Hinge device

Abstract

 57 The hinge device (1) comprises a male element (2) and a female element (3). The male element (2) includes a cylindrical body (4), wherefrom protrudes a pin (5), having a smaller diameter than the cylindrical body (4) and lying coaxial therewith. A seat is provided at the end of the pin (5), and a sphere (10) is maintained in the seat. The female element (3) is shaped to accommodate at least part of the pin (5). Both the male element (2) and the female element (3) are associable with casings.

Description

[0001] Known nowadays are hing devices including a male element of hollow construction to lighten the structure and decrease its manufacturing costs.

[0002] Such a product, and the method for obtaining it, are claimed in prior French Patent Application FR-A-2418.046, by the same Applicant.

[0003] That known type, however, is not exempt of drawbacks: first of all, owing to the particular structure of the male element, the female element cannot pivot around the pin but only on the base thereof. Furthermore, where such a hinge is formed from ferrous materials and utilised in a marine environment, oxides are formed which create a friction area over the pin base, reducing the hinges' functionality.

[0004] To obviate the latter drawback, it would be sufficient to use materials such as stainless steel or brass, which, however, greatly increase the cost of the finished product.

[0005] The hollow structure of the male element may develop another problem associated with the surface treatment thereof: when immersed in galvanic baths, some of the liquid seeps into the interior of the male element and is trapped therein as the element is advanced to the next treatment bath, thereby contaminating successive tanks, with small quantities of different liquids from prior baths, the passage whereof is necessary to complete the treatment.

[0006] This also brings about a cost increase, albeit a slight one, due to the necessity to renew the liquids in the galvanic baths more frequentfy than would be necessary if they were contaminated to a lesser extent by different liquids from prior baths.

[0007] In the storing phase, moreover, any liquid left inside the hollow male element could flow out of it and corrode, by its mainly acid nature, other hinges.

[0008] Among the ordinary "solid" hinges, that is with the male element fabricated as a single solid member, some types are known which utilise a sphere on a pin end.

[0009] The main disadvantage of such types resides in their higher cost due to the greater amount of material employed in their manufacture.

[0010] It is a primary aim of this invention to obviate the above cited inconveniences of the known types of hinge devices by providing a hinge device, wherein the working load is supported on the pin and is subject to only neglectable frictional resistance.

[0011] Another important object is to provide a hinge device which combines with the preceding feature a reduction in the overall manufacturing costs, and in particular a significant reduction in the quantity of material employed.

[0012] A further object of the invention is to provide a hinge device which reduces contamination of successive galvanic baths during the treatment thereof.

[0013] A not unimportant object is to provide a hinge device which can be manufactured by utilizing standard equipment, and readily available materials which is safe and reliable in use.

[0014] These and other objects are achieved by a hinge device, characterised in that it comprises a hollow male element having a pin on the end of which a seat is formed for a sphere made fast with said seat, said hinge further comprising a female element, matingy shaped to match the pin, a means being provided for associating the hinge device with casings.

[0015] Further features and advantages will become apparent from the following detailed description of a particular embodiment, with reference to the accompanying drawing sheet, in which:

Figure 1 is a partly sectional perspective view of the hinge device according to the invention;

Figure 2 is a side elevation view of the same;

Figure 3 is a sectional view taken on the line III-III of Figure 2.

[0016] With reference to the above figures, the hinge device 1 comprises a male element 2 and a female element 3.

[0017] The male element 2 includes a cylindrical body 4 and a cylindrical pin 5, of similar shape and having the same longitudinal axis but defining a smaller diameter than the body 4. The male element 2 defines between the pin 5 and the body 4 an annular flat base 6, extending perpendicularly to the longitudinal axis of the male element 2 and having a radial extension corresponding to the difference between the diameter of the cylindrical body 4 and the diameter of the pin 5.

[0018] Both the body 4 and the pin 5 define hollow intemal cavities, 7 and 7a respectively, the size of the cavity 7 being larger than the latter 7a.

