阅读说明：本技术 抽屉插件 (Drawer plug-in ) 是由 H·布舍尔默勒 D·哈尔曼 M·吕克 于 2020-03-31 设计创作，主要内容包括：本发明涉及一种抽屉插件(10),所述抽屉插件具有：框架(12),所述框架包括多个角部件(14a-14d)和多个细长的侧部件(16a、16b、18a、18b、20a-20c、22a-22c)；以及能移动地紧固在所述框架(12)上的多个弹性的分离元件(24a-24e),其中,所述框架(12)的角部件(14a-14d)和侧部件(16a、16b、18a、18b、20a-20c、22a-22c)无损地且能可逆地松脱地相互连接。(The invention relates to a drawer insert (10) having: a frame (12) comprising a plurality of corner pieces (14a-14d) and a plurality of elongated side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22 c); and a plurality of resilient separating elements (24a-24e) movably fastened to the frame (12), wherein the corner pieces (14a-14d) and the side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22c) of the frame (12) are connected to each other non-destructively and reversibly releasably.)

1. A drawer insert (10) having

A frame (12) comprising a plurality of corner pieces (14a-14d) and a plurality of elongated side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22c), and

a plurality of resilient separating elements (24a-24e) movably secured to the frame (12);

characterized in that the corner pieces (14a-14d) and the side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22c) of the frame (12) are connected to each other in a non-destructive and reversibly releasable manner.

2. The drawer insert (10) according to claim 1, characterized in that the frame (12), in particular the entire drawer insert (10), is formed floor-free.

3. A drawer insert (10) according to claim 1 or 2, characterized in that the corner pieces (14a-14d) and the side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22c) of the frame (12) are tool-free releasably connected to each other.

4. A drawer insert (10) according to any preceding claim wherein the external dimensions of the frame (12) define a required frame space within which corner pieces (14a-14d) and side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22c) of the frame (12) can be connected to the frame (12).

5. Drawer insert (10) according to one of the preceding claims, characterized in that at least one corner piece (14a-14d), preferably all corner pieces (14a-14d), respectively, has one or more clamping areas (40a-40d), into which one side piece (16a, 16b, 18a, 18b, 20a-20c, 22a-22c), respectively, can be clamped and/or clipped.

6. The drawer insert (10) according to claim 5, characterized in that the one or more clamping areas (40a-40d) respectively define a receiving and removal path (42a-42d) for the side piece (16a, 16b, 18a, 18b, 20a-20c, 22a-22c), the receiving and removal path (42a-42d) extending perpendicular to the longitudinal axis of the inserted side piece (16a, 16b, 18a, 18b, 20a-20c, 22a-22 c).

7. A drawer insert (10) according to claim 5 or 6, characterized in that at least one corner piece (14a-14d), preferably all corner pieces (14a-14d), has a corner piece seat (36a-36d) and a corner piece cover (38a-38d), the corner piece seat (36a-36d) comprising the one or more clamping areas (40a-40d) which can be covered with the corner piece cover (38a-38d) after clamping or clipping the side piece.

8. Drawer insert (10) according to one of the preceding claims, characterized in that at least one corner piece (14a-14d), preferably all corner pieces (14a-14d), respectively, has one or more receiving portions (44a-44c) into which one side piece (16a, 16b, 18a, 18b, 20a-20c, 22a-22c), respectively, can be pushed.

9. The drawer insert (10) according to claim 8, wherein the one or more receptacles (44a-44c) define insertion and withdrawal paths (46a-46c) for the side pieces (16a, 16b, 18a, 18b, 20a-20c, 22a-22c), respectively, the insertion and withdrawal paths (46a-46c) extending parallel to the longitudinal axis of the inserted side piece (16a, 16b, 18a, 18b, 20a-20c, 22a-22 c).

10. Drawer insert (10) according to one of the preceding claims, characterized in that the resilient separating element (24a-24e) is connected to a sliding element (26a, 26b, 28a, 28b, 30a, 30b, 32a, 32b, 34a, 34b), the respective sliding element (26a, 26b, 28a, 28b, 30a, 30b, 32a, 32b, 34a, 34b) being movable along the side part (16a, 16b, 18a, 18b, 20a-20c, 22a-22c) in the longitudinal direction of the side part.

