RU198206U1 - DEVICE FOR MOUNTING SUPPORTS WITH SOIL SEALING BASED ON THE DESIGN - Google Patents

Abstract

The utility model relates to the field of transport, namely, it allows you to install (erect) supports in a vertical position without the use of lifting machines and other mechanisms, and at the same time carry out soil compaction at the base of the structure, which is especially important when eliminating the consequences of emergency and technological situations, when it is not always it is possible to use the technique or do not allow the properties of soils. The technical task of the utility model is to expand the functionality of the three-beam foundation of the supports, allowing you to install (raise) the supports in a vertical position without the use of lifting machines and other mechanisms and at the same time carry out soil compaction at the base of the structure. due to the fact that the device for mounting supports with soil compaction at the base of the structure, consisting of a glass representing a cylindrical hollow part without a base on one side and fixedly attached to the other to the base along the axis of symmetry with a cylindrical shank smaller in diameter than the cup, and also three beams attached to the base of the cup, which are walls attached to the base of the cup with its upper part, and the lower part attached to the guide rods in such a way that in cross section a three-beam star with angles between the rays of 120 degrees, characterized in that the shaft is movably mounted on the shaft, which is a cylindrical part of a smaller diameter than the inner diameter of the glass, and having an internal thread, and in the upper part having six technological cylindrical recesses located uniformly throughout the length of the outer circumference of the shaft in one plane perpendicular to the axis of the shaft, while the shaft in the upper part and in the lower part is protected from movement in the cup by two thrust bearings, providing only rotation of the shaft around its axis, and a ring is mounted movably on top of the shaft through the thrust bearing, ensuring which only rotates the ring around its axis, while the inner and outer diameters of the rings are equal to the inner and outer diameters of the shaft, and the height of the shaft is greater than the height of the cup, in addition, the technological recesses of the shaft are located above the upper edge of the cup, and a core representing a cylindrical part at a height of a smaller shaft height, having an external thread that is connected to the internal thread of the shaft, and a rod having a square cross section and included in the longitudinal groove of the shank, also having a square with such dimensions, is fixedly attached to the lower base of the core a slightly larger size of the cross section of the rod, while a longitudinal recess is located along the entire length of the shank, and the base of the receiving chute and the stop chute having a semicircular section are movably hollowed to each other to the center of the upper base of the core, and the receiving chute, also having the same cross section, is movably attached to the base the receiving chute, the sum of the lengths of the base of the receiving chute and the receiving chute itself being equal to the length of the stop chute, but the hinged connection of the base of the chute and the chute in the upper position of the core in the shaft extends beyond the upper plane of the ring, and three teeth are located in the cavity of the chute. A lever is fixedly attached to the base of the rod, to which, in turn, on the other hand, by means of a pivot joint, guide rods are attached that are connected to the lower part of the beams. 5 ill.

Description

The utility model relates to the field of transport, namely, it allows you to install (erect) supports in a vertical position without the use of lifting machines and other mechanisms, and at the same time carry out soil compaction at the base of the structure, which is especially important when eliminating the consequences of emergency and technological situations, when it is not always it is possible to use the technique or do not allow the properties of soils.

There is a well-known foundation of contact network supports with anchor racks type TSA [GOST R 54272-2010, Figure 1 (b)], designed to install supports of overhead communication lines and contact network supports (hereinafter referred to as the support) on it. It is a reinforced concrete or metal structure, which is immersed in the ground, and a support is installed on it. The disadvantage of the foundation of the supports of the contact network type TSA is the inability to install the supports in a vertical position without the use of lifting machines and other mechanisms.

The closest in design to the device for installing the supports of overhead communication lines and the contact network, taken as a prototype, is the three-beam foundation of the contact network supports glass, type TCC [GOST R 54272-2010, Figure 1 (a)] which consists of a glass and fixedly connected to a glass shank with three beams. The disadvantages of the prototype is the inability to install supports in a vertical position without the use of lifting machines and other mechanisms.

The technical task of the utility model is to expand the functionality of the three-beam foundation of the supports, which allows you to install (erect) the supports in a vertical position without the use of lifting machines and other mechanisms and at the same time carry out soil compaction at the base of the structure.

