Annotation:

Figure 12, Figure 13 .1, Figure 14 figure is respectively shown in be: the couple that 1. constitutes connects and also can deduct one and take the lead to fix, and applies one and takes the lead to fix as illustrated in the drawing connection.2. the race bottom land after a combination thereof connects all can constitute the flat sheave of assembly with the race groove wing.Clamping plate 13 shown in Fig. 6 figure " in through-hole diameter size, quantity, arrangement, position, all with application need set.

The spindle nose of eccentric shaft shown in the figure of Fig. 7 .1,7.2,7.3 and the malalignment of axle body, need to set with application.Eccentric shaft application is the eccentric shaft axle body of rotation eccentric axis spindle nose location, radially supports with eccentric shaft axle body circumference difference and regulate its union piece Support Position.

The assembly left spindle nose of eccentric shaft figure shown in Fig. 8 figure is to threaded with axle body, and scheming right spindle nose with axle body is that flat board plug-in type is connected.

Channel-section steel 10 groove wing through hole shown in Fig. 9 figure is connected with axle or assembly eccentric shaft.Bottom land through hole is connected with bolt with frame.The fastener for connection of axle or assembly eccentric shaft and preferred terminating set.

Channel-section steel 10 groove wing through hole shown in Figure 10 figure is connected with axle or eccentric shaft, and bottom land through hole has hole, location, dividing of adjustment hole, is combined body channel-section steel and the connection with frame with bolt.The fastener for connection of axle or eccentric shaft and preferred terminating set.

Steel pipe 12 shown in Figure 11 figure is dynamic with cross bar 14 to be connected, and two cross bars 14 all can be with joint steel pipe 12.

Figure 15 .1, Figure 15 .2 figure are respectively shown in be two flat rubber beltings and two flat rubber beltings are taken the lead to glued joint location and are stacked, reinforce fixing connection with riveting.

Annotation:

Shown in steel pipe 12 in described four kinds of terminating sets structure and Figure 11, Figure 12, Figure 14 figure, steel pipe 12 all can connect with axle or eccentric shaft.

The four of the energy-conserving and environment-protective elevator feature of the present invention:

Four, described flat sheave connects driven shaft is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves, one or more flat sheaves respectively it are connected with the one or more driven shaft on or one or more axis, respectively taking the lead to fix with one or one or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

Flat sheave connection driven shaft feature:

(1) power driven shaft is assembled:

Described gathering power driven shaft is two on or one or more axis or more than two line shafts respectively connect one or more flat sheaves, and one or more the flat sheaves being respectively connected with same driven shaft on an axis, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

It it is the connection combination that is gathered in that a driven shaft 1A flat sheave 2 connects of the power of 3 line shafts 1 shown in Figure 28 figure.Radially be wound around the structure of flat rubber belting in three flat sheaves 2 of its 3 line shafts 1 connections and race, 3 line shaft 1 rotary speeies, startup optimization stop the most necessary identical with braking.The power of line shaft 1, quantity determine the power that driven shaft 1A assembles, and two or more than two, assemble the driven shaft of power, can carry out driven shaft and be continuously connected with driven shaft, assemble the driven shaft of bigger power.So, gathering reassociates, and continues the most lasting connection, can assemble the driven shaft with enormous motivation as required.

The connection of the flat sheave that flat rubber belting is connected with driven shaft can carry out being connected apart from longer, change direction and the straight line with sheave connection angle.It is respectively shown in Figure 24, Figure 25 figure, is beneficial to determine driven shaft and dynamic driven shaft position is arranged.

(2) power driven shaft is decomposed:

Described flat sheave connects and decomposes power driven shaft is that a line shaft on an axis connects one or more flat sheaves, and respectively it is connected one or more flat sheaves with one or two of one or more axis or more than two driven shafts, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

It is respectively shown in Figure 26, Figure 27, Figure 46 figure, can need to arrange the race quantity of the position of flat sheave 2, quantity and flat sheave 2 that line shaft 1 connects according to connecting combination application.

Line shaft is power transmission shaft, it is possible to be interpreted as that the power decomposition of the power mobile formation of line shaft and power assemble axle.

The line shaft being respectively shown in Figure 28, Figure 26, Figure 27, Figure 46 figure and driven shaft, if in location swap shown in figure, Figure 28 is the diagram decomposing power driven shaft.And Figure 26, Figure 27, Figure 46 are the diagram assembling power driven shaft.