11. The drawer insert (10) of claim 10, wherein the breakaway element (24a-24e) is configured to be non-destructively separable from the frame (12) and non-destructively connectable to the frame (12) without disassembling the frame (12).

12. The drawer insert (10) according to claim 10 or 11, characterized in that the sliding elements (26a, 26b, 28a, 28b, 30a, 30b, 32a, 32b, 34a, 34b) each have a push-in slot (56) into which an end section (58) of the elastic separating element (24a-24e) can be pushed in an undamaged and reversibly removable manner.

13. Drawer insert (10) according to one of the preceding claims, characterized in that the separating element (24a-24e) is formed transparent at least in sections.

14. Installation kit (100) for a tool-less assemblable drawer insert (10), characterized in that the drawer insert (10) is constructed according to the drawer insert of any of the preceding claims.

15. A drawer unit (200) having

A drawer (202); and

a drawer insert (10) disposed in the drawer (202);

drawer insert (10) according to one of the preceding claims.

Technical Field

The invention relates to a drawer insert, comprising: a frame comprising a plurality of corner pieces and a plurality of elongated side pieces; and a plurality of resilient separating elements movably secured to the frame.

Furthermore, the invention relates to a mounting kit for a tool-less assemblable drawer insert.

The invention further relates to a drawer unit having a drawer and a drawer insert arranged in the drawer.

Background

Drawer inserts of the same type are often used to divide the interior region of a drawer into a plurality of mutually separated subspaces, so that objects can be positioned neatly and/or sorted within the drawer. Furthermore, tilting and falling out of the inserted object are prevented by the frame of the drawer insert and the elastic separating element. Furthermore, the corresponding drawer insert ensures an improved alignment of the inserted object within the drawer and thus an improved accessibility and accessibility of objects positioned within the drawer.

The object to be inserted may be a different item, such as a kitchen utensil, a pot, food, cutlery or other consumable item. By means of corresponding drawer inserts, different object types can be stored separately in different regions of the drawer by means of separating elements. In practice, the described advantages of the corresponding drawer insert result in a significant increase in comfort, in particular when storing household items in a drawer.

Different collating systems for separately holding articles are already known in the prior art. For example, document EP 1457138 a1 discloses a furniture element with a flexible strap, wherein the flexible strap can be fastened to a predetermined position of the side wall. However, the range of application of the proposed furniture element is limited by the position specification for the fastening strap, so that the locatability of the flexible strap does not meet certain application situations.

From document EP 2818078 a1, a device article is known which can be used to implement an organizing system in a drawer. The separating wall of the embodiment disclosed in this document is here movably fastened to the frame. However, the frame is designed as a one-piece housing, so that there is no disassembly of the frame. This results in the necessity of packaging the device article in a large volume package. The correspondingly large packages cause considerable transport and storage costs at the manufacturer and the sales company, thereby significantly increasing the overall costs for the end user. Furthermore, the device article disclosed in this document cannot be inserted into a drawer having only a partial pull-out due to the one-piece frame. Due to the partial pull-out, the corresponding drawer has a reduced access area, so that the drawer insert with the rigid frame is skewed during insertion. The alternative of completely disassembling such drawers is either not practical for the end user or is rejected by the end user due to high costs.

Disclosure of Invention

The object of the invention is to make it possible to equip a drawer with an organizing insert having a freely movable, elastic separating element, wherein the organizing insert should also be insertable into a drawer having a partial pull-out without the drawer having to be disassembled.

The object is achieved by a drawer insert of the type mentioned at the outset, wherein the corner pieces and the side pieces of the frame of the drawer insert according to the invention are connected to one another in a non-destructive and reversibly releasable manner.

The present invention utilizes the following recognition: the compact package size and compatibility with the partial pull-out drawer can be achieved simultaneously by means of a removable drawer insert. Since the corner pieces and the side pieces of the frame are connected to one another in a non-destructive and reversible releasable manner, the packaging volume can be significantly reduced, thereby significantly reducing the transport and storage costs for the manufacturer and the sales company of the drawer insert. The packaging can be designed, for example, as a so-called flat package, in which the components of the drawer insert are placed in a flat and compact package which is optimized for transport and storage purposes. Due to the detachability of the drawer insert, the drawer insert can also be fitted inside the drawer. The drawer insert can therefore also be used easily in drawers which have only a partial pull-out and thus limited accessibility.

