CN104671048B - Transportation converting machine structure and long distance pedestrian conveying equipment - Google Patents
Transportation converting machine structure and long distance pedestrian conveying equipment Download PDFInfo
- Publication number
- CN104671048B CN104671048B CN201510108623.5A CN201510108623A CN104671048B CN 104671048 B CN104671048 B CN 104671048B CN 201510108623 A CN201510108623 A CN 201510108623A CN 104671048 B CN104671048 B CN 104671048B
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- Prior art keywords
- supply unit
- plugboard
- socket joint
- joint plate
- pedestrian
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B21/00—Kinds or types of escalators or moving walkways
- B66B21/10—Moving walkways
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B23/00—Component parts of escalators or moving walkways
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- Specific Conveyance Elements (AREA)
- Rehabilitation Tools (AREA)
Abstract
The invention discloses a kind of transportation converting machine structure and long distance pedestrian conveying equipment.Transportation converting machine structure for long distance pedestrian conveying equipment, including the first supply unit and the second supply unit, first supply unit and the second supply unit operate and run-in synchronism in the same direction, rotated by dislocation rotating mechanism relative dislocation between first supply unit and the second supply unit, to realize the conveying conversion handing-over between the first supply unit and the second supply unit.Total is simple, stable and safe in operation.Be applicable to various long distance pedestrian conveying equipment joins conversion at a distance, it is adaptable to the conversion of various handing-over angles.
Description
Technical field
The present invention relates to pedestrian's automatic conveying equipment field, especially, relate to a kind of conveying for long distance pedestrian conveying equipment
Shifter.The remote of the above-mentioned transportation converting machine structure for long distance pedestrian conveying equipment is included moreover, it relates to a kind of
Distance pedestrian conveying equipment.
Background technology
At present, the place in the adfluxion of station, harbour, market, airport, exhibition center, gymnasium et al., in order to avoid people concentrates
Stream spring up cause each other trample phenomenon and problem that other people stream aggregation principle causes, some are generally set from moving
The supply unit such as trade, escalator, to form orderly pedestrian's conveying.Supply unit is generally driven by fixing power equipment,
Its pedal is made to make translational motion or lifter motion.And supply unit is mainly by circular flow pedal (or movable road) with hold up
Hands two parts form, and handrail runs simultaneously with pedal, to guarantee pedestrains safety.Supply unit is broadly divided into by version and steps on
Step formula moving sidewalk, belt type moving walk and two-wire system moving sidewalk.
Existing supply unit, cannot shape due to factor impacts such as structure restriction own, power source restriction, bearing capacity restrictions
Becoming lasting long distance delivery unit, supply unit and supply unit are mutually combined and easily cause the clamping to pedestrian or object and cause
Injury also cannot be carried out well integrating so that each unit is one section of independent structure for conveying, often crosses a supply unit all
Needing one section of changeover portion of walking to then proceed to the supply unit of next section, pedestrian is caused great sense of discomfort by such structure,
Between supply unit and walking changeover portion, switching tends to cause the mutual collision etc. between pedestrian to injure simultaneously.
Summary of the invention
The invention provides a kind of transportation converting machine structure for long distance pedestrian conveying equipment and long distance pedestrian conveying equipment, with
Solve existing pedestrian conveying equipment to integrate between supply unit, cause often crossing one section of supply unit and all have to pass through
One section of changeover portion, causes the technical problem of the injuries such as the sense of discomfort of pedestrian and mutual collision.
According to an aspect of the present invention, it is provided that a kind of transportation converting machine structure for long distance pedestrian conveying equipment, including first
Supply unit and the second supply unit, the first supply unit and the second supply unit operate and run-in synchronism in the same direction, the first conveying
Rotated by dislocation rotating mechanism relative dislocation between unit and the second supply unit, to realize the first supply unit and the second conveying
Conveying conversion handing-over between unit.
Further, the first supply unit and the second supply unit are in same transporting flat;Or the first supply unit and second
There is between supply unit an inclination angled conveyor.