(3) speed change driven shaft

It is the one or more line shaft on or one or more axis that described flat sheave connects speed change driven shaftEach connectionOne or more driven shaft on one or more flat sheaves, with one or one or more axisRespectively ConnectThe flat sheave that the race groover rot diameter dimensional values of one or more flat sheaves being connected with line shaft is the most same,Respectively withArticle one, or one or more flat rubber belting one end being radially wound around in flat sheave race takes the lead fixing to connect the flat sheave that line shaft connects, the other end takes the lead fixing to connect the flat sheave that driven shaft connects.

Be respectively shown in Figure 44, Figure 45, Figure 47, Figure 48 figure is the different configuration schematic diagram of reduction driven axle.The motility that the changeable position of its reduction driven axle, flat rubber belting are connected with flat sheave, and the change of changeable structure, closure, deceleration, the plurality of advantages of continued deceleration, its strain function is extremely strong.

Being respectively shown in figure, flat rubber belting is in two or the transmission of the flat sheave of more than two line shafts or driven shaft connection.It is identical linear velocity, the transmission of different angular velocity---rotating speed.The transmission of one or more flat sheaves that flat rubber belting connects in same line shaft or driven shaft, is angular velocity---rotating speed is identical, the transmission of different linear velocities.

The structure of reduction driven axle is change transmission speed, transmission direction, the transmission of drive position.Owing to, in transmission combination, sheave different-diameter size difference amplitude, the mutual position of transmission sheave sets, and participates in the classification of transmission sheave, quantity, deceleration, the different transmission combinations of continued deceleration, and the most crucial, what degree was different affects transmission effect.

The five of the energy-conserving and environment-protective elevator feature of the present invention:

Five, parallel support face is the line shaft on power source, of diverse location power source or one or more axis or driven shaft, power transmission shaft respectively connect one or more and allocate kerve wheel, flat sheave fixed block, surely take the lead to fix, respectively it is connected one or more to move flat sheave, flat-bottom slot wheel fly block with the line shaft on or one or more axis or driven shaft, power transmission shaft, move and take the lead to fix, respectively connects with flat rubber belting.

The flat rubber belting 3 being respectively shown in Figure 16 .1, Figure 16 .2, Figure 17, Figure 18, Figure 19, Figure 20 figure " in flat sheave 2 race, the structure of radially winding is flat disc type driving means, is suitably connected application with line shaft.

The construction features that flat sheave race groove wing radial dimension is more than 0.01 millimeter that is bordering on zero shown in Figure 16 .1 figure:

1, its race groove wing radial dimension equal to or less than connected flat rubber belting 3 " gauge numerical value, for flat rubber belting 3 " be connected positioning datum with flat sheave.

2, it is easy to the installation of flat sheave, debugging and combines with directive wheel, the connection of circular arc termination guide runner in linear guide.

The feature in parallel support face:

Flat rubber belting 3 shown in Figure 29 figure " it is be connected flat with flat sheave race with the connection of flat sheave 6.

Be respectively shown in Figure 29, Figure 30, Figure 31, Figure 33 .1, Figure 34 .1 figure is to determine supporting surface with dynamic supporting surface with flat rubber belting 3 " the parallel support face connection diagram that is connected.

The six of the energy-conserving and environment-protective elevator feature of the present invention:

Six, described supporting surface suspender is the line shaft on or one or more axis or driven shaft, power transmission shaft respectively connect one or more and move flat sheave, flat-bottom slot wheel fly block, dynamic take the lead to fix, and respectively connects with flat rubber belting.

Be respectively shown in Figure 32, Figure 35, Figure 36, Figure 39, Figure 40, Figure 41, Figure 42 figure is to determine the supporting surface of determining that supporting surface and dynamic supporting surface parallel, that intersect connect with folded flat rubber belting 3 ' to be connected combination schematic diagram with solid suspender.

The dynamic supporting surface being respectively shown in Figure 29, Figure 30, Figure 31, Figure 33 .1, Figure 34 .1 figure is supporting surface suspender.

Parallel support surface construction annotation in diagram:

1) flat rubber belting shown in and the connection of flat sheave, be that the straight line being formed without drift angle connects.

2) the parallel support face shown in, be parallel to each other determine supporting surface and dynamic supporting surface.

3) line shaft shown in, driven shaft, power transmission shaft, flat sheave, coaster, take the lead the radical fixed and number is basic diagram, can arrange according to application needs, increase and decrease.

