CN219109030U - Drawer slide rail assembly of integrated optimization adjusting structure - Google Patents

Abstract

The utility model relates to a drawer slide rail assembly integrated with an optimized adjusting structure, which comprises a fixed rail and a movable rail, wherein a left-right moving mechanism far away from the front end surfaces of the fixed rail and/or the movable rail is arranged between the fixed rail and the movable rail, the left-right moving mechanism comprises a first fixed block fixed on the movable rail and a first movable block arranged on the first fixed block, and a first connecting part is arranged on the first movable block; the first fixed blocks and the first movable blocks are provided with sliding connection matching parts, the first movable blocks are connected with the first fixed blocks in a matching way through the sliding connection matching parts, and the first movable blocks slide on the first fixed blocks under the action of external force. The left-right moving mechanism is arranged between the fixed rail and the movable rail and is far away from the front end face of the fixed rail and/or the movable rail, and the first movable block of the left-right moving mechanism is used for being connected with the drawer back plate, so that the drawer back plate has a moving structure, the structure of the drawer panel can be matched with the existing structure of the drawer panel, after the drawer panel is adjusted, a user dials a drawer, the back plate of the drawer can move, the drawer is adjusted, and the drawer is regulated uniformly.

Description

Drawer slide rail assembly of integrated optimization adjusting structure

Technical Field

The utility model relates to the technical field of furniture hardware, in particular to a drawer slide rail assembly integrated with an optimized adjusting structure.

Background

The applicant submits patent number 202210398988.6 to the national intellectual property agency in 2022-04-16, the utility model creates a drawer slide rail assembly, a left-right adjusting mechanism is arranged between a fixed slide rail and a movable slide rail, a movable block of the left-right adjusting mechanism is connected with a drawer side plate in a matched manner, when an adjusting piece of the left-right adjusting mechanism can drive a drawer to move left and right under the action of external force so as to adjust the left-right position of the drawer on a cabinet body, but the adjusting structure can only adjust the left-right gap between a drawer panel and the cabinet body, a rear plate of the drawer cannot move along with the drawer panel, after the drawer is adjusted, the drawer is in an inclined state, so that uneven adjustment phenomenon is caused, if the machining size error of the cabinet body is large, the phenomenon of poor closing of the drawer on the cabinet body possibly occurs, and the drawer does not completely enter the cabinet body.

Disclosure of Invention

The utility model aims to provide a drawer slide rail assembly integrated with an optimized adjusting structure, wherein a left-right moving mechanism far away from the front end surfaces of a fixed rail and/or a movable rail is arranged between the fixed rail and the movable rail, and a first movable block of the left-right moving mechanism is used for being connected with a drawer back plate, so that the drawer back plate has a moving structure and can be matched with the existing adjusting drawer panel structure, after the drawer panel is adjusted, a user dials a drawer, the back plate of the drawer can move, the drawer is aligned, and the drawer is uniformly adjusted.

The drawer slide rail assembly of the integrated optimization adjusting structure comprises a fixed rail and a movable rail, wherein a left-right moving mechanism far away from the front end face of the fixed rail and/or the movable rail is arranged between the fixed rail and the movable rail, the left-right moving mechanism comprises a first fixed block fixed on the movable rail and a first movable block arranged on the first fixed block, and a first connecting part is arranged on the first movable block; the first fixed block and the first movable block are provided with sliding connection matching parts, the first movable block is connected with the first fixed block in a matching way through the sliding connection matching parts, and the first movable block slides on the first fixed block under the action of external force so as to adjust the distance between the first connection part and one side of the fixed rail. The first connecting part is used for connecting a rear plate of the drawer, and then adjusting the distance between the rear plate of the drawer and one side of the rail.

Through being equipped with between fixed rail, moving rail and keeping away from the left and right movement mechanism of fixed rail and/or moving rail preceding terminal surface, the first movable block of left and right movement mechanism is used for being connected with the drawer back plate, makes the drawer back plate have the structure of removal, can cooperate current regulation drawer panel structure, and after the drawer panel was adjusted, the user stirred the drawer, and the back plate of drawer can remove, makes the drawer ajust, and the drawer is adjusted evenly.

