MXPA00012474A - Telescopic guide with suspension bracket - Google Patents

Abstract

A guide, comprising at least a cabinet section and a drawer section slidable with respect thereto in a longitudinal direction, wherein, during use, at least one suspension bracket is connected with a wall part of the cabinet section, wherein the cabinet section comprises first mounting means and the or each suspension bracket comprises second mounting means, wherein at least one of the mounting means comprises a wall part provided with at least one attachment projection with a clamping part located at a distance from the wall part, and the other mounting means are provided with fixing means for cooperation with the at least one attachment projection, the arrangement being such that by at least partly sliding in the fixing means between the at least one attachment projection and the relevant wall part the mounting means can be interconnected so as to be at least substantially fixed in position and supporting.

Description

TELESCOPIC GUIDE WITH SUSPENSION MECHANICS The present invention relates to a telescopic guide of the type defined in the preamble of the. 5 main claim Such a telescopic guide is known from US 5,470,143. US 5,470,143 discloses a guide rail for connecting directly to the slotted supports of the housing or ^ B housing of a cabinet. In this guide rail Known, the cabinet section comprises two pairs of joint projections, which extend perpendicularly to the wall part outside of which they are stamped. Each of these projections comprises a fixing part, which extends on the same plane. The fixation projections are § They can be inserted into grooves of the grooved supports, and subsequently pushed forward, so that the fixing projections fit behind the grooved supports. A member elastic secures the guide rail in place, to prevent the guide rail from becoming loose or detached. EP 0 818-163 discloses a telescopic guide rail that can be connected to a wall part of Ref. No.: 125491 of a cabinet by means of two separate clamps for being screwed to said wall. Both clamps are identical. Near the front of the cabinet section a first edge is formed, marked or punched out of the relevant wall part, such that this comprises a fixing part extending substantially parallel to said wall part and connected to the wall. She on the top side. Said edge can be pushed by the side of the upper part of the relevant front clamp for the suspension thereof. Near the back of the drawer or drawer section section a second edge is drilled from said wall part, comprising a second fastening part extending substantially parallel to said wall part, connected thereto via a vertical connection on the side of said edge that faces the front side of said guide unit. The second edge can be inserted into a slot in the rear bracket horizontally. A guide rail according to EP 0 818 163 can thus be connected to a cabinet first by mounting the clamp exactly in place, after first the second edge can be slid into place, inserted into the opening, with which the guide rail is maintained at an angle relative to the horizontal, such that the first edge moves to a position above the upper flange of the front bracket. The guide rail is then rotated around the last edge, so that the first edge fits with the relevant clamp. In addition, a guide rail is known from practice and is, for example, supplied by the firm of Jonathan, Fullerton, USA. These known telescopic guides comprise a cabinet section and a drawer or drawer section partially slidable in such section in the longitudinal direction, with suspension brackets being attached against the front side of the drawer section against a portion of the drawer section. wall of the cabinet section. These suspension brackets are provided for this purpose with a slotted opening, while the relevant wall part is provided with holes arranged in the corresponding positions, in such a way that the suspension brackets can be screwed against the part of the bracket. relevant wall. For this purpose, the drawer section has to be slid out until the inside of the cabinet section is clear at the height of the holes, so that a nut or union bolt can be fitted. The suspension bracket can be joined by means of additional bolts, screws or such joining means against, for example, the cabinet support or such structure. Suspension brackets are also provided with curved longitudinal rims which, during use, they fit against the longitudinal flanges of the cabinet section, so as to prevent the movement of the cabinet section parallel to the wall part, and at right angles of the sliding direction away from the sections. This known telescopic guide has the disadvantage that the connection of the suspension brackets is very complicated and time consuming, in particular because the assembly of the bolts and union nuts has to be done with both hands, while simultaneously , the additional telescopic guide has to be fastened in the desired position. In addition, the use of such a guide • Telescopic is also expensive, this is because bolts and nuts should be used loose. A further disadvantage of this known telescopic guide is that the suspension brackets can only be joined when the telescopic guide is almost completely slid out, so that the assembly is even more difficult, while also increasing the risk of errors. Additionally, this known telescopic guide has the disadvantage that the suspension bracket must be specifically designed for the relevant cabinet section, since the curved longitudinal flanges must connect to the external flanges of the cabinet section. As a result, the use of these suspension brackets is more expensive and more difficult. In addition, it has been proposed that the suspension brackets be welded directly against a wall part of the cabinet section. This has an important disadvantage that the readjustment of such suspension bracket is not possible, and the assembly thereof in the guide must be carried out during its manufacture. As a result, such a telescopic guide is not useful for different cabinets, while the packing, storage and transportation of the same is not very economical, particularly in view of the occupied space. In addition, for these known guides those loose parts, in particular the union screws and the like, have to be packed in bags of metal sheets, boxes or the like, which is expensive, leads to waste and is additionally a source of errors . Furthermore, such a telescopic guide has the disadvantage that the welding operation can lead to deformations, which is a disadvantage, particularly due to increased wear and reduced sliding properties. It is an object of the present invention to provide a telescopic guide of the type defined in the preamble of the main claim, in which the above disadvantages of known telescopic guides are avoided, while retaining the advantages thereof. For this purpose, a telescopic guide according to the present invention is characterized by the features of claim 1. A telescopic guide according to the present invention offers the advantage that the suspension brackets can be connected to the cabinet section simply sliding in it, without this requiring special means of union. In particular, the known bolts and nuts can be abandoned, so long as the suspension brackets can already be packed, stored and transported in separate sections. This particularly simplifies the use of the telescopic guides, in particular the assembly thereof. A further advantage of the telescopic guide according to the present invention is that for different types of telescopic guides the same suspension bracket can be used, in such a way as to ensure a high degree of standardization. As referred to in this application, a guide is at least a drawer guide and guides for the use of locker cabinets, file cabinets and, in a general sense, guides for use in, at least furniture in a broad sense , as well as for 'use in engineering apparatuses, such as photocopiers, cash dispensers and devices or automatic sales apparatuses and the like. A guide according to the present invention is preferably characterized by the features of claim 2. In a further advantageous embodiment, a telescopic guide according to the present invention is characterized by the features of claim 3. Designing the at least one one, and preferably each joint projection so that it has the design or shape of a hook, and this is formed from the relevant wall part, preferably with a perforation treatment, the advantage is obtained in that the required joint projections can be form very simply, for example in an operation. In addition, you do not need to add material, as long as you get a fixed rigid connection. Furthermore, deformations can be prevented by this, such as, for example, it can be the case when the joint projections must be soldered to the guide. In a further elaboration, a telescopic guide according to the present invention is characterized by the features of claim 4. By providing at least two separate joint projections, with the fixing parts being able to fit over at least a part of a longitudinal flange, of a corresponding number of grooved cavities in the suspension bracket, the advantage is obtained in that the suspension bracket can be connected very easily with the cabinet section, in a secured manner against rotation. In fact, the two separate joint projections will prevent, at least for the larger part, the rotation of the suspension bracket with respect to the cabinet section. In a very advantageous embodiment, a telescopic guide according to the present invention is characterized by the features of claim 7.

