CN104309988B - Conveying device for eight-faced diamond-shaped container - Google Patents
Conveying device for eight-faced diamond-shaped container Download PDFInfo
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- CN104309988B CN104309988B CN201410428658.2A CN201410428658A CN104309988B CN 104309988 B CN104309988 B CN 104309988B CN 201410428658 A CN201410428658 A CN 201410428658A CN 104309988 B CN104309988 B CN 104309988B
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- Prior art keywords
- spigot surface
- guardrail
- spigot
- molding container
- width
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G21/00—Supporting or protective framework or housings for endless load-carriers or traction elements of belt or chain conveyors
- B65G21/20—Means incorporated in, or attached to, framework or housings for guiding load-carriers, traction elements or loads supported on moving surfaces
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Belt Conveyors (AREA)
- Refuge Islands, Traffic Blockers, Or Guard Fence (AREA)
Abstract
The invention discloses a conveying device for an eight-faced diamond-shaped container. The delivery device comprises a conveying belt and guardrails, wherein the guardrails are positioned above the conveying belt, and extend in the article conveying direction of the conveying belt; each guardrail is provided with at least one guide surface; each guide surface comprises a first guide surface and a second guide surface; the distances between the first guide surfaces and the conveying belt are longer than those between the second guide surfaces and the conveying belt; the first guide surfaces are in an inclined state relative to the conveying belt; the second guide surfaces are in an inclined state relative to the conveying belt; the directions of the first guide surfaces are intersected with those of the second guide surfaces; the guide surfaces on the adjacent guardrails are symmetrically positioned. According to the conveying device for the eight-faced diamond-shaped container, the revolution of the container is restricted by conveying channels, so that the eight-faced diamond-shaped container can be conveyed under the condition that the state of the container is kept.
Description
Technical field
The present invention relates to a kind of octahedral diamond molding container.
Background technology
As shown in Fig. 9,10,11, octahedral diamond molding container of the prior art, this octahedral diamond molding container has 8
Individual side, the outward appearance of diamond-shaped has extremely strong captivation and representability;Octahedra design, achieves hand-type to greatest extent
Laminating, gripping sense is more sturdy, is easy to that consumer is hand-held and topple over, and meanwhile, column moulding is more conducive to carry in knapsack or pocket,
Make this container be especially suitable for outgoing carrying to quote.Due to the unique contour structures of octahedral diamond molding container so as to surface phase
Rounder and more smooth than the surface of rectangular-shaped container tends to, therefore octahedral diamond molding container is conveyed through Cheng Zhongxiang on the conveyor belt
Between mutually to pin down impact very little, lead to this octahedral diamond molding container that rotation phenomenon occurs in course of conveying.
Content of the invention
The technical problem to be solved in the present invention is to avoid octahedral diamond molding container to occur in course of conveying
Rotation is it is therefore intended that provide a kind of octahedral diamond molding container that can keep octahedral diamond molding container state in course of conveying
Conveyer device.
For solving above-mentioned technical problem, the present invention adopts the following technical scheme that:This octahedral diamond molding container
Including conveyer belt and guardrail, described guardrail is located above conveyer belt and upwardly extends in the side of tape transport article, described shield
At least provided with a spigot surface, described spigot surface includes the first spigot surface and the second spigot surface on hurdle, and described first spigot surface is to defeated
The distance sending band is more than the second spigot surface to the distance of conveyer belt, and described first spigot surface is in heeling condition relative to conveyer belt,
Described second spigot surface is in heeling condition relative to conveyer belt, and the direction of described first spigot surface and the second spigot surface are towards friendship
Fork, position relationship symmetrically between the spigot surface on described adjacent barrier.
Guardrail square one-tenth transfer passage on the conveyor belt, this relative side of guardrail is provided with spigot surface, the shape of this spigot surface
Corresponding with the appearance profile of octahedral diamond molding container.The upper and lower ends of octahedral diamond molding container are designed with oblique near end
Face, spigot surface is to should inclined-plane.Because width at inclined-plane for the octahedral diamond molding container is less and far smaller than octahedral diamond
Width on the diagonal at two ends for the molding container is so that container is subject to the restriction of guardrail cannot rotate;But, guardrail part
Channel shape is corresponding with the appearance profile of octahedral diamond molding container, only can unobstructed pass through in the conveying direction.