The inserted objects can be sorted by means of elastic separating elements. The separating element is preferably provided for adapting the shape of the inserted object. The inserted object may be referred to as a storage item and may be a different type of item. For example, kitchen utensils, pans, food, cutlery or other consumables may be inserted into the drawer insert.

The corner pieces of the frame may also be referred to as corner connectors. The side parts of the frame may also be referred to as longitudinal connectors or as cross connectors. The frame of the drawer insert has, for example, four corner pieces, wherein the corner pieces arranged next to one another are each connected to one another by one or more side pieces. The corner pieces may be constructed, for example, from plastic, metal or metal alloys. The corner pieces are preferably plastic injection-molded pieces. The side members may be constructed of plastic, metal or metal alloy. The side parts are preferably designed as rods or struts, in particular metal rods or metal struts. Therefore, drawer inserts without planar side walls are preferred. The lateral region of the drawer insert preferably has a plurality of, for example two or three, rods or struts which are arranged one above the other and/or extend substantially parallel to one another. The lever or the support is preferably arranged such that an object inserted into the drawer insert cannot fall out of the drawer insert laterally.

The elastic separating element can be designed, for example, as an elastic band or elastic belt. The elastic separating element is preferably stretched in the assembled state, so that the elastic separating element exerts a tensioning effect. The elastic separating element can thus be designed as a tension belt or as a tension belt. The elastic separating element can also have snap rings. Furthermore, the elastic separating element can be formed at least in sections from a textile.

In a preferred embodiment of the drawer insert according to the invention, the frame is formed without a base plate. In particular, the entire drawer insert is designed without a base. Due to the floor-free design of the frame or the drawer insert, a bearing surface for the inserted object is provided by the drawer into which the drawer insert is inserted. Due to the floor-free construction of the frame or the drawer insert, material costs are reduced and manufacturing expenditure is significantly reduced.

In a further preferred embodiment of the drawer insert according to the invention, the corner pieces and the side pieces of the frame are tool-free releasably connected to each other. The corner pieces and side pieces of the frame are preferably inserted together. The corner pieces may for example be inserted into the side pieces. Side pieces may also be inserted into the corner pieces, for example.

Also preferred is a drawer insert according to the invention wherein the outer dimensions of the frame define the required frame space, wherein corner pieces and side pieces of the frame can be connected to the frame within the frame space. When connecting the corner pieces and side pieces of the frame, it is preferable not to occupy space outside the frame space, thereby achieving assemblability of the drawer insert inside the drawer. In addition, the drawer insert is detachable inside the drawer in this way. This allows, in particular, the drawer insert to be used in combination with a drawer which has only a partial pull-out. In a corresponding drawer with a partial pull-out, the drawer does not have to be disassembled due to the assemblability of the drawer insert inside the drawer.

In a further preferred embodiment of the drawer insert according to the invention, at least one corner piece has one or more clamping areas. Preferably, all corner pieces each have one or more gripping areas. Preferably, in each case one side part can be clamped and/or clipped into the clamping region. The clamping region can have an elastically deformable clamping web or a latching hook. When the side parts are clamped or clipped into the clamping region, the clamping strip or the latching hook is elastically deformed. The corresponding clamping region enables tool-free assembly and disassembly of the frame, whereby assembly and disassembly of the drawer insert can be carried out by the end user. The clamping regions can each have a stop surface for an end face of the side part. If the corner piece has a plurality of clamping regions, the stop faces of the respective clamping regions can lie in different stop planes. Thus, different widths and/or lengths of the drawer insert can be achieved depending on the clamping area used. For example, a clamping region or a plurality of clamping regions with a stop surface within the first stop plane can be used in order to use a drawer insert having a total width of approximately 520 mm. In the case of the same corner piece and side piece, it is possible to use a clamping area or clamping areas with a stop surface inside the second stop plane, in order to use a drawer insert with a total width of about 472 mm. Thus, the dimensions of the drawer insert may be adapted to different drawer dimensions.