The sliding directions of the first movable block and the movable rail are different, and the sliding directions of the first movable block and the movable rail are arranged in the longitudinal and transverse directions. The movable rail longitudinally slides on the fixed rail, and the first movable block transversely slides on the first fixed block.

The sliding connection matching part comprises a linear guide connecting part, the first movable block transversely and linearly slides on the first fixed block through the linear guide connecting part, the linear guide connecting part can match and connect the first movable block and the first fixed block, and meanwhile, the sliding connection matching part also plays a guide role when the first movable block moves, and has the characteristic of compact structure.

The stepless or stepped adjusting and limiting matching parts are further arranged between the first fixed blocks and the first movable blocks, the first movable blocks can conduct stepless or stepped limiting movement on the first fixed blocks through the adjusting and limiting matching parts, and the adjusting and limiting matching parts can effectively prevent the first movable blocks from being separated from the first fixed blocks outwards in the moving process.

A left-right adjusting mechanism is arranged between the fixed rail and the movable rail, and the left-right adjusting mechanism and the left-right moving mechanism are arranged at intervals in the front-back direction; the left-right adjusting mechanism comprises a second fixed block fixed on the movable rail and a second movable block arranged on the second fixed block in a sliding manner, an adjusting piece is arranged between the second fixed block and the second movable block, the second fixed block is connected with the second movable block through the matching of the adjusting piece, a second connecting portion is arranged on the second movable block, the adjusting piece drives the second movable block to slide on the second fixed block under the action of external force, so that the distance between the second connecting portion and one side of the fixed rail is adjusted, and the distance between the drawer panel and the cabinet body is adjusted.

The first movable block is connected with the back plate of the drawer in a matched manner, the second movable block is connected with the side plate of the drawer in a matched manner, the sliding directions of the first movable block and the second movable block are the same, namely the sliding directions of the panel and the back plate of the drawer are the same, the panel of the drawer and the back plate of the drawer are both transversely sliding, after the panel of the drawer is conveniently adjusted, the back plate can move along with the adjusting direction of the panel after the drawer is shifted, so that the drawer is straightened.

One end of the adjusting piece is provided with a manual adjusting part which extends along the outer side of the front end face of the movable rail, and tool-free adjustment is realized through the manual adjusting part.

The fixed rail is fixed on the inner side of the cabinet body, the drawer is arranged on the cabinet body, the drawer comprises a bottom plate, the bottom plate is provided with two movable rails which are arranged at intervals, each movable rail is provided with a left-right moving mechanism, the left end and the right end of the rear plate of the drawer have the effect of moving and adjusting, and meanwhile, the rear end of the drawer can move smoothly; if only be equipped with the left and right movement mechanism between movable rail and fixed rail, the drawer back plate is also adjustable, if the drawer back plate is to not setting up the direction of left and right movement mechanism and remove, because the direction of the first movable block slip of left and right movement mechanism is horizontal slip about, just the drawer removes not so smoothly.

The first movable blocks of the left-right moving mechanism are connected with the drawers in a matched manner through the first connecting parts, the second movable blocks of the left-right adjusting mechanism are connected with the drawers in a matched manner through the second connecting parts, the second movable blocks move and adjust the left-right positions of the drawers on the cabinet body, the drawers drive the first movable blocks of the left-right moving mechanism to synchronously move under the action of external force, after the interval between the drawer panel and the cabinet body is adjusted, the drawers are shifted, the whole rear plate of each drawer can move in the adjusting direction of the panel, and then the drawers are aligned.

The drawer comprises a rear plate which is matched and connected with the first connecting part, and a side plate which is matched and connected with the second connecting part, and the drawer is positioned on the movable rail front and back through the first connecting part and the second connecting part.