For realizing optimal confinement effect it is ensured that octahedral diamond molding container uniform force when being limited, as this
Bright is preferred, described first spigot surface relative to conveyer belt angle of inclination and the second spigot surface relative to conveyer belt angle of inclination phase
With.
As described above, it is critical only that of container of restriction limits to container at the inclined-plane of the upper and lower ends of container, lead
As long as meeting towards and be close to this inclined-plane can reach, to face, the purpose limiting container.Under the premise of here, the width of spigot surface can
Freely change.The first form, the width of the first spigot surface is equal to the width of the second spigot surface;Second form, the first guiding
The width in face is more than the width of the second spigot surface;The third form, the width of described first spigot surface is less than the second spigot surface
Width.
The transfer passage position being formed by guardrail above conveyer belt determines the optimum structure of guardrail.For example, formed
Only need to provide a spigot surface positioned at the outer side rail of the transfer passage at all transfer passage edges, described guardrail is permissible
It is obtained, can also be obtained by injection molding manner by bending mode by the strong sheet material of sheet metal or other plasticity.Preferably
, the cross section of guardrail is in three flanging shapes, and described spigot surface also includes the 3rd spigot surface, and described 3rd spigot surface is located at first
Between spigot surface and the second spigot surface.Three flanging shapes described here refer to the straight line long by and two short straight line structures
Become, two short straight lines are connected with long straight line with heeling condition, but incline direction is contrary, and this is that isosceles trapezoid removes bottom
Shape afterwards.Optimal, each short straight line is identical with respect to the inclination angle of long straight line, but incline direction is contrary.Again for example,
A guardrail can be shared, this guardrail provides two spigot surfaces, on two spigot surfaces of described guardrail between two transfer passages
It is in symmetrical position relationship, it is right to be between the second spigot surface on two spigot surfaces of described guardrail between first spigot surface
The position relationship claiming.So transfer passage is at least provided with a spigot surface by a guardrail position being provided with two spigot surfaces and two
Guardrail composition, the described guardrail being provided with two spigot surfaces is provided between the guardrail of a spigot surface positioned at two, and three
It is in parallel position relationship, width all phases of the transfer passage being formed between every group of adjacent spigot surface between the spigot surface of guardrail
With.
The guardrail being provided with two spigot surfaces can also pass through bending side by the strong sheet material of sheet metal or other plasticity
Formula is obtained, can also prepared by injection form, can also be fixed together by several separate components prepared.The horizontal stroke of this guardrail
The shape that section is connected together with handstand Y shape in upright Y shape, described spigot surface also includes the 3rd spigot surface, described 3rd guiding
Face is located between the first spigot surface and the second spigot surface.First spigot surface, the second spigot surface and in technical scheme
Three spigot surfaces are all plane.Guardrail has said structure and can meet conveying requirement.
The present invention manufactures this guardrail by the way of several separate components are fixed together, preferred as the present invention, institute
State guardrail and include the second plate body that one piece of cross section is in that the first plate body of three flanging shapes, two pieces of cross sections are in flattened rectangular, institute
State the second plate body be located at respectively the first plate body two ends and with the end of the first plate body position relationship symmetrically.The shield of this structure
Hurdle has the advantages that structure is simple, convenient for production.
The present invention adopts technique scheme:This octahedral diamond molding container limits appearance by transfer passage
Device rotation, enables octahedral diamond molding container to be conveyed in the case of hold mode on the conveyor belt.
Brief description
With reference to the accompanying drawings and detailed description the present invention is further described in detail.