Annotation: shown parallel support face connects, the most extensible connection, composition is determined supporting surface and is connected with solid suspender.Otherwise, determine supporting surface and be connected with solid suspender, the most all can reduce connection, constitute parallel support face and connect.

The seven of the energy-conserving and environment-protective elevator feature of the present invention:

Seven, described flat sheave connect linear guide be in flat sheave circular sliding slopes flat rubber belting, terminate tangency location to determining deviation supporting surface and in flat sheave straight line connect flat rubber belting to the supporting surface of the one or both sides of determining deviation, in each supporting surface, each connection one or straight line connect more than one axle parallel with flat rubber belting or eccentric shaft, axle or eccentric shaft and connect directive wheel or circular arc termination guide runner.

The feature of linear guide:

1) structure of linear guide is the rectilinear orbit that flat rubber belting is attached.2) directive wheel connected in linear guide or circular arc termination guide runner is needed can to choose any one kind of them or mix selection two kinds according to connection.3) axle in linear guide or eccentric shaft all can be connected with channel-section steel or assembly channel-section steel, and channel-section steel or assembly channel-section steel are connected with frame or solid suspender.4) given position of linear guide as shown in Figure 22 figure the rectilinear orbit position of linear guide in two flat rubber beltings 3 " in the middle of the extreme position that is radially wound around in flat sheave race.5) the strain function of linear guide: the horizontal direction as shown in Figure 23 figure and the axle 1 in vertical direction linear guide " respectively is connected with the one of coaster clamping plate 13 ' in two pieces of coaster clamping plate 13 ' respectively; in a clockwise direction or counter clockwise direction two pieces of coaster clamping plate 13 ' of rotation the most respectively; preferred, determine linear guide setting position after, carry out each axle 1 with threaded fastener " be connected with the fixing of two pieces of coaster clamping plate 13 '.Its strain function is the circumferential position of linear guide and coaster clamping plate 13 ', all can apply and need to arrange.6) the rectilinear orbit regulation of linear guide: be rotary shaft 1 " eccentric shaft radially supports regulation axle 1 with eccentric shaft axle body circumference difference " directive wheel that connects of eccentric shaft or guide runner Support Position, circular arc termination.

The eight of the energy-conserving and environment-protective elevator feature of the present invention:

Eight, described flat sheave connects solid suspender and is the line shaft on parallel, intersect or one or more axis or driven shaft, power transmission shaft respectively connect one or more and move flat sheave, flat-bottom slot wheel fly block, dynamic take the lead to fix, and respectively connects with flat rubber belting.

The feature of geometry suspender:

(1) body: be supporting surface within framework shown in the figure of duel spreader frames 21, in its face, with more than three, the dynamic strong point the most point-blank, circle, triangle, square, rectangle, the different geometric dynamic supporting surfaces such as trapezoidal can be formed, the different geometric figures being parallel to each other move supporting surface, connect with flat rubber belting, i.e. constitute the solid suspender of not isomorphy.

(2) classification: solid suspender, nonmetallic materials solid suspender, the superposing type assemblage zone that superposing type combination solid suspender, monomer suspender, binary suspender, bottom surface can more become, connection solid suspender of restricting.

(3) function: 1) safe and stable: parallel in solid suspender, intersect supporting surface can ensure the point of load gravity center have solid in support, it is safe and stable perfectly safe.2) multi-functional: overlength, superelevation, fragmentary, mix, liquid, frangible, explosive, different classes of solid suspender all can be provided.

(4) rope connects: the feature that solid rope connects, and has the direction strain function of rope, can well offset impact load.

(5) handling implement: in the front of solid suspender body, end face, bottom surface, below, side all can arrange handling implement.

(6) superposing type combination solid suspender: be beneficial to its top layer solid and hoister operating room is set.

(7) automatic loading and unloading: upset or revolution with folded flat rubber belting connection combination solid suspender are constituted automatic loading and unloading structure.

The nine of the energy-conserving and environment-protective elevator feature of the present invention:

Nine, described combined support face through hole suspension ring are that coaster clamping plate connect cross bar, cross bar interval connects one piece or more than one piece arc end head-clamp plate, circular arc termination adjacent support surfaces in each arc end head-clamp plate reserves one or more arc surface through holes, two or more than two arc end head-clamp plate combination 3 or more than 3 arc surface through holes the most point-blank.