In such modality, the advantage is obtained in that at least a part of the bracket of • suspension, when sliding under the fixing parts of the joint projections will pass the 5 fixing projections, in such a way that the fixing projections fit behind the rim of a depression or cavity in the suspension bracket. In this way the suspension bracket is secured against displacement, at least in • 10 against being released or detached in the opposite direction to the direction in which the suspension bracket slides over the joint projections. Such a fixing projection can be formed, for example, from the relevant wall part, for example example as a depression or a partially perforated edge. In a further advantageous embodiment, a telescopic guide according to the present invention is additionally characterized by the characteristic of claim 10. Such a telescopic guide offers the advantage that by means of the two bracket parts, of each suspension bracket, the position of the guide 1 Telescopic can be adjusted at least in one direction with respect to the structure of the cabinet, to which the telescopic guides have to be mounted. In addition, the union of the same to the structure is very easily possible. In a further preferred embodiment, a telescopic guide according to the present invention is characterized by the features of claim 11. Including at least one of the suspension brackets in its mounted condition in all directions, and slidably mounted by at least one of the other brackets in the longitudinal direction of the guide; the advantage is obtained in that the variations related to the dimensions of the piece of furniture or the like can easily be compensated for, in which: the guide has to be mounted. Thus, for example, the variations related to the dimensions between the supports can be compensated, this result d •? undesirable curves of the same The invention further relates to a suspension bracket, suitable and intended to be used for a telescopic guide according to the present invention and to a cabinet or the like provided with such telescopic guides. Additional advantageous embodiments of telescopic guides according to the present invention are given in the additional subclaims. To further explain the invention, practical examples of the telescopic guides and suspension brackets according to the present invention, will be described with reference to the drawings in which: Figure 1 is a perspective view, diagrammatically, of a part of a telescopic guide with a separate suspension bracket, in accordance with the present invention; Figure 2 is a front view of a bracket part of a suspension bracket shown in Figure 1; Figure 3 is a side view of a part of a telescopic guide with a suspended suspension bracket; Figure 3A is a side view of an alternative embodiment of a telescopic guide; Figure 3B is a side view of a support of a cabinet or locker with a suspension bracket mounted thereon; Figure 4 is a further alternative embodiment of a bracket part mounted to a cabinet section; and Figure 5 is a third modality • 10 alternative, of a part of the bracket for a telecospic guide.