Fig. 1 is a kind of front view of the guardrail of the present invention the first embodiment of octahedral diamond molding container;
Fig. 2 is the top view of Fig. 1;
Fig. 3 is the left view of Fig. 1;
Fig. 4 is a kind of axonometric chart of the guardrail of the present invention the first embodiment of octahedral diamond molding container;
Fig. 5 is the partial enlarged drawing of Fig. 3;
Fig. 6 is a kind of structural representation of the guardrail of present invention octahedral diamond molding container second embodiment
Figure;
Fig. 7 is a kind of structural representation of the guardrail of the present invention the third embodiment of octahedral diamond molding container
Figure;
Fig. 8 is a kind of structural representation of the guardrail of the 4th kind of embodiment of octahedral diamond molding container of the present invention
Figure;
Fig. 9 is a kind of front view of octahedral diamond molding container of the prior art;
Figure 10 is the upward view of Fig. 9;
Figure 11 is a kind of axonometric chart of octahedral diamond molding container of the prior art.
Specific embodiment
The first embodiment of the present invention.This octahedral diamond molding container is provided with conveyer belt, guardrail and frame.Defeated
Band is sent to be arranged in frame by belt wheel, conveyer belt launches to form straight delivery site on belt wheel;Guardrail passes through link 1
The top being fixed in frame and being located at the delivery site of conveyer belt extends along the direction of tape transport article, guardrail with
It is provided with spacing, this spacing ensures that conveyer belt is not interfered by guardrail in rotation process between conveyer belt.In order to be able to convey multiple tracks eight
Face diamond molding container, is just provided with multiple guardrails on the conveyor belt, forms transfer passage between adjacent barrier.The structure of guardrail
Depending on its position, positioned at the structure of the guardrail I 2 at one group of transfer passage edge and between adjacent conveyor passage
The structure of guardrail II 3 differs.
Specifically, as shown in Fig. 1,2,3,4,5, guardrail I 2 is made by bending for plasticity sheet material, and its cross section is in
Three flanging shapes, side indent.This side of guardrail I 2 indent is spigot surface, and this spigot surface includes the first spigot surface 4, second leads
To face 5 and the 3rd spigot surface 6, the 3rd spigot surface 6 is located between the first spigot surface 4 and the second spigot surface 5.Three foldings described here
Side shape refers to that the straight line long by and two short straight lines are constituted, and two short straight lines are with heeling condition with long straight line even
Connect, each short straight line is identical with respect to the inclination angle of long straight line, but incline direction is contrary, this is that isosceles trapezoid is removed and gone to the bottom
Shape behind side.Guardrail is in vertical state relative to the delivery site of conveyer belt so that the 3rd spigot surface 6 and tape transport position
Place plane is vertical, the distance of the first spigot surface 4 to conveyer belt and first is led to the distance of conveyer belt more than the second spigot surface 5
All it is in heeling condition to face 4 and the second spigot surface 5 relative to conveyer belt, the court of the direction of the first spigot surface 4 and the second spigot surface 5
To intersection.The connection sheet that guardrail I 2 passes through strip is fixing with link 1.
Guardrail II 3 includes the first plate body 7 and the second plate body 8.The structure of the first plate body 7 identical with the structure of guardrail I 2 and
Also made by bending for plasticity sheet material.The quantity of the second plate body 8 is two, and it is the plate construction of strip, transversal
Face is in flat rectangle;Second plate body 8 is identical with the thickness of the first plate body 7.One the second plate body 8 is fixed on by contiguous block I 9
The one of bending end of first plate body 7, contiguous block I 9 other end is fixed on link 1;Another second plate body 8 passes through to connect
Block II 10 is fixed on first another bending end of plate body 7.Being designed with cross section on contiguous block I 9 and contiguous block II 10 is triangle
Projection, the first plate body 7, the second plate body 8 are arranged on contiguous block I 9 and the projection of person's contiguous block II 10.First plate body 7 after installation
Bending part and the second plate body 8 between forming position symmetrical structure, shape between any one the second plate body 8 and first plate body 7
Become Y shape, on the whole, the shape that the cross section of guardrail II 3 is connected together with handstand Y shape in upright Y shape.
