CN206927188U - Combined cyclic streamline - Google Patents
Combined cyclic streamline Download PDFInfo
- Publication number
- CN206927188U CN206927188U CN201720537102.6U CN201720537102U CN206927188U CN 206927188 U CN206927188 U CN 206927188U CN 201720537102 U CN201720537102 U CN 201720537102U CN 206927188 U CN206927188 U CN 206927188U
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- CN
- China
- Prior art keywords
- flat board
- lane
- inclined ramp
- horizontal slide
- change
- 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.)
- Withdrawn - After Issue
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Abstract
The utility model discloses a kind of combined cyclic streamline, it is desirable to provide one kind can realize that dolly recycles on streamline, without artificial floor truck, avoid influenceing the streamline of production efficiency.It includes frame;Horizontal slide for transport trolley;For the inclined ramp of transport trolley, inclined ramp is located at the lower section of horizontal slide;Transition lane-jumper, transition lane-jumper is including the lane-change flat board being rotatably arranged on by horizontal rotating shaft in frame, the flat board upper limit position block for being arranged in frame and being located above lane-change flat board, the flat board lower position block for being arranged in frame and being located at below lane-change flat board and is arranged on flat support spring of the lane-change flat board lower section for supporting lane-change flat board;And lifting mechanism, lifting mechanism include lifting flat board and the lifting executing agency for lifting lifting flat board.
Description
Technical field
It the utility model is related to streamline, and in particular to a kind of combined cyclic streamline.
Background technology
The assembling of many products is all completed on streamline at present, wherein there is the heavier product of part mass(Such as start
Machine product)In streamline over-assemble, it is necessary to be run using dolly on streamline to realize that product is each on streamline
Circulated between assembling station;Although run by dolly carrying product on streamline it is convenient and strength-saving, when trolley travelling is to flowing
The output end of waterline, after the assembling product on dolly is completed and departs from dolly, generally require by way of manually carrying
Dolly is transported to the input of streamline by the output end of streamline, dolly is reapposed on streamline, this same meeting
Made troubles to operating personnel, influence production efficiency.
Utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, there is provided one kind can realize that dolly exists
Recycled on streamline, without artificial floor truck, avoid influenceing the combined cyclic streamline of production efficiency.
The technical solution of the utility model is:
A kind of combined cyclic streamline, including:Frame;For the horizontal slide of transport trolley, horizontal slide is arranged on
In frame, one end of horizontal slide is horizontal slide input, and one end of horizontal slide is horizontal slide output end;For conveying
The inclined ramp of dolly, inclined ramp are arranged in frame, and inclined ramp is located at the lower section of horizontal slide, the upper end of inclined ramp
For inclined ramp input, and inclined ramp input is located at the lower section of horizontal slide output end, and the lower end of inclined ramp is inclines
Inclined ramp output end, and inclined ramp output end is located at the lower section of horizontal slide input;Transition lane-jumper, transition lane-change
The close horizontal slide output end of mechanism, the lane-change that transition lane-jumper includes being rotatably arranged on by horizontal rotating shaft in frame are put down
Plate, it is arranged in frame and is located at the flat board upper limit position block above lane-change flat board, is arranged in frame and be located under lane-change flat board
The flat board lower position block of side and it is arranged on and is used for the flat support spring for supporting lane-change flat board below lane-change flat board;And lifting machine
Structure, close to inclined ramp output end, lifting mechanism includes lifting flat board and is arranged in frame to be used to lift lifting lifting mechanism
The lifting executing agency of flat board.
The combined cyclic streamline of this programme coordinates lifting machine by horizontal slide, inclined ramp, transition lane-jumper
Realize that dolly recycles on streamline, carried without artificial, it is easy to operate, avoid influenceing production efficiency;Meanwhile this programme
Combined cyclic streamline only need a power-equipment(Lift executing agency)Both it can realize that dolly circulated on streamline
Use, so as to reduce cost of manufacture.