The technical problem is achieved due to the fact that the device for mounting supports with soil compaction in the base of the structure, consisting of a cup representing a cylindrical hollow part without a base on one side and with a cylindrical shank fixedly connected to the other base along the axis of symmetry, with a diameter smaller than the cup as well as three beams attached to the base of the cup, which are walls attached to the base of the cup with its upper part, and the lower part attached to the guide rods in such a way that in cross section they represent a three-beam star with angles between the rays of 120 degrees, characterized in that the shaft is movably mounted in the cup, which is a cylindrical part of a smaller diameter than the inner diameter of the cup, and having an internal thread, and in the upper part having six technological cylindrical recesses located uniformly along the entire length of the outer circumference of the shaft in one plane, perpendicular th axis of the shaft, while the shaft in the upper part and in the lower part is protected from movement in the cup by two thrust bearings providing only rotation of the shaft around its axis, and a ring is movably mounted on top of the shaft through the thrust bearing, providing only ring rotation around its axis, this inner and outer diameter of the ring is equal to the inner and outer diameter of the shaft, respectively, and the height of the shaft is greater than the height of the glass, in addition, the technological recesses of the shaft are located above the upper edge of the glass, and the core is movably installed inside the shaft, which is a cylindrical part with a height shorter than the shaft height, having an external thread that is connected to the internal thread of the shaft, and a rod having a square section and included in the longitudinal groove of the shank, also having a square with such dimensions, slightly larger than the size of the cross section of the rod, is fixedly attached to the lower base of the core located throughout the length of the shank, and to the center of the upper base of the core, the base of the receiving chute and the stop chute having a semicircular section are movably hollowed to each other, and the receiving chute, also having the same cross section, is movably attached to the base of the receiving chute, while the sum of the lengths of the base of the receiving chute and the receiving chute itself are equal to the length of the thrust chute, but the hinged connection of the base of the chute and the chute in the upper position of the core in the shaft protrudes beyond the upper plane of the ring, and three teeth are located in the cavity of the chute. A lever is fixedly fixed to the base of the rod, to which, in turn, on the other hand, by means of a pivot joint, guide rods are attached that are connected to the lower part of the beams.

In FIG. 1 shows a device for mounting supports with soil compaction at the base of the structure in section, which shows: pos. 1 - receiving trough; pos. 2 - swivel; pos. 3 - the base of the receiving chute; pos. 4 - tooth; pos. 5 - persistent trough; pos. 6 - ring; pos. 7 - persistent rolling bearing; pos. 8 - shaft; pos. 9 - technological deepening; pos. 10 - core; pos. 11 - a glass; pos. 12 - shank; pos. 13 - a core; pos. 14 - recess; pos. 15 - lever; pos. 16 - rays; pos. 17 - guide rods; pos. 18 - through technological holes; pos. 19 - articulation of the lever.

In FIG. 2 shows the process of compaction of the soil using a device for mounting supports with soil compaction in the base of the structure in section, which shows: pos. 13 - a core; pos. 15 - lever; pos. 16 - rays; pos. 17 - guide rods; pos. 18 - through technological holes.

In FIG. 3 shows the installation process of a support on a device for mounting supports with soil compaction at the base of the structure, which shows: pos. 20 - support.

In FIG. Figure 4 shows the process of lifting a support using a device for mounting supports with soil compaction at the base of the structure.

In FIG. 5 shows a support installed with a device for mounting supports with soil compaction at the base of the structure, both in general and in section.

A device for mounting supports with soil compaction at the base of the structure is made as follows. A shaft 8 is installed in the cup 11 having a cylindrical shape. Thrust rolling bearings 7 installed at the bases of the cup 11 provide only the rotation of the shaft 8 in the cup 11. The shaft 8 is a cylindrical part without bases with internal thread. The diameter of the shaft 8 is less than the diameter of the cup 11, and the height of the shaft 8 is greater than the height of the cup 11, which allows the technological recesses 9 of the shaft 8 to be above the upper edge of the cup 11. Six technological recesses 9 are located in the upper part of the shaft 8 in the same plane perpendicular to the axis of rotation shaft 8.

The core 10 has the shape of a cylinder with a height shorter than the height of the shaft 8. The core is screwed into the shaft 8 because it has an external thread along the entire height. The base of the receiving chute 3 and the stop chute 5 are movably fastened to the upper base of the core 10. The rod 13 is fixedly attached to the lower base of the core 10, having a cross-section with a diagonal smaller than the diameter of the base of the core 10. A shank 12 is fixedly attached to the lower base of the glass 11 a cylinder with a diameter smaller than the diameter of the cup 11, and having an inner recess 14 along the entire length, which in turn is a square in cross section.

The rod 13 is constantly movably located in the longitudinal undercut of the shank 12, which has a sectional square with dimensions that do not impede the longitudinal movement of the rod in it, but do not allow the rod to rotate around the longitudinal axis.

The persistent groove 5, the base of the receiving groove 3 and the receiving groove 1 have a semicircular section. The base of the receiving groove 3 and the stop groove 5 are movably attached at one end to the upper base of the core with cavities to each other. Their mobility is possible only in the plane in which the axis of the core 10 is located. The base of the receiving groove 3 is shorter than the length of the stop groove 5 and when moving the core 10 in the shaft 8 to the highest position, the upper edge of the base of the receiving groove 3 and the swivel 2 with the receiving groove 1 protrude above the upper plane of the ring 6. The receiving chute 1 has a length greater than the length of the base of the receiving chute 3 and is movably fastened at one end to it by means of a swivel 2, which ensures the mobility of the receiving chute 1 only in the same plane to which mobility of the base of the receiving chute is possible 3 and the chute 5. The sum of the lengths of the base of the chute and the chute itself are equal to the length of the chute. A lever 15 is fixedly attached to the base of the rod 13, to which, in turn, on the other hand, by means of a pivot joint 19, guide rods 17 are connected to the lower part of the beams 16.

