PNEUMATIC ELEMENT OF AGRICULTURAL TOOL COMPRISING A RIGID TOP

专利摘要:
An agricultural implement member (3) comprises a non-inflated tire (9) with a tread (9-1) and a pair of sidewalls (9-2) each connected to the tread (9-1). a respective first end portion. The element (3) further comprises a rigid base (7), generally annular, through which the tire (9, 103) is mounted on a rotary support (2, 101) of agricultural tool. The flanks (9-2) are each overmolded on a peripheral portion of the rigid base (7, 107) in a second end portion, opposite the tread (9-1).
公开号:FR3056879A1
申请号:FR1659462
申请日:2016-09-30
公开日:2018-04-06
发明作者:Denis Piou
申请人:Otico SAS；
IPC主号:

专利说明:

© Publication no .: 3,056,879 (to be used only for reproduction orders)
©) National registration number: 16 59462 ® FRENCH REPUBLIC
NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY
COURBEVOIE © Int Cl ⁸ : A 01 B 29/04 (2017.01), B 60 C 7/24
A1 PATENT APPLICATION
©) Date of filing: 30.09.16.(© Priority: (© Applicant (s): OTICO Simplified joint stock company - FR. (© Inventor (s): PIOU DENIS. ©) Date of availability of the request: 06.04.18 Bulletin 18/14. ©) List of documents cited in the preliminary search report: See the end of this booklet (© References to other related national documents: ©) Holder (s): OTICO Simplified joint-stock company. ©) Extension request (s): © Agent (s): CABINET NETTER.
PNEUMATIC ELEMENT OF AGRICULTURAL TOOL COMPRISING A RIGID BASE.
FR 3 056 879 - A1 _ An element (3) of an agricultural tool comprises an uninflated tire (9) with a tread (9-1) and a pair of sidewalls (9-2) each connected to the tread bearing (9-1) at a respective first end portion. The element (3) further comprises a rigid base (7), generally annular, by means of which the tire (9, 103) is mounted on a rotary support (2, 101) of an agricultural tool. The sides (9-2) are each overmolded on a peripheral portion of the rigid base (7, 107) into a second end portion, opposite the tread (9-1).
. , HM 9-2 9- ^{1 13 W}
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121997 OTICO 44.FRD
Improved agricultural tool
The invention relates to a pneumatic element for an agricultural implement, and more particularly to an element of the type comprising an uninflated tire with a tread and a pair of sidewalls each connected to the tread at a respective first end portion.
Pneumatic elements of this type can be mounted on a rim or a support tube to form an agricultural tool in the form of a wheel or a roller. The resulting agricultural implement is used for working the fields, in particular to form furrows or close them.
The elements are arranged next to each other at a pitch which corresponds to the spacing of the grooves between them and / or seeders.
Under certain working conditions, for example when the earth is sticky or in the presence of mud, agricultural tools, and in particular their pneumatic components, become clogged. This fouling reduces the working performance of the tools. Fouling also deteriorates the tools themselves, by premature wear of the parts which compose them and / or a tendency to separate these parts from each other, in particular the tires from the rest of their element.
For a long time now, the Applicant has been working on constructive arrangements allowing the pneumatic elements to clean themselves during work. This involves, for example, increasing the capacity of the tires to deform in order to promote the separation of the earth or of the sludge.
In its patent application in France published under the number FR 2 997 653 for example, the Applicant has proposed a tire whose profile has an inflection point on the sidewalls. This inflection point allows the tire to collapse on itself during operation, thereby removing the mud which has accumulated on this tire, in particular on its sidewalls.
Increasing the tire's capacity to deform is generally not enough to produce a functional agricultural tool. It should also be that this tire is rigid enough to work the ground, that the pneumatic elements resist the shocks that can occur in work and the forces exerted on them, in particular when it comes to negotiating a turn at roller or wheel. The pneumatic elements must also remain inexpensive to manufacture and be easily replaceable, in particular in the event of failure.
The Applicant has decided to go even further and be interested in the fouling of the volumes located between the tires of an agricultural tool, whether these equip agricultural tools in the form of rollers or wheels.
To this end, it offers an element of agricultural tool of the type comprising an uninflated tire with a tread and a pair of sidewalls each connected to the tread in a first respective end portion. The element further comprises a rigid base, generally annular, by means of which the tire is mounted on a rotary support for an agricultural tool, and in that the sidewalls are each overmolded on a peripheral portion of the rigid base. in a second end portion, opposite the tread.