Further, dislocation rotating mechanism include: the first plugboard, the first socket joint plate, the second plugboard, the second socket joint plate,
It is located at the first rotating mechanism between the first plugboard and the first socket joint plate and is located between the second plugboard and the second socket joint plate
Two rotating mechanisms;First plugboard and the first socket joint plate are rotationally connected by the first rotating mechanism, the rotary shaft of the first rotating mechanism
Line is arranged along the grafting direction being perpendicular to the first plugboard and the first socket joint plate, the first plugboard and the first socket joint plate structure alternately
Become annular pedestrian's conveyer belt of the first supply unit;Second plugboard and the second socket joint plate are rotationally connected by the second rotating mechanism,
The pivot center of the second rotating mechanism is arranged along the grafting direction being perpendicular to the second plugboard and the second socket joint plate, the second plugboard with
Second socket joint plate constitutes the annular pedestrian's conveyer belt on the second supply unit alternately;Single at the first supply unit and the second conveying
First plugboard and the second socket joint plate at the handing-over position of unit are positioned opposite, in the first supply unit and the handing-over of the second supply unit
The first socket joint plate at position and the second plugboard are positioned opposite.
Further, the first plugboard and/or the second plugboard use short slab and long slab alternately and integral against permutation and combination,
Long slab is in same straight line with the plate center line of short slab;The Plug Division forming two ends outside short slab is stretched out at long slab two ends respectively.
Further, the first socket joint plate and/or the second socket joint plate use long slab and short slab alternately and integral against permutation and combination,
Long slab is on same straight line with the plate center line of short slab;Adjacent two block length plates stretch out and form female part outside short slab, and long slab is stretched from two ends
Go out to be formed outside short slab the female part at two ends;Female part matches with Plug Division.
Further, the contour structures of long slab is the most identical, and the contour structures of short slab is the most identical;The long slab of plate side combination with short slab is
The single piece of integral production molding;Or the long slab of plate side combination and short slab are the assembly making respectively and being then spliced into entirety.
Further, being connected by the first rotary shaft between the first plugboard and the first socket joint plate, the first rotary shaft is along being perpendicular to the
The grafting direction of one plugboard and the first socket joint plate is arranged and is in the grafting region of the first plugboard and the first socket joint plate;The
Being connected by the second rotary shaft between two plugboards and the second socket joint plate, the second rotary shaft edge is perpendicular to the second plugboard and second and holds
The grafting direction of plate is arranged and is in the grafting region of the second plugboard and the second socket joint plate;First rotary shaft and second turn
Moving axis is all away from the handing-over position of the first supply unit and the second supply unit and arranges, and the first supply unit and second carries single
The spatial joint clearance rotated for the first supply unit and the second supply unit relative dislocation is left between unit.
Further, the first plugboard, the first socket joint plate, the second plugboard, the second socket joint plate all include and stand for pedestrian
Pedestrian's loading end and and for transmitting the drive surface of driving force;First plugboard, the first socket joint plate, the second plugboard,
The pedestrian's loading end of at least one in two socket joint plates uses the rubbing surface for preventing pedestrian from slipping;And/or first plugboard,
The drive surface of at least one in one socket joint plate, the second plugboard, the second socket joint plate uses the groove face for engaging with gear.
Further, the first supply unit include least one set for ordering about the first drive mechanism of the first supply unit Unidirectional,
First drive mechanism includes drive shaft, drive shaft is connected with for ordering about the first drive mechanism and the synchronization of the second drive mechanism
The lock unit of operating, for connecting the travelling gear of drive force source and for exporting the driving gear of driving force;And/or second is defeated
Send unit include least one set for ordering about the second drive mechanism of the second supply unit Unidirectional, the second drive mechanism includes driving
Dynamic rotating shaft, drive shaft is connected with for order about the first drive mechanism and the synchronous operated lock unit of the second drive mechanism, for
Connect the travelling gear of drive force source and for exporting the driving gear of driving force.
According to a further aspect in the invention, additionally providing a kind of long distance pedestrian conveying equipment, it includes above-mentioned for remote row
The transportation converting machine structure of people's conveying equipment.
The method have the advantages that
The present invention is for the transportation converting machine structure of long distance pedestrian conveying equipment, by the first supply unit and the second supply unit
In the same direction operating and run-in synchronism, it is ensured that the first supply unit and the second supply unit in operation process relative to the synchronicity of position,
Thus ensure in running the relative positional accuracy at the handing-over position between the first supply unit and the second supply unit;Pass through
Dislocation rotating mechanism realizes the relative dislocation between the first supply unit and the second supply unit and rotates, thus realizes the first conveying list
Conveying conversion handing-over between unit and the second supply unit, owing to intersection location uses relative dislocation to rotate, and is in the same direction
Rotate, it is possible to ensure that each at handing-over position is trampled and is a little respectively provided with drop section area and rising part, it is possible to avoid trampling a little
Clamping, it is ensured that through the handing-over object at position and the safety of pedestrian;Total is simple, stable and safe in operation.It is applicable to each
That plants long distance pedestrian conveying equipment joins conversion at a distance, it is adaptable to the conversion of various handing-over angles.
