RU2711088C1 - Adjustable support of working surface - Google Patents

Abstract

FIELD: machine building.SUBSTANCE: invention relates to machine building, particularly, to machine building, and can be used in surface design and calibration for industrial working surfaces processing systems and printed precision 3-coordinate systems installed on controlled supports. Adjustable support of the working surface consists of a rod with a nut screwed on it, of an upper metal support plate provided with holes, of the lower support part, into the central hole of which the lower end of the rod having a thread is screwed. At that, upper part of rod is pressed into hinge ball enclosed in housing, at that housing outside is rigidly connected to center of support plate; lower support part is made in the form of a metal bushing. There are seats for key on rod. Upper support plate and sleeve are made of rigid metal.EFFECT: high strength, reliability and degrees of freedom of the structure of the adjustable support, which enable to achieve precision flatness of the working surface.4 cl, 4 dwg

Description

The invention relates to mechanical engineering, in particular to machine tools and can be used to create and calibrate surfaces for industrial systems for processing work surfaces and printed precision 3-coordinate systems mounted on adjustable supports.

Known adjustable screw supports specified in the methods of calibration of automobile platforms (patents RU No. 2352899, 2352900). These methods involve setting the site levels using screw support joints that adjust the height of each section of the site vertically, with subsequent fixation after reaching the required flatness of the surface. Moreover, each section of the site is rigidly fixed from below and from above with a special frame around the perimeter.

The disadvantage of this device is that in the presence of lateral deviations, the vertically oriented support does not allow to align all the edges of the section of the site evenly, respectively, to fulfill the necessary condition of flatness. Therefore, with this technology, it is necessary to eliminate defects in the surface of the base onto which the structure with the working surface of automobile platforms is mounted.

Known adjustable structures (supports) for raised floors, shown in patents RU No. 26399338, No. 2278225, No. 2278226, No. 2278227, No. 2367751, in which the support has a stand, at the upper end of which is located the upper part of the support, and at the lower end is a plate.

As the closest analogue (prototype), a collapsible adjustable support of the raised floor is chosen, which consists of a top support plate made in the form of a single piece, having the shape of a square with corners rounded in a circular arc and with a recess located in its center in the form of a truncated unipartial hyperboloid, transitioning into an elongated hollow cylindrical column, of an octagonal bottom plate of the base with a central part protruding upwards, in which a through hole, circular in plan, is formed, formed by turning NOSTA constant cross-section with a thread cut therein, smoothly passing into diverging towards the bottom surface of the variable cross-section, and a threaded rod with a nut screwed onto it. One end of the rod interacts with the internal thread of the protruding part of the base plate, and the opposite end is installed in the cavity of the cylindrical rack. The upwardly projecting central part of the lower plate is surrounded by an annular recess with ribs extending from it, and the upper plate is provided with pairs of slots placed crosswise.

A disadvantage of the known devices, including the prototype, is that in the presence of lateral deviations, the vertically oriented support does not allow to align all the edges of the floor section, respectively, to fulfill the condition of observing the flatness of the entire floor surface. Achieving the required level of flatness of the entire surface of the working surface is extremely difficult, therefore, these supports are used for the manufacture of structures, such as raised floors, which do not require high purity of flatness (having tolerances and differences in the structure).

For the claimed device, the main essential features common to the prototype are identified, such as: an adjustable support of the working surface, consisting of a rod with a nut screwed on it; an upper metal base plate provided with holes; the lower supporting part, in the Central hole of which is screwed the lower end of the rod having a thread.

The technical problem of the invention is low strength and reliability, a small number of degrees of freedom of the design of the adjustable supports.

The technical problem is solved due to the fact that the adjustable support of the working surface consists of a rod with a nut screwed on it; an upper metal base plate provided with holes; the lower supporting part, in the central hole of which the lower end of the rod is screwed, having a thread, which, according to the claimed invention, differs from the prototype in that the upper part of the rod is pressed into the ball of the hinge enclosed in the housing, while the housing is rigidly connected from the outside to the center of the base plate; the lower supporting part is made in the form of a metal sleeve. Turnkey seats are made on the rod. The upper base plate and sleeve are made of hard metal.

The invention is illustrated by drawings, which depict:

FIG. 1 - the composition of the adjustable support of the working surface;

FIG. 2 - adjustable support of the working surface assembly, side view and top view;

FIG. 3 is a section AA in FIG. 2;

FIG. 4 - adjustable support of the working surface in isometry.

