DE3910700C1 - Workplace with solid-wall corner connector and attachable additional parts - Google Patents

Abstract

In the case of a workplace with running rails and displaceable and rotatable worktops which are supplemented by narrow edge worktops and are designed with connecting holes in a regular pattern, by adding a minimal, structurally identical number of components and additional parts the function and conversion flexibility is to be further extended, the assembly and production further simplified and at the same time the exterior design made more attractive. To solve this object, the invention provides that, in addition to the open angular corner connectors, solid-wall corner connectors (5', 5'') and attachable additional fittings be constructed and provided, such as shaped edges (10, 10'), servo motors (9) with displacing rods (9') for height adjustment and motor-driven displacement and locking of worktops (4, 4', 4''), and that the solid-wall corner connectors (5', 5'') connect worktops (4, 4', 4'') to drawers and doors, and that double-walled worktops (4, 4', 4'') which are open at the sides and have guided-through wiring and attachable additional parts at the front and rear sides be constructed and combined with the solid-material worktops (4, 4', 4'') of identical contour and dimensions, whole workplace structures thus formed being outwardly closed off by the shaped edges (10, 10') only at the open lateral edges in the boundary regions of the whole workplace.

Description

The invention relates to a workplace of the type mentioned in the preamble of claim 1. Such a workplace is based on the main patent (DE 36 35 879 C1) and the additional patent (DE 38 10 880 C1) known. This arrangement has the advantage that the conversion flexibility increases and He Extensions are easily possible, whereby the user comfort is increased and the variety of construction elements is reduced to a minimum in always the same components.

The object of the present invention is to take advantage of these movable, stationary and combi slidably stationary workstations when using a still minimal kit Always identical parts in terms of function and conversion flexibility to expand the assembly and Simplify manufacturing of parts and assemblies while also adding external design attractive and thus an even broader depth of application in a wide variety of jobs to reach space areas and overarching application fields, whereby also the Conversion flexibility and combinability with each other is increased. This is according to the Invention achieved in that in addition to the open angle corner connectors, solid wall corner ver binders are created in the hole dimensions for the open angle corner connector grid holes be constructed identically and in the matching corner connector grid holes on the Worktops that connect worktops and the triangular openings between the connected worktops, up to the worktop outer edges and surfaces and fill in and that in addition the outside of the solid wall corner plug-in grid holes for attachments and attachments for attachments the slip-on grid holes are created and provided, consisting of the shaped edge in Length and shape are adapted to the respective worktop edge area and the slip-on grid bores of the solid wall corner connectors and plug-in servomotors Push bars for height adjustment and motorized shifting and locking of work slabs and that further, the worktops through the solid wall corner connectors to drawers and doors be connected and in addition to the worktops in solid material, the contour and Ab same double-walled worktops are created, which are open on the side edges remain and as double-walled single worktops directly from the molded edges to the outside be closed and with assembled and connected via the corner connector Ar worktops and work place structures formed from them, only on the outer edges and corner areas, on the open side edges of the double-walled worktops in work area edges the edges of the mold are closed to the outside.

This is in relation to the subject matter of the additional patent which does not belong to the prior art is enough that the variety and function of the assemblies of the stationary and movable Workplaces through minimal component addition and component placement variants of the component add-on tion kit, is further increased and the combination is further promoted, whereby the variety of possible applications and designs is expanded and assembly Possibility is further simplified, while the manufacturing method of the components in the important area of the worktops is simplified and at the same time the external design is raised and the shape attractiveness in the application areas is increased.

Embodiments of the invention are mentioned in the subclaims.

