CN205820331U - A kind of conveying arrangement for suspender - Google Patents
A kind of conveying arrangement for suspender Download PDFInfo
- Publication number
- CN205820331U CN205820331U CN201620752471.2U CN201620752471U CN205820331U CN 205820331 U CN205820331 U CN 205820331U CN 201620752471 U CN201620752471 U CN 201620752471U CN 205820331 U CN205820331 U CN 205820331U
- Authority
- CN
- China
- Prior art keywords
- suspender
- shift fork
- conveying arrangement
- roller
- orbital groove
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Load-Engaging Elements For Cranes (AREA)
Abstract
This utility model relates to de-extension cableway conveyor technical field, specifically discloses a kind of conveying arrangement for suspender, including: supporting track;It is arranged in described supporting track and can carry out, along described supporting track, the moving assembly that moves;And be connected with described moving assembly and can be by suspender transport to ground shift fork.This conveying arrangement have transport steadily, safety is high and the advantage of length in service life.
Description
Technical field
This utility model relates to de-extension cableway conveyor technical field, particularly relates to a kind of transport for suspender and fills
Put.
Background technology
At present, existing most of suspenders are usually located on ground, but being on the increase along with suspender quantity, it takies
Land area is the most increasing.Thus, when suspender cannot be built on the ground owing to limiting by orographic condition, just need
Suspender is built and is located in the ground.Based on such consideration, special conveying arrangement need to be had to be transported on ground by suspender.Existing
Conveying arrangement generally use chaindriven mode to realize the transmission of power, so that suspender is transported on ground.But due to transport
Circuit longer, thus, existing conveying arrangement after a period of operation, chain often downwarp, thus cause cannot be suitable
Suspender is transported ground problem by profit ground.
Based on the analysis to above-mentioned prior art, a kind of conveying arrangement for suspender need to be designed, above-mentioned existing to solve
Problem present in technology.
Utility model content
(1) to solve the technical problem that
The purpose of this utility model is to provide a kind of conveying arrangement for suspender, with solve present in prior art by
The phenomenon that transportation route in conveying arrangement is longer and makes chain be susceptible to downwarp, thus cause cannot be successfully by suspender
Transport is to ground problem.
(2) technical scheme
In order to solve above-mentioned technical problem, this utility model provides a kind of conveying arrangement for suspender, including: supporting rail
Road;It is arranged in described supporting track and can carry out, along described supporting track, the moving assembly that moves;And with described mobile group
Part is connected and can be by suspender transport to ground shift fork.
Wherein, described supporting track includes the first supporting rail and the second supporting rail that symmetrically formula is arranged, wherein, described
It is configured with the first orbital groove, in the court of described second supporting rail on the sidewall towards described second supporting rail of the first supporting rail
It is configured with the second orbital groove on the sidewall of described first supporting rail.
Wherein, the bore phase of the bore of the opening of described first orbital groove and the opening of described second orbital groove
With.
Wherein, described moving assembly includes multiple roller group arranged in compartment, and wherein, each described roller group includes setting
Put the first roller in described first orbital groove and the second roller being arranged in described second orbital groove, and difference
Connect described first roller and the connecting rod of described second roller.
Wherein, the outer surface of described first roller matches with the Internal periphery face of described first orbital groove, and described
The outer surface of second wheel matches with the Internal periphery face of described second orbital groove.
Wherein, described shift fork includes the first shift fork side plate and second group of side fork plate, and connects described first shift fork respectively
Side plate and the thrust plate of described second shift fork side plate.
Wherein, the elongated end of described thrust plate is configured to small end towards upstream pyramidal structure, and described elongated end is the most convex
Outside outer surface for the outer surface of end of described first shift fork side plate and the end of described second shift fork side plate.
Wherein, described conveying arrangement also includes being separately positioned on outside first outer panel and second of the both sides of described shift fork
Plate, wherein, described connecting rod is each passed through the first end and first end of described second outer panel of described first outer panel.
Wherein, described conveying arrangement also includes sequentially passing through the second end of described first outer panel, described second outer panel
The second end and described shift fork connect end securing member.
Wherein, described conveying arrangement also includes making described shift fork carry out the elastic reset part resetted, described elastic reset
One end of part snaps onto in described connecting rod, and the other end is fixing with the connection end of described shift fork to be connected.
