CS238553B1 - The method of assembly of supporting parts of storage storage structures, especially storage racks - Google Patents

Abstract

Solution of the assembly procedure for fitting horizontal load-bearing parts of warehouse rack structures, which achieved such accuracy of fitting with the lowest possible demands on measuring machines that it was possible to use automatic wear devices with two-code control in the warehouse. The essence lies in the fact that the rectifiable horizontal load-bearing parts are fitted into the exact position of the lifting and extending part of the rack operating device, in particular the rack stacker, by which the horizontal part is first transported to the exact vertical position and then, using the stacker as a template, horizontal rectification is carried out with respect to the vertical load-bearing parts.

Description

(54) Method of assembly of supporting parts of storage storage constructions, especially storage racks

Solution of assembly procedure for fitting horizontal load-bearing parts of warehouse rack constructions, which achieved the fitting accuracy at the lowest possible demands on measuring machines, so that it was possible to deploy automatic two-code controlled cloaking devices in the warehouse. The rectifiable horizontal support members are mounted in the exact position of the lifting and extending portion of the shelf operator, in particular the shelf loader, by which the horizontal member is first conveyed to the exact vertical position and then the horizontal rectification is performed using the stitcher as a template. vertical load-bearing members.

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238 553

The invention relates to a method for assembling load-bearing components of storage storage structures, in particular storage racks. This method is particularly suitable for storage racks whose construction allows the installation of supporting parts within certain limits, adjustable with respect to the vertical supporting columns. Depending on the particular structure, it is possible to change the mounting of the supporting parts in three, two or one spatial coordinates.

Supporting elements in the form of beams placed horizontally from one support to the other are mounted in known storage structures at fixed locations whose position is fixed and depends on the construction of the vertical supports; this position must be accurately measured by geodetic measurement procedures. The load-bearing members are ✓

as a rule, for technological and transport reasons, they are provided with storage elements for accommodating storage structures located at such locations as to provide sufficient clearance for the retracting and retraction of the handling portion of the racking service in the unloaded state between the upper edge of the horizontal support members and the lower edges of the storage structures. In the longitudinal direction of the storage rack, the storage elements define the insertion space for the rack operating device, so that their position must be taken into account. Also in the transverse direction, it is necessary to maintain a minimum bearing surface for the storage elements, so that the distance of the bearing elements from the axis of the handling corridor must be monitored.

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Storage racks with manual but above all automated operation require precise cooperation between the individual parts of the equipment, between the shelf operator, storage means and the entire rack construction, requiring in particular the exact position of the horizontal load-bearing components. is common in building structures. The accuracy requirements of the geometric position of the racking components are further increased if the operating device is not adapted for automatic fine feed in the final stage of insertion; in such a case, the laboriousness and time demands of geodetic surveying of the position of individual parts of the structure increase and at the same time the demands on the accuracy of production of individual parts of the structure increase.

Automatic fine feed of an operator, such as a shelf loader, at the final stage of storing goods in the shelf of the shelf is much more demanding on electrical and electronic equipment as well as the design of all transmission devices compared to two-code shelf drive operation. .

SUMMARY OF THE INVENTION It is an object of the present invention to provide an assembly method for assembling storage rack components that allows the use of two-code storage of goods even for large storage racks. The solution according to the invention is also intended to achieve an increase in the accuracy of the prefabricated rack construction parts, while at the same time reducing the construction and production costs as well as the assembly costs compared to the barrels of unnecessary costs. The precision required for the two-code positioning of the operating device should be achievable in steel constructions even at a reduced cost of assembly.

By maintaining the ideal geometrical positions of the individual components of the storage rack, it is possible to better utilize the entire cross-section of the supporting elements and reduce steel consumption. In addition to reducing the cost and geodetic measurement of the mounting points, the requirements for structural conversion during inspection and maintenance should also be reduced. Adjustment of the position of the individual structural members within certain limits should be maintained throughout the life of the structure in order to allow some functional changes in the position of the shelves during operation of the warehouse or other operating devices during operation.