In addition to objects, features and advantages described above, the present invention also has other objects, features and advantages.Below
Will be with reference to figure, the present invention is further detailed explanation.
Accompanying drawing explanation
The accompanying drawing of the part constituting the application is used for providing a further understanding of the present invention, the illustrative examples of the present invention and
Its explanation is used for explaining the present invention, is not intended that inappropriate limitation of the present invention.In the accompanying drawings:
Fig. 1 is the structural representation of the first supply unit of the preferred embodiment of the present invention;
Fig. 2 is the first plugboard and the connected structure schematic diagram of the first socket joint plate of the preferred embodiment of the present invention;
Fig. 3 is the structural representation of the second supply unit of the preferred embodiment of the present invention;
Fig. 4 is the second plugboard and the connected structure schematic diagram of the second socket joint plate of the preferred embodiment of the present invention;
Fig. 5 is the structural representation of the transportation converting machine structure for long distance pedestrian conveying equipment of the preferred embodiment of the present invention;
Fig. 6 is the structural representation of the first drive mechanism of the preferred embodiment of the present invention;
Fig. 7 is the structural representation of the second drive mechanism of the preferred embodiment of the present invention.
Marginal data:
1, the first supply unit;101, the first plugboard;102, the first socket joint plate;2, the second supply unit;201, second
Plugboard;202, the second socket joint plate;3, dislocation rotating mechanism;301, the first rotating mechanism;302, the second rotating mechanism;4、
Short slab;5, long slab;6, the first rotary shaft;7, the second rotary shaft;8, the first drive mechanism;9, the second drive mechanism;10、
Lock unit;11, travelling gear;12, gear is driven.
Detailed description of the invention
Below in conjunction with accompanying drawing, embodiments of the invention are described in detail, but the present invention can by limit and cover multiple
Different modes is implemented.
Fig. 1 is the structural representation of the first supply unit of the preferred embodiment of the present invention;Fig. 2 is the of the preferred embodiment of the present invention
One plugboard and the connected structure schematic diagram of the first socket joint plate;Fig. 3 is the structure of the second supply unit of the preferred embodiment of the present invention
Schematic diagram;Fig. 4 is the second plugboard and the connected structure schematic diagram of the second socket joint plate of the preferred embodiment of the present invention;Fig. 5 is this
The structural representation of the transportation converting machine structure for long distance pedestrian conveying equipment of invention preferred embodiment;Fig. 6 is that the present invention is excellent
Select the structural representation of the first drive mechanism of embodiment;Fig. 7 is that the structure of the second drive mechanism of the preferred embodiment of the present invention is shown
It is intended to.
As it is shown in figure 5, the transportation converting machine structure for long distance pedestrian conveying equipment of the present embodiment, including the first supply unit 1
With the second supply unit 2, the first supply unit 1 and the second supply unit 2 operate and run-in synchronism, the first supply unit in the same direction
1 and second is rotated by dislocation rotating mechanism 3 relative dislocation between supply unit 2, defeated with second to realize the first supply unit 1
Send the conveying conversion handing-over between unit 2.The present invention is for the transportation converting machine structure of long distance pedestrian conveying equipment, by first
Supply unit 1 and the operating in the same direction of the second supply unit 2 and run-in synchronism, thus ensure that the first supply unit 1 and second is defeated
Send unit 2 synchronicity relative to position in operation process, thus ensure that the first supply unit 1 is defeated with second in running
Send the relative positional accuracy joining position between unit 2.The first supply unit 1 and second is realized by dislocation rotating mechanism 3
Relative dislocation between supply unit 2 rotates, thus the conveying realized between the first supply unit 1 and the second supply unit 2 turns
Change handing-over, owing to intersection location uses relative dislocation to rotate, and be in rotating in same direction, it is possible to ensure joining the every of position
Trample for one and be a little respectively provided with drop section area and rising part, it is possible to avoid the clamping trampled a little, it is ensured that through the thing at handing-over position
Part and the safety of pedestrian.Total is simple, stable and safe in operation.It is applicable to the remote of various long distance pedestrian conveying equipment
Handing-over conversion, it is adaptable to the conversion of various handing-over angles.