In these descriptions of the drawings, the corresponding parts have reference numbers corresponding. Figure 1 is a perspective view, diagrammatically, of a guide 2 and a suspension bracket 4. The guide 2 comprises a cabinet section 6 and a drawer or drawer section 8 slidable therein. direction in the longitudinal direction P, and an intermediate section 10. Such a three-part telescopic guide is sufficiently known per se and is only shown there by way of example. Of course, all types of guides formed in other known ways can be used, for example the guide or guides of two • pieces with sections placed differently with respect to each other, that is to say between them. 5 On the wall part of the back 12 of the cabinet section 6, the rear part of which is directed outwards during use, a series of connection projections 14, of hooking, L-shaped, slightly raised and perforated in the part of wall 12, this in a number of positions. Each joining projection 14 comprises a rear part 16 extending approximately at right angles to the wall part 12, and a fixing part 18 extending in parallel to the part of the wall. wall 12. Figure 1 shows four fixing projections 14 placed near one end of the guide 2, ie two pairs. The fixing parts 18 meet or lie in a plane, the rear parts 16 extend in parallel with each other.

Between the later parts. 16 a space 20 is left open, in such a way that the distances B are formed, this between the interiors of the rear parts 16 that are not facing each other. The purpose thereof is further explained below. Included between the wall part 12 and the interiors of the fixing parts 18, facing the wall part 12, is a space 22 having a height D. The purpose thereof will also be explained below. At a distance S from the sides of the closest joining projections 14, away from the near end of the guide 2, a fixing projection 24 is pressed out of the wall part 12, such a fixing projection 24 is edge-shaped and deviates in the directions away from the joint projections 14. The suspension bracket 4 comprises a first bracket part 26 and a second bracket part 28. Both bracket parts 26, 28 are of a shape-of-design. hook and are formed of, for example, sheets of steel or a similar material. The first bracket part 26 comprises a first base portion or flange 30 and a second base portion or flange 32, the second bracket portion 28 comprises a third base portion or flange 34 and a fourth base portion or flange 36. In the base portion or flange 30 there are provided four L-shaped slots 38, whose legs or legs are parallel • each other, two behind two others, and two next to the other two. The lower or lower portions 40 are 5 slightly larger in width of the legs or legs of the slots which are located on equal sides of the legs or legs and indicated on both sides. The size and shape of the lower or lower parts 40 correspond mainly to the size and The shape of the fixing parts 18 of the connecting projections 14, while the distance between the longitudinal edges 39 of the remote slots 38 between them corresponds, seen in the Z direction of the amplitude or width, approximately to the amplitude B between the protections 14. This ensures that a mounted bracket is secured against displacement, at right angles to the backs and against rotation. The distance between the lower parts 40, seen in the direction longitudinal P, corresponds to the distance between the pair of joint projections 14, likewise seen in the longitudinal direction P. The thickness of the first base part or flange 30 corresponds, for example, approximately at least to the height D of the space 22. In addition, the width or width of the legs or legs of the grooves 38 correspond mainly to the thickness of the material of the rear parts 16. I, as lengths of the legs or legs of the grooves 38 correspond, for example , at least at distance S between the joint projections 14 and the projection of • Fixation 24. To obtain an adjustment capacity If desired, this length can be chosen to be longer. The second base part or flange 32, which extends at a right angle to the first base part c flange 30, is provided with two straight slots 42 extending parallel to each other, and two internal slots 44 in the form of L. The lower parts. 16 of these L-shaped slots 44 are located in the transmission area between the first base part or flange 30 and the second part. of base or tab 32, and are directed away from one another. The third base part or flange 34 comprises two holes S provided with internal threading, in each of which a connection bolt -50 can be screwed through the respective straight slots 42 (see figure 3). In this way, the second bracket part 28 can be screwed against the first bracket part 26. However, the third base part or flange 34 is provided with two second joint projections 52, which correspond to the joint projections 14 in its form. These second joint projections 52, provided with the second fixing parts 54, are arranged in such a way that they can slide in the L-shaped grooves, via the lower parts 46, with the second fixing parts 54 partially lying on them. longitudinal flanges of the legs or legs of the L-shaped slots 44. Since the bolts 50 can not slip out or slide out of the straight slots 42, an appropriate connection can thus be made between the first bracket part 26 and the second bracket part 28, this is possible by adjusting the second bracket part with respect to the first bracket part 26, in a direction at right angles to the rear wall part 12. Further, when the first bracket part is assembled the bracket, it is prevented that the second bracket part, as further described below, is released or detached from the first bracket part 26, also when the bolts 50 are not arranged. Thus, a mounted guide 2 can not be released or detached inadvertently from the relevant suspension bracket 4. In an alternative embodiment, as shown in Figure 2, the slots 42 extend in the first base part or flange 30, with a lower part 42A having such dimensions that the head of a connecting bolt 50 can pass through it. The advantage thus obtained is that the connecting bolt 50 can first be screwed or placed in the holes 48, and then it can be slid in the slots 42 via the lower parts 42A and can be additionally fixed. This offers the advantage that the bolts can be assembled previously, in such a way that they do not need to be packed separately or loose, in so much that it is no longer necessary for a user to have to mount them. This reduces assembly time, prevents errors and avoids loose packages.

