PL104710B1 - HYDRAULIC DEVICE FOR LIFTING AND LOWERING HEAVY LOADS - Google Patents

Description

The subject of the invention is a device for lifting and lowering heavy loads, in particular Building.

There are known devices for the above-mentioned purposes in which hydraulic jacks or units are used hydraulic jacks achieving the required lifting height by: climbing the jacks hydraulic jacks or sets of hydraulic jacks on reinforcement ropes or used for this purpose other steel rods; placing blocks under the set of hydraulic jacks of the "Perpetuum" type, climbing hydraulic jacks or sets of hydraulic jacks on their own construction jumps from the overlay to the overlay or with the use of clamps or "sloops"; climbing with hydraulic jacks on the structure of the erected object; extension from the bottom and top of the shafts devices and the device being ejected from below.

The disadvantage of this type of solution is that the lengthening of reinforcing bars and the transfer of large amounts hydraulic jacks is labor-intensive and cumbersome; work under slack loads with sleepers no blocks is dangerous and burdensome; climbing on your own construction using clamps, i.e. "Slupolazy" or with jumps of the hydraulic jack from the overlay to the overlay is not able to be lifted cargo to the needed heights with a large weight and there is no anti-skid except only those elements that cause the device to climb up; climbing the structure of the erected object causes the transfer of forces originating from the device and acting on the device through the object being erected onto the ground and not directly by the device onto the ground; raising the shafts from below using hydraulic jacks or sets of hydraulic jacks creates a very serious difficulties with ensuring the stability of the device during lifting, due to the buckling of the rods free-standing, with a heavy load when reaching great heights; extension shafts-masts of devices with segments from the top when lifting telescopic heads, clamps that is, "slupolazy" or with the strokes of the hydraulic jack from the overlay to the overlay, the safety measures2 104 710 only anti-skid elements are only clamps or "poles", or hydraulic jack strokes which carry out the lifting of the telescopic heads at a given time or also support the telescopic heads telescopic at the appropriate height to extend from the top with the stem-mast segments.

The object of the invention is to construct such a device which does not have the specified disadvantages accompanying known devices.

The essence of the invention is a device in the shape of a square or rectangular space truss encompassing the outside of the shaft and moving telescopically along the shaft, with a hydraulic system lifting and lowering heavy loads to the required height, equipped with a single column shaft or multi-column, which columns consist of segments, and some segments are provided with rectangular cuts, and some of them do not have a hydraulic jack or several hydraulic jacks, with several transverse flat frames, with guides, construction crane with a non-rotating and shortened tower, with jaws clamps, characterized by the fact that a hydraulic jack or hydraulic jacks are installed under the the upper, flat, transverse frame of the machine, and the pistons of these jacks face downwards and are finally shaped into heads whose form and surface dimensions are equal to that of the segment area on which during the stroke, they are based on load, i.e. on the segment surface by which the segments connect between myself.

Single hydraulic jack or several hydraulic jacks installed under the transverse, flat upper frame or transverse upper flat frames each time perform a stroke under load by supporting the body of the jack or hydraulic jacks of the transverse, flat upper frame or frames, the head of the piston or pistons always rests on the segment or segments that have been left mounted as an extension to the shaft of the device, and located between the second, middle, flat frame transverse and third, middle transverse flat frames.

Reaching the required heights with the load above the existing terrain does not depend on: labor-intensive extensions of steel rods and translating the weight of hydraulic jacks; dangerous work at placing blocks under a sagging load; device climbing on its own design and construction q'i of the object being mounted; hydraulic jack strokes from pad to pad; lifting the machine from the bottom by extending the shaft with segments from the bottom, where at considerable heights with heavy Due to the load, it is necessary to install uneconomical anti-buckling protection of the shaft in difficult conditions at high altitudes; extension of the equipment tower by segments from above behind with the help of: an auxiliary mullion crane mounted on a sliding yoke; the boom is turned together with counterweight bracket ninety degrees; a tilting boom mounted on the eccentric tritically of the device tower; a plunger at the extended top of the machine tower; side stand-up collar mounting and other similar methods of extending the tower of the equipment by segments from the top, as they have been solved it does not, according to the invention, enable the achievement of the required height with a heavy load and lowering over the existing terrain by a simple, uncomplicated extension of the shaft of the device by segments from above with a single hydraulic jack or several single hydraulic jacks mounted under the upper, flat, transverse frame of the device.