(3) beneficial effect
The conveying arrangement that this utility model provides, compared with prior art, the moving assembly of the application is equivalent to existing
Chain on the basis of add multiple roller group, meanwhile, be ad hoc additionally arranged supporting track for moving assembly.Such that make
The route of transportation lifting appliance is longer, and chain of the prior art also will not be occurred to produce the problem of sag in the vertical, so that
Shift fork can contact with suspender in the moment, it is ensured that suspender stationarity in transportation, safety and reliability.
Additionally, suspender can be dodged under the effect of elastic reset part by the shift fork of the application the most neatly, with
Time, also can automatically reset under the effect of elastic reset part.
The thrust plate of the application is fabricated by by flexible material, thus greatly reduce the degree of injury to suspender,
Extend service life.
Accompanying drawing explanation
Fig. 1 is the first structural representation of the conveying arrangement for suspender of this utility model embodiment;
Fig. 2 is the second structural representation of the conveying arrangement for suspender of this utility model embodiment;
Fig. 3 is the status architecture schematic diagram of the transportation lifting appliance of the conveying arrangement for suspender of this utility model embodiment.
Wherein, 100: conveying arrangement;200: suspender;1: supporting track;11: the first supporting rails;12: the second supporting rails;
11a: the first orbital groove;The opening of the 11b: the first orbital groove;11c: Internal periphery face;12a: the second orbital groove;12b:
The opening of the second orbital groove;12c: Internal periphery face;2: moving assembly;21: roller group;211: the first rollers;212: the second
Roller;The outer surface of 220: the second rollers;213: connecting rod;The outer surface of 210: the first rollers;3: shift fork;31: the first
Shift fork side plate;32: the second shift fork side plates;33: thrust plate;34: connect end;The outer surface of the 31a: the first shift fork side plate;32a: the
The outer surface of two shift fork side plates;33a: elongated end;4: the first outer panels;First end of 41: the first outer panels;Outside 42: the first
Second end of plate;5: the second outer panels;First end of 51: the second outer panels;Second end of 52: the second outer panels;6: securing member;
7: elastic reset part;71: the first end of elastic reset part;72: the second end of elastic reset part;α: the first angle.
Detailed description of the invention
With embodiment, embodiment of the present utility model is described in further detail below in conjunction with the accompanying drawings.Following example
For this utility model is described, but can not be used for limiting scope of the present utility model.
As depicted in figs. 1 and 2, Fig. 1 and Fig. 2 show schematically show the conveying arrangement 100 that the present embodiment provides, including propping up
Support track 1, moving assembly 2 and shift fork 3.
The profile of this supporting track 1 is similar to railroad track, for ensureing that this supporting track 1 has certain structural strength, and should
The manufacture material of supporting track 1 should have certain rigidity and hardness.In a specific embodiment, this supporting track 1
Can be fabricated by by alloy steel material.
It addition, for convenience of the application conveying arrangement 100 by suspender 200 successfully from underground haulage to ground on, thus,
This supporting track 1 can be configured to the inclined plane with the horizontal certain angle.The specific size of this certain angle can basis
Actual service condition specifically determines.Such as, can be 30 degree, 45 degree or 60 degree etc..
In this moving assembly 2 is arranged on supporting track 1 and can move along this supporting track 1.Specifically, this is moved
Assembly 2 is arranged in supporting track 1, and this supporting track 1 is that the motion of this moving assembly 2 provides enough spaces.
It addition, by above-mentioned moving assembly 2 is arranged in supporting track 1, under the supporting role of this supporting track 1,
Make above-mentioned moving assembly 2 position in the vertical can be always maintained at constant, efficiently avoid moving assembly 2 in motion
During there is the drawback of dipping and heaving.
Shift fork 3 is connected with moving assembly 2 and can be transported to ground by suspender 200.Specifically, by by shift fork 3 with
Moving assembly 2 is connected, thus so that shift fork 3 can move along with the motion of moving assembly 2, is promoted by this shift fork 3 and hangs
Tool 2 gradually moves upward along slope, thus by this suspender 2 successfully from underground haulage to ground on.
