INTEGRAL HAMMER FOR THE ASSEMBLY OF SOWING DISCS OF A SEEDING MACHINE

Abstract

An integral hammer (M) designed for the assembly of a sowing disc (D) which is fixed with the bolts (22) and nuts (23) is described. It stands out due to the fact that it includes machining on its internal face of a first raceway (10) and a second raceway (11) for the direct assembly of a first conical roller (12) and a second conical roller (13), thus eliminating the need to incorporate the cups that make up conventional bearings from the outset. For the assembly of said first conical roller (12) and second conical roller (13), the first internal cone (14) and a second internal cone (15) that define the inner bearing rings are used. In this way, the integral hammer works as a single unit that includes the aforementioned first internal cone (14) and a second internal cone (15) with their respective first cage (16) and second cage (17) constituting the hammer-bearing set.

Claims

1. An integral hammer for the assembly of sowing discs of a seeding machine, comprising: a first raceway and a second raceway for the direct assembly on a first conical roller and a second conical roller, wherein said first conical roller and second conical roller rest on a first internal cone and a second internal cone that define the inner bearing rings.

2. The integral hammer of claim 1, wherein said first internal cone and second internal cone fit within a first cage and second cage.

3. The integral hammer of claim 1, further comprising a first seal and a second seal.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] In order to specify the advantages thus briefly commented, to which users and those skilled in the art may add many more, and to facilitate the understanding of the constructive, constitutive and functional characteristics of the integral hammer invented, an example preferred embodiment is described below which is illustrated, schematically and without a specific scale, in the attached sheets, with the express clarification that, precisely because it is an example, it is not appropriate to assign it a limiting or exclusive nature of the scope of protection of the present invention, but rather it is simply assisted by a merely explanatory and illustrative intention of the basic conception on which it is based.

[0020] FIG. 1 is representative of the prior art, which shows in cross-section the body of a hammer with the pair of coupled bearings that is currently used for the assembly of a sowing disc.

[0021] FIG. 2 is also a vertical sectional view which, in this case, represents the modified hammer according to this invention with the set of parts that are incorporated for the assembly of the sowing disc.

[0022] FIG. 3 is an exploded perspective view showing the same combination of elements that is used for the assembly of the sowing disc with the hammer of this invention.

[0023] FIG. 4 is a perspective view of the integral hammer body of this invention.

[0024] FIG. 5 is a vertical sectional view of the same hammer body of the previous Figure.

[0025] It is clarified that, in all the figures, the same reference numbers and letters correspond to the same or equivalent parts or constituent elements of the set, according to the example chosen for the present explanation of the invented integral hammer.

DETAILED DESCRIPTION

[0026] FIG. 1 shows how the set for the assembly of the disc of the sowing disc is formed. In these known embodiments, it can be seen that the cups of the conical bearings (6) and (7) are housed inside the hammer body (8). For its assembly, first the cone (4) is incorporated on the internal side, with the corresponding retainer (3), then a hardened bushing (1) is placed, which has the function of being the track wherein the lip of the retainer (3) makes contact, this is due to the fact that the shaft (2) wherein the set is assembled is soft, and the friction of the lip of the retainer would wear it out prematurely, for this reason said hardened bushing (1) is used.

[0027] Under the exposed conditions, in order to produce the assembly, the hammer body is greased, by applying the necessary amount of grease, this raises the problem that the lubricant may become contaminated, since the environment where this process is usually carried out is not normally the suitable, which affects the service life of the bearing.

[0028] Once the greasing is complete, the cone (5) is placed on the external side and the set is adjusted by placing the nut (9) that is screwed onto the mounting shaft (2). This is a critical and complex process, since it requires giving the set the proper adjustment to avoid overloading the tracks, either due to excessive adjustment, or excessive axial clearance due to poor adjustment.

[0029] It should be noted that with the assembly mentioned in the preceding paragraphs, the load capacity of the bearings is affected, since if the adjustment is excessive, the force produced between the rolling elements and the raceways takes on such high values that it leads to breakage of the set (due to exceeding the admissible load limit value of the material), raising the temperature of the set, damaging the grease and the retainer rubber.

[0030] On the contrary, if a lower load than required is applied, the excessive internal clearance affects the number of rollers in contact, so the force exerted on the set is supported by fewer rollers, therefore, the bearing load capacity is reduced.

[0031] It can be seen that the disadvantage of this assembly lies in the fact that there are too many factors to consider when assembling the set, which requires that the person who carries out the work has a lot of experience in the specialty, which is not very common.

[0032] As FIGS. 2 and 3 especially show, the integral hammer to which this invention refers and is identified with the reference (M), is also provided for the assembly of the sowing disc (D) that is fixed with the bolts (22) and nuts (23), and is distinguished by the fact that it includes machining on its inner face of the a first raceway (10) and a second raceway (11) for the direct assembly of a first conical roller (12) and a second conical roller (13), thus eliminating the need to incorporate the cups that make up conventional bearings.

[0033] The same FIGS. 2 and 3 show that for the assembly of the referred the first conical roller (12) and second conical roller (13), the first internal cone (14) and a second internal cone (15) that define the inner bearing rings are used.

[0034] Consequently, the integral hammer (M) of this invention works as a single unit that includes the aforementioned first internal cone (14) and a second internal cone (15) with their respective first cage (16) and second cage (17) constituting the hammer-bearing set.

[0035] In order to keep the interior of the set lubricated, a first seal (18) and a second seal (19) are used, thus forming a sealed unit, all of which is fixed on the shaft (2) wherein the mechanical seal (20) was previously assembled, it is fixed to the shaft by means of adjusting the nut (9) and the cap (21).

[0036] It can be seen that an extremely simple assembly is achieved, since it is not necessary to ensure the play during assembly, the direct adjustment that is made with the nut (9) adjusted to the stop is sufficient.

[0037] Finally, looking now at FIGS. 4 and 5, it is possible to clearly appreciate the constructive modification that highlights the integral hammer (M) of this invention which, as stated above, includes a first raceway (10) and a second raceway (11) on its internal surface, wherein the first conical roller (12) and a second conical roller (13) sit (visible in FIGS. 2 and 3), thus eliminating the need to incorporate bearings from the outset.