Thanks to the use in the device: single hydraulic jacks reversed with pistons downward fluid supply to hydraulic jacks and crimping jaws is very simple and does not exist fear of breaking the liquid pumping lines, i.e. there is a very low probability of failure devices for this reason; Additional clamping jaws for locking the columns of the device are provided protection against uncontrolled skid; lifting is provided for several columns in the device and lowering heavy loads to the required height with a very simple anti-buckling protection stem columns; the device can be used as single column or multi-column and this as needed; the simple construction of the device eliminates the difficulties with assembly, disassembly and transportation of the device; the device is suitable for simultaneous lifting of a construction crane and formwork slide, B.H.P. safety net, movable scaffolds, erection of shaft-core structures, molar, tanks, chimneys, factory towers, television towers, mine towers, drilling, structures on steel structures and wet-formed reinforced concrete prefabricated elements in formwork and sliding.

The subject of the invention is presented in the examples of embodiments in the drawings in which Fig. 1 shows the device in the initial phase, one pair of clamping jaws ready for operation and with a single-column shaft, fig. 2 - device while lifting a load with two pairs of jaws clamps and with a single column shaft, fig. 3 - device prepared for extending the shaft single-column with two pairs of jaws locking device with anchor device to be erected object. Fig. 4 shows the same as Fig. 3, except that the shank consists of segments without rectangular grooves 104 710 3 and the shaft extension segment is already mounted, fig. 5 - multi-column device prepared for extensions of the outer columns with jaws blocking the device, fig. 6 - the same as fig. 5, except that the device is prepared to extend the internal columns, fig. 7 - lifting device to the higher load level via external hydraulic jacks and with extended internal columns, fig. 8 - the same as fig. 2, except that columns consisting of segments without rectangular inlets may or may not they must have these sockets, as in this case the clamping jaws only provide additional protection against uncontrolled skid and their action is similar to that of clamps without creeping along the shaft.

A device with a hydraulic lifting and lowering system to the required heights. * \ H load It includes a construction crane with a shortened non-rotating tower 1 installed on the upper transverse frame 9 for feeding the shaft segments to the platform and transporting the shaft vertically or horizontally materials. A hydraulic jack 3 with an inverted piston is installed under the upper cross-frame 9 down until the piston is finished, head 2 used to rest the piston during its stroke under by a hydraulic jack 3. The piston is retracted at the lower edge of the head installed middle cross frame 10, the bottom edge of which is flush with the bottom edge of the head 2 of the piston hydraulic jack 3.

The middle cross-frame 13 is installed below the middle cross-frame 10 in a distance slightly higher than the height of the section 15 of the shaft and serves as a platform for the staff on this help with the superstructure or disassembly of the device shaft. 9 to center cross frame of the transverse frame 13 are installed guides 4 on three sides along the hydraulic jack 3.

The middle cross-frame 14 is installed below the middle cross-frame 13 at this distance So that there is a suitable place to install 14 clamping jaws 7 on the frame, which serve for the locking of the hydraulic device during extension or dismantling of the shaft of the hydraulic device 8 ido additional anti-skid protection of the device. It is installed in the same and for the same purposes on the lower end of the device, the lower transverse frame 18.

The service platform 12 is formed as a landing on the support of the central frame transverse 13. The station for the extension or dismantling of the shaft 12 is located between the transverse middle ones with frames 10 and 13 and at this station 12, on the one hand, the device is open and forms a chamber 11 for segment 5, fed with a sling 17 of a construction crane 1. The shaft of the device is anchored to the erected object using the anchor 19, typical and commonly used in construction as a protection against buckling of the mast - free-standing shaft. The rectangular indents on the shaft segments 6 serve for locking of the single-column device during the extension or dismantling of the device shaft, and in use The blocking of the multi-column device serves as an additional protection against skid runaway wanemu. The base of the shaft 16 serves to transfer all vertical and horizontal forces to the ground on or from the device.