It addition, under the supporting role of supporting track 1 so that above-mentioned moving assembly 2 can be protected in longitudinal displacement always
Hold constant.But, owing to the shift fork 3 in the application is connected with this moving assembly 2, thus, this supporting track 1 is also to shift fork
3 serve certain supporting role indirectly, so that this shift fork 3 also is able to be always maintained at constant in longitudinal position.Enter
One step ground, it is ensured that this shift fork 3 can contact with suspender 200 always, with by this suspender 200 successfully from underground haulage to ground
On face.
As shown in Figure 1, Figure 2 and Figure 3, wherein, Fig. 1 show schematically show this supporting track 1 include symmetrically formula arrange
The first supporting rail 11 and the second supporting rail 12, wherein, on the sidewall towards the second supporting rail 12 of this first supporting rail 11
It is configured with the first orbital groove 11a, the sidewall towards the first supporting rail 11 of this second supporting rail 12 is configured with the second rail
Road groove 12a.Specifically, above-mentioned first orbital groove 11a and the setting of the second orbital groove 12a, for above-mentioned moving assembly 2
Arrange, it is provided that installing space.It addition, opening the opening 11b and the second orbital groove 12a of above-mentioned first rail groove 11a
Mouthful end 12b is that relative type motor is arranged, it is possible to be effectively prevented from above-mentioned moving assembly 2 and shift fork 3 during motion, meeting and other
The drawback that parts interfere, it is ensured that the phenomenon that moving assembly 2 and shift fork 3 will not be hampered during motion.
In another embodiment, the bore of the opening 11b of this first orbital groove 11a and the second orbital groove 12a
The bore of opening 12b is identical.So, further ensure that above-mentioned moving assembly 2 and shift fork 3 motion during not
The problem that can be hampered.It addition, also ensure that the smooth installation in supporting track 1 of the above-mentioned moving assembly 2, it is greatly reduced
Installation difficulty.
In one embodiment, as depicted in figs. 1 and 2, wherein, Fig. 2 show schematically show this moving assembly 2 and includes many
The individual roller group 21 arranged in compartment, each roller group 21 includes the first roller 211 He being arranged in the first orbital groove 11a
The second roller 212 being arranged in the second orbital groove 12a, and connect the first roller 211 and company of the second roller 212 respectively
Extension bar 213.Specifically, this first roller 211 and the second roller 212 can be fixed in this connecting rod 213 by the way of welding.
In embodiments herein, by the moving assembly 2 being made up of multiple roller groups 21 be instead of prior art
In chain, meanwhile, be ad hoc additionally arranged supporting track 1 for moving assembly 2.Such that make the route of transportation lifting appliance 200 relatively
Long, chain of the prior art also will not be occurred to produce the problem of sag in the vertical, thus ensure that suspender 200 was transporting
Stationarity in journey, safety and reliability.
In a preferred embodiment, the outer surface 210 of this first roller 211 and the first orbital groove 11a's is interior
Contoured surface 11c matches, the Internal periphery face 12c phase of the outer surface 220 of this second roller 212 and the second orbital groove 12a
Join.Easy to understand, above-mentioned coupling refers to outer surface 210 and the Internal periphery of the first orbital groove 11a of this first roller 211
The Internal periphery face 12c of the outer surface 220 and the second orbital groove 12a of face 11c and the second roller 212 is matched in clearance.
So, just can ensure that the first roller 211 and the second roller 212 can move in respective track smoothly.
As it is shown in figure 1, this shift fork 3 includes the first shift fork side plate 31 and the second shift fork side plate 32, and connect first respectively
Shift fork side plate 31 and the thrust plate 33 of the second shift fork side plate 32.Specifically, this first shift fork side plate 31 and second shift fork side plate 32
Primarily serve effect shift fork 3 and moving assembly 2 being connected, thus, this first shift fork side plate 31 and second shift fork side plate
32 should have certain structural strength.In a specific embodiment, this first shift fork side plate 31 and second shift fork side plate
32 can be fabricated by by alloy steel material.