In the present embodiment, the first supply unit 1 and the second supply unit 2 are in same transporting flat.As it is shown in figure 5, first
Between supply unit 1 and the second supply unit 2, there is an inclination angled conveyor.Owing to individual unit cannot pass at a distance
Time defeated, the problem easily causing total being not sufficiently stable property of bearing capacity difference, be there is a need to multiple unit and carry out joining from beginning to end, from
And realize long-distance sand transport.The first supply unit 1 and level of the second supply unit 2 can be realized by dislocation rotating mechanism 3
Handing-over and the handing-over with angle of inclination, the scope of application is wider.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, in the present embodiment, dislocation rotating mechanism 3 includes: the first plugboard
101, first socket joint plate the 102, second plugboard the 201, second socket joint plate 202, be located at the first plugboard 101 and the first socket joint plate
The first rotating mechanism 301 between 102 and be located at the second rotating mechanism between the second plugboard 201 and the second socket joint plate 202
302.First plugboard 101 and the first socket joint plate 102 are rotationally connected by the first rotating mechanism 301, the first rotating mechanism 301
Pivot center along be perpendicular to the first plugboard 101 and the first socket joint plate 102 grafting direction layout, the first plugboard 101 He
First socket joint plate 102 constitutes annular pedestrian's conveyer belt of the first supply unit 1 alternately.Guarantee the first plugboard 101 and
The grafting contact of one socket joint plate 102 does not affects the mutual rotation between the first plugboard 101 and the first socket joint plate 102.The
Two plugboards 201 and the second socket joint plate 202 are rotationally connected by the second rotating mechanism 302, the rotation of the second rotating mechanism 302
Axis is arranged along the grafting direction being perpendicular to the second plugboard 201 and the second socket joint plate 202, and the second plugboard 201 and second holds
Plate 202 constitutes the annular pedestrian's conveyer belt on the second supply unit 2 alternately.Guarantee that the second plugboard 201 holds with second
The grafting contact of plate 202 does not affects the mutual rotation between the second plugboard 201 and the second socket joint plate 202.By right
The improvement of annular pedestrian's conveyer belt, thus realize interlocking at handing-over position between the first supply unit 1 and the second supply unit 2
Rotate.The first plugboard 101 and the second socket joint plate 202 at the handing-over position of the first supply unit 1 and the second supply unit 2
Positioned opposite, at first socket joint plate 102 and second plugboard at the handing-over position of the first supply unit 1 and the second supply unit 2
201 is positioned opposite.By the first supply unit 1 and Corresponding matching relation of the second supply unit 2, operated synchronizing and lead to
Cheng Zhong, it is possible to ensure the first plugboard 101 and the handing-over of the second socket joint plate 202 and the first socket joint plate 102 and the second plugboard
The handing-over of 201, so that it is guaranteed that trample a little be respectively provided with drop section area and rising part in each of handing-over position, it is possible to avoid stepping on
Step on clamping a little, it is ensured that through object and the safety of pedestrian at handing-over position.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, in the present embodiment, the first plugboard 101 and/or the second plugboard 201
Use short slab 4 and long slab 5 alternately and integral against permutation and combination, the plate center line of long slab 5 and short slab 4 be in same directly
Line.The outer Plug Division forming two ends of short slab 4 is stretched out at long slab 5 two ends respectively.Form the structure of the coordinating and unifying, facilitate processing and fabricating,
Ensure that the stability that structure is run.Alternatively, the first plugboard 101 and/or the second plugboard 201 use two pieces of short slabs 4
Arrangement is the most again with a block length plate 5 the most alternately.Alternatively, the first plugboard 101 and/or the second plugboard 201 use one piece
Short slab 4 and two pieces are against arranging groups of long slab 5 alternately.Alternatively, the first plugboard 101 and/or the second plugboard 201
Polylith short slab 4 is used to arrange with a block length plate 5 alternately the most again.Alternatively, the first plugboard 101 and/or the second grafting
Plate 201 uses one piece of short slab 4 and polylith against arranging groups of long slab 5 alternately.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, in the present embodiment, the first socket joint plate 102 and/or the second socket joint plate 202
Use long slab 5 and short slab 4 alternately and integral against permutation and combination, the plate center line of long slab 5 and short slab 4 be in same directly
On line.Adjacent two block length plates 5 stretch out and form female part outside short slab 4, and long slab 5 forms holding of two ends from short slab 4 is stretched out at two ends
Interpolating unit.Form the structure of the coordinating and unifying, facilitate processing and fabricating, it is possible to ensure the stability that structure is run.Female part and Plug Division
