Abstract:
A server in a communications network receives information when a call is made by a subscriber in the network and is able to determine at least one other terminal to which a message can be sent through the Internet, in dependence of the dialled number and the type of the other terminal. With the solution according to the invention, a subscriber can have information in any form delivered to any terminal to which the subscriber has access. The subscriber can request and receive written information, for example, from a shop while at the same time talking to a person at the same shop.

Description:
TECHNICAL FIELD  
         [0001]    The invention relates to a slide rail device for a conveyor and, more specifically, to a slide rail device for a conveyor having a continuous-running conveyor chain or equivalent.  
         PRIOR ART  
         [0002]    It has long been known to guide continuous conveyor chains in elements which are constructed as profiled elements and support and guide the chain. Such elements are usually extruded profiled girders and a choice of suitable material offers a wide degree of scope to produce purpose-built elements. One requirement which is stipulated is, of course, adequate strength and optimal extrudability. Aluminium and alloys of aluminium, but also other light metals, have been shown to meet stipulated requirements. By combining a profiled design which is acceptable from the strength aspect with a profile which is necessary for the particular chain guidance, it is possible to achieve a profiled design which is ideal for the purpose.  
           [0003]    Continuous-chain conveyors also, of course, require deflecting devices and, in particular, deflecting devices which reverse the motional direction of the chain from a first direction to a second, opposite direction.  
           [0004]    Such deflecting devices are traditionally made by casting of a plurality of separate elements, which can somehow be joined together and connected to the said profiled elements. The construction elements in the deflecting device are usually also made of aluminium or some other metal having sufficient strength and durability for the purpose.  
           [0005]    These deflecting devices are configured to accommodate a deflecting roller and, in certain cases, a combined deflecting and drive roller.  
           [0006]    Apart from strength requirements, dimensional tolerance requirements are also, of course, stipulated to allow the chain to be introduced into the deflecting device and turned and reintroduced into the profiled element without disturbance. These requirements have traditionally been met with the use of separately made supporting guides which, in an extra manufacturing stage, have been fixed to walls which cover the chain of the deflecting device on both sides.  
           [0007]    The applicant for the present invention has come up with a new fastening for a guide/slide device in a chain deflector and this is described in a Swedish patent application submitted simultaneously herewith.  
           [0008]    Another essential requirement in this connection and which is placed upon extruded conveyor elements is, however, that they should produce minimal friction against the chain. This has traditionally been solved by the application of slide rails made of suitable material to supporting guides in profiled elements and to supporting, separate guides in deflecting devices. Such a material is, for example, polyamide, HD polyethylene or UHW polyethylene.  
           [0009]    Such rails are extruded in desired lengths and are cut to the part-lengths required for application to guides in profiled elements/girders and to any auxiliary guides in deflecting devices.  
           [0010]    In the rails there is a longitudinal groove, the width of which is dimensioned to correspond essentially to the thickness of the guides/flanges to which a corresponding rail shall be applied by the rail being pressed onto the flange so as to enclose this on two sides.  
           [0011]    The material in the rail, for example polyamide, HD polyethylene or UHW polyethylene, is such that the groove-forming arms of the rail can be swung out such that they return flexibly into position.  
           [0012]    In order to be adaptable to any curves in the chain track of the conveyor, the rail and its arms must not be too flexurally rigid.  
           [0013]    This means that the material properties of the rail and the width of the groove in the same cannot always be chosen to produce arms which exert a force upon the guide in the conveyor track, which force is as resilient as possible and fixes the rail.  
           [0014]    Especially when the conveyor has a conveyor chain having links which enjoy considerable range of movement in the plane of the chain as well as in a plane perpendicularly thereto, there is a risk that the chain, because of its inherent and necessary freedom of movement between individual links, will tend not to follow the intended motional path if its guidance is not as intended.  
           [0015]    The said slide rails make a large-scale contribution to such guidance.  
           [0016]    The conveyor chain puts strain upon the slide rails, which are expected to be immovable under the intended load. Oblique load and oblique tension in the chain can arise, for example, due to the disorderliness of objects conveyed on the chain, especially in curves in the chain. In this connection, it is of great importance that the slide rails should maintain their intended position. Even a slight displacement of a slide rail from the correct position can result in braking or even jamming of the chain.  
         OBJECT OF THE INVENTION  
         [0017]    The object of the invention is to provide a conveyor having a continuous conveyor chain in which the abovementioned drawbacks of the known slide rails are eliminated.  