As a support, the claimed invention uses a spherical hinge bearing, the rigid fastening of which is carried out to the upper part of the structure with an adjustable surface, allowing, when screwing or unscrewing the support rod in the lower sleeve, due to additional degrees of freedom of the hinge of the support to provide surface adjustment not only in the vertical plane, but also horizontal. The adjustment of the working surface section is carried out due to the rotation of the ball joint rod in the threaded connection of the sleeve, which is rigidly attached to the base surface of the entire structure. The presence of a hinge in the structure allows damping the geometric deviations of the structure in each segment, achieving uniformity of connection at the boundaries of all segments and obtaining the precision flatness of large surfaces.

The adjustable support of the working surface (Fig. 1-2) consists of:

- the upper metal base plate 2, for example, having a square shape, provided with holes that secure the plate to the upper section of the structure (not shown in FIG.) having an adjustable surface. The plate is made of hard metal (for example, steel or cast iron);

- a hinge in the form of a ball 1.1 with a housing 1. On the outside, the housing 1 is rigidly connected to the support plate 2, for example, by a threaded connection to the o-ring 3 (Fig. 1) or by welding, excluding any further rotation;

- a rod 6 having a turnkey seat 6.1 (for regulating the flatness of the work surface by rotation of the rod) and a thread cut below the seats 6.1. In this case, the rod 6 is pressed with its upper part into the ball 1.1 of the hinge 1 coaxially to its center;

- metal sleeve 5 with an internal thread for screwing into it the rod 6 of the support. In this case, the sleeve 5 is rigidly attached to the surface of the lower part of the structure (not shown in Fig.), For example, by welding, coaxially to the center of the plate 2;

- nuts 4, screwed onto the rod 6, for fixing the rod 6 relative to the sleeve 5.

The adjustable support of the working surface described above works as follows (Fig. 1-2):

1. To the upper part of the structure having an adjustable surface, plate 2 is fastened with bolts;

2. A metal sleeve 5 with an internal thread, for example, ∅14mm, is rigidly fixed to the bottom of the structure;

3. The hinge body 1 is rigidly fixed to the plate 2, for example, by a threaded joint of the hinge using an o-ring 3;

4. The upper part of the rod 6 is pressed into the ball 1.1 of the hinge 1, then the rod 6 is screwed from below into the sleeve 5 installed in the lower part of the structure;

5. The reference distance between the upper and lower parts of the structure is set by rotating the rod 6 in the threaded connection of the sleeve 5 using a key and a seat 6.1 of the rod;

6. Leveling of flatness of the working surface is carried out by adjusting the vertical and horizontal ranges of the segments of the working surface by rotating the rod 6 and performing flatness measurements using, for example, a dial-type indicator with a division of 0.01 mm;

7. Leveling of each section of the working surface is carried out to achieve flatness of the working surface with an acceptable tolerance;

8. After reaching the required level of flatness of the working surface, the rod 6 of the ball joint is rigidly fixed with a nut 4 relative to the sleeve;

9. In conclusion, a control measurement of the flatness of the working surface is made.

Thus, the use of a spherical articulated support allows three-dimensional adjustment of each section, which compensates for geometric inaccuracies and deformation of the base of the entire supporting structure or floor. The ball joint rod has 6 degrees of freedom (due to the hinge), which allows not only to align the working surface section vertically, but also to eliminate geometric defects of the upper and lower parts of the supporting structure, respectively, to increase the accuracy of the flatness of the working surface due to the usual regulation of the ball bearings.

Adjustable support of the working surface can be used when setting the flatness of the working surface of the table of industrial equipment for precision surface treatment, including industrial printers, glass cutters, milling machines, filling stations, etc., with a working surface of 3 m ^{2 or more} .

Claims (4)

1. Adjustable support of the working surface, consisting of a rod with a nut screwed on it; an upper metal base plate provided with holes; a lower supporting part, in the central hole of which the lower end of the rod is screwed, having a thread, characterized in that the upper part of the rod is pressed into a ball of a hinge enclosed in the housing, while the housing is rigidly connected from the outside to the center of the base plate; the lower supporting part is made in the form of a metal sleeve. 2. Support according to claim 1, characterized in that the turnkey seats are made on the rod. 3. A support according to claim 1 or 2, characterized in that the upper support plate is made of hard metal. 4. Support according to paragraphs. 1, 2 or 3, characterized in that the sleeve is made of hard metal.

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