The side plate of the drawer is provided with an extension part corresponding to the fixed rail, and an adjusting gap is arranged between the fixed rail and the extension part; the first connecting part is arranged along the front end surface of the first movable block in an extending way; the second connecting part extends and is arranged above the second movable block.

The beneficial technical effects of the utility model are as follows:

through being equipped with between fixed rail, moving rail and keeping away from the left and right movement mechanism of fixed rail and/or moving rail preceding terminal surface, the first movable block of left and right movement mechanism is used for being connected with the drawer back plate, makes the drawer back plate have the structure of removal, can cooperate current regulation drawer panel structure, and after the drawer panel was adjusted, the user stirred the drawer, and the back plate of drawer can remove, makes the drawer ajust, and the drawer is adjusted evenly.

The sliding connection matching part comprises a linear guide connecting part, the first movable block transversely and linearly slides on the first fixed block through the linear guide connecting part, the linear guide connecting part can match and connect the first movable block and the first fixed block, and meanwhile, the sliding connection matching part also plays a guide role when the first movable block moves, and has the characteristic of compact structure.

The drawer comprises a bottom plate, two movable rails are arranged on the bottom plate at intervals, and each movable rail is provided with a left-right moving mechanism, so that the left end and the right end of the rear plate of the drawer have the effect of moving and adjusting, and the rear end of the drawer can move smoothly.

The drawer drives the first movable blocks of each left-right moving mechanism to synchronously move under the action of external force, after the interval between the drawer panel and the cabinet body is adjusted, the drawer is shifted, and the whole rear plate of the drawer can move in the adjusting direction of the panel, so that the drawer is adjusted.

Drawings

Fig. 1 is a schematic structural view of a drawer slide assembly according to a first embodiment of the present utility model.

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a schematic structural view of a left-right moving mechanism according to a first embodiment of the present utility model.

Fig. 4 is a schematic diagram showing an assembled and disassembled structure of the left-right moving mechanism according to the first embodiment of the present utility model.

Fig. 5 is a schematic view showing an assembled and disassembled structure of a drawer and a cabinet according to a first embodiment of the present utility model.

Fig. 6 is a schematic view of an assembled cross-sectional structure of a drawer and a cabinet according to a first embodiment of the present utility model.

Fig. 7 is a schematic structural view of a left-right moving mechanism according to a second embodiment of the present utility model.

Fig. 8 is an exploded assembly view of a left-right moving mechanism according to a second embodiment of the present utility model.

Fig. 9 is a schematic structural view of a left-right moving mechanism according to a third embodiment of the present utility model.

Fig. 10 is an exploded assembly view of a left-right moving mechanism according to a third embodiment of the present utility model.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

First embodiment

Referring to fig. 1-6, a drawer slide rail assembly with an integrated optimized adjustment structure comprises a fixed rail 1 and a movable rail 2, wherein a left-right moving mechanism 3 far away from the front end surface of the fixed rail 1 and/or the movable rail 2 is arranged between the fixed rail 1 and the movable rail 2, the left-right moving mechanism 3 comprises a first fixed block 4 fixed on the movable rail 2 and a first movable block 5 arranged on the first fixed block 4, and a first connecting part 6 is arranged on the first movable block 5; the first fixed block 4 and the first movable block 5 are provided with sliding connection matching parts, the first movable block 5 is connected with the first fixed block 4 in a matching way through the sliding connection matching parts, and the first movable block 5 slides on the first fixed block 4 under the action of external force so as to adjust the distance between the first connection part 6 and one side of the fixed rail 1.

In the present embodiment, the first fixed block 4 is fixed to the movable rail 2 by screws or welding.

The sliding directions of the first movable block 5 and the movable rail 2 are different, and the sliding directions of the first movable block 5 and the movable rail 2 are arranged in the longitudinal and transverse directions.

The sliding connection mating part comprises a linear guide connecting part 7, and the first movable block 5 transversely and linearly slides on the first fixed block 4 through the linear guide connecting part 7.