In a further embodiment of the drawer insert according to the invention, the one or more clamping areas respectively define a receiving and removal path for the side part, wherein the receiving and removal path extends perpendicular to the longitudinal axis of the inserted side part. The accommodation and/or removal of the side parts can take place, for example, from the inside, outside, above and/or below. In particular, when the receiving and extraction path extends within the frame space defined by the frame, a comfortable and smooth assembly and disassembly of the drawer insert inside the drawer is achieved.

The drawer insert according to the invention is furthermore advantageously further developed in that at least one corner piece, preferably all corner pieces, has a corner piece seat and a corner piece cover, wherein the corner piece seat comprises the one or more clamping areas, with which the one or more clamping areas can be covered after clamping or clipping in of the side piece. Thus, the foot part is formed in multiple parts (i.e., in two parts). Due to the possibility of being able to cover the clamping area or areas, contamination of the clamping areas, in particular of the receiving and removal paths for the side parts, is avoided. Furthermore, the corner piece cover can also produce a supporting and/or stabilizing effect, thereby increasing the stability of the frame. Furthermore, the covering of the clamping area by means of the corner piece cover reduces unintentional loosening or removal of the side pieces (for example due to improper use of the drawer insert).

Furthermore, preference is given to drawer inserts in which at least one corner piece, preferably all corner pieces, each have one or more receptacles into which a respective side part can be pushed. Preferably, an end region of the side piece on the end face side can be inserted into the one or more receptacles. Preferably, the corner piece has not only one or more clamping regions but also one or more receptacles, by means of which a connection to the side piece can be achieved.

In a further preferred embodiment of the drawer insert according to the invention, the one or more receptacles each define an insertion and withdrawal path for the side part, wherein the insertion and withdrawal paths extend parallel or flush to the longitudinal axis of the inserted side part. Preferably, said one or more insertion and extraction paths of the side pieces extend parallel to said one or more housing and extraction paths of the corner pieces.

Preferably, each corner piece has two wings, respectively, wherein a first wing extends in the longitudinal direction of the drawer insert and a second wing extends in the transverse direction of the drawer insert. Preferably, the first and second wings are arranged perpendicular to each other. In particular, one of the wing parts has one or more clamping areas for the side parts, respectively. In particular, the further wing part has one or more receptacles for the side parts, respectively.

In a further embodiment of the drawer insert according to the invention, the resilient separating element is connected to a sliding element, the respective sliding element being movable along the side part in the longitudinal direction of the side part. The stepless positioning of the sliding element and thus of the elastic separating element is achieved by the ability of the sliding element to be moved along the side parts. The elastic separating element is thus connected to the side parts of the frame via the sliding element. Preferably, the sliding elements each comprise one or more sliding recesses through which the side parts each extend. The sliding gap portion and the side member extending through the sliding gap portion have substantially the same cross section. The cross section of the sliding recess is formed only slightly larger than the cross section of the side part, so that a sliding movement of the sliding element along the side part is possible.

In a further preferred embodiment of the drawer insert according to the invention, the separating element is designed such that it can be separated from the frame without damage and can be connected to the frame without damage without dismantling the frame. The elastic separating element and the sliding element can form a welt system, in which the end sections of the elastic separating element can be inserted into the sliding element in each case. The sliding element can also be connected to the separating element by a zip fastener or another connection which can be released without damage.

In an advantageous further development of the drawer insert according to the invention, the sliding elements each have a push-in slot into which an end section of the elastic separating element can be pushed in a non-destructive and reversibly removable manner. The sliding element can be designed, for example, as a flanged rail. Furthermore, the end section of the elastic separating element can comprise a welt which can be inserted into the welt rail. In the region of the insertion gap, a clamping device can be provided, which clamps the end section of the inserted elastic separating element. The end section of the pushed-in elastic separating element is stabilized in the push-in gap by a clamping device. This increases the pull-out force required for removing the elastic separating element.

Furthermore, a drawer insert according to the invention is preferred, wherein the separating element is formed transparent at least in sections. The transparency of the separating element at least in sections increases the view of the inserted object to the observer. The separating element can be transparent or partially transparent at least in sections. If the separating element is made of a textile material, the fibers can be spaced apart from one another in such a way that transparency is produced. The separating element can also be formed on a partial section or completely non-transparent (i.e., opaque).

