CS210932B1 - Apparatus for lifting of roof structures - Google Patents

Abstract

A set of hoist appliances grips the roof structure, and is mechanically linked to one or more drive units, for lifting a roof structure in assembly off large containers, such as fodder silos or clinker silos used in the cement industry. Each of the hoist appliances (1), attached at an offset angle, has a spindle drive (5-8), and a traction cable (9) fastened to the top container edge (14) and to the roof structure (2), and running round a roller (8) at the end of the spindle (5). The spindle bolts (6) of a number of hoists are rotatably driven, together and synchronously.

Description

The invention relates to a device for lifting roof structures of storage tanks, e.g.

clinker forces in the cement industry and the like, in particular arranging the lifting units on the roof structure to adjust it to the desired position.

Lifting the roof constructions of storage tanks, eg clinker forces in the cement industry, is a technological succession at a lower level. This is done from the peripheral scaffolding installed around the perimeter of the roof structure, including the storage tank jacket by hand chain jacks, steel ropes and feet attached to the roof structure, and at the upper edge of the storage tank jacket ring tautely, requiring increased staffing for this operation.

Lifting the roof structure, on the other hand, requires high costs, which adversely affect the overall cost associated with the storage tank moonlight, which is undesirable from an economic point of view. In addition, manually lifting the roof contraction lengthens the assembly time and adversely affects its timing. Lifting the roof structure is physically strenuous and unsuitable for safety.

According to the invention, a reduction in the number of workers in lifting the roof contraction, a reduction in costs, a reduction in the overall assembly time of the storage tanks, a reduction in the physical effort of the workers and an increase in the safety of work are achieved.

This is achieved by providing each lifting unit with a nut body and a movement screw with its end from the center of the roof contraction connected to a sliding block in the support rope guide · one end hinged to the ring edge hinge and an expensive end anchored to the roof scaffold bracket wherein a nut with a sleeve and arm for a fixed tow rope attached to the pendulum of the drive unit is rotatably supported in the body. The body with the gripping and movement bolt is mounted on the roof structure above the guide with the sliding pulley for the carrier rope, while a guide pulley is mounted between the sliding pulley in the guide and the ring hinge to guide the carrier rope on the roof structure while the nut in the body the movement bolt has an outside longitudinal groove circumferentially for the main pawl housed in the arm receptacle and the locking pawl housed in the body.

The main pawl and the locking pawl are reversible and provided with recesses for spring pins in the tipping cylinders and for engagement in the longitudinal grooves of the maaice are provided as a tooth; screw and maaicí. The endless tow rope with the attached belts of the lifting units is connected by a rocker to the swinging arm of the drive unit, the swinging arm, the length of which is equal to the length of each arm of the lifting unit, having a carrier groove fixedly coupled to the drive wheel of the drive unit. On the roof structure, the rollers are always connected to the tow rope guide between two lifting units, with a tensioner on the tow rope for ιΙ ^ μο! its possible extension. .

1 shows schematically the arrangement of a part of the lifting unit and the roof structure of the storage tank, FIG. 2 shows a partial plan view of the lifting unit, the arms and the roof structure according to FIG. 4 shows a tchemetically connection of an endless tow rope to a swing unit of the drive unit.

The device (Figs. 1, 3) consists of lifting units 2 radially syaenrically spaced around the perimeter of the roof contraction 2, interconnected and controlled by an endless towing rope 2 connected to the drive unit 2. The lifting unit 2 (° br. It is attached to the roof structure 2. To the movement bolt 2 a sliding block 8 of the supporting rope is connected, one end of which is fixed to the bracket 10 of the scaffolding, V [ and the other end is led through the transfer pulley 12 to a hinge 22 on the upper edge of the storage tank jacket ring 14.

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This arrangement corresponds to the stroke of the roof structure 2 by the height of the ring 14 of the storage tank shell, the movement of the movement screw 2 s. sliding claw 8 by a value equal to half this height. Lead screw 2 with a movable bottom block 8 in line 15 is stored in maaici 6 provided outside the longitudinal brackets 16 along its periphery for the main latch 17. This latch 17 is arranged in a sleeve 18 with a shoulder 22 in the body 2 · ³ 2 motion screw ^and a nut 6 The latch 17 and the latch 20 are provided with recesses 27a and 20a for spring pins 21 in the hinged cylinders 22, of which the hinged cylinder 22 of the main latch 17 is rotatably mounted on the sleeve 18 and the hinged cylinder 22 of the latch 17 is rotatable. mounted on the body 2 with the movement screw 5 and the maaici 6.