Shown in Figure 38 figure, 1. the connection of one piece of clamping plate and cross bar is；Clamping plate and cross bar coupling part are one piece of clamping plate, each one or more grooves reserved, each groove arc end tank wing in the one or both ends of one piece of clamping plate, i.e. constitute interval and connect two or more than two arc end head-clamp plate.2. clamping plate 13 " through hole and cross bar 14 dynamic be connected.3. two clamping plates 13 " through hole of through hole suspension ring 18 and through hole one end clamping plate 13 " termination all in arc surface.4. two clamping plates 13 " termination as shown in Fig. 6 figure is 3 through holes, or increase and decrease needed for application.5. through hole suspension ring 18 are fixing with rope sliding fit or fag end is connected.6. two clamping plates 13 " through hole suspension ring 18 to support be the supporting surface of the most point-blank 3 or more than 3 through hole suspension ring 18 combinations.7. within flat rubber belting is connected supporting surface with flat sheave or outside face, one piece or one piece is connected with train wheel bridge 13 in cross bar ".8. be two pieces of thin clamping plate 13 " and one piece of thick clamping plate to be connected different configuration with cross bar 14 partially schematic.

Clamping plate 13 shown in Figure 37 figure " connect duel spreader frames axle 1 " and power transmission shaft.

It is 6 monomer suspender structure signals that the face that folded flat rubber belting 3 ' connects and composes is parallel with face, intersect combination shown in Figure 39 figure.

It is that 4 running rope heads of bottom surface fix 7 shown in Figure 40 figure ", in vertical and horizontal direction, can more conjugate 6 the body suspenders structure signals put.

The rope 11 connected shown in Figure 41 figure, the face of combination is 6 body suspender structure signals that the nonmetallic materials such as cotton, hair, fiber crops, nylon, chinlon are constituted.

Shown in Figure 42 figure is that the superposing type combination solid suspender structure that folded flat rubber belting 3 ' connects illustrates that the solid of top layer is beneficial to arrange hoister operating room.

Superposing type assemblage zone shown in Figure 43 figure, rope connection solid suspender:

With described band, public fly block 4 of restricting " flat-bottom slot that replaces solid suspender bottom surface as shown in Figure 39 figure respectively takes turns fly block 2 ", with shown in Figure 38 figure with, public fly block 4 of restricting " as shown in Figure 40 figure with the signal of 11 connecting structure of restricting.

Superposing type assemblage zone, rope connect the structural representation that solid suspender comprehensive Figure 39, Figure 38, Figure 40 are respectively shown in.

The ten of the energy-conserving and environment-protective elevator feature of the present invention:

Ten, described same configuration Symmetric Composite line slideway is the one or more line shaft on or one or more axis or driven shaft respectively connects one or more flat sheaves, and it is parallel the most contrary with one or more direction of rotation on or one or more axis, line shaft or driven shaft that angular velocity is identical respectively connect one or more flat sheaves, respectively connect with flat rubber belting.

The feature of line slideway:

Its line slideway is the structure of two kinds of moment combinations.

1, trimming moment: known two power of horizontal direction equal in magnitude in opposite direction, and effect is on the same line.

2, resultant moment: under power or action of gravity, two or more are equal in magnitude, direction is intersected for obtuse angle, right angle, acute angle, its act on the resultant moment of power on intersecting straight lines be various angle divide straight line equally, divide straight line equally for dividing vertical line equally, the line slideway that i.e. resultant moment is constituted.

3, the guarantee of line slideway::

It is the debugging dividing vertical line equally strain the strong flat rubber belting of function, flat sheave etc. to carry out dividing straight line equally, to divide vertical line equally for ensureing.

Figure 49 .1, Figure 49 .2, Figure 49 .3, Figure 49 .4, Figure 49 .5 figure are respectively shown in:

1, each line shaft or each driven shaft all can connect one or more flat sheaves 2, and flat sheave is respectively with flat rubber belting 3 " connect.

2, each two line shafts or driven shaft are to determining deviation, the flat rubber belting 3 connected with the flat sheave 2 of each connection " can carry out being affixed, close connect combination and set or required to determining deviation to implement.

3, Figure 49 .1, Figure 49 .2, Figure 49 .3 are respectively a line slideway.Figure 49 .4, Figure 49 .5 are respectively the combination line slideway of more than one line slideway.

4, two shown in Figure 50 figure weight 20 is two load, it is possible to be combined as a weight 20, i.e. one load.