The invention is described below using exemplary embodiments with reference to the drawing explained in more detail. In this shows

Fig. 1, the solid-wall corner joints 5 'and 5''in hollow material embodiment with attachable Deckelplat th in exploded view in an assembled perspective view,

Fig. 2 view of a solid-wall corner joints 5 'and 5''in a solid material embodiment in the assembled Perspektivan,

Fig. 3 shows a solid-wall corner connector 5 'in solid material embodiment with corner connector bore raster and easier passage grid hole for guiding the cam bars 9',

Fig. 4, the perspective view on a computer-single workstation with solid-wall corner joints 5 ', 5'', formed edges 10, 10', double-walled work plates 4, 4 ', 4''and actuator 9 with adjusting linkage 9',

Fig. 5 is the perspective view of the corner portion of a work center with solid-wall corner joints 5 ', 5''in a solid material with attached form edges 10 and form edges with continuous, solid-fit end terminations 10',

Fig. 6 is a plan view of four interconnected countertops 4 with solid-wall corner joints 5 ', 5''and form edges 10 with interchangeable fit-end terminations 11,

Fig. 7 is a plan view of an end wall of full wall countertops 4, 4 'with corner connectors 5, 5', 5 '' and terminating through mounted remote edges 10 and form edges 10 'with continuous, solid fit-end terminations,

Fig. 8 is a perspective view of a workplace with manually adjustable rods 9 ' with hand knob height-adjustable worktops 4, 4', 4 '' and with actuators 9 and adjusting rods 9 ' for the motori cal height adjustment and the motorized opening of door elements and displacement of Schubla denelements ,

Fig. 9 is a perspective view of a workstation with actuators 9 , the adjustment linkage 9 ' to the solid wall corner connectors 5', 5 '' and the drawn perspective view of a double-walled plate 4 ' for a drawer unit with a built-in adjusting rod 9' and drive via a servomotor 9 .