In the fourth base portion or flange 36, which extends at right angles relative to the third base portion or flange 34, approximately parallel to the first base portion or flange 30, two third joint projections 56 are formed , in the form of L, which sink from the fourth base part or flange 36. With these third connecting projections 56, the second bracket part 28 can be fixed in the appropriate openings of a known plastic or metal structure. It is, for example, an electronic box or case. The third joint projections 56 and the possible associated fixation projection 60, can also sink towards the opposite side, this to mount the two guides on the sides facing opposite supports, with the fourth base portions or flange 36 on against the sides facing them. Such structures comprise, for example, four supporting sections 58 extending in parallel with each other, for example with an L-shaped or rectangular cross-section, shown in diagrammatic form in Figure 3 with dashed lines. In these sections a series of openings 37 are provided in at least one but often in several sides above one another (Figure 3B), in such a way that the objects can be fixed to them or in that. The third joint projections 56 have such shape so that they can be received snugly in the relevant openings 57 and can be fixed therein by sliding, on the longitudinal flanges of the relevant openings 57. In the fourth base part or flange 36, seen in the inwardly sliding direction above the third upper joint projection 56, a third fixing projection 60 is formed, new forming a depression of the material of the base or flange, whose third fixing projection slopes in a direction away from the third joint projection 56. When the second part of bracket 28 is mounted in the openings 57, the third joint projection upper 56 will be located snugly on the longitudinal flange of an opening 57 and the support 58, and within the opening 57 of the third fixing projection 60 will abut against the upper flange thereof. Whereby the displacement of the second cantilever part 278 is simple but effectively prevented. Thus, the suspension bracket 4 is fixed to the relevant structure part 58 in vertical as well as horizontal direction. Of course, other mounting means can be used, such as bolted connections and the like. A suspension bracket 4 can be attached to the guide 2 as follows: The first base part or flange 30 is held parallel to the rear wall portion 12 and is pressed with the lower or lower portions 40 of the slots 38 on the walls. fixing parts 18 of the four joint projections 14, such that the first base part or flange 30 terminates in the rear wall part 12. Subsequently, the suspension bracket 4 moves along the wall part rear 12 in the direction away from the end 3 of the guide 2, parallel to the direction P. subsequently, the longitudinal shoulders 62 of the grooves 38 are received in the spaces 22 against the interiors of the rear parts 16, and the part 64, if present, located in the grooves is received in the space 20 between the joint projections 14. By this, any movement of the first bracket part 26 is simply prevented, and thus from the meter. suspension cell 4, in a direction different from the parallel of the direction P. The suspension bracket 4 is advanced in such a manner until the part located between the grooves 38 and the end flange 66 completely passes the first of the fixation projections 24, in such a way that the remote longitudinal flange 65 of the second base part or flange 32 terminates in the longitudinal flange of the support 68 of the fixing projection 24, remote from the joint projections 14. Subsequently, the rear parts 16 terminate in or lie at some distance from the end of the remote slots 38 of the lower or lower portions 40. Thus, the suspension bracket 4 is fully fixed cor. with respect to the guide 2. Figure 3 shows a part of a telescopic guide with go, to mounted suspension bracket, in side view. A support 58 on which the suspersion bracket is mounted is shown in separate lines. As shown in Figure 3, the guide 2 is provided with two suspension brackets 4 and 4A, whose suspension brackets may be equal to each other. The mounting means for the front suspension bracket 4 are • designed as shown in Figs. 1 and 2, including the first fixing projection 24. Therefore, this means that the front suspension bracket 4 is' joined in a fixed position defined unambiguously with respect to the guide 2, in such a way that the displacement is not possible. For the rear suspension bracket 4A only the joint projections 1 are provided, but no fixing projection. In the displacement of the mounted condition of the rear suspension bracket 4A in the longitudinal direction of the guide it is therefore still possible over a limited distance. Thus, the advantage obtained is that the variations of dimensions in the distance between the front and rear supports 58 and 58A, respectively, can be easily compensated. As also shown in Figure 3, the rear suspension bracket 4A can extend beyond the rear end of the guide 2, such that a guide can be mounted having a length that is, for example, less than the length of the guide. distance between the brackets 58, 58A. Incident alment e, it is observed that • a design is of course also possible according to which the rear suspension bracket is fixed 5 and the front suspension bracket is slidable or both suspension brackets are fixed. Figure 4 shows a further alternative embodiment of a first part of brackets 126, with grooves 138 extending in a direction at right angles to the longitudinal direction P of the guide 102. The lower or lower portions 140 of the slots 138 are subsequently arranged near the side of the first base part or flange 130 directed upwards during use.