           [0018]    The slide rail device is especially intended for use in conveyors having continuous conveyor chains running on slide rails and in which objects conveyed on the chain are actively directed upwards in order, without disturbances, to give the conveyor chain the intended course of motion on the slide rails.  
           [0019]    The slide rail device according to the invention is produced especially for conveyors in which the chain strands are supported and guided at a relatively short distance apart in extruded profiles and in which high requirements are placed upon tolerances, especially in terms of undisturbed guidance of the chain, induding under difficult operating conditions.  
         The Invention  
         [0020]    The said objects and aims of the invention are realized with a slide rail device according to that which is set out in Patent claim  1 .  
           [0021]    In the sub-claims are indicated preferred embodiments of the arrangement according to the invention. 
       
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
       [0022]    Illustrative embodiments of the invention are shown in the appended drawings, in which:  
         [0023]    [0023]FIG. 1 shows in perspective view part of a conveyor according to the invention provided with a deflecting device and in which the conveyor chain is supported in profiled elements,  
         [0024]    [0024]FIG. 2 shows a link of the conveyor chain viewed from above,  
         [0025]    [0025]FIG. 3 shows the link in FIG. 2 viewed from the front,  
         [0026]    [0026]FIG. 4 shows in cross section the profiled girder in the conveyor in FIG. 1 provided with an embodiment of a slide rail according to the invention, on the upper flange/guide located to the right in the figure,  
         [0027]    [0027]FIG. 5 shows in diagrammatic, partially cut cross section half of the profiled girder together with chain links and slide rails according to the invention,  
         [0028]    [0028]FIG. 6 shows a slide rail according to the invention constructed in one piece with an edging, and  
         [0029]    [0029]FIG. 7 shows in perspective view a slide rail without an edging. 
     
    
     DESCRIPTION OF PREFERRED EMBODIMENTS  
       [0030]    In FIG. 1 is shown part of a profiled girder  10 , which can be of any chosen length and which is extruded from, preferably, aluminium in the form of a straight girder. (Curved girders or corresponding construction elements with corresponding profile in cross section are also obviously found.) The structure of this girder can be seen from FIG. 4. As is evident from the figure, the girder is symmetrical about its vertical centre plane c-c and has a pair of mutually opposing flanges  11 ,  11 ′ forming a first supporting and steering upper tramway for the conveyor chain. The girder also has a pair of mutually opposing flanges  12 ,  12 ′ forming a second supporting and steering lower tramway for the conveyor chain. The girder additionally has, along each long side, longitudinal recesses or grooves  13 ,  13 ′, which are each delimited on the inside by webs  14 ,  14 ′ standing vertically in the figure. These webs  14 ,  14 ′ form together with webs  15 ,  15 ′, which run essentially horizontally and are angled in the figure, a rotationally rigid and strong girder construction. The essentially vertical walls  16 ,  16 ′ of the girder, as shown in FIG. 4, are closed off at the bottom by longitudinal grooves  17 ,  17 ′, in which transverse damps or the like can be secured, for example for the fastening of legs to support the conveyor or a plate covering the bottom side of the girder.  
         [0031]    Bearing upon the upper flanges/the first guide  11 ,  11 ′ on the profiled girder (as shown diagrammatically in FIG. 5), via a slide rail  27  provided with an edging  26 , are the respective outer ends  18 ,  19 ,  18   a,    19   a;    18 ′,  19 ′,  18 ′ a,    19 ′ a  of a chain link  20  shown in FIGS. 2 and 3.  
         [0032]    On the lower flanges/the second guide  12 ,  12 ′ on the profiled girder the foot-like elements  21 ,  21 ′ of the chain link  20  are supported in the lower strand of the conveyor chain, i.e. after the motional direction for the chain has been reversed from a first direction along the guide  11 ,  11 ′ to an opposite direction along the guide  12 ,  12 ′. Individual chain links  20  have bores  22 ,  23 ,  24  intended to receive pins which flexibly hold together individual links in the plane of the chain as well as perpendicularly thereto.  
         [0033]    In FIG. 1 is diagrammatically shown a wall element  25  forming part of a deflecting device in the conveyor. The wall element is produced in one piece, preferably by casting of aluminium or another light metal. As can be seen from FIG. 1, the extent of the wall element  25  in the vertical direction essentially corresponds to that of the profiled girder  10 . In one piece with the wall element there is configured a connecting piece (not shown in the figures) having a cross section essentially corresponding to that of the groove  13 ,  13 ′ in the profiled girder and having fastening holes (not shown in the figures) intended to receive screws for tightening against corresponding webs  14 ,  14 ′ on the profiled girder. The wall element  25  has an upper flange  28 , which, in mounted state, constitutes an essentially direct extension of the flange  11 . Correspondingly, a flange  29  is present at the bottom of the wall element  25  and this flange, in mounted state, constitutes an essentially direct extension of the lower flange/the first guide  12 . Both these flanges  28 ,  29  are constructed in one piece with the wall element  25  and form part of a third guide in the deflecting device  25 .  