Thanks to the remarkable configuration of the proposed pneumatic element, the tire thereof and its base can be made of materials different from each other. The tire can be made of a flexible material, which gives it good deformation capacity and good working efficiency. The tire can be arranged so as to clean itself. The base can be made of a rigid material, compared at least to the material of the tire. The base thus has the rigidity and solidity necessary to withstand the forces and shocks that occur when the tool is operating. The configuration of the base and the material in which it is made can be chosen jointly so as to dispense with additional reinforcing parts. The base material can in particular be chosen from materials which are not very sensitive to the adhesion of sludge or treated for this purpose. The base can be made of plastic.
The pneumatic element proposed has good circumferential rigidity and good surface flexibility. The cohesion between the flexible part of the element, which comprises a radially outer portion of the tire, and the rigid part of this element, which comprises the base, is ensured by the particular mounting of the tire on the base, which comprises a overmolding of the tire on the base.
The proposed pneumatic element is lighter than conventional elements where the element has no base and / or is made in one piece with the tire, and reinforcements, generally metallic, are used in the sole of the tire.
Other characteristics and advantages of the invention will appear on examining the detailed description below, and the attached drawings in which:
- Figure 1 shows an agricultural roller seen in partially exploded isometric perspective;
- Figure 2 shows the roller of Figure 1 in isometric perspective partially cut and exploded;
- Figure 3 shows the roller of Figure 1, seen in longitudinal half-section;
- Figure 4 shows the roller of Figure 1 in cross section, along the line IV-IV;
- Figure 5 shows a base for the roller of Figure 1, front view;
- Figure 6 shows the base of Figure 4, in section along the line VI-VI;
- Figure 7 shows the base of Figure 5, in section along the line VII-VII;
- Figure 8 shows the base of Figure 5, in section along the line VIII-VIII;
- Figure 9 shows a detail IX of the roller of Figure 2;
- Figures 10 to 12 are similar to Figures 2 to 4 respectively and show an agricultural roller according to a first embodiment;
- Figures 13 to 15 are similar to Figures 2 to 4 respectively and show an agricultural roller according to a second embodiment;
- Figure 16 shows an agricultural wheel, isometric perspective view partially cut and exploded;
- Figure 17 shows the agricultural wheel of Figure 16, a partially cut isometric perspective view;
The accompanying drawings contain elements of a certain character. They can not only serve to complete the invention, but also contribute to its definition, if necessary.
Reference is made to Figure 1.
It shows an example of an agricultural tool in the form of a roller 1. The roller 1 comprises an elongated support tube 2 and a plurality of pneumatic elements 3 generally annular. The pneumatic elements are threaded onto the support tube 2 in the longitudinal direction thereof. Each pneumatic element 3 comprises two large lateral faces which are generally parallel to each other.
The roller 1 further comprises a plurality of generally annular spacers 5. The spacers 5 are threaded onto the support tube 2, in the longitudinal direction thereof. Each time, a spacer 5 is interposed between two large faces of two neighboring pneumatic elements 3.
The lateral faces of the pneumatic elements 3 are in contact with one another by means of the spacers 5. The roller 1 also comprises two flanges, not shown, each mounted on the support tube 2 at a respective end of the stack of pneumatic elements 3. The flanges are arranged in such a way that the pneumatic elements 3 are pressed against each other by compressing the spacers 5. The resulting force applied to the end flanges can be close to a ton (ten thousand newtons ).
Reference is made to Figures 2 to 4.
Each pneumatic element 3 comprises a generally annular base 7 and a tire 9 attached to the base 7.
The base 7 has an inner face 11 by means of which the pneumatic element 3 is mounted on the support tube 2 and an outer face 13, radially opposite the inner face 11 and on which the tire 9 is hung.
The tire 9 comprises a portion forming a tread 9-1 and two portions forming sidewalls 9-2 generally parallel to one another and connected at one of their respective ends to the tread 9-1. The flanks 9-2 generally extend radially. Here, the flanks 9-2 join together in a roughly middle portion 9-3. This middle portion 9-3, the tread 9-1 and the part of the sides 9-2 connecting the middle part 9-3 to the tread 9-1 jointly delimit a chamber 9-4. This chamber 9-4 is in fluid communication with the outside of the tire 9, via an orifice not shown. The tire 9 is of the non-inflated and semi-hollow type.