On the other hand, the inclined ramp of the combined cyclic streamline of this programme is located at the lower section of horizontal slide, so may be used
To make full use of vertical direction spatial to carry out the circulation of dolly, realize that dolly recycles, so as to effectively reduce floor space.
Preferably, when lane-change flat board is resisted against on flat board upper limit position block:Lane-change flat board and horizontal slide output end pair
Connect;When lane-change flat board is resisted against on flat board lower position block:Lane-change flat board docks with inclined ramp input.
Preferably, transition lane-jumper also include being arranged in frame and the vertical conduit below lane-change flat board and
The vertical support bar that can be slided in vertical conduit and along vertical conduit is plugged in, the upper end of vertical support bar is provided with support and put down
Plate, support flat board upper surface are provided with the flat support roller for being used for supporting lane-change flat board, and flat support roller is against lane-change flat board
Lower surface on, the flat support spring is set on vertical conduit, and the lower end of flat support spring is against in frame, flat board
The upper end of support spring is against on the lower surface of support flat board.The operation that this programme structure is advantageous to improve transition lane-jumper can
By property and stationarity.
Preferably, the first dolly postive stop baffle perpendicular with lane-change flat board is additionally provided with the upper surface of lane-change flat board.
Preferably, lifting flat board is provided with the second dolly postive stop baffle.
Preferably, also including linkage type inclined ramp position-limit mechanism, linkage type inclined ramp position-limit mechanism is close to inclination
Slideway output end, linkage type inclined ramp position-limit mechanism include vertical frizzen, the setting being arranged on lifting flat board lower surface
The first vertical guide pin bushing in frame and positioned at the lower section of inclined ramp, be slidably arranged in the first vertical guide pin bushing it is first vertical
Spacing lever, it is arranged in frame and the second vertical guide pin bushing positioned at the lower section of inclined ramp, is slidably arranged in second and leads vertically
The second vertical spacing lever in set and the spacing lever switching mechanism being arranged in frame, the first vertical spacing lever position
Between inclined ramp output end and the second vertical spacing lever, the inclined ramp is provided with the upper following table through inclined ramp
The first vertical spacing lever via and the second vertical spacing lever via in face, the first vertical spacing lever via are perpendicular positioned at first
The surface of straight guide pin bushing, the second vertical spacing lever via are located at the surface of the second vertical guide pin bushing, the spacing lever switching
Mechanism include be rotatably arranged on by horizontal axostylus axostyle in frame switching lever, be arranged in frame and positioned at switching lever top
Lever upper stopper, be arranged in frame and block and the counterweight that is arranged on lever under the lever below switching lever
Block, the conveying direction of the horizontal axostylus axostyle inclined ramp is perpendicular, and the switching lever be located at the first vertical spacing lever and the
The lower section of two vertical spacing levers, switching lever are located at the lower section of vertical frizzen, and the lower end of the first vertical spacing lever is against
Switch on lever, the lower end of the second vertical spacing lever is also against on switching lever, and the first vertical spacing lever is erected with second
Straight spacing lever is located at the opposite sides of horizontal axostylus axostyle, and the balancing weight is located at the same of horizontal axostylus axostyle with the second vertical spacing lever
Side.
When switching lever is resisted against in lever upper stopper:The upper end of first vertical spacing lever is located at the upper of inclined ramp
The lower section on surface, the upper end of the second vertical spacing lever is through the second vertical spacing lever via and positioned at the upper table of inclined ramp
The top in face;When switching lever is resisted against under lever on block:The upper end of second vertical spacing lever is located at inclined ramp
The lower section of upper surface, the upper end of the first vertical spacing lever is through the first vertical spacing lever via and positioned at the upper of inclined ramp
The top on surface.
The beneficial effects of the utility model are:It can realize that dolly recycles on streamline, it is small without manually carrying
Car, avoid influenceing production efficiency, and floor space is small, low manufacture cost.
Brief description of the drawings
Fig. 1 is a kind of structural representation of the combined cyclic streamline of embodiment 1 of the present utility model.
Fig. 2 is the partial enlarged drawing at A in Fig. 1.
