RU2756334C1 - Support device for the installation of large-sized products - Google Patents

Abstract

FIELD: mechanical engineering.

SUBSTANCE: support device for the installation of large-sized products contains a support plate on which the product is installed, on the lower surface of which blind holes are made for the installation of height-adjustable screw movable support units evenly located on the surface of the plate, screw rods with locking nuts. The support unit includes a transition sleeve, a rack, a lock nut, a grip with screw rods and a heel, while the support unit is installed on the surface of the support plate through a transition sleeve, which is welded to the support plate from the outside, and on the inside has a threaded surface for mating with the rack, which is additionally fixed with a lock nut, while in the rack and in the lock nut there are blind holes for levers, with which the rotation of these elements is carried out, the lower part of the rack is spherical and rests on the conical surface of the heel, installed in the grip, and the screw rods are fixed evenly along the perimeter of the grip with equal angles between the longitudinal axes of the rods.

EFFECT: reliability increases when installing large-sized products.

4 cl, 5 dwg

Description

The present invention relates to the field of mechanical engineering and can be mainly used as a device for high-precision installation of products with high weight and size characteristics.

Known support device for installing large-sized products [Inventor's certificate N 1195324, "Support device for equatorial mount of an optical telescope", publ. 11/30/1985, G02B 23/16]. The support device contains a base, which is installed on the embedded parts of the foundation on the support nodes. The support units are made adjustable in height, one of the support units is made in the form of a screw jack.

When the screw jack is used to raise or lower the telescope base, the base of the telescope is turned in a vertical plane around the balls of nodes that are not adjustable in height. In this case, the balls of the base plates located in the separating casings provide the linear movement of the base relative to the base plates that occurs during the turn. The base of the telescope is kinematically connected to an azimuth adjustment mechanism fixed to the base. When this mechanism operates, the telescope base moves on the balls relative to the base plates and the base turns in the horizontal plane around the ball of the screw support. The proposed mechanism is driven by gearless guidance drives with torque motors mounted directly on the guidance axes.

The disadvantage of the known support device is that the presence of gearless guidance drives with torque motors does not allow achieving the necessary reliability when installing products with high weight and size characteristics on the support device. Also, one of the disadvantages of this support device is that the presence of two non-height-adjustable support units and only one screw jack complicates the exact horizontal alignment of the base.

The closest in the aggregate of essential features to the claimed invention is a support device for installing large-sized products [Patent RU 2586014, IPC G02B 23/16, publ. 10.06.2016]. The closest analogue contains a support plate, on which the product is installed, on the lower surface of which blind holes are made for installing height-adjustable screw movable support units, evenly spaced along the surface of the plate, screw rods with lock nuts.

The disadvantage of the known support device, taken as a prototype, is that it does not improve reliability when installing large-sized products and does not provide the required accuracy when installing large-sized products. The reason for this is that the adjustable support units are equipped with balls resting from below on the working surface of the lower base, and from above inside the hollow cylinder - on three newly introduced additional balls located mated along the perimeter of the inner surface of the hollow cylinder, these support units do not have sufficient reliability for the installation of large-sized products on this support device.

The technical problem to be solved by the claimed invention is the creation of a support device with sufficient reliability necessary for the installation of products with high weight and size characteristics on it, as well as increased accuracy during their installation.

The technical result of the present invention is to improve the reliability when installing large-sized products. An additional technical result is an increase in accuracy when installing large-sized products.

The technical result of the invention is provided by the fact that the support device for installing large-sized products contains a support plate on which the product is installed, on the lower surface of which blind holes are made for installing height-adjustable screw movable support units, evenly spaced along the surface of the plate, screw rods with locking nuts. According to the invention, the support unit includes an adapter sleeve, a stand, a locknut, a grip with screw rods and a heel, while the support unit is installed on the surface of the support plate through the adapter sleeve, which is welded to the support plate on the outside, and has a threaded surface on the inside for mating with the rack, which is additionally fixed with a lock nut, while in the rack and in the lock nut there are blind holes for the levers, with which the rotation of these elements is carried out, the lower part of the rack is made spherical and rests on the tapered surface of the heel installed in the grip, and the screw rods are fixed evenly along the perimeter of the gripper with equal angles between the longitudinal axes of the rods. Reinforcement is welded to the bottom surface of the support plate. The supporting plate is equipped with additional fixing supports, which are welded to the lower surface of the supporting plate and to the surface on which the supporting device is installed; in addition, the supporting plate is equipped with guides.