The object of the invention is also achieved by a mounting kit of the type mentioned at the outset, wherein the drawer insert that can be assembled with the mounting kit is one of the embodiments described above. In respect of advantages and variants of the installation kit according to the invention, reference is made to advantages and variants of the drawer insert according to the invention.

The object of the invention is also solved by a drawer unit of the type mentioned at the outset, wherein the drawer insert of the drawer unit according to the invention is designed as one of the embodiments described above. In respect of the advantages and variants of the drawer unit according to the invention, reference is first made to the advantages and variants of the drawer insert according to the invention.

The drawers of the drawer unit can have lateral rail systems, by means of which the drawers can be pulled out of the cabinet and/or pushed into the cabinet. The drawer can be coupled, for example, to a pull-out system which allows only a partial pull-out of the drawer. Since the drawer insert can be assembled and disassembled inside the drawer, the corresponding drawer insert can be assembled and disassembled in the drawer even without disassembling the drawer. The drawer insert is therefore configured to be able to be assembled and disassembled within the drawer.

Drawings

Preferred embodiments of the present invention are illustrated and described in more detail below with reference to the accompanying drawings.

In the figure:

FIG. 1 shows an embodiment of a drawer insert according to the invention in a perspective view;

fig. 2 shows an embodiment of a mounting kit according to the invention in a perspective view;

FIG. 3 shows in perspective view an angle of a drawer insert according to the present invention without an angle cover;

fig. 4 shows in perspective a part of a drawer insert according to the invention in the assembled state;

FIG. 5 shows in perspective view portions of a drawer insert in an additional assembled state according to the present invention;

fig. 6 shows in perspective a part of a drawer insert according to the invention in a further assembled state;

FIG. 7 shows in perspective view a drawer insert according to the invention after the end of assembly;

FIG. 8 shows an embodiment of a drawer insert according to the present invention in a side view;

fig. 9 shows in perspective view the resilient separating element of the drawer insert according to the invention during insertion into the sliding element;

fig. 10 shows a resilient separating element of the drawer insert according to the invention in a side view during insertion into the sliding element;

fig. 11 shows a detail of the elastic separating element shown in fig. 10 during insertion into the sliding element;

FIG. 12 shows in perspective view a drawer insert according to the invention during assembly of the drawer interior;

FIG. 13 shows a top view of the drawer insert shown in FIG. 12 during assembly of the drawer interior; and

fig. 14 shows a detail view of the drawer insert shown in fig. 12 and 13 during assembly inside the drawer.

Detailed Description

Fig. 1 shows a drawer insert 10 without a bottom plate. The drawer insert 10 includes a frame 12 having a plurality of corner pieces 14a-14d and a plurality of elongated side pieces 16a, 16b, 18a, 18b, 20a-20c, 22a-22 c. A total of four corner members 14a-14d are provided in the four corner regions of the rectangular drawer insert 10. The corner pieces 14a to 14d may also be referred to as corner connectors, wherein the corner pieces 14a to 14d are designed as plastic injection-molded parts. The corner pieces 14a, 14b are connected to each other by side pieces 20a-20c, which are configured as pillars. The corner pieces 14b, 14c are connected to each other by side pieces 18a, 18b configured as pillars. The corner pieces 14c, 14d are connected to each other by side pieces 22a-22c, which are configured as pillars. The corner pieces 14d, 14a are connected to each other by side pieces 16a, 16b configured as pillars. The side parts 16a, 16b, 18a, 18b extend parallel to each other and may also be referred to as cross connectors. The side pieces 20a-20c, 22a-22c likewise extend parallel to one another and may be referred to as longitudinal connectors.

The frame 12 defines a storage space into which objects may be inserted. A plurality of (i.e. in the present case a total of five) resilient separating elements 24a-24e extend through the storage space. The resilient separating element 24a is movably fastened to the frame 12 by means of sliding elements 26a, 26 b. The resilient separating element 24b is movably fastened to the frame 12 by means of sliding elements 28a, 28 b. The resilient separating element 24c is movably fastened to the frame 12 by means of sliding elements 30a, 30 b. The resilient separating element 24d is movably fastened to the frame 12 by means of sliding elements 32a, 32 b. The resilient separating element 24e is movably fastened to the frame 12 by means of sliding elements 34a, 34 b.