To sum up, the rustless steel Belt Drive Easy assembling glass electric elevator feature of the present invention, compares with existing elevator, is listed as follows:

To sum up, these energy-conserving and environment-protective elevator compares with existing elevator, its safety, energy consumption, benefit, environmental protection etc., and effect promoting is notable, thoroughly eradicates serious accident.The machine, in addition to for spider-man, vertical lift and various elevator, crane safety application, also can construct the static or aerial support of be association of activity and inertia face or solid, for special category load safety applications such as sentry post, parking, advertisement, dining rooms.

Claims (4)

1. rustless steel Belt Drive Easy assembling glass electric elevator, is characterized in that:

Fastening means: rustless steel flat rubber belting；Radially being stacked in flat sheave race with flat rubber belting in flat two or more flat rubber belting taking the lead to fix of flat sheave race is folded flat rubber belting, and single flat rubber belting or folded flat rubber belting are radially wound around in flat sheave race；The flat sheave of supporting surface is two grooves or the most same flat sheave of two grooves above race groover rot diameter dimensional values；It is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves that flat sheave connects driven shaft, one or more flat sheaves respectively it are connected with the one or more driven shaft on or one or more axis, respectively taking the lead to fix with one or one or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection；Parallel support face is the line shaft on power source, of diverse location power source or one or more axis or driven shaft, power transmission shaft respectively connect one or more and allocate kerve wheel, flat sheave fixed block, surely take the lead to fix, respectively it is connected one or more to move flat sheave, flat-bottom slot wheel fly block with the line shaft on or one or more axis or driven shaft, power transmission shaft, move and take the lead to fix, respectively connects with flat rubber belting；Supporting surface suspender is the line shaft on or one or more axis or driven shaft, power transmission shaft respectively connect one or more move flat sheave, flat-bottom slot wheel fly block, dynamic taking the lead are fixed, are respectively connected with flat rubber belting；Flat sheave connect linear guide be in flat sheave circular sliding slopes flat rubber belting, terminate tangency location to determining deviation supporting surface and in flat sheave straight line connect flat rubber belting to the supporting surface of the one or both sides of determining deviation, in each supporting surface, each connection one or straight line connect more than one axle parallel with flat rubber belting or eccentric shaft, axle or eccentric shaft and connect directive wheel or circular arc termination guide runner；Flat sheave connects solid suspender and is the line shaft on parallel, intersect or one or more axis or driven shaft, power transmission shaft respectively connect one or more and move flat sheave, flat-bottom slot wheel fly block, dynamic take the lead to fix, and respectively connects with flat rubber belting；Combined support face through hole suspension ring are that coaster clamping plate connect cross bar, cross bar interval connects one piece or more than one piece arc end head-clamp plate, circular arc termination adjacent support surfaces in each arc end head-clamp plate reserves one or more arc surface through holes, two or more than two arc end head-clamp plate combination 3 or more than 3 arc surface through holes the most point-blank；Same configuration Symmetric Composite line slideway is the one or more line shaft on or one or more axis or driven shaft respectively connects one or more flat sheaves, and it is parallel the most contrary with one or more direction of rotation on or one or more axis, line shaft or driven shaft that angular velocity is identical respectively connect one or more flat sheaves, respectively connect with flat rubber belting.

Elevator the most according to claim 1, it is characterized in that: described flat sheave join aggregation power driven shaft is two on or one or more axis or more than two line shafts respectively connect one or more flat sheaves, and one or more the flat sheaves being respectively connected with same driven shaft on an axis, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

Elevator the most according to claim 1, it is characterized in that: described flat sheave connects and decomposes power driven shaft is that a line shaft on an axis connects one or more flat sheaves, and respectively it is connected one or more flat sheaves with one or two of one or more axis or more than two driven shafts, taking the lead to fix with two or more flat rubber belting one end that radial direction is wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end takes the lead to fix the flat sheave connecting driven shaft connection.

Elevator the most according to claim 1, it is characterized in that: it is that the one or more line shaft on or one or more axis respectively connects one or more flat sheaves that described flat sheave connects speed change driven shaft, the flat sheave that the race groover rot diameter dimensional values of one or more flat sheaves being connected with line shaft is the most same respectively it is connected with the one or more driven shaft on or one or more axis, respectively take the lead to fix with one or one or more flat rubber belting one end being radially wound around in flat sheave race and connect the flat sheave that line shaft connects, the other end is taken the lead to fix and is connected the flat sheave that driven shaft connects.