The adapter sleeve allows you to increase the reliability of the threaded connection between it and the rack, and the range of adjustment for the height of the support unit, by increasing the length of the threaded connection, that is, not being limited by the thickness of the support plate, and the adapter sleeve allows you to increase the level of manufacturability (reliability) from the point of view of the possibility its replacement in case of damage to the threaded surface.

The stand is additionally fixed with a lock nut to ensure greater reliability and accuracy after setting the base plate to the required parameters.

The rack and the locknut have blind holes for the levers, with the help of which the rotation of these elements is carried out, which allows for real-time adjustment.

The lower part of the rack is made spherical and rests on the tapered surface of the heel, this configuration of the rack allows you to withstand heavy loads, and, therefore, increases the reliability of the entire support unit.

The heel is installed in the gripper, and the screw rods are fixed evenly along the perimeter of the gripper with equal angles between the longitudinal axes of the rods, this makes it possible to provide the necessary movement and rotation of the entire support device in the horizontal plane with a given accuracy.

The use of reinforcement welded to the bottom surface of the support slab provides better bonding when pouring a non-shrinking concrete mixture.

Equipping the base plate with additional fixing supports provides additional reliability, rigidity and accuracy when pouring a non-shrinking concrete mixture.

Equipping the slab with support guides ensures accurate orientation in space of large-sized items installed on the slab.

The essence of the invention is illustrated by drawings.

FIG. 1 shows a general view of the support device, where:

1 - support plate;

2 - supporting surface of the embedded part;

3 - embedded part;

4 - foundation;

5 - support node;

7 - the lower surface of the support plate;

8 - adapter sleeve;

29 - temporary formwork;

30 - non-shrinking concrete mix.

FIG. 2 shows the support node 5 in section, where:

1 - support plate;

2 - supporting surface of the embedded part;

3 - embedded part;

6 - blind cylindrical hole;

7 - the lower surface of the support plate;

8 - adapter sleeve;

9 - smooth outer cylindrical surface of the sleeve;

10 - threaded inner surface of the sleeve;

11 - rack thread;

12 - rack;

13 - lock nut;

14 - blind hole;

15 - lever;

16 - spherical surface of the rack;

17 - conical surface of the heel;

18 - heel; 19 - capture;

20 - screw thrust;

21 - nut;

22 - clamping screw.

FIG. 3 shows the reference device in 3D, where:

1 - support plate;

5 - support node;

23 - additional fixing support;

25 - fittings;

26 - threaded bushing;

28 - technological hole.

FIG. 4 shows an additional fixing support in section, where:

1 - support plate;

2 - supporting surface of the embedded part;

7 - the lower surface of the support plate;

23 - additional fixing support;

24 - upper and lower rings.

FIG. 5 shows the installation of a large-sized product on a support device in 3D, where:

1 - support plate;

4 - foundation;

27 - guide;

31 - large-sized product;

32 - hairpin.

The support device contains a support plate 1 for installing products with high weight and size characteristics, installed on four specially prepared support surfaces 2 embedded parts 3 of the foundation 4. The support plate 1 is equipped with four screw movable support nodes 5, evenly spaced along the surface of the plate, installed in blind cylindrical holes 6 made on the bottom surface 7 of the plate 1.

Each height-adjustable movable support unit 5 contains a sleeve 8, which has a smooth outer cylindrical surface 9 for installation in a blind hole 6 of the plate 1, a threaded inner surface 10 for interaction with the thread 11 of the post 12, with a locking lock nut 13, in the post and the lock nut are made blind holes 14 for installing levers 15 in them, the lower part of the rack is made in the form of a spherical surface 16 to interact with the tapered surface 17 of the foot 18 installed in the grip 19 on the surface 2, each grip is equipped with a lower row of screw rods 20 with nuts 21 and an upper row clamping screws 22 with nuts 21, screw rods 20 and clamping screws 22 are fixed uniformly along the perimeter of the grip with equal angles α between the longitudinal axes.