Fig. 3 is a kind of structural representation of the combined cyclic streamline of embodiment 2 of the present utility model.
Fig. 4 is the partial enlarged drawing at B in Fig. 3.
In figure:
Horizontal slide 1, horizontal slide input 1.1, horizontal slide output end 1.2;
Transport trolley 2;
Inclined ramp 3, inclined ramp input 3.1, inclined ramp output end 3.2;
Transition lane-jumper 4, lane-change flat board 4.1, the first dolly postive stop baffle 4.2, flat board upper limit position block 4.3, level turn
Axle 4.4, flat board lower position block 4.5, vertical conduit 4.6, flat support spring 4.7, vertical support bar 4.8, flat board 4.9 is supported,
Flat support roller 4.10;
Lifting mechanism 5, lifting flat board 5.1, lift executing agency 5.2, the second dolly postive stop baffle 5.3;
Linkage type inclined ramp position-limit mechanism 6, vertical frizzen 6.1, the first vertical guide pin bushing 6.2, the first vertical spacing shelves
Bar 6.3, horizontal axostylus axostyle 6.4, switch lever 6.5, lever upper stopper 6.6, block 6.7 under lever, balancing weight 6.8, second is vertical
Guide pin bushing 6.9, the second vertical spacing lever 6.10, the first vertical spacing lever via 6.11, the second vertical spacing lever via
6.12。
Embodiment
The utility model is described in further detail with embodiment below in conjunction with the accompanying drawings:
Embodiment 1:As shown in figure 1, a kind of combined cyclic streamline, including:Frame;Horizontal slide 1;Inclined ramp 3;
Transition lane-jumper 4;And lifting mechanism 5.
Horizontal slide is used for transport trolley 2, i.e. dolly is run on horizontal slide along horizontal slide.Dolly include wheel and
Vehicle frame.Horizontal slide is arranged in frame.One end of horizontal slide is horizontal slide input 1.1, and one end of horizontal slide is
Horizontal slide output end 1.2.Each station of Product Assembly is sequentially distributed along the conveying direction of horizontal slide.
Inclined ramp is used for transport trolley, i.e. dolly is run on inclined ramp along inclined ramp.Inclined ramp is arranged on
In frame.Inclined ramp is located at the lower section of horizontal slide.The upper end of inclined ramp is inclined ramp input 3.1, and tilts and slide
Road input is located at the lower section of horizontal slide output end.The lower end of inclined ramp is inclined ramp output end 3.2, and inclined ramp
Output end is located at the lower section of horizontal slide input.
As shown in Figure 1 and Figure 2, the close horizontal slide output end of transition lane-jumper.Transition lane-jumper includes passing through water
Lane-change flat board 4.1 that flat turn axle 4.4 is rotatably arranged in frame, it is arranged in frame and on the flat board above lane-change flat board
Limited block 4.3, it is arranged in frame and is located at the flat board lower position block 4.5 below lane-change flat board, is arranged on below lane-change flat board
For the vertical conduit 4.6 for supporting the flat support spring 4.7 of lane-change flat board, being arranged in frame and being located at below lane-change flat board
And it is plugged in the vertical support bar 4.8 that can be slided in vertical conduit and along vertical conduit.Horizontal rotating shaft and horizontal slide it is defeated
Send direction perpendicular.The conveying direction of horizontal rotating shaft and inclined ramp is perpendicular.
The upper end of vertical support bar is provided with support flat board 4.9.Support flat board upper surface, which is provided with, to be used to support lane-change flat board
Flat support roller 4.10.Flat support roller is against on the lower surface of lane-change flat board.Flat support spring is set in leads vertically
Guan Shang, the lower end of flat support spring are against in frame, and the upper end of flat support spring is against on the lower surface of support flat board.
The first dolly postive stop baffle 4.2 perpendicular with lane-change flat board is additionally provided with the upper surface of lane-change flat board.First is small
Car postive stop baffle is parallel with horizontal rotating shaft.Horizontal rotating shaft is located at the same of the first dolly postive stop baffle with flat board upper limit position block
Side, horizontal rotating shaft are located at the opposite sides of the first dolly postive stop baffle with horizontal slide.