In addition, four joint projections 114 are arranged side by side. A fixation projection 124. A first bracket part 126 as shown in FIG. 4 can be placed near the side of the guide 102 facing upwards during use. attached to the guide 102 in a manner comparable to the method described above. The lower or lower portions 140 are placed on the joint projections 114, after the bracket part 126 slides 1 along the wall part 112 in the K direction, until the longitudinal flanges 165 of the parts low or low 140 ends in the longitudinal flange 168 of the fixing projection 124. In such a mode, the forces acting on the sliding in and sliding outward in the direction P of the guide, are almost completely compensated by the projections Figure 11 shows a further alternative embodiment of a first bracket part 226, with a slotted cavity 238 that is arranged on both sides of the first base part or flange 230. The wall portion 212 is provided with al minus two, preferably two juxtaposed pairs of P overlapping bond projections 214, which are provided with fixing portions 218 directed to each other. As shown in Figure 5, the fixing parts 218 can lie on, and on the flanges longitudinals 262 of the slotted cavities 238, this to enclose the first base part or flange 230 in the different directions in the direction P of sliding inwards. Between the joint projections 214 a fixation projection 24 can be arranged, same as when the first part of ^ P base or flange 230 is completely slid in, ends in a flange 265 of an opening 240. Thus, the suspension bracket 204 is fixed again in any direction. To be used as a slightly slidable suspension bracket, aperture 240 can be omitted, while length N of ^ fc the base part or tab 230 can have any desired length, which is advantageous for example to increase the installation length. The suspension brackets 4 can first be attached to the brackets 58, after the guide 2 can be attached to the suspension bracket 4. This has the advantage that the suspension brackets 4 can be placed simply and with sufficient space before the guides are placed. However, this is also possible first by attaching the suspension brackets 4 to the guides 2 and subsequently fixing the suspension brackets 4 on the brackets 58. Using at least two separate joint projections (in the practical examples four junction projections 14,114,214 are shown), the advantage thus obtained is that rotation of the brackets of the brackets is easily prevented. suspension 4 with respect to the guides 2, in such a way that the placement is even more simplified. A telescopic guide according to the present invention can be placed very quickly and easily, with the prevention of assembly errors as a result of the simple and unambiguous positioning of the different parts with respect to one another. In addition, placement is possible without special tools. Because the first base part or flange 30 is of a flat design, this part can be easily formed from a flat plate, while, in addition, the same suspension bracket, at least the same first bracket part, can be used for different guides, without considering the amplitude thereof. With which you get a simple standardization. In a simplified form, a suspension bracket 4 for use with a telescopic guide according to the present invention, can also be of the one-piece type, with the second and third base portions or flanges 32, 34 being connected to each other. in rigid form, as shown in Figure 3A. The suspension bracket 4 is then curved from a plate part, comprising a first base part or flange 30, a second base part or flange 32A and optionally a third base part or flange 36, parallel to the first part of the base. 30. However, it is also possible to join the third joint projection 56 and the third fixation projection 60 to the second base part or flange 32A, while optionally leaving the third base part or flange, is also In addition, the second base part or flange 32A extends in line with the first base part or flange 30. The invention is in no way limited to the modalities shown in the figures. Many variations are possible within the scope of the invention as set forth in the appended claims. Thus, the joining projections 14,114,214 can be formed in other ways, for example connected to the back wall pair 12 or another wall part, for example by welding points.