Fig. 1, 2

The angle corner connector 5 and the solid wall corner connector 5 ' and 5'' in hollow material and solid material are used in any combination around a worktop or a workstation structure. The solid wall corner connectors 5 ' and 5'' receive for the inclusion of shaped edges 10, 10' in addition to the corner connector grid holes for connection to the Schrägkan th of the countertops 4, 4 ', 4'' , shaped edge grid holes which on the outer side edges of the full wall corner connector 5, 5 'are provided. The solid wall corner connectors 5 ', 5'' in hollow material design are pushed from one side onto connecting bolts, which were previously inserted into the corner connector grid holes on the sloping edges of the worktops 4, 4', 4 '' , while the full wall corner connectors 5, 5 'are then covered with the cover plate from the opposite side. When designing the corner connector grid holes with screw-in dowels, the connecting bolt is designed with a hexagon socket, which can be retightened at any time even after installation of the solid wall corner connector 5 ', 5'' , when the rear cover is removed, and the corner connector 5', 5 '' Tightly clamp on the worktop sloping edges. The sliding edges, which lead past the connecting bolts, are slightly wedge-shaped, so that with the simultaneous use of connecting bolts with countersunk head, a firm connection to the sloping edge connecting surface to the worktops 4, 4 ', 4'' takes place when the Solid wall corner connector 5 ', 5'' in the final connection position, smooth with the outer edges of the worktops 4, 4', 4 '' and the countersunk head of the connecting bolt sit firmly on the wedge-shaped sliding edges of the corner connector hollow wall. The solid wall corner connectors 5 ', 5'' in hollow material design are used wherever a later exchange with open angle corner connectors 5 , among other things for the implementation of cables is provided and the existing structure itself should not be changed. In addition, the solid wall corner connectors 5 ', 5''are used in hollow material design where heavier vertical plates are connected and set up. In this case, the assembly is simplified, since first the worktops to be connected 4, 4 ', 4'' can be placed individually on the floor and only then the solid wall corner connector 5', 5 '' in hollow material design on the connecting bolts on the bevelled edges the worktops 4, 4 ', 4'' to be pushed. The solid wall corner connector 5 ' in hollow material design are at the corner edges of the worktops 4, 4', 4 '' in exactly this, the triangular corner area filling triangular structure with a corner connector grid hole for plugging onto the sloping edge area of the worktops 4, 4 ', 4 '' created. In the connection area between two panels, the solid wall corner connector 5 '' is set, which here doubles as a mirror image to the solid wall corner connector 5 ' , triangular exactly the connection area between the two worktops 4, 4', 4 '' to be filled and correspondingly two Corner connector grid holes for attaching to the two connecting bolts in the oblique edge of the worktops 4, 4 ', 4'' receives. For the connecting area between four worktops 4, 4 ', 4'' the solid wall corner connector 5'' in hollow material version in turn mirror image doubled pelter shape, but mirror image, square-shaped and accordingly made with four corner connector grid holes. This square solid wall corner connector 5 '' then fits exactly into the diagonal free space contour between the four worktops 4, 4 ', 4'' , smooth to the front and rear sides of the worktops 4, 4', 4 '' and connects via the 4 corner connector grid holes, simultaneously four worktops 4, 4 ', 4'' with each other. In the same free space, however, two triangular corner connectors 5, 5 '' can be used, which then each connect two worktops th 4, 4 ', 4'' , horizontally or vertically. The combination of the open corner Eckver connector 5 with the solid wall corner connectors 5 '' is made when a passage for cables, in small diameters at the connection points should be ensured. The cover plates to the full wall corner connector 5 ', 5'' in hollow material design in triangular shape and in square shape, are provided on the sides with fitting edges that fit exactly into the slot of the recesses on the hollow walls for sliding onto the connecting bolts on the oblique edges the worktops 4, 4 ', 4'' fit in and are also slightly wedge-shaped. The cover plates fit with the outer contour and the fitting edges on the sides exactly into the inner contour of the solid wall corner connector 5 ', 5'' in hollow material guide, so that after plugging in the plate backs with the contour of the solid wall corner connector 5', 5 '' in hollow material design and the cover plates are exactly smooth. The solid wall corner connector 5 ', 5'' in hollow material design are removed during disassembly at the contour edge from the side of the cover plate, from the connecting bolts and from the oblique edge openings of the worktops 4, 4', 4 '' , so that when pressed out on one side the worktops 4, 4 ', 4''of the solid wall corner connector 5', 5 '' falls out in hollow material design and on the back of the plate, the cover plate. The solid wall corner connector of the 5 ' and 5'' in solid material design are used in areas with high loads and used to accommodate grid holes for additional equipment. The contour of the solid wall Eckver binder 5 ', 5'' in solid material version does not differ from the contour of the solid wall corner connector 5', 5 '' in hollow material version. However, the solid wall corner connectors 5 ' and 5'' are made of solid material with corner connector grid holes which are connected at 90 ° to the triangular leg sides when connected by a screw bolt with screw anchors, which are inserted in the worktop sloping edges the solid wall corner connector 5 ', 5''made of full material on the worktop sloping edges, from the top of the worktops 4, 4', 4 '' . In the version with screw-in connecting bolts with countersunk head, the solid wall corner connectors 5 ', 5'' in the solid material version on the screw insertion side are lowered accordingly, so that the connecting screw head after screwing the connecting bolts into the corner connector grid holes on the oblique edges of the worktops 4, 4 ', 4'' in the solid wall corner connector of 5', 5 '' is in full material version itself and does not protrude beyond the corner connector outer contour.

Fig. 3

The solid wall corner connector 5 ', 5'' in solid material design are carried out with different Rasterbohrun conditions for additional devices. In the solid wall corner connector 5 ' in solid material for the reception and implementation of sliding rods 9' , the corner connector grid holes and the grid holes for the sliding rod bushing cross and are at right angles to each other. In this case, the countersink for screw-in connection bolts is set up behind the intersecting grid hole, so that during assembly, the solid wall corner connector 5 'is fastened in solid material and the connection bolt is screwed in until it countersinks, so that the sliding rod 9''is then unimpeded from the countersunk heads of the connecting bolts to the sloping edges of the worktops 4, 4 ', 4'' , inserted into the sliding rod grid holes and can slide and be guided there.