As shown in figure 1, when lane-change flat board is resisted against on flat board upper limit position block:Lane-change flat board and horizontal slide output end pair
Connect.
When lane-change flat board is resisted against on flat board lower position block:Lane-change flat board docks with inclined ramp input.
Lifting mechanism is close to inclined ramp output end.Lifting mechanism is used to lift in the dolly exported by inclined ramp output end
It is raised to the position flushed with the input of horizontal slide.Lifting mechanism includes lifting flat board 5.1 and is arranged in frame to be used to rise
The lifting executing agency 5.2 of lifting flat board drops.It is lift cylinder or hoist cylinder to lift executing agency.Lifting flat board is provided with second
Dolly postive stop baffle 5.3.Second dolly postive stop baffle is parallel with horizontal rotating shaft.
The specific works of the combined cyclic streamline of the present embodiment are as follows:
Dolly is run on horizontal slide from horizontal slide input toward horizontal slide output end along horizontal slide, and dolly exists
On horizontal slide during operation circulation:Product(Such as engine)Each several part dolly on complete assembling.
After the product on dolly completes assembling, dolly drives the product for completing assembling to run to horizontal slide output end;
Then, the product of the completion assembling on the dolly that will run to horizontal slide output end by loop wheel machine or manipulator is taken away;Connecing
, the vacant dolly for running to horizontal slide output end is pushed on lane-change flat board by operator.
After dolly is moved on lane-change flat board, the elastic force of flat support spring will be overcome under the Action of Gravity Field of dolly,
Lane-change flat board is set down to be rotated around horizontal rotating shaft, untill lane-change flat board is resisted against on flat board lower position block, now, lane-change is put down
Plate docks with inclined ramp input, and dolly will be moved to inclined ramp, and edge under Gravitative Loads by inclined ramp input
Inclined ramp down runs to lifting flat board;
Then, lifting executing agency drives lifting flat board to rise in place, lifting flat board is flushed with horizontal slide input
Docking;Then, the dolly on lifting flat board can be pushed on horizontal slide by operator again by horizontal slide input, so as to
Realize that dolly recycles on streamline, without artificial floor truck, avoid influenceing production efficiency.
Followed by lifting executing agency drives the descending reset of lifting flat board, makes lifting flat board and inclined ramp output end neat
Flat docking.
Embodiment 2:Remaining structure of the present embodiment is with reference to embodiment 1, its difference:
As shown in Figure 3, Figure 4, a kind of combined cyclic streamline also includes linkage type inclined ramp position-limit mechanism 6.Interlock
Formula inclined ramp position-limit mechanism is close to inclined ramp output end.
Linkage type inclined ramp position-limit mechanism includes vertical frizzen 6.1, the setting being arranged on lifting flat board lower surface
In frame and positioned at inclined ramp lower section the first vertical guide pin bushing 6.2, be slidably arranged in the first vertical guide pin bushing first
Vertical spacing lever 6.3, it is arranged in frame and the second vertical guide pin bushing 6.9 positioned at the lower section of inclined ramp, is slidably arranged in
The second vertical spacing lever 6.10 in second vertical guide pin bushing and the spacing lever switching mechanism being arranged in frame.First is vertical
The lower end of spacing lever is provided with the first roller.The lower end of second vertical spacing lever is provided with the second roller.Under vertical frizzen
End is provided with the 3rd roller.
First vertical spacing lever is located between inclined ramp output end and the second vertical spacing lever.Set on inclined ramp
There is the first vertical 6.11 and second vertical spacing lever via 6.12 of spacing lever via of the upper and lower surface through inclined ramp.
First vertical spacing lever via is located at the surface of the first vertical guide pin bushing.Second vertical spacing lever via is vertical positioned at second
The surface of guide pin bushing.