This thrust plate 3 is substantially square or rectangle, and this thrust plate 33 can realize and the by the way of detachable connection
One shift fork side plate 31 and the second shift fork side plate 32 fixing.Such as, this thrust plate 33 can sequentially pass through by bolt or screw
One shift fork side plate 31, thrust plate 33 and the second shift fork side plate 32, it is achieved thereby that the fixed installation of thrust plate 33.Easily reason
Solve, for making thrust plate 33 can be securely fixed on the first shift fork side plate 31 and the second shift fork side plate 32, can suitably increase
Add the number of bolt or screw, to improve the fixing intensity of this thrust plate 33.
In embodiments herein, the setting of this thrust plate 33, it is possible to by above-mentioned suspender 200 successfully from underground haulage
On ground.
It addition, during suspender 200 transports, once run into emergency, this shift fork 3 may be with suspender 200
Raw collision, for reducing this shift fork 3 and the degree of injury of suspender 200 collision, can be configured to flexible board by above-mentioned thrust plate 33, i.e.
This thrust plate 33 is fabricated by by flexible material.Such as, this thrust plate 33 can be fabricated by by elastomeric material.
As it is shown on figure 3, in another preferred embodiment, the elongated end 33a of this thrust plate 33 be configured to small end towards
The pyramidal structure of upstream.In this embodiment, upstream is defined as the upper area of diagram.
This elongated end 33a protrudes from outer surface 31a and the second shift fork side plate 32 of the end of the first shift fork side plate 31 respectively
End outer surface 32a outside.So, during this shift fork 3 promotes suspender 200, for prevent above-mentioned have certain hard
It is caused damage because bumping to this suspender 200 by the first shift fork side plate 31 and the second shift fork side plate 32 of degree.Thus, can will prolong
Stretch end 33a and be designed to protrude from respectively outer surface 31a and the end of the second shift fork side plate 32 of the end of the first shift fork side plate 31
Outer surface 32a outside.Elongated end 33a i.e., is only made to contact with suspender 200.So, suspender 200 is just greatly reduced
Degree of injury, extend service life.
As shown in figures 1 and 3, in one embodiment, this conveying arrangement 100 also includes being separately positioned on the two of shift fork 3
First outer panel 4 and the second outer panel 5 of side, wherein, connecting rod 213 is each passed through first end 41 and of the first outer panel 4
First end 51 of two outer panels 5.So, just achieve the first outer panel 4 and the second outer panel 5 is connected with the fixing of wheels 21.
In another embodiment, this conveying arrangement 100 also include sequentially passing through the second end 42 of the first outer panel 4,
Second end 52 of two outer panels 5 and the securing member 6 connecting end 34 of shift fork 3.So, by the setting of this securing member 6, just real
Show the first outer panel the 4, second outer panel 5 and fixing connection of shift fork 3.Thus, this shift fork 3 and moving assembly 2 are just achieved
Fixing connection.
In a specific embodiment, above-mentioned securing member 6 can be bolt, screw rod or screw etc..
As in figure 2 it is shown, in one embodiment, this conveying arrangement 100 also includes that the elasticity that shift fork 3 can be made to carry out resetting is multiple
Position part 7, one end 71 of this elastic reset part 7 snaps onto in connecting rod 213, and the other end is fixing with the connection end 34 of shift fork 3 to be connected.
Specifically, one end 71 of this elastic reset part 7 snaps onto in connecting rod 213, and the other end 72 can be by welding or detachable company
The mode connect is fixed on the connection end 34 of shift fork 3.So, when shift fork 3 interferes with suspender 200, i.e. when this suspender 200
When needing to cross this shift fork 3, this elastic reset part 7 can be compressed because of the pressure by suspender 200, and this elastic reset part 7 will
It is generally in the state being parallel to each other with supporting track 1.
After above-mentioned suspender 200 fully passes over shift fork 3, this shift fork 3 can be in the effect of the elastic restoring force of elastic reset part 7
Under gradually return to initial state and (that is, be configured with most advanced and sophisticated the first angle towards downstream between this shift fork 3 meeting and supporting track 1
α).As can be seen here, the shift fork 3 in the application, under the effect of the elastic force of elastic reset part 7, can not only be dodged neatly and hang
Tool 200, it is to avoid the phenomenon interfered with this suspender 200.Simultaneously, additionally it is possible at the work of the elastic restoring force of elastic reset part 7
Automatically reset under with.
In a specific embodiment, this elastic reset part 7 can be spring or torsion spring.