The individual separating elements 24a to 24e are transparent in some sections. In the present case, the individual separating elements 24a to 24e consist of a textile material, wherein the fibers of the textile material are spaced apart from one another in such a way that transparency is produced. The elastic separating elements 24a to 24e are therefore formed in sections or partially transparent. In a further embodiment, the elastic separating elements 24a to 24e can also be formed in a non-transparent manner (i.e., opaque).

The corner pieces 14a-14d and the side pieces 16a, 16b, 18a, 18b, 20a-20c, 22a-22c of the frame 12 are connected to each other non-destructively and reversibly releasably. The corner pieces 14a-14d and side pieces 16a, 16b, 18a, 18b, 20a-20c, 22a-22c are inserted into each other so that assembly and disassembly of the frame 12 can be done without tools.

Due to the detachability of the drawer insert 10, a mounting kit 100 shown in fig. 2 can be provided, by means of which the drawer insert 10 shown in fig. 1 can be assembled tool-lessly. Due to the detachability of the drawer insert 10, the mounting kit 100 has an extremely compact size, so that the mounting kit 100 can be packaged in a space-saving manner. In this way, transport and storage costs can be significantly reduced. Due to the tool-less assembly and disassembly of the drawer insert 10, installation can be carried out by the user himself.

Corner pieces 14a-14d of installation kit 100 are shown to include corner piece seats 36a-36d and corner piece covers 38a-38d, respectively, wherein corner piece covers 38a-38d can be clamped or clipped into respective corner piece seats 36a-36 d. Thus, each of the corner pieces 14a-14d of the installation kit 100 is constructed in two pieces.

Figure 3 shows corner piece seat 36a of corner piece 14 a. The corner element seat 36a has a plurality of (i.e. four) clamping regions 40a-40d spaced apart from one another, into which the side parts 16a, 16b, which are designed as struts, can be clamped in each case. Within the clamping regions 40a-40d, clamping strips are arranged spaced apart from one another, between which the side parts 16a, 16b can be clamped. When the side members 16a, 16b are inserted and removed, the clamping strips are elastically deformed. Within the clamping areas, stop surfaces 66a-66d are provided, which define the maximum receiving length of the respective clamping area 40a-40 d. The stop surfaces 66a, 66b of the outer clamping regions 40a, 40b lie in a common first stop plane. The stop surfaces 66c, 66d of the inner clamping regions 40c, 40d lie in a common second stop plane. The first stop plane and the second stop plane extend parallel to each other and are spaced apart from each other.

The clamping areas 40a-40d define receiving and removal paths 42a-42d for the side pieces 16a, 16b, respectively. The receiving and removal paths 42a-42d extend perpendicularly to the longitudinal axis of the inserted side part 16a, 16 b. Currently, the side parts 16a, 16b are accommodated and removed from the inside.

Furthermore, the corner piece seat 36a of the corner piece 14a has a plurality of (i.e., three) mutually spaced accommodating portions 44a-44c into which one side piece 20a-20c can be respectively pushed. Each receptacle 44a to 44c defines an insertion and withdrawal path 46a to 46c for the side piece 20a to 20c, respectively, wherein the insertion and withdrawal paths 46a to 46c extend parallel or flush with the longitudinal axis of the inserted side piece 20a to 20 c. The accommodating and withdrawing paths 42a to 42d and the inserting and pulling paths 46a to 46c extend parallel to each other.

The corner piece seat 36a has two wings 68a, 68b, wherein the wing 68a extends in the transverse direction of the assembled drawer insert 10. The wing 68b extends in the longitudinal direction of the assembled drawer insert 10. The wing portion 68a and the wing portion 68b are disposed at right angles to each other. The limb 68a has clamping areas 40a-40d for the side parts 16a, 16 b. The wings 68b have receptacles 44a-44c for the side pieces 20a-20 c.

Fig. 4 shows a corner piece seat 36a, into whose receptacles 44a to 44c the side parts 20a to 20c designed as struts are inserted. The two sliding elements 26a, 26b have been pushed onto the inserted side piece 20a-20 c.