A device for mounting supports with soil compaction at the base of the structure is used as follows. If it becomes necessary to install a support (new or restore a fallen one), the proposed product is placed in the ground so that the upper edge of the cup 11 is above the ground surface, as shown in FIG. 3. In this case, the core 10 should be in its highest position (the upper base rests against the ring 6), the receiving chute 1 should lie on the ground surface with the end not connected to the base of the receiving chute 3, and the stop chute 5 should be in the extreme opposite position.

The support 20 is pulled and laid on the receiving chute 1 so that the end face of the support abuts against the teeth 4 of the stop chute 5, as shown in FIG. 3. After that, using the devices inserted into the technological recesses 9 (scrap, a pipe and other devices can be used), the shaft 8 is rotated clockwise. In this case, the core 10 begins to move to the lower part of the cup 11, entraining the stop groove 5 and the receiving base grooves 3. The ring 6 during rotation of the shaft 8 does not allow the thrust groove 5, the receiving groove 1 and the base of the receiving groove 3 to come into contact with the rotating shaft 8. In this case, the teeth 4 of the persistent groove 5, catching on the end face of the support 20, carry one end of this support down, and the receiving chute 1, the end opposite the end connected to the base of the receiving chute 3, begins to lift the other end of the support 20, as shown in FIG. 4.

By further clockwise rotation of the shaft 8, the core 10 finally moves to the lower part of the cup 11, entraining the stop groove 5 and the base of the receiving groove 3. In this case, the stop groove 5 and the receiving groove 1 completely pass through the ring 6, take a vertical position, fully raising bearing 20 and clamping its end, as shown in FIG. five.

When moving to the lower part of the glass 11, the core 10 by means of the rod 13 actuates the lever 15, which in turn exerts pressure on the beams 16 through the guide rods 17 passing through the technological holes 18 in the shank 12, the beams 16 in their lower part are bent, compacting the soil at the base of the structure, as shown in FIG. 2 and FIG. five.

After the support is installed in a vertical position, the devices are pulled out of the technological recesses 9 by means of which the shaft 8 is rotated. Dismantling of the supports takes place in the reverse order.

The use of a device for mounting supports with soil compaction at the base of the structure in a vertical position will allow you to quickly organize work without the use of lifting machines and other mechanisms, and at the same time carry out soil compaction at the base of the structure, which is especially important when eliminating the consequences of emergency and technological situations, when it is not always it is possible to use the technique or do not allow the properties of soils.

Claims (1)

A device for mounting supports with soil compaction at the base of the structure, consisting of a cup representing a cylindrical hollow part without a base on one side and with a cylindrical shank fixed to the other base along the axis of symmetry, with a diameter smaller than the cup, and also three attached to the base of the cup rays, which are walls attached to the base of the glass with its upper part, and the lower part attached to the guide rods so that in cross section they represent a three-beam star with angles between the rays of 120 degrees, characterized in that the shaft is movably mounted in the glass, which is a cylindrical part of a smaller diameter than the inner diameter of the cup, and having an internal thread, and in the upper part having six technological cylindrical recesses located uniformly along the entire length of the outer circumference of the shaft in one plane perpendicular to the axis of the shaft, with the shaft in the upper part and in the lower part is protected from movement in the cup by two thrust bearings, providing only rotation of the shaft around its axis, and a ring is movably mounted on top of the shaft through a thrust bearing, providing only rotation of the ring around its axis, while the inner and outer diameters of the rings are equal to the inner and outer diameters, respectively shaft, and the shaft height is greater than the height of the glass, in addition, the technological recesses of the shaft are located above the upper edge of the glass, and the core is movably mounted inside the shaft, which is a cylindrical part with a height shorter than the shaft height, having an external thread that is connected to the internal thread of the shaft, and a rod having a square cross section and included in the longitudinal undercut of the shank, also having a cross section with a square with such dimensions slightly larger than the cross section of the rod, is fixedly attached to the lower base of the core, while the longitudinal undercut is located along the entire length of the shank, and to the center of the upper base The core of the receiving chute and the stop chute having a semicircular cross section are movably hollowed to each other, and the receiving chute, also having the same cross section, is movably attached to the base of the receiving chute, while the sum of the lengths of the base of the receiving chute and the receiving chute itself are equal to the length of the stop chute grooves, but the articulation of the base of the receiving groove and the receiving groove in the upper position of the core in the shaft extends beyond the upper plane of the ring, and three teeth are located in the cavity of the thrust groove, in addition, a lever is fixedly attached to the base of the rod, to which, in turn, on the other hand, by means of a swivel joint, guide rods are attached to the lower part of the beams.

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