[0019] At the end 8 of the pin 5 there is formed a cylindrical seat 9, having a slightly larger diameter than the cavity 7, and adapted to accommodate a spherical bearing consisting of a small hardened sphere 10. The seat 9 extends along the longitudinal axis of the cavity 7a for a distance which is greater than the radius of said sphere 10 but smaller than the diameter thereof.

[0020] The hardened sphere 10 has a slightly smaller diameter than said seat 9 and is made fast with the pin 5 by upsetting its end 8; this prevents the sphere 10 from coming out of the seat 9 as well as preventing liquid from entering the cavities 7, 7a through the end 8 of the pin 5 during the phase of immersion in galvanic baths.

[0021] The sphere 10 thus becomes the terminating extremity of the pin 5.

[0022] The female element 3 has a cylindrical body 11 matin- gly shaped to receive the pin 5 of the male element 4, in a seat 12 having an end 12a and defining an axial extension which is slightly smaller than the length dimension of the pin 5, with the sphere 10 located in the seat 9. Thus, when the female element 3 is operatively positioned on the male element 2, the end 12a of the seat 12 defined by the female element 3 rests and is rotatable on the sphere 10 with neglectable friction, due to the small surface area of tangential contact between the curved surface of the sphere 10 and the flat surface of the end 12a.

[0023] Fast with each of the side surfaces 13 and 14 of the bodies 4 and 11 is a means 15 for associating the hinge 1 with casings, said means comprising, for example, a threaded shank 16.

[0024] The hinge 1, owing to the configuration of the pin 5 and seat 12, advantageously works on the sphere 10 and not on the annular base 6: this improves the functional aspect since the coefficient of friction existing between the respectively rotatable elements 2,3 of the hinge is greatly reduced, and the point of rotation is protected inside the female element 3.

[0025] The male element 2, being hollow, lowers the production costs by reducing the quantity of raw material employed in the manufacture of the hinge device.

[0026] Furthermore, the sphere 10, by closing the cavity 7, 7a also prevents the liquid present in the galvanic treatment tanks from entering the male element 2, and being inadvertently transported to, and thereby contaminating, successive tanks containing different liquids.

[0027] Thus, it has been ascertained that the hinge device according to the invention achieves all of the objects set forth, which allows manufacturing costs to be reduced, and simultaneously provides an improved hinge device from the functional point of view.

[0028] Of course, the materials employed and the dimensions may be any ones according to necessity.

Claims

₁. A hinge device (1), characterised in that it comprises a hollow male element (2) having a pin (5) on the end of which a seat (9) is formed for a sphere (10) maintained within said seat (9), said hinge device (1) further comprising a female element (3) shaped to accommodate at least a part of the pin (5), a means (15) being provided for associating the hinge device (1) with casings.

2. A hinge device (1) according to Claim 1, characterised in that it comprises a male element (2) including a cyclindrical body (4) at one end whereof there protrudes a pin (5) of like shape, arranged along the same longitudinal axis but having a smaller external diameter, said male element (2) being hollow.

3. A hinge device (1) according to Claims 1 and 2, charac- tensed in that it comprises a pin (5) having at the free end thereof, a cyclindrical seat (9) for a sphere (10) of slightly smaller diameter.

4. A hinge device (1) according to Claim 1 or 3, characterised in that said sphere (10) is made fast with said pin (5) by means of a partial upsetting of the end (8) of the same.

5. A hinge device (1) according to Claim 1, 3 or 4, characterised in that a portion of said sphere (10) protrudes out of the end (8) of said pin (5).

6. A hinge device according to Claims 1 and 2, characterised in that said female element (3) defines a seat (12) having an end (12a) and being adapted for accommodating said pin (5) of said male element (2) and having a slightly smaller depth that its height

7. A hinge device to Claim 1, characterised in that on the external surface of each of said male and female elements (2,3) there is made fast a means (15) comprising a threaded shank (16) adapted to associate said elements (2,3) to casings.

Drawing