The specific works process of the conveying arrangement 100 of the application is as follows:
Being placed on by suspender 200 in distinctive conveying track (not shown), this conveying track and supporting track 1 are same
One plane is interior and is in state parallel to each other.This suspender 200 be increasingly towards along with the transport of conveying track upstream (ground
Direction) motion.During motion, this suspender 200 can move closer to shift fork 3 (direction of arrow shown in Figure 3), when this
After a part in suspender 200 is pressed into shift fork 3, this shift fork 3 can gradually be compressed, to reach under the effect of elastic reset part 7
To dodging the purpose of this suspender 200, so that this shift fork 3 can successfully be crossed by suspender 200.
After this suspender 200 fully passes over shift fork 3, this shift fork 3 can be carried out automatically under the effect of above-mentioned elastic reset part 7
Resetting, this suspender 200 can move closer to the elongated end 33a of the thrust plate 33 of this shift fork 3 under the effect of self gravitation, and with
The side end face of this elongated end 33a contacts.Now, shift fork 3 has not only acted as good booster action to suspender 200, meanwhile, also
Serve good positioning action, i.e. avoid above-mentioned suspender 200, along the direction in the oblique downstream of supporting track 1, landing occurs.
Shift fork 3 moves along with the motion of supporting track 1, and during motion, the side end face of this elongated end 33a is all the time
Contact with one of them side of suspender 200, thus play the effect being applied to this suspender 200 thrust, so that suspender 200 is transported
It is passed on ground.
In sum, in the conveying arrangement 100 of the present embodiment, the moving assembly 2 of the application is equivalent at existing chain
Add multiple roller group 21 on the basis of bar, meanwhile, be ad hoc additionally arranged supporting track 1 for moving assembly 2.Such that make
The route of transportation lifting appliance 200 is longer, and chain of the prior art also will not be occurred to produce the problem of sag in the vertical, so that
Shift fork 3 can contact with suspender 200 in the moment, it is ensured that the suspender 200 stationarity in transportation, safety and reliably
Property.
Additionally, suspender 200 can be kept away under the effect of elastic reset part 7 by the shift fork 3 of the application the most neatly
Allow, also can automatically reset under the effect of elastic reset part 7 meanwhile.
The thrust plate 33 of the application is fabricated by by flexible material, thus greatly reduces the damage to suspender 200
Degree, extend service life.
Embodiment of the present utility model is given for the sake of example and description, and is not exhaustively or to incite somebody to action
This utility model is limited to disclosed form.Many modifications and variations are aobvious and easy for the ordinary skill in the art
See.Selecting and describing embodiment is in order to principle of the present utility model and actual application are more preferably described, and makes this area
Those of ordinary skill it will be appreciated that this utility model thus design is suitable to the various embodiments with various amendments of special-purpose.
Claims (10)
1. the conveying arrangement for suspender, it is characterised in that including:
Supporting track;
It is arranged in described supporting track and can carry out, along described supporting track, the moving assembly that moves;And
It is connected with described moving assembly and suspender can be transported to ground shift fork.
Conveying arrangement for suspender the most according to claim 1, it is characterised in that described supporting track includes symmetrically
First supporting rail of formula setting and the second supporting rail, wherein, in the side towards described second supporting rail of described first supporting rail
It is configured with the first orbital groove on wall, the sidewall towards described first supporting rail of described second supporting rail is configured with second
Orbital groove.
Conveying arrangement for suspender the most according to claim 2, it is characterised in that the opening of described first orbital groove
The bore of end is identical with the bore of the opening of described second orbital groove.
Conveying arrangement for suspender the most according to claim 2, it is characterised in that described moving assembly include multiple in
The roller group that compartment is arranged, each described roller group includes the first roller being arranged in described first orbital groove and is arranged on
The second roller in described second orbital groove, and connect described first roller and the connecting rod of described second roller respectively.
Conveying arrangement for suspender the most according to claim 4, it is characterised in that the outer surface of described first roller
Match with the Internal periphery face of described first orbital groove, the outer surface of described second roller and described second orbital groove
Internal periphery face matches.
Conveying arrangement for suspender the most according to claim 1, it is characterised in that described shift fork includes the first shift fork side
Plate and second group of side fork plate, and connect described first shift fork side plate and the thrust plate of described second shift fork side plate respectively.