         [0034]    On the inside of the wall element  25  there is configured in one piece with the wall element a part-circular fixture arrangement  30 . This fixture arrangement is intended to support immovably a guide/slide element according to the description given in the said Swedish patent application lodged simultaneously herewith. The guide/slide element which can be fixed to the fixture device  30  forms together with the flanges  28 ,  29 , and slide rails according to the present invention which are applied thereto, a third guide for the conveyor chain, i.e. a guide in which the motional direction of the chain is turned from a first direction to the opposite direction.  
         [0035]    In FIG. 5 are shown two different types of slide rails  27 ,  31 .  
         [0036]    The rail  31  has a longitudinal section A (FIG. 7, to the left of the plane marked y-y) of essentially U-shaped cross section and having a distance between the arms  32 ,  33  of the U up to a locking lug  34  essentially equal to the thickness of the longitudinal end  35  of the flange  11 , which end, in the figure, is facing towards the centre plane of the profiled girder. In the flange  11  (as in other flanges) there is a longitudinal recess  36 , configured on the bottom side of the flange. Corresponding recesses  36  are present on the top sides of the lower flanges  12 ,  12 ′ on the profiled girder. Each recess forms a lug or bearing surface which is complementary to the locking lug  34 , for example the lug  34 ′ in FIG. 4, at a distance from the respective flange end  35 ,  35 ′ corresponding to the distance along the arms  32 ,  33  of the slide rail from the base of the U to the locking lug  34 .  
         [0037]    According to FIG. 5, the arm  33  of the section A of U-shaped cross section and the longitudinal part B of superior thickness which is linked thereto are arranged for application against the bottom side of the respective upper flanges  11 ,  11 ′ on the profiled element. The base of the slide rail  32 , which slide rail is of U-shaped cross section in the section A, encloses the end  35  of the flange and the other arm  32  of the slide rail, and a part C which broadens the latter arm rests on the top side of the upper flange  11  and forms a flat longitudinal slide surface for corresponding cogs  18 ,  19 ;  18   a,    19   a  on the chain links.  
         [0038]    The slide rails  31  applied to the lower flanges  12 ,  12 ′ on the profiled element are guided up and down in relation to the slide rails on the upper flanges  11 ,  11 ′. For the return motion of the continuous conveyor chain, the flat outsides of the respective arms  33  and the outsides, coupled thereto, of the respective parts B hereupon form slide surfaces for the foot-like elements  21  of the chain links  20 .  
         [0039]    From FIG. 5 it can be seen that the arm  32  and the part C which is integrated therewith are somewhat longer than the arm  33  and the part B linked thereto. The length is tailored to connect the slide rail softly to the outer contour of the profiled girder  10 .  
         [0040]    In order further to improve the fixing of the slide rails to the upper flanges  11 ,  11 ′ of the profiled girder  10 , however, according to another embodiment of the invention the rail shown in FIG. 7 is further refined to comprise an edging  26  constructed in one piece therewith. This edging  26  is closed off at the bottom with a lug  26 , which is dimensioned to grip th profiled element  10  externally as shown in FIG. 4.  
         [0041]    In the interaction afforded by the lug  26 ′ and the locking lug  34  on the slide rail, enhanced fixing of the slide rail against displacement in the direction of the centre plane of the profiled girder is obtained. In addition, the edging can effectively be used for the guidance of objects advanced on the conveyor chain. Edged slide elements can be present on both the upper flanges  11 ,  11 ′ or, should a profiled element in the conveyor be curved, the edged slide rail can be applied along the outer groove of the curve in question and can there constitute an effective guide for the transported objects at the same time as the slide rail is held securely fixed against displacement.  
         [0042]    The slide rails according to the invention in the shown embodiments and other equivalent embodiments are extruded or injection-moulded in one piece of friction-reducing material, which is preferably chosen such that the finished rails acquire an elastically resilient flexibility, at least in the region of the said U. Even though the invention has been described in the form of illustrative embodiments according to the drawings, it will be appreciated that modifications and equivalent detailed configurations lie within the scope of the appended patent claims.