The solution according to the invention is therefore primarily to replace the existing demanding geodetic measurement of the mounting points by measuring the direct positional relationship between the shelf support parts and the extended pick-up and lift-off element of the rack operating device. The support members are connected to the vertical support members by detachable joints and are formed such that storage space variability is maintained within certain limits.

During the assembly and operation of known storage racks, there is a direct geometrical dependence between the supporting members and the positioning accuracy of the vertical supporting members. This dependence imposes great demands on the horizontal parts of the structure, in particular on the accuracy of their position. Until now, the basic functional criterion was to maintain mutual adaptation of the geometric parameters of the rack construction and the approach accuracy of the rack service.

With higher design requirements and the quality of operation technology, where greater geometric accuracy is required, manufacturing costs are inevitably increased, which is essentially a limiting factor in increasing the geometric accuracy of the structure. Accuracy attainable. it is also dependent on the possibility of using automatically controlled two-point storage mechanisms, which are advantageous in terms of easier maintenance, for higher storage racks.

The insertion accuracy of the extension arm of the shelf stacker is also determined by a set of different geometrical tolerances occurring inevitably or accidentally. Some important values of tolerances and deviations from the exact position occur in the same places of the structure and have the same size.

These objects are solved by a method of assembling the load-bearing components of the storage storage structures according to the invention, in particular high storage racks, which is based on the fact that the rectifiable load-bearing storage components, especially storage racks, are positioned exactly in the storage rack structure by the raised and retracted parts a shelf operating device, in particular a stacker.

According to a particular embodiment of the method according to the invention, after placing the load-bearing elements of the storage structure at a precise height position, the exact position of the load-bearing elements relative to the vertical load-bearing elements of the storage structure is adjusted. The rectifiable horizontal elements are secured to the supporting structure in the exact spatial position by releasable joints after being moved to the exact position.

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In particular, the process of the invention eliminates the adverse effects of manufacturing tolerances and inaccuracies which are eliminated by fitting the support members with another independent device. The method according to the invention can be reused during the operation of the warehouse, where it is possible either to change the placement of the supporting elements for changed storage conditions, or to check the position of the elements and their maintenance by means of a shelf loader. The accuracy of the position of the supporting elements depends on the type of operating device used. Structures assembled by the method of the invention cannot exhibit systematic errors and deviations in the approaching and retracting of the foundation, since the supporting structure has also been constructed according to these deviations and deviations resulting from manufacturing and measurement inaccuracies cannot occur. During operation, it is also possible to carry out a change in the placement of the support members, caused by a change in the storage requirements and changes in the geometry of the approach coordinates, by the method according to the invention.

Using the method according to the invention, the assembly can be started in the lower rack row of one rack and first two opposing supporting members are mounted and rectified, using a set of stops placed on the lifting and retracting platform or the fork of the operating device. To find out

- 6 238 553, the values of the shelf loader deformations due to the load and lift height of the lift, as well as the inertia of the lift braking, it is proposed to load approximately 50% of the maximum permissible load when rectifying the table or operator platform. After rectification of the supporting elements in the lower shelf layer, further supporting elements can be gradually mounted in the same way. When assembling the upper parts of the storage racks of the storage rack, the already mounted supporting parts can serve as beams for the assembly platform and the shelf service device serves simultaneously as a transport device and a mounting means. With the method according to the invention, the best geometrical parameters of the structure can be achieved from a functional point of view at low assembly and measuring costs.

Examples of embodiments of a part of a warehouse structure assembled by the method according to the invention are shown in the drawings, where in Fig. 1 is a plan view of one floor in the Part of a warehouse construction with storage racks and vertical supporting steel parts; 3 is a partial vertical section of the storage rack with vertical support members, FIG. 4 shows a partial side view of the rectifiable storage rack supports β with steel vertical support members, and FIG. 5 is a side view of another example of rectification load-bearing elements of rack construction with steel vertical elements.