During lifting, the following work steps are performed in sequence.

In the device shown in Fig. 1, the hydraulic jack 3 is in the position with the piston retracted, clamping jaws 7 lock the device on the shaft segment in a rectangular cut 6. Segment 5 is mounted on the shaft of the device and is located in chamber 11, and the head 2 of the piston of the hydraulic jack go 3 is based on segment 5 so the machine is ready to self-lift, then jaws the clamps are unlocked and the hydraulic jack 3 (fig. 2) now extends the piston, and as the head 2 it rests on the top end of segment 5 simultaneously with the extension of the piston of the 2 inch hydraulic jack the machine is transported up with the load 1. When the jaw piston is fully extended clamps 7 lock the device on the rectangular incisions of the 6th segment of the shaft and this moment begins retracting the piston and when the head of the piston 2 moves back above the chamber 11, the device is ready for the next assembly of the segment 5 as in fig. 3. After assembling the segment 5 as in fig. 1 and 4, the device is operational for The machine starts to lift itself after unlocking the clamping jaws 7.

The lowering of the load as the device lowers is performed analogously to the lifting process with the fact that the lowering of the device along with the load, i.e. under load, takes place through a hoist pulling in the pistons, while the idle stroke is performed by a hydraulic jack that extends the piston. Passed on no loads are carried out as follows: clamping jaws 7 are unlocked, hydraulic jack 3 is in the extended position, the head 2 rests on the segment 5 under the chambers 11 as in fig. 2. The jack hydraulic 3 pulls in the piston and the piston head 2 rests on the segment underneath this head and the device with the load 1 is lowered so that the segment 5 is in the chamber 11, then the jaws the clamps 7 lock the device as shown in Fig. 1 and the shaft segment 5 is disassembled, using slings 17, a construction crane 1 transports the segment 5 to the storage yard. Under dismantling the segment 5 the hydraulic jack 3 extends the piston and when the head 2 rests on the segment under the chamber 11, it jaws4 104 710 clamps 7 unlock the device and the hydraulic jack 3 draws in the piston and at the same time retracts the piston the head 2 rests on the segment located under the chamber 11, and the device lowers as in fig. 2 and when segment 5 will be in the chamber 11 the device is locked and the clamping jaws 7 block the device as in fig. 1. where the segment 5 is disassembled. If you want to lower or disassemble the device completely, repeat the above-mentioned activity until the goal is achieved.

In order to prevent the disturbance of the static equilibrium caused by the buckling of the shaft in the tool in a single-column operation, anchors should be applied at the correct heights achieved by the device in Fig. 3, which anchors 19 must be used simultaneously when dismantling the device or lowering the device. disassemble.

The same should be done when lifting the load 1 or lowering it with the device 0 with a shaft consisting of segments that do not have rectangular inlets 6.

Operation of a hydraulic device with a multi-column shaft consisting of 5 segments with a cut with rectangular cuts 6 as in fig. 5, 7 and 8, as well as without rectangular cuts is the same with the fact that the jaws clamps are only installed because multi-column devices are designed for lifting and the lowering of very heavy loads and although the lifting or lowering process may take place correctly, without the use of press jaws 7 on rectangular cuts and without rectangular cuts, but these jaws are installed there in order to provide additional protection against runaway , and according to the invention, the action during lifting is as follows, that is to say that when The internal hydraulic jacks 3 perform the stroke under the load of the load 1 and the machine itself at the same time, the 3-x external hydraulic jacks perform the idle stroke like this is shown in Fig. 5, or when the 3-x external hydraulic jacks are making a stroke under the load 1 and the hydraulic device itself are at the same time the internal hydraulic jacks 3 perform idle strokes as shown in Fig. 6 while strokes are performed by the jacks the hydraulic clamping jaws are unlocked.