Spacing lever switching mechanism includes switching lever 6.5, the setting being rotatably arranged on by horizontal axostylus axostyle 6.4 in frame
In frame and positioned at the lever upper stopper 6.6 switched above lever, the thick stick for being arranged in frame and being located at below switching lever
Block 6.7 and the balancing weight 6.8 being arranged on lever under bar.The conveying direction of horizontal axostylus axostyle inclined ramp is perpendicular.Trunnion axis
Bar is parallel with horizontal rotating shaft.
Switching lever is located at the lower section of the first vertical spacing lever and the second vertical spacing lever.Switch lever positioned at vertical
The lower section of frizzen.The projection of vertical frizzen in the vertical direction falls on switching lever surface.First vertical spacing lever
Lower end be against switching lever on, in the present embodiment, the lower end of the first vertical spacing lever is against switching thick stick by the first roller
On bar.The lower end of second vertical spacing lever is also against on switching lever, in the present embodiment, the lower end of the second vertical spacing lever
It is against by the second roller on switching lever.First vertical spacing lever is located at the phase of horizontal axostylus axostyle with the second vertical spacing lever
To both sides.Balancing weight and the second vertical spacing lever are located at the same side of horizontal axostylus axostyle.
As shown in figure 4, when switching lever is resisted against in lever upper stopper:The upper end of first vertical spacing lever, which is located at, inclines
The lower section of the upper surface of inclined ramp, the upper end of the second vertical spacing lever is through the second vertical spacing lever via and positioned at inclination
The top of the upper surface of slideway.
When switching lever is resisted against under lever on block:The upper end of second vertical spacing lever is located at the upper of inclined ramp
The lower section on surface, the upper end of the first vertical spacing lever is through the first vertical spacing lever via and positioned at the upper table of inclined ramp
The top in face.
It is merely able to park a dolly on inclined ramp between first vertical spacing lever and the second vertical spacing lever.
It is in the specific work process of the combined cyclic streamline of the present embodiment with reference to embodiment 1, its difference:
As shown in Figure 3, Figure 4, during lifting executing agency drives lifting flat board to rise, in the effect of balancing weight
Under:
Switching lever will rotate around horizontal axostylus axostyle, untill switching lever is resisted against under lever on block;In this mistake
Cheng Zhong:Second vertical spacing lever will decline under Gravitative Loads, and the upper end of the second vertical spacing lever is slided positioned at inclination
The lower section of the upper surface in road, so that dolly can cross the second vertical spacing lever via;
Meanwhile switching lever will up jack up the first vertical spacing lever, pass through the upper end of the first vertical spacing lever
First vertical spacing lever via and the top for being located at the upper surface of inclined ramp, for limiting the dolly of inclined ramp by tilting
Slideway output end exports(Crossing the wheel of the dolly of the second vertical spacing lever via will be blocked by the first vertical spacing lever),
Dolly in lifting flat board uphill process is avoided to be exported, dropped by inclined ramp output end.
As shown in Figure 3, Figure 4, when the drive descending reset of lifting flat board of lifting executing agency, lifting flat board and inclined ramp are made
After output end flushes docking;The lower end of vertical frizzen will be against on switching lever, and drive switching lever will be around horizontal axostylus axostyle
Rotate, untill switching lever is resisted against in lever upper stopper;In this process:Switching lever will up jack up second and erect
Straight spacing lever, make the upper end of the second vertical spacing lever through the second vertical spacing lever via and positioned at the upper of inclined ramp
The top on surface, for limiting the dolly of inclined ramp, dolly is avoided to be moved to the first vertical spacing lever and the second vertical limit
On inclined ramp between the lever of position;
Meanwhile first vertical spacing lever will decline under Gravitative Loads, and make the upper end position of the first vertical spacing lever
In the lower section of the upper surface of inclined ramp, so that dolly is output on lifting flat board by inclined ramp output end.
In this way, realizing that the dolly on inclined ramp can be output on lifting flat board one by one, ensure combined cyclic flowing water
Dolly on line can smoothly circulate, and dolly is smoothly recycled on streamline.