Here, the tread 9-1 has a slightly domed profile radially towards the outside of the tire 9. The chamber 9-4 has an oval profile. The curvature of the tread 9-1 corresponds to a half-oval.
The tire 9 is made of flexible material, for example elastomer, rubber and / or polyurethane. In particular, the Shore hardness of the material of the tire 9 is between 50 HRC and 75 HRC. The tire 9 can deform during work. The base 7 is made of rigid material, for example a thermoplastic material.
The base 7 has a peripheral rib, or outer rib 15, which projects from its outer face 13 and extends circumferentially. Here, the outer rib 15 extends in a central region of the base 7.
The tire 9 is hung on the outer rib 15. The outer rib 15 has two sidewalls 15-1 (visible in FIG. 5) connected to each other by a strip forming a crown 15-2 (visible in FIG. 5). The sides 15-1 of the outer rib 15 each have a straight profile. These sides 15-1 extend substantially radially. The apex 15-2 has a slightly domed profile. By this convex shape of the crown 15-2, the forces which arise while working on the tire 9 are directed on the lateral portions of the base 7.
The sidewalls 9-2 of the tire 9 hook onto the sidewalls 15-1 of the outer rib 15 while the middle portion 9-3 of the tire 9 comes into contact with the crown 15-2 of the rib 15. The sidewalls 9 -2 of the tire 9 hang on a part which goes from their median portion 9-3 to their end opposite to the tread 9-1. This part of the sidewalls 9-2 of the tire 9 and the middle portion 9-3 are arranged so as to form a circumferential groove in the tire 9. The profile of this circumferential groove corresponds to the profile of the outer rib
15. This results in a form of cooperation which contributes to the mutual assembly of the tire 9 and the base 7. The sidewalls 9-2 of the tire 7 hang over the entire height of the sidewalls 15-1 of the outer rib. 15. The ends of the sidewalls 9-2 of the tire 9 remote from the tread 9-1 are in contact with the rest of the base 7, at the level of the external face 13 of the latter.
The tire 9 is produced in a single piece.
The following table gives a set of measurement values for tool 1 in Figures 1 to 4, by way of example only.
room measured reference value support tube 2 outside diameter OD2 406.4 mm base 7 internal diameter ID7 407 mm
base 7 outside diameter OD7 456 mm base 7 width W7 117 mm pneumatic 9 outside diameter OD9 600 mm pneumatic 9 width W9 65 mm pneumatic element 3 not P3 125 mm
The outer diameter of the base 7 is understood to be outside the outer rib 15.
Reference is made to Figures 5 to 8.
The base 7 has two large side faces 17 parallel to each other. The lateral faces 17 each connect the internal face 11 to the external face 13. The base 7 comprises a generally tubular body 19 which extends between the lateral faces 17. The body 19 has an external surface 21 which corresponds to the external face 13 of the base 7 and an interior surface 23 generally cylindrical and radially opposite the exterior surface 21.
The outer rib 15 is connected to the outer surface 21 of the body 19. The sides 15-1 of the outer rib 15 extend substantially radially. The base 7 comprises a plurality of grooves which project radially from the internal surface 23 of the body 19 to the internal face 11 of the base 7 by means of which the base 7 is mounted on a support tube.
The base 7 here comprises a second rib, or internal rib 25, which projects radially from the internal surface 23 and extends circumferentially on this internal surface 23.
The base 7 further comprises a plurality of third ribs, or axial ribs 27, which project radially from the inner surface 23 of the body 19 and generally extend axially. The axial ribs 27 each connect the inner rib 25 to one or the other of the lateral faces 17 of the base 7. The axial ribs 27 are regularly distributed angularly on the inner surface 23 of the body 19.
Each axial rib 27 is connected at one of its longitudinal ends to the internal rib 25. Each longitudinal rib 27 has a free end 29 opposite to the internal rib 25. This free end 29 is bevelled so that this free end 29 flares outward radially. Here, the free end 29 corresponds to a lateral face of the base 7, where it connects to the body 9. Each axial rib 27 thus has the appearance of a straight trapezium, the large base of which connects to the body 19, on the inner surface 23 thereof, and the small base coincides with the inner face 11 of the base 7.
The inner rib 25 has an apex edge 25-1 via which the base 7 comes into external contact with the wall of a support tube, for example the support tube 2 of FIGS. 1 to 4. Each axial rib 27 has an apex edge 27-1 via which the base 7 comes into external contact with the wall of a support tube, for example the support tube 2 of FIGS. 1 to 4.
The axial ribs 27 and the inner rib 25 provide long guidance of the base 7 on the support tube. The axial ribs 27 and the inner rib 25 stiffen the body 19. They also jointly form a network of ribs which gives the base 7 an alveolar structure of fairly reduced mass given its rigidity.