Conveying arrangement for suspender the most according to claim 6, it is characterised in that the elongated end structure of described thrust plate
Become small end towards upstream pyramidal structure, described elongated end protrude from respectively the end of described first shift fork side plate outer surface and
Outside the outer surface of the end of described second shift fork side plate.
Conveying arrangement for suspender the most according to claim 4, it is characterised in that described conveying arrangement also includes respectively
Being arranged on the first outer panel and second outer panel of the both sides of described shift fork, wherein, described connecting rod is each passed through described first
First end of outer panel and the first end of described second outer panel.
Conveying arrangement for suspender the most according to claim 8, it is characterised in that described conveying arrangement also includes successively
The fastening connecting end through the second end, the second end of described second outer panel and the described shift fork of described first outer panel
Part.
Conveying arrangement for suspender the most according to claim 4, it is characterised in that described conveying arrangement also includes energy
Making described shift fork carry out the elastic reset part resetted, one end of described elastic reset part snaps onto in described connecting rod, the other end
The fixing connection with the connection end of described shift fork.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620752471.2U CN205820331U (en) | 2016-07-15 | 2016-07-15 | A kind of conveying arrangement for suspender |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620752471.2U CN205820331U (en) | 2016-07-15 | 2016-07-15 | A kind of conveying arrangement for suspender |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205820331U true CN205820331U (en) | 2016-12-21 |
Family
ID=57562887
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620752471.2U Active CN205820331U (en) | 2016-07-15 | 2016-07-15 | A kind of conveying arrangement for suspender |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205820331U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109051547A (en) * | 2018-08-10 | 2018-12-21 | 上海腾锦智能科技有限公司 | A kind of frictional automatic Orbital Transport Systems |
-
2016
- 2016-07-15 CN CN201620752471.2U patent/CN205820331U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109051547A (en) * | 2018-08-10 | 2018-12-21 | 上海腾锦智能科技有限公司 | A kind of frictional automatic Orbital Transport Systems |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN201761901U (en) | Chain bucket conveying system and guide rail device | |
CN203200622U (en) | Monorail crane rail connection suspension device | |
CN205820331U (en) | A kind of conveying arrangement for suspender | |
CN103213816B (en) | Railway vehicle bogie midair crossing transport finger car | |
CN204751466U (en) | A assembly line for assembly of car seat back | |
CN103786745A (en) | Car arrester for track | |
CN203685282U (en) | Secondary conveying accompany type coal receiving device of heading machine | |
CN112354759B (en) | Intelligent spraying production line for rail transit carriage | |
CN204774439U (en) | Mining flatbed is joint Assembly and mining dull and stereotyped set of cars even | |
CN205527253U (en) | Passenger conveyer | |
CN2920903Y (en) | Scraper conveyor coal transporting tank L-shape coupling hole push ear | |
CN202030279U (en) | Open bottom type scraper conveyor and transitional groove thereof | |
CN102815495A (en) | Conveyer belt | |
CN102774602A (en) | Ground chain conveying system | |
CN205856937U (en) | A kind of translation turnout | |
CN204960971U (en) | Long rail conveyer of tunnel abrupt slope inclined shaft | |
CN205802194U (en) | A kind of ribbon conveyer frame connecting structure | |
CN206375302U (en) | A kind of novel chain slat conveyer | |
CN204022405U (en) | Formula transport trolley is driven at station | |
CN202337533U (en) | Skid track with stop device | |
CN201990398U (en) | Self locking device for pneumatic single-rail crane | |
CN104192484B (en) | A kind of piling chain conveying line | |
CN105270818A (en) | Guide device for grain processing conveying belt | |
CN210386615U (en) | RGV dolly track | |
CN208167426U (en) | A kind of sky iron traveling wheel support plate |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder | ||
CP01 | Change in the name or title of a patent holder |
Address after: 100007 Lama Temple street, Dongcheng District, Dongcheng District, Beijing Patentee after: Beijing lifting and conveying machinery design and Research Institute Co., Ltd. Address before: 100007 Lama Temple street, Dongcheng District, Dongcheng District, Beijing Patentee before: Beijing Materials Handling Research Institute |