Match.Thus form structure for conveying the most stable in plane.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, in the present embodiment, the contour structures of long slab 5 is the most identical, short slab 4
Contour structures the most identical.Structure processing and fabricating can be simplified, it is possible to form the streamline of processing.Thus reduce and be fabricated to
This.And the linking precision between structure is more preferable, it is ensured that the stability that structure is run.The long slab 5 of plate side combination with short slab 4 is
The single piece of integral production molding.Globality is more preferable.Long slab 5 and the short slab 4 of plate side combination be make respectively be then spliced into whole
The assembly of body.Carry out assembly after can being pre-machined again, pedestrian's conveyer belt of different in width can be formed, thus be applicable to not
With the pedestrian conveying equipment of width, the scope of application is wider.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, in the present embodiment, the first plugboard 101 and the first socket joint plate 102
Between connected by the first rotary shaft 6, the first rotary shaft 6 is along being perpendicular to the slotting of the first plugboard 101 and the first socket joint plate 102
Connect direction to arrange and be in the grafting region of the first plugboard 101 and the first socket joint plate 102.Guarantee the first plugboard 101
Grafting with the first socket joint plate 102 contacts the mutual rotation not affecting between the first plugboard 101 and the first socket joint plate 102.
First rotary shaft 6 is located in grafting region, facilitates structure to rotate, convenient at the first supply unit 1 and the second supply unit 2
The spacing that handing-over position mutually joins is arranged.By the second rotary shaft 7 between second plugboard 201 and the second socket joint plate 202
Connecting, the second rotary shaft 7 is along being perpendicular to the grafting direction layout of the second plugboard 201 and the second socket joint plate 202 and being in the
In the grafting region of two plugboards 201 and the second socket joint plate 202.Guarantee inserting of the second plugboard 201 and the second socket joint plate 202
Contact does not affects the mutual rotation between the second plugboard 201 and the second socket joint plate 202.Second rotary shaft 7 is located at
In grafting region, facilitate structure to rotate, conveniently join position at the first supply unit 1 with the second supply unit 2 and mutually hand over
The spacing connect is arranged.First rotary shaft 6 and the second rotary shaft 7 are all away from the first supply unit 1 and the second supply unit 2
Handing-over position is arranged, and leaves for the first supply unit 1 and second defeated between the first supply unit 1 and the second supply unit 2
Send the spatial joint clearance that unit 2 relative dislocation rotates.It can be avoided that the first supply unit 1 and the second supply unit 2 self operating with
Interfering of conveying conversion, thus ensure the stationarity of whole linking.
As shown in Figure 4, in the present embodiment, first plugboard the 101, first socket joint plate the 102, second plugboard 201, second hold
Plate 202 all includes the pedestrian's loading end stood for pedestrian and and for transmitting the drive surface of driving force.First plugboard
101, the pedestrian's loading end of at least one in first socket joint plate the 102, second plugboard the 201, second socket joint plate 202 uses and uses
In the rubbing surface preventing pedestrian from slipping;And/or first plugboard the 101, first socket joint plate the 102, second plugboard 201, second hold
The drive surface of at least one in plate 202 uses the groove face for engaging with gear.
As shown in Figure 6 and Figure 7, in the present embodiment, the first supply unit 1 includes that least one set is for ordering about the first supply unit 1
First drive mechanism 8 of Unidirectional, the first drive mechanism 8 includes drive shaft, drive shaft is connected with for ordering about first
Drive mechanism 8 and the second synchronous operated lock unit of drive mechanism 9 10, for connecting the travelling gear 11 of drive force source and using
Driving gear 12 in output driving force;And/or second supply unit 2 include that least one set is single for ordering about the second supply unit 2
To the second drive mechanism 9 of operating, the second drive mechanism 9 includes drive shaft, drive shaft is connected with and drives for ordering about first
Motivation structure 8 and the second synchronous operated lock unit of drive mechanism 9 10, for connecting the travelling gear 11 of drive force source and being used for
The driving gear 12 of output driving force.Alternatively, lock unit 10 be provided with for rotate in the first supply unit 1 and/or
Second supply unit 2 carries out spacing limited impression, limited block or spacing slide rail.Improve the first supply unit 1 and/or second
The supply unit 2 structural stability in conveying transformation process, prevents the first supply unit 1 and/or the second supply unit 2 from driving
Deviate from motivation structure, also be able to assist the first supply unit 1 and/or the second supply unit 2 to rotate simultaneously and realize conveying conversion.