First plate body 7 cross section is in three flanging shapes, side indent.First plate body 7 not only arranges spigot surface in concave side,
And the middle part of opposite side of the first plate body 7 and the second plate body 8 are collectively forming another spigot surface, this two spigot surface phases
Symmetrical to the centrage of guardrail II 3.One side of the second plate body 8 being connected with contiguous block I 9 is the first spigot surface 4 institute
In position;One side of the second plate body 8 being connected with contiguous block II 10 is the second spigot surface 5 position;Outside first plate body 7
The middle part of convex side is the 3rd spigot surface 6 position.So, guardrail II 3 is provided with two towards contrary spigot surface, often
It is in the symmetrical position relationship of the centrage of guardrail II 3 relatively, each spigot surface between the first spigot surface 4 on individual spigot surface
On the second spigot surface 5 between in the 3rd on the symmetrical position relationship of the centrage of relatively guardrail II 3, each spigot surface
It is in the symmetrical position relationship of the centrage of guardrail II 3 relatively between spigot surface 6.Guardrail I 2 and guardrail II 3 all pass through strip
The connection sheet of shape is fixing with link 1, and the distance that guardrail I 2 arrives conveyer belt with guardrail II 3 is all identical, a shield on link 1
Hurdle II 3 is located between two guardrails I 2, the width of the first spigot surface 4 on guardrail I 2 and guardrail II 3 and the width of the second spigot surface 5
Degree is identical, and the spigot surface on guardrail I 2 is relative with the spigot surface on guardrail II 3 and between being provided between guardrail I 2 and guardrail II 3
Away to ensure to accommodate an octahedral diamond molding container and pass through between adjacent barrier.
Spigot surface forms a profile and octahedral diamond molding container profile identical transfer passage in opposite directions, and this conveying is led to
Pipeline in one step only passes through an octahedral diamond molding container.Octahedral diamond molding container is provided with inclined-plane in close upper and lower ends, the
One spigot surface 4 and the second spigot surface 5 are all corresponding with this inclined-plane, can be seen that upper and lower from the structure of octahedral diamond molding container
It is respectively arranged at the two ends with two positions of width minimum and maximum, this is because the upper and lower end face of octahedral diamond molding container is rectangle,
Diagonally adjacent width ratio hem width is big.All limit octahedral diamond moulding in the first spigot surface 4 and the second spigot surface 5
During container upper and lower ends, just can fully ensure that octahedral diamond molding container will not occur rotation on the conveyor belt, once rotation is held
Corner location at device edge especially upper and lower ends will be limited by guardrail.
The quantity of transfer passage can be increased by increasing the quantity of guardrail II 3 in this embodiment, but guardrail I 2
Quantity still can be two.
Second embodiment of the present invention, as shown in fig. 6, the present embodiment is to be connected with the difference of the first embodiment
Guardrail I 2 is provided only with frame 1, transfer passage by two guardrails I 2 with opposite and to distribution mode formed.The quantity of guardrail I 2 begins
It is the twice of the quantity of transfer passage eventually.
The third embodiment of the present invention, as shown in fig. 7, this embodiment is guardrail with the difference of the first embodiment
Including guardrail III 11 and guardrail IV 12.Guardrail III 11 is the plate construction of strip, and cross section is in flat rectangle;Guardrail IV 12
The plate construction of the strip for bending, cross section is V-shaped.Guardrail III 11 and guardrail IV 12 are connected to link by connecting rod
On 1.After installation, in the first embodiment corresponding of the quantity of guardrail III 11 and position the quantity of two ends bending part of guardrail I 2 and
Position;In the quantity of guardrail IV 12 and position the first embodiment corresponding, the two ends cross section of guardrail II 3 is the quantity of V-shape portion position
And position, this V-shape portion position is by forming position symmetrical junction between the bending part of the first plate body 7 and the second plate body 8 in guardrail II 3
Structure institute extremely, forms Y shape between any one the second plate body 8 and first plate body 7.Therefore, described guardrail III 11 is both relative to conveying
The delivery site of band is in the state of inclination, and the surface of the guardrail III 11 on the position away from conveyer belt is the first spigot surface 4,
The surface of the guardrail IV 12 on the position away from conveyer belt is the first spigot surface 4;In the guardrail on the position of conveyer belt
III 11 surface is the second spigot surface 5, is the second spigot surface 5 on the surface of the guardrail IV 12 on the position of conveyer belt.