Additionally, the support plate 1 is equipped with eight additional fixing supports 23 with rings 24 symmetrically located relative to each support unit, the upper rings are welded to the surface 7, and the lower ones are temporarily fixed on the support 23, reinforcement 25 is evenly welded to the surface 7, twenty threaded bushings 26, four of which are equipped with guides 27, ten technological holes 28.

The supporting device works as follows.

The supporting surfaces 2 of the four embedded parts 3 are displayed in the horizontal plane with the required accuracy, after which the foundation is poured 4. After the required strength of the foundation has been achieved, the grips 19 are installed and fixed with the mounting weld on the surface 2, and the feet 18 are installed in the inner cavity of the grips. reducing the resistance force when the heel 18 moves relative to the supporting surface 2, the mating surfaces of the heel and the supporting surface are processed with a high surface frequency class. The grips and feet are set at the specified coordinates under geodetic control with high accuracy, to minimize the range of displacements after installing the base plate 1 with the support nodes 5. To fix the foot in the grip, the lower row of screw rods 20 is set to a given size, followed by locking with nuts 21, at the same time, the upper row of clamping screws 22 does not protrude beyond the inner cylindrical surface of the gripper 19. A support plate 1 is installed on the heels adjusted with high accuracy with the posts set to the required height size 12. The conjugation of the spherical surfaces 16 of the posts 12 with the tapered surfaces 17 of the feet 18 makes it possible pre-align the support plate 1 with maximum accuracy in three planes (XYZ). The final installation of the support plate in the design position is carried out by rotating the struts 12, which align the plate in the horizontal plane, and also allow you to set the required height, and the lower row of screw rods 20 of the grip 19, with the nuts 21 loosened. In this case, the external thread 11 of the rack 12 interacts with an internal threaded surface 10 of the sleeve 8, and the rotation of the racks is carried out by means of the levers 15 inserted into the blind holes 14. The rotation of the screw rods of each grip ensures the sliding of the feet along the surfaces 2, thereby creating the possibility of linear movements of the support plate, as well as its rotation in the vertical plane ... The supporting plate installed in the design position is fixed by locking the struts 12 with locknuts 13, the rotation of which is carried out using levers 15 inserted into blind holes 14. Also, the struts 12 are pressed against the heels 18 using the upper rows of clamping screws 22, which are fixed with nuts 21. Then to The lower rings 24 of the additional fixing supports 23 are welded to the surfaces 2 of the embedded parts 3 of the foundation 4 with mounting seams, while all the levers 15 are dismantled. After completing these works, a temporary formwork 29 is installed and a non-shrinking concrete mixture 30 is poured to completely fix the base plate, while the air is poured out through the technological holes 28 during pouring.

Then, after gaining the required strength of the concrete mixture 30, guides 27 are screwed into the threaded bushings 26, which determine the orientation in space of the supporting large-sized product 31 installed on the slab, the weight of which can reach more than 100 tons. Studs 32 are screwed into the remaining threaded bushings 26, with the help of which the large-sized product is finally fixed on the support plate.

Thus, due to the features of the support device, listed above, the invention provides increased reliability and accuracy when installing large-sized products.

Claims (4)

1. A support device for installing large-sized products, containing a support plate on which the product is installed, on the lower surface of which blind holes are made for installing height-adjustable screw movable support units, evenly located on the surface of the plate, screw rods with lock nuts, characterized in that, that the support unit includes an adapter sleeve, a stand, a lock nut, a grip with screw rods and a heel, while the support unit is installed on the surface of the support plate through the adapter sleeve, which is welded to the support plate on the outside, and has a threaded surface for mating with a rack, which is additionally fixed with a lock nut, while in the rack and in the lock nut there are blind holes for the levers, with the help of which these elements are rotated, the lower part of the rack is made spherical and rests on the tapered surface of the heel installed in the gripper, and the screw rods are fixed evenly NS about the perimeter of the gripper with equal angles between the longitudinal axes of the rods. 2. A support device for installing large-sized products according to claim 1, characterized in that reinforcement is welded to the lower surface of the support plate. 3. A support device for installing large-sized items according to claim 1, characterized in that the support plate is equipped with additional fixing supports, which are welded to the lower surface of the support plate and to the surface on which the support device is installed. 4. A support device for installing large-sized items according to claim 1, characterized in that the support plate is equipped with guides.

Images