The long distance pedestrian conveying equipment of the present embodiment, including the above-mentioned transportation converting machine structure for long distance pedestrian conveying equipment.
The foregoing is only the preferred embodiments of the present invention, be not limited to the present invention, for those skilled in the art
For, the present invention can have various modifications and variations.All within the spirit and principles in the present invention, any amendment of being made, etc.
With replacement, improvement etc., should be included within the scope of the present invention.
Claims (9)
1. for a transportation converting machine structure for long distance pedestrian conveying equipment,
Including the first supply unit (1) and the second supply unit (2),
It is characterized in that,
Described first supply unit (1) and described second supply unit (2) operate and run-in synchronism in the same direction,
Between described first supply unit (1) with described second supply unit (2) by dislocation rotating mechanism (3) relative
Dislocation rotates, to realize the conveying conversion friendship between described first supply unit (1) and described second supply unit (2)
Connect;
Described dislocation rotating mechanism (3) including: the first plugboard (101), the first socket joint plate (102), the second plugboard
(201), the second socket joint plate (202), be located at described first plugboard (101) and described first socket joint plate (102) it
Between the first rotating mechanism (301) and be located at described second plugboard (201) and described second socket joint plate (202) it
Between the second rotating mechanism (302);
Described first plugboard (101) and described first socket joint plate (102) are turned by described first rotating mechanism (301)
Being dynamically connected, the pivot center of described first rotating mechanism (301) is along being perpendicular to described first plugboard (101) with described
The grafting direction of the first socket joint plate (102) is arranged, described first plugboard (101) and described first socket joint plate (102)
Constitute annular pedestrian's conveyer belt of described first supply unit (1) alternately;
Described second plugboard (201) and described second socket joint plate (202) are rotated even by the second rotating mechanism (302)
Connecing, the pivot center of described second rotating mechanism (302) is along being perpendicular to described second plugboard (201) and described second
The grafting direction of socket joint plate (202) is arranged, described second plugboard (201) and described second socket joint plate (202) are alternate
It is arranged to make up the annular pedestrian's conveyer belt on described second supply unit (2);
Described first plugboard described first supply unit (1) with the handing-over position of described second supply unit (2)
(101) positioned opposite with described second socket joint plate (202), in described first supply unit (1) and described second conveying
The described first socket joint plate (102) at the handing-over position of unit (2) is positioned opposite with described second plugboard (201).
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to claim 1, it is characterised in that
Described first supply unit (1) and described second supply unit (2) are in same transporting flat;Or
Between described first supply unit (1) and described second supply unit (2), there is an inclination angled conveyor.
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to claim 1, it is characterised in that
Described first plugboard (101) and/or described second plugboard (201) use short slab (4) and long slab (5) phase
Between arrangement integral against permutation and combination, the plate center line of described long slab (5) and described short slab (4) is in same straight line;
Described long slab (5) two ends are stretched out described short slab (4) respectively and are formed outward the Plug Division at two ends.
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to claim 3, it is characterised in that
Described first socket joint plate (102) and/or described second socket joint plate (202) use long slab (5) and short slab (4) phase
Between arrangement integral against permutation and combination, the plate center line of described long slab (5) and described short slab (4) is in same straight line
On;
Adjacent two pieces of described long slabs (5) are stretched out described short slab (4) and are formed outward female part, and described long slab (5) is stretched from two ends
Go out described short slab (4) and form outward the female part at two ends;
Described female part matches with described Plug Division.
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to claim 4, it is characterised in that
The contour structures of described long slab (5) is the most identical, and the contour structures of described short slab (4) is the most identical;
The described long slab (5) of plate side combination and described short slab (4) are integrated the single piece making molding;Or
The described long slab (5) of plate side combination and described short slab (4) are the assembly making respectively and being then spliced into entirety.
