SU141186A1 - Telescopic mast - Google Patents

Description

Telescopic masts for antennas or other devices, equipped with a lifting mechanism with a gearbox, are known.

The proposed telescopic mast differs from the known ones in order to increase the reliability of the lifting mechanism, especially in adverse weather conditions, the lifting mechanism is designed in the form of a screw connected to a gearbox and installed inside the lower fixed section of the mast. At the bottom of each movable section, there are discs with nuts screwed onto the screw when the mast is rolled up or deployed, and an automatic lock is installed. The automatic lock is made in the form of a cracker stirred to automatically connect the ends of the sections with a slide, mounted on the upper part of each section. In order to increase the reliability of the joints between the sections, the automatic locks can be made in the form of a head, equipped with cams placed in the annular grooves of the coupling connected to the sections of the mast.

FIG. 1 shows the telescopic mast being described; in fig. 2 shows an embodiment of a mast with an automatic lock of rusks, between sections; in fig. 3 - an embodiment of a mast with a cam automatic lock; in fig. 4 - fuse design.

The described telescopic mast consists of a system of cylindrical or rectangular sections. The movable sections / in the collapsed state of the mast are placed inside the lower fixed section 2. The lifting mechanism of the mast is made in the form of a screw 3 mounted inside the fixed section 2 and rotated through the gearbox 4. Two short sleeves 5 and 6 are welded at the ends of each mast, guides of the upper and lower ends of the prm sliding section and not allowing the inner section to exit the outer one in the unfolded (extended) mast condition. In the case of the mast of cylindrical sections, the latter are equipped with a pit

No. 141186- 2 pins and corresponding keyways in the couplings. Keys exclude the possibility of mutual axial rotation of the sections.

In the lower part of each section there are bottom 7, in the spectrum of which nuts -9 are fixed, equipped with compensators in the form of cup springs. In the lowered state of the mast, all the nuts, except for one (belonging to the uppermost section), are on the lower thread-free part of the screw 3. The lifting of the mast occurs by successive extension of the sections, starting from the top. When the screw is rotated, the nut of the upper section moves but its thread, drawing the section upwards. The upper section, resting against the coupling of the next section, raises it until the nut of this section reaches the threaded part of the screw. After that, the nut of the upper section comes off the wind, and the nut of the next section takes over the entire load. In this way, the telescopic mast extends to its full height by successively moving the screw. Shortly before the nuts of each section come off the screw, the corresponding pair of sections is locked with automatic locks that accept the forces of the already extended sections and the load, for example the antenna. By rotating the screw in the opposite direction of the section, in the same order, they are lowered to the bottom of the lower section. In this case, the automatic locks sequentially open each pair of sections.

Each of the automatic locks is made in the form of crackers 9, which is installed in the section 10 of the housing 10 welded to the upper coupling. Rusk I pushed forward, falls into these holes and thereby closes the sections. Pushing back the cracker, the exit from the hole, opens the sections. The movement control of the cracker is carried out by a pin P, fixedly mounted in the center of the cracker, and a slide / 2 mounted on the upper coupling of the section. The ends of the pin extend on both sides of the lock housing to the outside. In order to allow the horizontal movement of the tongue there are two horizontal cutouts in the lock body.

The backstage consists of two plates welded to the coupling in such a way that when the section is lowered, the lock case enters between the backsight plates, and the pin enters both ends into the corner cutouts of the backstage. When raising sections, the lockwheel advances the pinch that is moving in the cut-outs of the scenes, forwards and closes the sections, and when lowered, opens the sections, moving the biscuit backwards. In order to provide the necessary reliability, two or three locks acting synchronously are installed on the coupling of each section around the circumference.

Cam locks made in the form of a head 13 provided with cams 14 can also be used to connect the sections to each other. The heads 13 are mounted on the threaded part of the lower coupling end of each section. The cams 14 of the head 13 and the cams 15 of the clutch 16 slide along the longitudinal guide grooves 17 of each subsequent section. The longitudinal guide grooves in the upper part of the sections are connected to the annular groove / S, which is made to an incomplete circumference in the direction of rotation of the screw. When lifting the mast, the head and the coupling with the section move upwards. When the surfaces of the lower and upper couplings of adjacent sections touch, the lifting resistance increases dramatically and due to the torque of the screw of the lifting mechanism, the head will turn through a certain angle, and its cams will enter the annular groove, reliably connecting both sections. When the mast is lowered, the head is screwed onto the shank and rotated through a certain angle in the direction of rotation

screws, and its cams emerge from the annular groove and fall into the longitudinal grooves — sections are opened.

To eliminate the possibility of pre-modern lifting of the lower sections with tight connection or clogging, fuses are installed in the upper joints of the sections, closing all the sections in their lower position. The fuse consists of a plate spring 19 fixed in the upper coupling of the section. There are two pins on the spring: the upper 20 and the lower 21. The lower pin enters the corresponding hole in the next, it is the lower section and thus closes them and keeps them from arbitrary lifting. At the last moment of lifting the next inner section and before starting the next section, the inner section coupling presses on the top pin of the fuse, pushes the spring and turns off the fuse, allowing the coupling to carry along the next section. Thus, the fuse successively releases only one regular section at the time of its entry into operation. When the section is lowered, the fuse is automatically activated by pushing the bottom pin into the hole of the mufgy of the lower section.

The described telescopic mast should be made of a relatively large number of sections, since their number does not change the load on the lifting mechanism, which increases the reliability of its operation. In addition, this telescopic mast has a small length in the folded (for transport) position.

1. Telescopic mast for an antenna or other devices, equipped with a lifting mechanism with a gearbox, characterized in that, in order to improve the reliability of the lifting mechanism, especially in adverse weather conditions, the lifting mechanism is made in the form of a screw connected to the gearbox and installed inside lower fixed section of the mast, and in the lower part of each section there are discs with gaykalsh screwed onto the screw when the mast is collapsed or unfolded, and an automatic lock made in the form of crackers compound employed for automatic end sections side scene, mounted on the top of each section.

2. A device according to claim 1, characterized in that in order to increase the reliability of the joints between the sections, the locks are made in the form of a head provided with cams placed in the annular grooves of the coupling connected to the sections of the mast.

 3 141186

Subject invention

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