Fig. 4

The individual worktops 4, 4 ', 4''of the stationary, sliding workstation combination are assembled by solid wall corner connectors 5', 5 '' in horizontal connections and only in 90 ° positions of the worktops 4, 4 ', 4'' to each other, combined with open angle corner connectors 5 . On the solid wall corner connector 5 ', 5'' soft edges 10, 10' are inserted into the molded edge grid holes. The worktops 4, 4 ', 4'' are combined in full-wall and double-walled design, both types of plates in the outer contour, thickness, dimensions and design of the grid holes are identical. The vollwan-like worktops 4, 4 ', 4'' are used in particular in the areas of sliding and swivel-unit with slewing ring 6 and rail profile 1 and under special horizontal loads and the double-walled worktops 4, 4', 4 '' mainly in vertical assembly and function-oriented application. The double-walled worktop is created by using the solid wall corner connector 5 ' as a punch between the worktop front and rear, at the 45 ° sloping edges, with the triangular tip to the center of the panel. The corner connectors raster bore of the solid wall corner connector 5 'is itself provided with the use of threaded connecting pin, with threaded bushes, so that at the four slant edges of a work surface 4, 4', 4 '' with the tip to the plate center plate girders used corner connector 5 ' Offers the same connection option with corner connector grid holes as the solid wall worktops 4, 4', 4 '' . The front and back sides of the double-walled worktops 4, 4 ', 4'' , which rest on the two triangular side surfaces of the full-wall corner connector 5' , are plugged into the grid holes for plug-on devices which cross the corner connector grid holes at 90 °. Depending on the material used, the corner connector grid holes and the Rasterbohrun gene for plug-in devices of the solid wall corner connector 5 ' in the double-walled worktops 4, 4', 4 '' on which the front and back of the double-walled worktops 4, 4 ', 4'' Rest, equipped with plug-in dowels or threaded dowels, so that the front and back of the panels on the triangular side faces of the solid wall corner connector 5' are attached or screwed. This makes it possible to replace the back and front of a worktop 4, 4 ', 4'' as desired, even in an already installed work station structure, and to exchange individual worktop back and front sides with different grid hole dimensions for standard and additional parts. Cover or uncover grid holes that are not required with the screw-in dowels. The double-walled screen which is placed with the swiveling and sliding work unit in the rear area on the track profiles, consists of a double-walled worktop combination in tinted glass, whereby the individual double-walled worktops 4, 4 ', 4'' have no closed body edges, but laterally, in the space between the solid wall corner connector 5 ', 5'' spacers and fasteners, are open. The lateral opening in the area of the air gap between the front and back of the plate is, however, in the case of combined composite work station structure, in the connecting lines of the double-walled worktops 4, 4 ', 4'' to adjacent double-walled worktops 4, 4', 4 '' or worktops 4, 4 ', 4'' in solid material version not visible, since the double-walled worktops 4, 4', 4 '' and the solid material worktops 4, 4 ', 4'' are exactly identical in contour and dimensions, so that there are no joints in the connecting lines, but a smooth, seamless connection is made. Form edges 10, 10 ' are therefore only provided in the outermost edge area of an overall work station network and the working area structure is moved with form edges 10, 10' . Stationary screens and glass installation elements are implemented in wall units in the same way. With double-walled worktops in transparent material, the use of grid holes on the back of the worktop is largely avoided. In the double-walled version in other materials such as wood, metal, plastic, ceramic or stone, the double-walled worktops 4, 4 ', 4'' with grid holes for the connection with the standard workplace component set as well as the solid wall worktops 4, 4' , 4 '' executed. For this purpose, the solid wall corner connector 5 ' and partially the solid wall corner connector 5'' are used. The grid holes are then carried out in the hole grid according to the grid connection hole dimensions of the standard workplace parts catalog and over all or isolated grid holes, solid wall corner connectors 5 ', 5'' are arranged as on the oblique edges of the double-walled worktops 4, 4', 4 ′ ′ . In addition, the plate backs are partially equipped with additional holes that correspond to the snap-on grid holes in the solid wall corner connector 5 ', 5'' . After assembling these double-walled worktops 4, 4 ', 4'' with grid holes for the standard workstation component set and the plug-on grid holes carried out on some grid holes, plug-on additional devices can be mounted directly on the back of the worktop without the attachment of a further solid wall corner connector 5' , 5 '' be plugged on. If the air gaps between the double-walled worktops 4, 4 ', 4''are not used in the area of all of the grid holes required for the catalog of work place parts, solid wall corner connectors 5, 5'' are used for materials that use plug-in or threaded dowels allow the combination with these plug-in and threaded dowels and the filling and assignment of free, not with solid wall corner connectors 5, 5 ' occupied Rasterboh stanchions. The front panels are also only drilled with the grid hole in special applications. However, the front, corresponding to the back of the plate, can be equipped with an identical grid hole set by top and bottom, two rear sides are provided, which are joined together by the solid wall corner connectors 5 ', 5'' to form a double-walled worktop 4, 4', 4 '' is connected. Depending on the materials used, the solid wall corner connector 5 ', 5'' with the two double wall sides of a worktop 4, 4', 4 '' pressed, glued, poured, screwed, plugged or spot welded. Since each double-walled worktop can be surrounded with a molded edge border 10, 10 ' , or only on the outer cone of a composite panel or a combined workstation, in the free space between the double-walled worktops 4, 4', 4 '' also sliding rods 9 ' the plug-on grid holes of the built-in solid wall corner connector 5 ', 5'' guided and housed and connected to the outside with actuators on the worktop rear walls. In addition, in the air gap of the double-walled worktops 4, 4 ', 4'' cables and wires are carried out freely and can unhindered by lateral outer edges of an entire workstation structure, with the exit in the area of 45 ° beveled edges using an open angle corner connector takes place or in places in the middle of the plate when connecting to the plug-in grid holes of the solid wall corner connector 5, 5 '' the spacing, connecting and plug-in elements in the double-walled worktop 4, 4 ', 4''are simultaneously.