The outer rib 15 has a generally rectangular profile, here almost square. The rib 15 has a plurality of recesses 29 which open onto the sidewalls 15-1 of the outer rib 15. These recesses 29 help to hook the tires 9 onto the base 7, in particular when this attachment is achieved by overmolding the tire 9 on the base 7. The material which forms the tire 9 penetrates into each of the recesses 29 during molding. By solidifying, the material forms therein a shape analogous to a hook which retains the tire 9 on the outer rib 15.
Here, each recess 29 opens onto each of the sides 15-1 of the outer rib
15. The recesses 29 take the form of orifices which generally extend in the axial direction of the base 7. These orifices cause a junction of material 9-5 (visible in FIG. 4) between the sides 9-2 of the tire 9 during overmolding. This junction 9-5 is located on an end portion of the sidewalls 9-2 of the tire 9 opposite the tread 9-1. The junction 9-5 greatly stiffens the mutual assembly of the tire 9 and the base 7. This junction 9-5 also consolidates the tire 9. This junction 9-5 acts in the manner of a rivet which crosses the sidewalls 9 -2 and the outer rib 15 of the base 7.
Each recess 29 is here in the form of two frustoconical portions 29-1 which are connected in a median plane of the base 7 and widen in the direction of the sidewalls 15-1 of the outer rib 15. During the overmolding of the tire 9, this frustoconical shape guides the material towards the median plane of the base 7.
The recesses 29 are formed at the base of the rib 15 so as not to weaken this rib 15.
The outer surface 21 of the body 19 has a profile slightly inclined relative to the axial direction of the base 7. This outer surface 21 has two frustoconical portions 211 with a fairly small apex angle. Each frustoconical portion 21-1 narrows going from the median plane of the base 7 towards a respective side face 17 of this base 7. This inclination makes it possible to evacuate the mud or the earth from the tires 9 towards a part of the base 7 where they least affect the performance of the tool.
The base 7 is made in one piece.
The following table gives a set of measurement values for the base 7 of FIGS. 5 to 8. This set of values is compatible with the tool 1 of FIGS. 1 to 4. It is given by way of example only.
Portion measured reference value rib 15 width W15 30 mm rib 15 height H15 22.2mm base 7 without rib 15 thickness T7 26.5mm of course 29 height H29 11.5mm
ίο
rib 15 outside diameter OD15 504.4 mm
Reference is made to Figure 9.
The spacer 5 has a symmetrical appearance with respect to a median plane 5-1. The spacer 5 has two large lateral faces which are parallel to each other. Each side face of the spacer 5 is arranged in shape correspondence with the side face of a base 7.
The spacer 5 has a radially inner portion 5-2 and a radially outer portion 5-3 which connects to the inner portion 5-2. The inner portion 5-2 has an isosceles trapezoid profile. The large base of this trapezium forms an internal surface 5-4 of the spacer 5 by means of which this spacer 5 comes into contact with the wall of the support tube 2. The sides of this trapezoid are inclined relative to the direction radially corresponding to the free ends of the longitudinal ribs 27. The outer portion 5-3 has a generally square profile whose side corresponds to the small base of the inner portion 5-2.
The following table gives a set of measurement values for the spacer 5 in FIG. 9. This set of values is compatible with the tool 1 in FIGS. 1 to 4. It is given by way of example only.
Portion measured reference value interior 5-2 maximum width W5-2 30 mm interior 5-2 side slope A5-2 60 ° outdoor 5-3 width W5-3 8 mm outdoor 5-3 height H5-3 6 mm together height H5 24.8mm
When mounting the pneumatic elements 3 on the tube 2, and especially when tightening, the trapezoidal shape of the spacers 5 cooperates with that of the bevelled longitudinal ribs to cause the material of the spacers 5 to flow into the cells of the bases 7 and under the axial ribs 27. In doing so the spacers 5 adhere the bases 7 to the outer wall of the support tube 2. This adhesion counteracts the relative rotational movements of these bases 7 around the support tube 2. Such movements tend to occur in work, in particular when roll 1 turns. This form of cooperation between the spacers 5 and the lateral faces 17 of the bases 7 also provides a seal for the assembly over the length of the roller 1. This seal prevents mud, earth or dirt from entering from the outside. , between the bases 7 and the support tube 2.
Reference is made to Figures 10 to 12.
The functionally analogous elements bear numerical references identical to FIGS. 2 to 4.