Furthermore, the joint projections may have another shape, and a fastening part 18,118,218 may fit on the side of the first base part or • tab 30,130,230 not dealing with the part of wall 12. In addition, fixation projections 24,124,224, can be arranged in other positions, for example in such a way that they can fit into a similar slot or cavity in, or against, a ^ len ^ aFor longitudinal flange and, in addition, the projections of The fixing can be a little elastic, so that the positioning and removal of the suspension brackets 4 can be even simplified further. In addition, the slots may have a different address than shown, for example at 30 or 45 degrees with respect to the direction P of sliding out of the guide, in such a way as to obtain another direction of sliding inwards. It will be clear that a guide according to the present invention preferably comprises at least two suspension brackets separated and arranged in a comparable way. Then, in at least one position of the rear wall part 12, a larger series of regularly spaced fixing parts can be provided, in such a way that the relevant suspension bracket can be arranged in different positions, such that the distance The mutual cross-section between the suspension brackets 14 of a telescopic guide can be easily adapted to the mutual distance of the different supports 58. In addition, the joint projections can fit in grooves on one side of a suspension bracket, and several projections can be provided. of fixing to enclose the suspension brackets in different positions. Furthermore, it can be chosen that the angles enclosed between the different base or flange portions of the bracket parts are different from 90 °, depending on the shape and position of the supports on which the brackets are to be mounted. It is considered that these and other comparable variations fall within the scope of the invention defined by the claims. It is noted that in relation to this date, the best known by the applicant to carry out the aforementioned invention, is that which is clear from the manufacture of the objects to which it refers.

Claims (14)

1. A telescopic guide unit, characterized in that it comprises at least one 5 section of cabinet and a section of drawer or drawer, slidable with respect to that in a longitudinal direction, wherein during use at least one suspension bracket is connected with a part of ^ t wall of the cabinet section, where the section 10 of the cabinet comprises first mounting means and the or each suspension bracket comprises second mounting means, wherein: at least one of the mounting means comprises a wall part, provided with at least one 15 two joining projections, each with a rear part | P and a fixing part located at a distance from the wall part, and the other mounting means are provided with joining means to cooperate with the joint projections, characterized in that the fixing parts extend parallel to the wall part, wherein a space is enclosed between each fixing part, rear part and wall part, having a height between the wall part and the fixing part, the height is substantially equal to the thickness of the relevant joining means, the arrangement is such that at least partially slides in the joining means in a direction of advance, between the fixing parts of at least two joint projections and the relevant wall part, the mounting means can be interconnected so that they are at least substantially fixed in their position and support, wherein the direction of advance extends approximately n parallel to the longitudinal direction of the posterior parts.