Fig. 5

The worktops are connected here with solid wall corner connectors 5 ', 5'' to a workstation corner console. The abuts the horizontal on the solid wall corner connectors 5 ', 5'' molded edge 10 with the offset by 90 °, also horizontally on the solid wall corner connector 5', 5 '' seated molded edges 10 ' and the vertical on the solid wall corner connectors 5 ', 5'' seated edges 10 together. Here, the molded edge 10 ' with the one-sided fit connection forms a seamless quarter round cover of the corner console. In the same way, different shaped edges without or with one-sided and double-sided fit connection, in quarter-round, semicircular, trapezoidal or triangular cross-section on single panels, composite panels or entire work place structures are placed on the molded edge grid holes of the solid wall corner connectors 5 ', 5'' .

Fig. 6

The composite panels are encased here with a shape-edged frame with the same cross-section. Instead of the fitting connections provided at the ends of the mold edges 10 ' , replaceable end closures are provided here at the corners of the mold edge joints. For this purpose, the mold edges 10 are pre-equipped at the ends with a plug-in sleeve, the counterparts of which are provided in the separated fit end closure 11 , so that the fit pieces in the mold edges are plugged on, likewise, a seamless connection at corner regions enables the mold edges 10 ' . The shaped edges 10 ' are used when relatively thin-walled worktops 4, 4', 4 '' are provided while the interchangeable fit end caps with relatively thick Ar beitsplatten 4, 4 ', 4''are provided. The corner connector grid holes on the sloping edges of the worktops 4, 4 ', 4'' are pre-equipped with threaded expansion anchors in this embodiment. The solid wall corner connectors 5 ', 5'' in solid material design are equipped with through holes and countersinks for threaded connecting bolts. In the solid wall corner connector 5 ', 5'' the explosionsar tig are shown in front of the board edges, the threaded connecting bolts for screwing onto the sloping edges of the worktops 4, 4', 4 '' were already down to the countersink in the solid wall corner connector 5 ', 5'' inserted and shown in the directly screwable state.

Fig. 7

The double-walled partition consisting of laterally arranged full-wall worktops 4 and Ar beitsplatten 4 'in front of the partition with the track profile 1 as a screw and spacer rule piece, is equipped on the upper edge with an edge border, which consists of shaped edges 10, 10' , the grid holes of solid wall corner connectors 5 ', 5'' are plugged onto the shaped edges.