The agricultural roller 1 differs from that of FIGS. 2 to 4 by the shape of the tire 9 of the elements 3. Here, the tread 9-1 is narrow. The sides 9-2 are generally straight opposite the rib 15 of the base 7 and then bend so as to approach one another in the direction of the tread 9-1. Room 9-4 has a generally triangular and isosceles profile, the base of which is shorter than the equal sides. The tires 9 are higher than in the embodiment of Figures 1 to 4. For example, their outside diameter OD9 is close to 650 millimeters.
Reference is made to Figures 13 to 15.
The functionally analogous elements bear numerical references identical to FIGS. 2 to 4.
The agricultural roller 1 differs from that of FIGS. 2 to 4 by the shape of the tire 9 of the elements 3. Here, the tread 9-1 remains fairly wide. The sidewalls 9-2 are generally straight opposite the rib 15 of the base 3 and then incline relative to the radial direction so as to approach each other in the direction of the tread 9- 1. Room 9-4 has a generally square profile. For example, the outside diameter OD9 of the tires is close to 620 millimeters.
The tread 9-1 has treads 31. These treads 31 are inclined relative to the axial direction of the tires 9. In addition to or in replacement, the tread 9-1 may have studs, in particular of similar profile. to that of sculptures 31.
Reference is made to Figures 16 and 17.
They show an agricultural tool in the form of a wheel 100.
The wheel 100 includes a rim 101 and a pair of tires 103 attached to the rim 101. Here, the tires 9 are similar to the tires 9 in FIGS. 10 to 12. The rim 101 forms a rotary support for the tires 103
The rim 101 has a pair of ribs 105 each similar to the outer ribs 15 of FIGS. 1 to 9. The ribs 105 project radially from the rim 101. The ribs 105 each extend circumferentially. The ribs 105 extend parallel to each other. Each time, a tire 103 is attached to a respective rib 105 by overmolding in the manner of what has been described above in relation to FIGS. 1 to 9. The peripheral part of the rim forms a base plate of profile similar to the 'base 7 of Figures 1 to 15.
The rim 101 has an axially inclined outer surface 107, at least on the part of this surface which is located between the ribs 105. On this part, the surface 107 has two frustoconical portions 107-1 which narrow in the direction of one of the other.
Here, the rim 101 is produced by assembling a pair of flanges 109 between them. Each flange 109 has the shape of a half-rim. Each flange 109 carries a rib
105 respectively. The flanges are full sail. On their large face opposite the veil, each flange 109 has a rib network which gives it a honeycomb structure.
The wheel 100 has a hub 111 produced by the abutment of respective central orifices of the flanges 109. The means 111 receives a bearing here in the form of a bearing 112 with double rows of balls. The bearing 112 is here held by two elastic rings 113 of the circlip type. The flanges 109 can be mounted one on the other and held firmly in this position by a set of fasteners, here each formed by a pair of screws 114 and nut 116.
The invention is not limited to the embodiments described above, by way of example only. In particular :
- The outer rib 15 could have more than one row of recesses 29, in particular when this rib 15 has a greater height in order to accommodate tires 9 of more slender profile. In particular, the outer rib 15 may in this case have two rows of recesses 29, each distributed over circles of different diameters. The recesses 29 in these rows can be angularly offset from one another, in particular in order to preserve the resistance of the outer rib 15.
- Each base 7 may include more than one outer rib 15.
- The tires 9 attached to the base 7 may for some of them at least be of the so-called full type, that is to say without chamber 9-4. The pneumatic elements 3 of a roller 1 for example may have tires 9 different from each other. For example, an alternation of elements 3 with solid tires 9 and elements 3 with semi-hollow tires 3 can be arranged on the support tube 2. The tires 9 of these elements 3 can also have different configurations from each other and / or be made of materials different from each other. This makes it possible in particular to produce an alternation of elements 3 with harder tires 9 and elements with more flexible tires 9.
- The profile of the tires 9 described above can be modified according to the application envisaged. These tires 9 can in particular have a narrower shape in order to form narrower grooves. On the contrary, these tires can also have a wider appearance. However, the width of a tire 9 should be related to the width of the outer rib 15 on which it is hooked in order in particular to avoid detachment of the sidewalls 9-2 in a zone remote from this rib 15. In in the case of very wide tires 9, it is possible to provide a coupling on two external grooves 15 or more.
- The outside diameter of the roller can be between 250 and 900 millimeters. The diameter of the support tube 2 can be between 190 and 750 millimeters. Its thickness between 5 and 6.3 millimeters. The pitch of the tires 9 can take a value in the group formed by 143, 150 and 167 millimeters.