2. A telescopic guide unit according to claim 1, characterized in that the first mounting means comprise a wall part with at least two joint projections, and the second mounting means comprise the joining means.

3. A telescopic guide unit according to claim 1 or 2, characterized in that the joint projections have hook shapes and are formed from the relevant wall part, the fixing parts extend in the opposite directions from the backs , parallel to each other.

4. A telescopic guide unit according to one of the preceding claims, characterized in that at least two separate joint projections are provided for the at least one suspension bracket, wherein the relevant attachment means comprise at least two slotted cavities. to receive the joint projections, in such a way that the fixing parts of the joint projections in the joined position fit into a part of the longitudinal ridge of the relevant cavities.

5. A telescopic guide unit according to claim 4, characterized in that the slotted cavities are slots provided in a base part or flange, of the relevant suspension bracket, with the base part or flange abutting against the wall part. relevant during use •

6. A telescopic guide unit according to claim 4, characterized in that the cavities grooved in two opposite longitudinal flanges are provided with a base part or flange of the relevant suspension bracket, with the base part or tab adjoining against the part of 10 wall during use.

7. A telescopic guide unit according to any of the preceding claims, characterized in that the wall part is provided with 15 at least one fixation projection that is arranged at a distance from the joint projections and, when i. Suspension bracket is mounted, it can fit behind a longitudinal flange located rearward in the forward direction of the 20 suspension bracket, the relevant suspension bracket or an opening or depression arranged therein, the arrangement is such that the suspension bracket, in at least a relevant part thereof, can pass the relevant fixing projection on the direction of advancement, but after the assembly is retained in the opposite direction by at least the fixing projection against displacement.

8. A telescopic guide unit according to one of the preceding claims, characterized in that the direction of advance of the at least one bracket is substantially parallel to the direction of sliding in and out of the telescopic guide, preferably in the same direction that the direction of sliding out.

9. A telescopic guide unit according to one of claims 1-7, characterized in that the direction of advancement of the at least one bracket extends substantially at right angles, in relation to the direction of sliding in and out of the Telescopic guide, preferably from bottom to top, seen in the position of use.

10. A telescopic guide unit according to one of the preceding claims, characterized in that the or each of the suspension brackets comprises first and second corbel parts, wherein the first bracket part comprises at least two base portions or tab that mutually form an angle, wherein the first base part or flange is provided with the joining means and a second base part or bracket with • First coupling means, wherein the second bracket part is provided with second coupling means for coupling with the first coupling means, the arrangement is such that adjustment of the position of the bracket is possible. First with respect to the second cantilever part, while the second cantilever part is further provided with a third coupling means, for coupling them with a cabinet structure or part similar to a cabinet.

11. A telescopic guide unit according to one of the preceding claims, characterized in that at least two suspension brackets are provided, where after the assembly of at least one of the suspension brackets, it is connected with the guide to be fixed in a position in any direction, while after the mounting of the at least one other suspension bracket is slidable in the engaged condition in the longitudinal direction of the guide along the cabinet section.

12. A suspension bracket, suitable and intended to be used in at least one telescopic guide unit, according to one of the preceding claims, characterized in that it comprises a first bracket part and a second bracket part, having both substantially a hook design, the first bracket part comprises a first base part or flange and a second base part or bracket, the second bracket part comprises a third base part or flange and a fourth base part, or flange , the first base part or flange comprises at least one L-shaped groove for receiving a fastening part, from the cabinet section of the guide unit in a slidable form, a connection means for adjustably connecting the second base part or tab to the third base part or tab, the fourth base part or flange is provided with means to connect to a cabinet.

13. A suspension bracket, suitable and having the purpose for use in at least one telescopic guide unit according to one of claims 1-11, characterized in that it comprises a first base part or flange, a second base part or tab and a third part of base or flange, the first and third base portions or flange are substantially parallel to each other, the first base part or flange is provided with at least one substantially L-shaped groove, to receive in shape Sliding the fixation projections of the cabinet section of the guide unit, the third base part or flange is provided with means for connecting said bracket to a cabinet.

14. A cabinet or such device, provided with at least one telescopic guide according to one of claims 1-11.