Fig. 8

The operation panel 4 on the four vertically arranged cam bars 9 'is manually, tote over hand, the top of the sliding rods 9' are fitted, adjusted in height. In the height adjustment by the servomotors 9 , the servomotors 9 at the lower end of the sliding rods 9 ' , on the plug-in grid holes of the solid wall corner connectors 5' , are plugged in and with synchronous operation of the four servomotors 9 , a uniform height adjustment is effected. With different synchronization of two servomotors 9, the one workstation height adjust and at the same time easy loosening of the solid wall corner connector 5 ', 5'' in the end fastening positions of the United push rods 9' to achieve the hinge effect in the attachment point in the corner connector beveled areas, one Tilt adjustment of the workplace unit, the rods on the sliding 9 ' sits, can be achieved. The cable laying and wiring of the servomotors 9 also takes place here within the double-walled worktops 4, 4 ', 4'' , which form the workplace structure. The servomotors 9 are flanged directly to the solid wall corner connector side surfaces, so that the drilling pattern of the grid holes for plug-in accessories for these solid wall corner connectors 5 ', 5''is identical to the drilling pattern of the servomotors 9 . The servomotors 9 are hydraulic and electro-mechanical drives that act on the slide rods 9 ' . The sliding rods 9 ' are guided through grid centers in the solid wall corner connectors 5', 5 '' and fastened in these. They are carried out in one piece if there is sufficient space for the displacement process and, in the case of a limited accommodation space, in a telescopic manner. Slide rods, which are used for opening and closing door elements and drawers in solid wall design, act directly on the solid wall corner connector 5 ', 5''of the worktops 4, 4', 4 '' which together form the door and drawer elements and which are used on the inclined edges of the solid wall corner connector 5 ' with snap-on grid holes for insert bolts and receptacles. Here is also the connection of the worktops 4, 4 ', 4'' which are to form the drawer frame only via the full wall corner connector 5' at the respective corner areas. For the connection of the worktops 4, 4 ', 4'' to drawers and door connections, solid wall corner connectors 5', 5 '' are used in solid and hollow material combined, so that a solid wall corner connector 5 ' in for the pivot point of the door elements Solid wall version for the safe absorption of the torque in the pivot points of the insert bolts on the lower and upper solid wall corner connector 5 'is used and for the solid wall corner connector counterparts in the horizontally or vertically arranged Ar worktops 4, 4', 4 '' , solid wall Corner connector 5 ', 5'' in cavity wall design, can be used for easy retrofitting installation. Each of the doors and drawers thus formed are opened, closed and locked by means of the horizontally installed sliding rods 9 ' and servomotors 9 , so that the motorized inserts and extensions, among other things, of heavy printer plates, computer equipment and valuable materials are under a secure, central control lock.

Fig. 9

The wiring of the servomotors 9 for a multiple workstation with a large number of servomotors 9 with slide rods 9 ' and a variety of height-adjustable work plates 4, 4', 4 '' and worktops 4, 4 ', 4'' formed drawers and door elements , takes place via the air gaps within the double-walled worktops 4, 4 ', 4'' . For this purpose, the worktops 4, 4 ', 4'' in solid material with the double-walled worktops 4, 4', 4 '' are laid so combined that the air gaps of the double-walled worktops 4, 4 ', 4''one behind the other, one above the other and next to each other form a free air gap and a kind of continuous cable duct and the cabling, wiring, line and sliding rod laying unhindered by the inside of the double-walled worktops, to all connection points on the rear and front sides with plug-in grid holes and plug-in attachments for the entire workspace can be done. Control buttons and limit switches are also plugged onto plug-in grid holes in the solid wall corner connector and the control lines are routed to a free slot on a computer that is housed inside or outside the multiple workstation. Thus, the servomotors 9 and all plug-on additional devices are controlled and controlled via a computer monitor and, when the system is switched off, are basically moved into a locked-locked position of the multiple workstation, which ensures that all drawers and doors are locked. According to this procedure, all workplace structures that are combined and created from the catalog of workplace components are locked centrally, controlled via monitors and controlled via computer.