In the assembled state of the drawer insert 10 shown in fig. 5, the two longitudinal units 64a, 64b have already been preassembled. Longitudinal unit 64a includes corner piece seats 36a, 36b of corner pieces 14a, 14b, side pieces 20a-20c, and sliding elements 26a, 28a, 30a, 32a, 34 a. Longitudinal unit 64b includes corner piece seats 36c, 36d of corner pieces 14c, 14d, side pieces 22a-22c, and sliding elements 26b, 28b, 30b, 32b, 34 b.

Fig. 6 shows that the longitudinal units 64a, 64b are connected to one another via the side parts 18a, 18b in the assembled state of the drawer insert 10. The side members 18a, 18b are pressed into the clamping areas of the corner member seats 36b, 36 c. After insertion of the side members 18a, 18b, the open corner member seat 36c is closed with a corner member cover 38 c. To this end, corner piece cover 38c is movable along a path of movement 48 c. The corner piece cover 38c is secured to the corner piece seat 36c by the securing strip 50 on the corner piece seat 36 and the securing strips 52a, 52b on the corner piece cover 38 c.

Fig. 7 shows the drawer insert 10 after the end of assembly.

Fig. 8 shows that the sliding elements 26a, 28a, 30a, 32a, 34a can move freely along the side pieces 20a-20c in the longitudinal direction of the side pieces 20a-20 c. The sliding elements 26a, 28a, 30a, 32a, 34a and the resilient separating elements 24a-24e fastened to the sliding elements 26a, 28a, 30a, 32a, 34a can be moved either in the direction 54a or in the direction 54 b. The displaceability of the sliding elements 26a, 28a, 30a, 32a, 34a enables stepless positionability of the end regions of the separating elements 24a to 24 e.

Fig. 9 shows an exemplary sliding element 26a and an elastic separating element 24a to be inserted into the sliding element 26 a. The sliding element 26a is made of plastic and comprises three sliding recesses 60a to 60c spaced apart from one another, wherein the sliding element 26a is guided in the longitudinal direction on the side parts 20a to 20c designed as struts by the sliding recesses 60a to 60 c. The sliding element 26a has a push-in slot 56, into which an end section 58 of the elastic separating element 24a can be pushed in a non-destructive and reversible manner. The sliding element 26a is designed as a welt rail, into which the end section 58 of the elastic separating element 24a comprises a welt that can be inserted. The elastic separating element 24a can be configured, for example, as an elastic band or as an elastic belt.

Fig. 10 and 11 show that a clamping device 62 is arranged within the insertion slot 56, wherein the clamping device 62 has two opposing material projections. The clamping device 62 is provided for clamping the end section 58 of the pushed-in elastic separating element. As a result, the end section 58 of the pushed-in elastic separating element is stabilized in the push-in slit 56 and the pull-out force required for removing the elastic separating element is increased.

Fig. 12 to 14 show the assembly of the drawer insert 10 inside a drawer. The resulting drawer unit 200 comprises a drawer 202, in the receiving area of which the assembly of the drawer insert 10 takes place.

The dimensions of the frame 12 define the required frame space within which the corner pieces 14a-14d and side pieces 16a, 16b, 18a, 18b, 20a-20c, 22a-22c of the frame 12 can be connected to the frame 12 without occupying assembly space outside the frame space when assembled. The drawer insert 10 can therefore be fitted and designed to be detachable inside the drawer. Thus, the drawer insert 10 can also be easily used with a drawer 202 having only a partial pull-out. Due to the assemblability and detachability of the drawer insert 10 inside the drawer, the usability of the drawer insert 10 is not limited by the limited accessibility of the drawer 202 due to the partial pull-out.

List of reference numerals

10 drawer plug-in

12 frame

14a-14d corner pieces

16a, 16b side member

18a, 18b side member

20a-20c side members

22a-22c side members

24a-24e separating element

26a, 26b sliding element

28a, 28b sliding element

30a, 30b sliding element

32a, 32b sliding element

34a, 34b sliding element

36a-36d corner piece seats

Cover for corner parts 38a-38d

40a-40d clamping area

42a-42d receiving and removing paths

44a-44c receptacles

46a-46c insertion and withdrawal paths

48c path of motion

50 fixed lath

52a, 52b fixing batten

54a, 54b, respectively

56 into the gap

58 end section

60a-60c sliding clearance

62 clamping device

64a, 64b longitudinal unit

66a-66d stop surfaces

68a, 68b wing

100 installation kit

200 drawer unit

202 drawer