权利要求:
Claims (14)
[1" id="c-fr-0001]
Claims
1. Element (3) of agricultural tool of the type comprising an uninflated tire (9,103) with a tread (9-1) and a pair of sidewalls (9-2) each connected to the tread (9- 1) in a first respective end portion, characterized in that the element (3) further comprises a rigid base (7, 107), generally annular, by means of which the tire (9,103) is mounted on a rotary support (2, 101) for an agricultural tool, and in that the sides (9-2) are each overmolded on a peripheral portion of the rigid base (7, 107) in a second end portion, opposite to the tread (9-1).
[2" id="c-fr-0002]
2. Element according to claim 1, wherein the peripheral portion of the rigid base (7, 107) and the second end portion of the sidewalls (9-2) are mutually arranged in shape cooperation.
[3" id="c-fr-0003]
3. Element according to one of claims 1 and 2, in which the second end portion of the sidewalls (9-2) is partly shaped at least in a radially inner groove of the tire (9, 103), the peripheral portion of the rigid base (7) comprises at least one rib (15, 105) and the groove and the rib (15, 105) are mutually arranged in shape correspondence.
[4" id="c-fr-0004]
4. Element according to one of the preceding claims, wherein the peripheral portion of the rigid base (7, 107) comprises a plurality of recesses (29) and the second end portions of the sidewalls (9-1) s 'extend in part at least through these recesses (29).
[5" id="c-fr-0005]
5. Element according to claim 4, wherein at least some of the recesses (29) open near the second end portion of each sidewall (9-2) and the tire (9) comprises at least one material junction (9-5) between the sides (9-2) and this material junction (9-5) passes through at least one of the recesses (29).
[6" id="c-fr-0006]
6. Element according to one of the preceding claims, in which the rigid base (
[7" id="c-fr-0007]
7, 107) is wider than the tire (9).
Ί. Element according to one of the preceding claims, in which the rigid base (7, 107) has an inner face (11) which has a network of ribs (27, 25) giving it a honeycomb structure.
[8" id="c-fr-0008]
8. Agricultural tool of the type comprising at least two pneumatic elements (3) according to one of the preceding claims.
[9" id="c-fr-0009]
9. Agricultural tool according to claim 8 comprising a rim 101), in which at least one base (7) is produced as a peripheral part of the rim.
[10" id="c-fr-0010]
10. Tool according to claim 9, wherein the peripheral part of the base (7) comprises two circumferential ribs (105) on each of which is molded a tire (103) respective.
[11" id="c-fr-0011]
11. Tool according to claim 8, wherein the rotary support (2) is generally tubular and elongated and comprising a plurality of pneumatic elements (3) mounted on the rotary support (2) aligned in the longitudinal direction of the rotary support (2).
[12" id="c-fr-0012]
12. An agricultural tool according to claim 11 further comprising a plurality of spacers of flexible material interposed each time between the bases of mutually adjacent pneumatic elements.
[13" id="c-fr-0013]
13. Agricultural tool according to claim 12, wherein the spacers (5) have at least one large lateral face and the bases (7) have at least one large lateral face (17) and the large lateral faces of the spacers (5) d 'on the one hand and bases (7) on the other hand have mutually conjugated forms.
[14" id="c-fr-0014]
14. Tool according to claim 13, wherein the large lateral face of the bases (7) has a beveled edge, the large lateral face of the spacers (5) has a beveled surface and the beveled surface and the beveled edge are mutually conjugated.
1/8