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to claim 1, it is characterised in that
It is connected by the first rotary shaft (6) between described first plugboard (101) with described first socket joint plate (102),
Described first rotary shaft (6) is along the grafting being perpendicular to described first plugboard (101) and described first socket joint plate (102)
Direction is arranged and is in the grafting region of described first plugboard (101) and described first socket joint plate (102);
It is connected by the second rotary shaft (7) between described second plugboard (201) with described second socket joint plate (202),
Described second rotary shaft (7) is along the grafting being perpendicular to described second plugboard (201) and described second socket joint plate (202)
Direction is arranged and is in the grafting region of described second plugboard (201) and described second socket joint plate (202);
Described first rotary shaft (6) and described second rotary shaft (7) are all away from described first supply unit (1) and institute
The handing-over position stating the second supply unit (2) is arranged, and described first supply unit (1) and described second supply unit
(2) sky rotated for described first supply unit (1) and described second supply unit (2) relative dislocation is left between
Between gap.
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to any one of claim 1 to 6, its feature exists
In,
Described first plugboard (101), described first socket joint plate (102), described second plugboard (201), described
Two socket joint plates (202) all include the pedestrian's loading end stood for pedestrian and and for transmitting the drive surface of driving force;
Described first plugboard (101), described first socket joint plate (102), described second plugboard (201), described
The described pedestrian's loading end of at least one in two socket joint plates (202) uses the rubbing surface for preventing pedestrian from slipping;With/
Or
Described first plugboard (101), described first socket joint plate (102), described second plugboard (201), described
The described drive surface of at least one in two socket joint plates (202) uses the groove face for engaging with gear.
Transportation converting machine structure for long distance pedestrian conveying equipment the most according to any one of claim 1 to 6, its feature exists
In,
Described first supply unit (1) includes that least one set is for ordering about described first supply unit (1) Unidirectional
First drive mechanism (8), the first drive mechanism (8) includes drive shaft, drive shaft is connected with for ordering about first
Drive mechanism (8) and the second drive mechanism (9) synchronous operated lock unit (10), for connecting the transmission of drive force source
Gear (11) and for exporting the driving gear (12) of driving force;And/or
Described second supply unit (2) includes that least one set is for ordering about described second supply unit (2) Unidirectional
Second drive mechanism (9), the second drive mechanism (9) includes drive shaft, drive shaft is connected with for ordering about first
Drive mechanism (8) and the second drive mechanism (9) synchronous operated lock unit (10), for connecting the transmission of drive force source
Gear (11) and for exporting the driving gear (12) of driving force.
9. a long distance pedestrian conveying equipment, it is characterised in that include according to any one of claim 1 to 8 for remote row
The transportation converting machine structure of people's conveying equipment.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510108623.5A CN104671048B (en) | 2015-03-12 | 2015-03-12 | Transportation converting machine structure and long distance pedestrian conveying equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201510108623.5A CN104671048B (en) | 2015-03-12 | 2015-03-12 | Transportation converting machine structure and long distance pedestrian conveying equipment |
Publications (2)
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CN104671048A CN104671048A (en) | 2015-06-03 |
CN104671048B true CN104671048B (en) | 2016-08-17 |
Family
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CN201510108623.5A Expired - Fee Related CN104671048B (en) | 2015-03-12 | 2015-03-12 | Transportation converting machine structure and long distance pedestrian conveying equipment |
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DE68919011T2 (en) * | 1988-07-25 | 1995-02-23 | Loderway Pty Ltd | A moving walkway. |
JP3557753B2 (en) * | 1994-10-14 | 2004-08-25 | フジテック株式会社 | Moving sidewalk |
JPH09323881A (en) * | 1996-06-05 | 1997-12-16 | Nkk Corp | Pallet structure of variable speed type passenger conveyer |
JP2000318961A (en) * | 1999-05-12 | 2000-11-21 | Ishikawajima Harima Heavy Ind Co Ltd | Handrail for acceleration/deceleration type moving sidewalk |
JP2007050958A (en) * | 2005-08-17 | 2007-03-01 | Hitachi Ltd | Variable speed type motor driven road facility |
CN101565148B (en) * | 2009-05-31 | 2011-06-08 | 钟波 | Long distance pedestrian conveying equipment |
CN203064983U (en) * | 2013-02-22 | 2013-07-17 | 管小峰 | Combined escalator |
CN204490296U (en) * | 2015-03-12 | 2015-07-22 | 长沙华嵘环境科技有限公司 | Transportation converting machine structure and long distance pedestrian conveying equipment |
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