Both latches 17 and 17 are reversible and provided on both sides with teeth 16a for engagement in the longitudinal grooves 16 of nut 6. The loads 19 in the holders 18 of the lifting units 2 are interconnected by an endless pull rope <m J. The ropes 2 are connected with pressure rollers 23 (FIG. 3). These are always attached to the roof structure 1 between two lifting units 2 · The tension rope 24 has a tensioner 24 in order to eliminate any extension thereof during operation. Both ends of the tow rope 2 are connected via a rope lock 26a (FIG. 4) to a rocker arm 26 which is connected to a rocker 25 whose length coincides with the length of each arm 19 of the lifting unit j via the grip member 27 in groove 28 of rocker 26. with a driven wheel 29 of a drive unit 4 located on the roof structure 2.

The device according to the invention operates in such a way that the movement screw 2 with the sliding block 8 in the guide 15 is moved by rotating the nut 6. The pivoting movement of the nut 6 is provided by the main pawl 17 from the pivoting movement of the arm 19 with the sleeve 18 within one angular pitch of the longitudinal circumferential grooves 16 of this mmaice 6. The spontaneous return movement of the mmaice 2 The displacement of the movement screw 2 with the pulley 8 is displaced even in the unloaded state. The main pawl 21 and the pawl pawl 20, with their left-hand or scrubbed tooth 16a, are pressed into engagement with the longitudinal circumferential grooves 16 in the maaici 6 by spring-loaded pins 21 in the tilting rollers 22 depending on the set position of these rollers 22.

In this case, the movement screw 2 with the sliding cap 8 doubts in one direction or the other and thus allows the roof structure 2 to be lifted by one height of the ring 14 of the storage tank. After securing the roof structure 2 in the reached position, the movement screw 2 with the sliding roller 8 returns to the basic position for a new lifting. All arms 19 of the lifting units 4 are rocked by an endless pull rope J. From the drive unit 4, the rocking motion of the rocker 25 is transmitted to the pulling rope 2 via the rocker arm 26 of the drive wheel 29 which moves in the groove 28 of the rocker 25 *

With the introduction of the invention, the number of workers in the moonlighting of the storage tank rings is reduced, as well as the cost associated with the moonlighting, which is economically advantageous. According to the invention, the physical effort of the workers to lift the rings is further reduced, the possibility of injury is reduced and the time required for the moonlight of each ring of the storage tank is reduced.

Claims (5)

PJÓMÍT OF THE INVENTION 1. A device for lifting roof structures in the assembly of storage tanks, e.g., clinker forces in the cement industry, formed by a system of interconnected lifting units disposed on the roof structure and by mechanical elements connected to a drive unit, characterized in that each lifting unit ( 1) form a body (7) with maaici (6) and a movement screw (5) with its end from the center of the roof structure (2) connected to the sliding block (8) in the guide (15) for carrying rope (9) 13) at the upper edge of the ring (14). and with the other end anchored to the bracket (10) of the peripheral scaffold (11) of the roof contraction (2), wherein the body (7) is rotatably mounted with a socket (6) with a sleeve (18) 210932 and a belt (19) for an endless tow rope (3) attached to the rocker (27) of the drive unit (4). Device according to claim 1, characterized in that the body (7) with the nut (6) and the movement screw (5) is mounted on the roof contraction (2) above the guide (15) with the slide roller (8) in the guide (15). ) of the lifting unit (1) and the hinge (13) on the ring (14), a transfer pulley (12) is mounted to guide the carrying rope (9) on the roof structure (2), while the grinding means (6) in the body (7) (5) has an outside longitudinal groove (16) circumferentially for the main latch (17) housed in the belt sleeve (18) and the locking latch (20) housed in the body (7). 3. A device according to items 1 and 2, characterized in that the main pawl (17) and the locking pawl (20) are reversible and provided with recesses (17a), (20a) for the spring-loaded cylinders (21) of the tilt rollers (22) and the engagement in the longitudinal grooves (16) of the mmaice (6) is configured as cogs (16a), the tilting cylinder (22) of the latch bolt (17) being mounted on the sleeve (18) and the tilting cylinder (22) of the latch latch (20) mounted on the body (7) with the movement screw (5) and the grease (6). Device according to Claims 1 to 3, characterized in that the endless tow rope (3) with the connected arms (19) of the lifting units (1) is connected by a rocker (26) to the rocker (25) of the driving unit (4). the swinging arm (25), the length of which is equal to the length of each arm (19) of the lifting unit (1), has a groove (28) for the driver (27) firmly connected to the drive wheel (29) of the driving unit (4). 5. Device according to claims 1 to 4, characterized in that on the roof structure (2) to guide the pulling rope (3), the pushing rollers (23) are connected between two lifting units (1) each, The film (3) is a tensioner (24) to eliminate its possible elongation.