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引用文献:

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FR2776239A1|1998-03-18|1999-09-24|Otico|Special tires mounted on tube to form roller creating furrows for seed drill|

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EP2269431A1|2009-06-08|2011-01-05|Otico|Roller with semi-hollow tyres, in particular for farming machines|

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GB313649A|1928-03-15|1929-06-17|Roadless Traction Ltd|Improvements in pneumatic tyres|

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DE3101408A1|1981-01-17|1982-09-02|Bayer Ag, 5090 Leverkusen|VEHICLE TIRE|

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DE3815279A1|1988-05-05|1989-11-16|Amazonen Werke Dreyer H|Ground roller|

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FR2789940B1|1999-02-23|2001-04-13|Otico|SEMI-HOLLOW TYPE TIRE WITH REINFORCED STRUCTURE|

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DE102008023233A1|2008-05-10|2009-11-12|Amazonen-Werke H. Dreyer Gmbh & Co. Kg|Ackerwalze|

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FR2997653B1|2012-11-07|2017-12-08|Otico|SEMI-HOLLOW PNEUMATIC TIRE WITH IMPROVED PROFILE AND ROLLING MEMBER EQUIPPED WITH SUCH TIRES|

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FR3038490B1|2015-07-10|2017-07-21|Otico|PNEUMATIC SILLONNEUR|

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FR3056879B1|2016-09-30|2019-06-14|Otico|PNEUMATIC ELEMENT OF AGRICULTURAL TOOL COMPRISING A RIGID TOP|

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DE102017002727A1|2017-03-22|2018-09-27|Felix Kalverkamp|Device and method for rolling particular farmland o. Like. Usable areas|FR3056879B1|2016-09-30|2019-06-14|Otico|PNEUMATIC ELEMENT OF AGRICULTURAL TOOL COMPRISING A RIGID TOP|

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CN108260377B|2018-03-16|2019-12-20|农业部南京农业机械化研究所|Earthing suppression wheel with gasbag|

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USD943643S1|2020-10-01|2022-02-15|Marlon Lane Curtis|Grouser cage for compacting and preparation of soil and seeding apparatus|

法律状态:
2017-09-25| PLFP| Fee payment|Year of fee payment: 2 |

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2018-04-06| PLSC| Search report ready|Effective date: 20180406 |

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2018-09-21| PLFP| Fee payment|Year of fee payment: 3 |

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2019-09-26| PLFP| Fee payment|Year of fee payment: 4 |

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2020-09-25| PLFP| Fee payment|Year of fee payment: 5 |

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2021-09-30| PLFP| Fee payment|Year of fee payment: 6 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1659462|2016-09-30|

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FR1659462A|FR3056879B1|2016-09-30|2016-09-30|PNEUMATIC ELEMENT OF AGRICULTURAL TOOL COMPRISING A RIGID TOP|FR1659462A| FR3056879B1|2016-09-30|2016-09-30|PNEUMATIC ELEMENT OF AGRICULTURAL TOOL COMPRISING A RIGID TOP|

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CA2979170A| CA2979170A1|2016-09-30|2017-09-12|Tire element for an agricultural tool including a rigid baseplate|

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US15/714,168| US10863662B2|2016-09-30|2017-09-25|Pneumatic element for an agricultural tool comprising a rigid base|

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PL17193088T| PL3300555T3|2016-09-30|2017-09-26|Pneumatic element of an agricultural tool comprising a rigid base|

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EP17193088.6A| EP3300555B1|2016-09-30|2017-09-26|Pneumatic element of an agricultural tool comprising a rigid base|

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RS20200246A| RS60010B1|2016-09-30|2017-09-26|Pneumatic element of an agricultural tool comprising a rigid base|

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DK17193088.6T| DK3300555T3|2016-09-30|2017-09-26|Cover element in an agricultural implement, comprising a rigid base|

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ES17193088T| ES2775777T3|2016-09-30|2017-09-26|Agricultural tool pneumatic element having a rigid base|