Claims (5)
1. a kind of combined cyclic streamline, it is characterized in that, including:
Frame;
For the horizontal slide of transport trolley, horizontal slide is arranged in frame, and one end of horizontal slide inputs for horizontal slide
End, one end of horizontal slide is horizontal slide output end;
For the inclined ramp of transport trolley, inclined ramp is arranged in frame, and inclined ramp is located at the lower section of horizontal slide, inclines
The upper end of inclined ramp is inclined ramp input, and inclined ramp input is located at the lower section of horizontal slide output end, tilts and slides
The lower end in road is inclined ramp output end, and inclined ramp output end is located at the lower section of horizontal slide input;
Transition lane-jumper, the close horizontal slide output end of transition lane-jumper, transition lane-jumper include turning by horizontal
Lane-change flat board that axle is rotatably arranged in frame, it is arranged in frame and the flat board upper limit position block above lane-change flat board, sets
Put the flat board lower position block in frame and below lane-change flat board and be arranged on below lane-change flat board and be used to support lane-change to put down
The flat support spring of plate;And
Lifting mechanism, close to inclined ramp output end, lifting mechanism includes lifting flat board and is arranged in frame to use lifting mechanism
In the lifting executing agency of lifting lifting flat board.
2. combined cyclic streamline according to claim 1, it is characterized in that, when lane-change flat board is resisted against flat board upper limit
When on block:Lane-change flat board docks with horizontal slide output end;When lane-change flat board is resisted against on flat board lower position block:Lane-change flat board
Docked with inclined ramp input.
3. combined cyclic streamline according to claim 1, it is characterized in that, the transition lane-jumper also includes setting
Vertical conduit in frame and below the lane-change flat board and it is plugged in vertical conduit and can be along the slip of vertical conduit
Vertical support bar, the upper end of vertical support bar are provided with support flat board, and support flat board upper surface, which is provided with, to be used to support lane-change flat board
Flat support roller, flat support roller are against on the lower surface of lane-change flat board, and the flat support spring is set in leads vertically
Guan Shang, the lower end of flat support spring are against in frame, and the upper end of flat support spring is against on the lower surface of support flat board.
4. according to the combined cyclic streamline described in claim 1 or 2 or 3, it is characterized in that, the upper surface of the lane-change flat board
On be additionally provided with the first dolly postive stop baffle perpendicular with lane-change flat board.
5. according to the combined cyclic streamline described in claim 1 or 2 or 3, it is characterized in that, the lifting flat board is provided with second
Dolly postive stop baffle.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720537102.6U CN206927188U (en) | 2017-05-15 | 2017-05-15 | Combined cyclic streamline |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201720537102.6U CN206927188U (en) | 2017-05-15 | 2017-05-15 | Combined cyclic streamline |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN206927188U true CN206927188U (en) | 2018-01-26 |
Family
ID=61351598
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201720537102.6U Withdrawn - After Issue CN206927188U (en) | 2017-05-15 | 2017-05-15 | Combined cyclic streamline |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN206927188U (en) |
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111959868A (en) * | 2019-05-20 | 2020-11-20 | 湖北铭科达自动化设备有限公司 | Transmission device |
| CN113602761A (en) * | 2021-08-20 | 2021-11-05 | 爱孚迪(上海)制造系统工程有限公司 | Workpiece conveying control system in automobile production process |
-
2017
- 2017-05-15 CN CN201720537102.6U patent/CN206927188U/en not_active Withdrawn - After Issue
Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN111959868A (en) * | 2019-05-20 | 2020-11-20 | 湖北铭科达自动化设备有限公司 | Transmission device |
| CN111959868B (en) * | 2019-05-20 | 2022-05-20 | 湖北铭科达自动化设备有限公司 | Transmission device |
| CN113602761A (en) * | 2021-08-20 | 2021-11-05 | 爱孚迪(上海)制造系统工程有限公司 | Workpiece conveying control system in automobile production process |
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20180126 Effective date of abandoning: 20180412 |