Claims (6)

1.Workplace with rails and sliding and rotatable worktops with rails that are chained together on the underside with connecting straps and rollers that slide in the rails, arranged at the joint spacing of the connecting straps and connected to standing worktops and supplemented by narrow edge worktops, the Worktops and edge worktops in addition to the grid holes at the pivot point spacing of the connecting straps, corner connector grid holes for receiving corner connectors, which are identical in construction to the corner connectors that are used for the connection to multiple panels at the bevelled corners, the worktops are created with the same length as the running rails and the worktops and edge worktops in an identical design, horizontally as worktops and vertically as slab supports, via the corner connector grid holes with inserted corner connectors for stationary work squares are built and combined with the components of the sliding workstations according to Patent 38 10 880, characterized in that in addition to the open angle corner connectors ( 5 ), solid wall corner connectors ( 5 ', 5'' ) are created, which in the Hole dimensions with the open angle corner connector grid holes are constructed identically and in the matching Eckver binder grid holes on the worktops ( 4, 4 ', 4'' ), connect the worktops ( 4, 4', 4 '' ) with each other and the triangular openings between the connected worktops ( 4, 4 ', 4'' ), up to the worktops outer edges and surfaces close and fill and that in addition the outer sides of the solid wall corner connector ( 5', 5 '' ) plug-in grid holes for plug-on Obtain additional devices and attachable additional devices for attaching to the snap-on grid holes are created and provided consisting of F shaped edges ( 10, 10 ' ), which are adapted in length and shape to the respective worktop edge area and are plugged onto the snap-on grid holes of the solid wall corner connectors ( 5', 5 '' ) and from pluggable servomotors ( 9 ) with slide rods ( 9 ' ) For height adjustment and motorized displacement and locking of worktops ( 4, 4', 4 '' ) and that also the worktops ( 4, 4 ', 4'' ) through the solid wall corner connector ( 5', 5 '' ) be connected to drawers and doors and in addition to the worktops ( 4, 4 ', 4'' ) in solid material, the same shape and dimensions, double-walled worktops ( 4, 4', 4 '' ) are created, which are open on the side edges remain and as double-walled single worktops ( 4, 4 ', 4'' ) directly from the shape edges ( 10, 10' ) to the outside and when assembled and with the corner connector ( 5, 5 ', 5'' ) with each other connected A Worktops ( 4, 4 ', 4'' ) and work station structures formed from them, only on the outer edges and corner areas, on the open side edges of the double-walled worktops ( 4, 4', 4 '' ) in the work area edge areas, through the shaped edges ( 10, 10 ' ) Be completed externally. 2. Workstation according to claim 1, characterized in that the solid wall corner connector ( 5 ', 5'' ) combined as a solid material corner connector and as a hollow material corner connector with one-sided, attachable Deckelab circuit be created towards the panel surface and that the solid wall Corner connectors ( 5 ' ) are designed triangular so that they fill the cut-off bevel edge area of the individual worktops ( 4, 4', 4 '' ) exactly at right angles and the solid wall corner connectors ( 5 '' ) mirror-image, triangular doubling exactly the connection area between Fill in two worktops ( 4, 4 ', 4'' ) and fill in the diagonal area between four worktops ( 4, 4', 4 '' ) in a mirror-image duplication, but in a square shape. 3. Workstation according to claim 1 or 2, characterized in that the shaped edges ( 10 ) in Verbindungsbe range of the worktops ( 4, 4 ', 4'' ) on the shaped edge grid holes of the corner connector ( 5'' ) and in corner areas on plates the molded edge grid holes of the solid wall corner connector ( 5 ' ) are plugged in and that in worktop and workstation corner and edge areas, molded edges ( 10' ) and fit-Endab connections ( 11 ) for molded edge connections and joints in the horizontal and vertical directions with adapted shape to adjacent, horizontal and vertical shape edges ( 10 ) are provided, so that a uniform edge transition from plate edge to plate edge is created and the worktops ( 4 ), edge worktops ( 4 ', 4'' ) and corner connectors ( 5, 5th ', 5'' ) are bordered by a completely closed, seamlessly matching and removable edge border. 