During lifting, the following operations are carried out in sequence: on the front hydraulic attachment 5 to 8, the 3-x external hydraulic jacks are in the pistons retracted position, The clamping jaws 7 — x are locked, while the internal hydraulic jacks 3 have their pistons most extended so that the heads 2 fully rest on the segments 5 and the clamping jaws 7 lock equipment. The chambers 11 — x under the external hydraulic jacks 3 — x are free and located under the 10-x medial transverse frames. Segment for further shaft extension with a sling 17 the construction crane 1 has been delivered to the deck 12 and will be installed in the external chambers 11-x as shown in Fig. 5. After installing the segments in the external chambers 11-x, the unlocking of clamping jaws 7 and 7 — x external hydraulic jacks 3-x are supported by heads 2 — x o the segments in the chambers 11-x were installed and they extended their pistons the most, while the hydraulic jacks the street 3 pulled their pistons simultaneously and the entire plumbing was lifted up like this is shown in Fig. 7. After lifting the device upwards, the clamping jaws 7 and 7-x lock the device, chambers inner 11 are free under the heads 2 a segment for further extension of the shafts has been provided on platform 12 with the help of the sling 17 of the construction crane 1 as shown in fig. 6. required height with load, carry out the steps in the order up to reaching the desired height.

The device is lowered analogously to the lifting process, except that the stroke is under load - lowering is performed by hydraulic actuators drawing in the pistons, and the idle stroke by hydraulic jacks that extend the pistons. Charges are transferred as described below.

Clamping jaws 7 and 7-x during simultaneous stroke by hydraulic jacks 3 and 3-x Idle and load stroke are always unlocked, i.e. they do not block the device. Hydraulic jacks 3 and 3-x performing a stroke under load - lowering are always in the position of the upper transverse support the flat frame 1 with its body, and the 2-x heads and the 2 pistons facing downwards are always segments built into chambers 11 and 11-x, so hydraulic jacks 3 to lower down the device is the heads of 2 completely extended pistons based on the segments 5 which are under chambers 11, clamping jaws all do not block the device, outer chambers 11 are emptied after dismantling the segments 5 and put aside on the platform 12 for transport to the storage yard. In such a position devices as in fig. 5 the hydraulic jacks 3 pull the pistons and the hydraulic jacks 3-x extend the pistons So the machine lowers as shown in Fig. 6, i.e. that the hydraulic jacks 3 have pistons retracted and the heads 2 are located above the chambers 11 in which there are segments 5 and which will be left dismantled and placed on platform 12, while the hydraulic jacks 3-x have the pistons extended as far as possible and 2-x heads rest on the 5-x segments underneath the 11-x chambers as shown in Fig. 6.104 710 5 When dismantling the segments, the clamping jaws 7 and 7 — x lock the device on the rectangular cuts 6 and 6 — x. After dismantling the segments in the chambers 11, the hydraulic device is operational for further lowering yourself. In order to obtain a further lowering of the device or a complete disassembly of the device, it is necessary carry out all the actions taken until the goal is achieved.

In order to prevent buckling of the shaft columns, the anchors should be at appropriate heights an anchor device to be erected 19 as shown in Figures 3 and 4, which are common used in construction.

Claims (1)

1. Patent claim A hydraulic device for lifting and lowering heavy loads with the shape of a rectangular or square spatial truss, including a shaft from the outside and moving telescopically along this shaft, with a hydraulic system of lifting and lowering heavy loads to the required heights, equipped with a single-column or a multi-column shank these columns consist of segments with or without rectangular slots, hydraulic jacks or several hydraulic jacks, several transverse flat frames, guides, construction crane with a shortened and non-rotating tower and clamping jaws or clamps characterized by the hydraulic jack (3) and the hydraulic jacks (3-x) are installed under the upper transverse flat frame (9) and the upper transverse flat frames (9-x) with the pistons downwards and the piston or pistons at the ends are formed into heads (2) and (2 -x) which form and dimensions of the surface are equal to the area of this segment here (5 and 5-x), on which they are based during the stroke under load, i.e. the segment surface by which the segments connect between each other and the clamping jaws (7 and 7-x) or clamps (7 and 7-x) to for locking the device on the column segments (6 and 6-x) are installed on the middle, lower, transverse flat frame (14 and 14-x) or on the lower transverse flat frame (14) and the lower transverse flat frame (18). Fig i104 710 Fcg. 2.104 710; §104 710104710