Can also be formed sufficient amount of defeated in the program between guardrail III 11 by increase guardrail IV 12 quantity
Send passage.
The 4th kind of embodiment of the present invention, as shown in figure 8, this embodiment is guardrail with the difference of second embodiment
Only include guardrail III 11.Guardrail III 11 is the plate construction of strip, and cross section is in flat rectangle, and guardrail III 11 passes through to connect
Bar is connected on link 1.After installation, in the corresponding second embodiment of the quantity of guardrail III 11 and position, the two ends of guardrail I 2 are curved
The quantity of folding part position and position, described guardrail III 11 is in the state of inclination both relative to the delivery site of conveyer belt, away from
The surface of the guardrail III 11 on the position of conveyer belt is the first spigot surface 4, in the guardrail III 11 on the position of conveyer belt
Surface is the second spigot surface 5.
In above-mentioned four kinds of embodiments, the width of the first spigot surface and the second spigot surface is identical.On guardrail I, I liang of guardrail
The width of the bending part at end determines the first spigot surface and the width of the second spigot surface, more big then the first guiding of bending part width
The width of face or the second spigot surface is bigger, otherwise the width of the first spigot surface, the second spigot surface is less;On guardrail II, the
The width of the bending part at one plate body two ends determines the first spigot surface and the width of the second spigot surface, and bending part width is more big then
The width of the first spigot surface or the second spigot surface is bigger, otherwise the width of the first spigot surface, the second spigot surface is less, and also
The width of two plate bodys determines the first spigot surface and the width of the second spigot surface, more big then first spigot surface of width of the second plate body or
The width of person second spigot surface is bigger, otherwise the width of the first spigot surface, the second spigot surface is less;On guardrail III, guardrail III
Width determine the first spigot surface and the width of the second spigot surface, the width of guardrail III is more big, and the first spigot surface or second is led
Bigger to the width in face, on the contrary the width of the first spigot surface, the second spigot surface is less;On guardrail IV, guardrail IV any one
The width of side determines the first spigot surface and the width of the second spigot surface, more big then first guiding of width of any side of guardrail IV
The width of face or the second spigot surface is bigger, otherwise the width of the first spigot surface, the second spigot surface is less.
First spigot surface and the second spigot surface are the keys limiting state in course of conveying for the octahedral diamond molding container,
If therefore can but fall the first spigot surface and the second spigot surface can act on octahedral diamond molding container upper and lower ends inclined-plane,
Can achieve the purpose of hold mode.So first spigot surface and the second spigot surface can change on the premise of providing effective contact surface
Trapezoidal, the width of the such as first spigot surface is more than the width of the second spigot surface, or the width of the first spigot surface is less than second
The width of spigot surface.As described above, the width of the first spigot surface and the second spigot surface changes and can be corresponded on guardrail by changing
The width at position or guardrail overall width are realized.It is also possible to pass through to arrange arc in addition to adjustment width to obtain other embodiments
Obtaining embodiment, such spigot surface is cambered surface to the spigot surface of shape, and the contact between spigot surface and octahedral diamond molding container is in
Wire, or form long and narrow arc surfaced contact surface because of the deformation of octahedral diamond molding container with spigot surface.
Claims (10)
1. a kind of octahedral diamond molding container it is characterised in that:This octahedral diamond molding container includes
Conveyer belt and guardrail, described guardrail is located above conveyer belt and upwardly extends in the side of tape transport article, and described guardrail is extremely
It is provided with a spigot surface less, described spigot surface includes the first spigot surface (4) and the second spigot surface (5), described first spigot surface (4)
Distance to conveyer belt is more than the distance that the second spigot surface (5) arrives conveyer belt, and described first spigot surface (4) conveyer belt relatively is in
Heeling condition, described second spigot surface (5) relatively conveyer belt is in heeling condition, the direction of described first spigot surface (4) and the
The direction of two spigot surfaces (5) is intersected, position relationship symmetrically between the spigot surface on adjacent described guardrail.