4. Workstation according to claim 1, 2 or 3, characterized in that the solid wall corner connector ( 5 ', 5'' ) in addition to the areas on the inclined edge grid holes of the plates ( 4, 4', 4 '' ) also on the Rasterboh stanchions of the back of the plates are placed and when receiving the attachments with vertical operation, such as the servomotors ( 9 ) with sliding rods ( 9 ' ) for the height adjustment of Ar beitsplatten ( 4, 4', 4 '' ), rails ( 1 ) and rotating rings ( 6 ), mirror image of the corner connectors ( 5, 5 ', 5'' ) on the plate corners of the horizontal worktops ( 4, 4', 4 '' ) are used and when adding plug-in additional devices with horizontal mode of operation like the servomotors ( 9 ) with slide rods ( 9 ' ) for the horizontal displacement of drawer elements and the actuation of door elements, just in case if mirror image of the solid wall corner connectors ( 5', 5 '' ) are used on the plate corners of the vertical worktops ( 4, 4 ', 4'' ) so that the horizontally and vertically inserted full-wall corner connectors ( 5', 5 '' ) are rotated 90 ° to each other on the backs of the plates, with the triangular long side are arranged at the grid holes of the rear plates. 5. Workstation according to one of claims 1 to 4, characterized in that the solid wall corner connector ( 5 ' ) for the production of double-walled panels ( 4, 4', 4 '' ) on the sloping edges, mirror image of the solid wall corner connectors ( 5 ' ), which fill the sloping edge areas towards the outside, are used in such a way that four corner connectors ( 5' ) with the triangular tip towards the middle of the plate are placed on all four sloping edges of a plate back and the plate front is then placed on it, so that the plate back and front rest only on the mirror-image corner connectors ( 5 ' ) and the side edges in the distance and air gap between the double-walled worktops ( 4, 4', 4 '' ) lying full-wall corner connectors ( 5 ' ), remain open on the side and that for the Creation of swiveling screens that are placed on the rotating rings ( 6 ) of the workstations and with partition and installation walls a us glass and translucent material on the use of grid holes on the back of the plate is dispensed with and in the worktops ( 4, 4 ', 4'' ) made of other materials, also in the middle corner connector ( 5', 5 '' ) in the normal position of the grid hole Gen are used for the standard workstation parts and the back of the plate with grid holes as for the solid material worktops ( 4, 4 ', 4'' ) are prepared and in addition, the plug-on grid holes for the plug-on attachments are also passed through in some places, so that on the Plattenrücksei ten grid holes for the standard workstation parts and grid holes for plug-in additional devices in the grid dimension of the solid wall corner connectors ( 5 ', 5'' ) are provided and that when fitting the worktop grid holes with screw-in plugs, the back and front of one Worktop ( 4, 4 ', 4'' ) also in an already finished monti erten workplace structure is interchangeable and so grid holes are partially or completely, subsequently covered or opened and the plug-on additional devices on exposed plug-on grid holes can also be placed directly on the worktop front or back. 6. Workstation according to one of claims 1 to 5, characterized in that in multiple workplaces, solid material and double-walled worktops ( 4, 4 ', 4'' ) with each other to composite panels and combined Ar beitsplatzaufauten via the corner connector ( 5, 5', 5th '' ) Are connected and one behind the other - one above the other and next to each other arranged double-walled worktops ( 4, 4 ', 4'' ), through the internal air gap a kind of cable duct is formed in which the free laying of lines, cables and plug-in add-on directions within and which are used on the solid wall corner connectors ( 5 ', 5'' ) in the air gap of the double wall-mounted worktops ( 4, 4', 4 '' ) in the drilling dimension of the worktop grid holes, guided and held and that with combined work station structures, consisting of shelves and cupboards and partition walls, with a large number of servomotors ( 9 ), sliding rod n ( 9 ' ) and additional attachments also the wiring of power and control lines through the air gap between the double-walled worktops ( 4, 4', 4 '' ) is performed, which is used at any point on the inclined edges with open angles - Corner connectors ( 5 ) and the plate back and front sides over the locations of the grid holes, under which the solid wall corner connectors ( 5 ', 5'' ) are inserted into the air gap and to the grid holes for plug-on holes passed through the plate back and front sides. Additional devices and directly to plug-on additional equipment, such as control buttons, limit switches, plug contacts, computer and monitor connections, are led out of the air gap and connected to general facilities such as printers or computer peripherals and which are also connected to a computer inside or outside the work place is led from which all shift positions and plug-on attachments can be centrally controlled, monitored and locked.