The basic principle of the method according to the invention is shown in plan view of part of the storage rack in FIG. The steel vertical support members 6 of the rack support structure have only slight deviations in the serum perpendicular to the longitudinal axis of the service corridor, which are negligible from the functional point of view. Also functionally permissible are height deviations which can occur with sufficient manufacturing and assembly accuracy. The main problem is the precise placement of the support members 2 in the direction of the longitudinal axis of the service corridor. Therefore, in the case of high shelf structures, it is necessary to provide for the longitudinal rectification of the steel support elements on the main horizontal beams 7, whereby the support elements are fastened by detachable fasteners, in particular screws χ. In rectification, each support part of the shelf shelf support structure is oriented relative to the position of the lifting and retracting part 4 of the shelf operator 5.

Fig. 2 shows the possible direction of rectification of the horizontal shelf support members 2, which are supported on the main horizontal beams χ of the storage rack structure, supported on the steel vertical support members 6. The raised lifting and retracting part ± of the rack operating device χ serves as rectification template.

Fig. 3 shows an exemplary embodiment of the rectifiable horizontal support members 2 in cross section welded to the support plates, the horizontal support members 2 being formed by a pair of U-shaped beams and supported on brackets 7. The height adjustment is carried out so that the horizontal support members 2 together with the support brackets 7 are placed on the lifting and retracting part 8 of the rack

The support brackets 7 are welded onto the steel plates 8 after adjusting the required height position. Horizontal rectification of the horizontal support members 2 is effected by shifting the U-beams over the bearing brackets 7. Also in the longitudinal direction, the position of the U-beams inverted can be compensated. to each other by the outside of their webs, by sliding in the direction of their longitudinal axes. The set position of the horizontal support members 2 is secured by the fastening clamps. The arrows indicate two directions in which rectification is carried out.

Fig. 4 shows a side view of a horizontal support shelf 2 of a storage rack, the vertical structure of which is formed by vertical reinforcement bars 6. The arrow indicates the direction of horizontal rectification. On the horizontal support panels 2 there are welded inserts perpendicular to their feed axis for storing the stored objects. The horizontal support members 2 consist of a pair of U-shaped steel beams facing each other on the outside of their uprights and supported on a support bracket 7 to which they are fastened by means of fastening clips 9. The support bracket 7 is welded to a steel plate 8 which is embedded in reinforced concrete vertical support member 6 ·. Rectification of the horizontal support members 2 in the direction of the arrow is carried out by the lifting and retracting part 4 of the rack operator 5.

Fig. 5 is a partial side view of other horizontal support members 2 of the storage rack structure provided with steel vertical support members 6. The horizontal support member 2 is formed by a

9 238 553 a profiled sheet which serves directly as a shelf insert and which is arranged on the upper surface of the main horizontal beams 1. In the profiled sheet of the horizontal supporting members 2, oval or elongate holes are formed through which the fastening screws 8 pass and allow rectification position in the direction of the arrow.

Claims (3)

SUBJECT OF THE INVENTION 238 553 Method for assembling load-bearing components of storage warehouses, in particular storage racks, characterized in that the rectifiable horizontal load-bearing components of storage structures, in particular racks, are transported to their exact position in the structure and held in this position during the assembly by retracting lifting and retracting parts of a shelf operating device, in particular a shelf loader. in Method according to claim 1, characterized in that, after the horizontal supports of the storage structures have been conveyed to the exact height position, the exact spatial position of the horizontal supports with respect to the vertical supports is set. Method according to claim 1 or 2, characterized in that the reclaimable horizontal load-bearing elements of the storage structure are firmly connected to other parts of the storage structure by releasable joints, in particular screws and clamps, after being moved to a precise spatial position.