2. according to claim 1 octahedral diamond molding container it is characterised in that:Described first spigot surface (4)
The angle of inclination of conveyer belt is identical with the angle of inclination of the second spigot surface (5) conveyer belt relatively relatively.
3. octahedral diamond molding container according to claim 1 or claim 2 it is characterised in that:Described first spigot surface
(4) width is equal to the width of the second spigot surface (5).
4. octahedral diamond molding container according to claim 1 or claim 2 it is characterised in that:Described first spigot surface
(4) width is more than the width of the second spigot surface (5).
5. octahedral diamond molding container according to claim 1 or claim 2 it is characterised in that:Described first spigot surface
(4) width is less than the width of the second spigot surface (5).
6. octahedral diamond molding container according to claim 1 or claim 2 it is characterised in that:Described guardrail transversal
Face is in three flanging shapes, and described spigot surface also includes the 3rd spigot surface (6), and described 3rd spigot surface (6) is located at the first spigot surface
(4) between and the second spigot surface (5).
7. octahedral diamond molding container according to claim 1 or claim 2 it is characterised in that:Described guardrail is provided with two
Individual spigot surface, is in symmetrical position relationship, described guardrail between the first spigot surface (4) on two spigot surfaces of described guardrail
Two spigot surfaces on the second spigot surface (5) between be in symmetrical position relationship.
8. according to claim 7 octahedral diamond molding container it is characterised in that:It is provided with the institute of two spigot surfaces
State guardrail to be provided between the guardrail of a spigot surface positioned at two.
9. according to claim 7 octahedral diamond molding container it is characterised in that:Described spigot surface also includes
Three spigot surfaces (6), described 3rd spigot surface (6) is located between the first spigot surface (4) and the second spigot surface (5).
10. according to claim 9 octahedral diamond molding container it is characterised in that:Described guardrail includes one piece
Cross section is in the second plate body (8) that first plate body (7) of three flanging shapes, two pieces of cross sections are in flattened rectangular, described second plate
Body (8) be located at respectively the first plate body (7) two ends and with the end of the first plate body (7) position relationship symmetrically.
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CN201410428658.2A CN104309988B (en) | 2014-08-27 | 2014-08-27 | Conveying device for eight-faced diamond-shaped container |
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CN201410428658.2A CN104309988B (en) | 2014-08-27 | 2014-08-27 | Conveying device for eight-faced diamond-shaped container |
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CN104309988B true CN104309988B (en) | 2017-02-15 |
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Family Cites Families (8)
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US6360880B1 (en) * | 1999-01-29 | 2002-03-26 | Ouellette Machinery Systems, Inc. | Two axis bottle guide rail change over for an air conveyor |
WO2001060724A1 (en) * | 2000-02-17 | 2001-08-23 | Netra Systems | Pneumatic conveyor equipped with bottom guide |
CN2546404Y (en) * | 2002-05-12 | 2003-04-23 | 山东瑞阳制药有限公司 | Stable conveying rail for drug bottle |
JP4522463B2 (en) * | 2008-04-21 | 2010-08-11 | 株式会社アイディエス | Sample transport apparatus and sample processing apparatus |
FR2932466B1 (en) * | 2008-06-13 | 2010-12-17 | Sidel Participations | MULTIVOY CONVEYOR INSTALLATION |
DE102011050843A1 (en) * | 2011-06-03 | 2012-12-06 | Nov Hau Ag Engineering | Method and device for transporting objects to a station |
US8601340B2 (en) * | 2011-07-25 | 2013-12-03 | Cortina Systems, Inc. | Time varying data permutation apparatus and methods |
CN204124684U (en) * | 2014-08-27 | 2015-01-28 | 杭州中亚机械股份有限公司 | A kind of octahedral diamond molding container feedway |
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