Referring to fig. 4, in this embodiment, two ends of the first movable block 5 are provided with bending portions forming a linear guiding connection portion 7, an inserting groove is formed between the two bending portions and the main body of the first movable block 5, the first fixed block 4 is inserted into the inserting groove, and when the first movable block 5 moves, the first movable block 5 moves linearly along the direction of the inserting groove. The two end edges of the first fixing block 4 are respectively contacted with the inner side or not contacted with the inserting groove.

And a stepless adjusting and limiting matching part 8 is further arranged between the first fixed block 4 and the first movable block 5, and the first movable block 5 performs stepless limiting movement on the first fixed block 4 through the adjusting and limiting matching part 8.

Referring to fig. 4, in this embodiment, a limiting groove is formed on the first fixed block 4, a limiting protrusion is formed on the first movable block 5 corresponding to the limiting groove, the limiting protrusion is embedded into the limiting groove to form a stepless adjusting and limiting matching portion 8, and two sides of the limiting protrusion can be contacted or not contacted with two sides of the limiting groove. When the first movable block 5 moves, the limiting protrusion is free of barriers and is limited on the limiting groove.

A left-right adjusting mechanism 9 is also arranged between the fixed rail 1 and the movable rail 2, and the left-right adjusting mechanism 9 and the left-right moving mechanism 3 are arranged at intervals in the front-back direction; the left-right adjusting mechanism 9 comprises a second fixed block 10 fixed on the movable rail 2, and a second movable block 11 arranged on the second fixed block 10 in a sliding manner, an adjusting piece 12 is arranged between the second fixed block 10 and the second movable block 11, the second fixed block 10 and the second movable block 11 are connected in a matched manner through the adjusting piece 12, a second connecting part 13 is arranged on the second movable block 11, and the adjusting piece 12 drives the second movable block 11 to slide on the second fixed block 10 under the action of external force so as to adjust the distance between the second connecting part 13 and one side of the fixed rail 1.

The structure of the left-right adjusting mechanism 9 is specifically described in CN114794765a, and will not be described in detail here.

The sliding directions of the first movable block 5 and the second movable block 11 are the same.

One end of the adjusting member 12 is provided with a manual adjusting portion 18 extending along the outer side of the front end face of the movable rail 2. The adjustment member 12 may be an eccentric pin having a manual adjustment 18 at one end.

The fixed rail 1 is fixed on the inner side of the cabinet body 14, the cabinet body 14 is provided with a drawer 15, the drawer 15 comprises a bottom plate 21, the bottom plate 21 is provided with two movable rails 2 which are arranged at intervals, each movable rail 2 is provided with a left-right moving mechanism 3, a first movable block 5 of the left-right moving mechanism 3 is matched and connected with the drawer 15 through a first connecting part 6, a second movable block 11 of the left-right adjusting mechanism 9 is matched and connected with the drawer 15 through a second connecting part 13, the second movable block 11 moves and adjusts the left-right position of the drawer 15 on the cabinet body 14, and the drawer 15 drives the first movable blocks 5 of each left-right moving mechanism 3 to synchronously move under the action of external force.

The drawer 15 includes a rear plate 16 cooperatively connected with the first connecting portion 6, and a side plate 17 cooperatively connected with the second connecting portion 13, and the drawer 15 is positioned on the movable rail 2 back and forth through the first connecting portion 6 and the second connecting portion 13.

The side plate 17 of the drawer 15 is provided with an extension part 19 corresponding to the fixed rail 1, and an adjusting gap 20 is arranged between the fixed rail 1 and the extension part 19; the first connecting part 6 is arranged along the front end surface of the first movable block 5 in an extending way; the second connecting portion 13 extends above the second movable block 11.

In the present embodiment, the rear plate 16 is provided with a first insertion hole into which the first connecting portion 6 is inserted, and the bottom of the side plate 17 is provided with a second insertion hole into which the second connecting portion 13 is inserted.

Second embodiment

Referring to fig. 7 and 8, a drawer slide assembly with an integrated optimal adjustment structure is different from the first embodiment in that: the first movable block 5 performs stepped limiting movement on the first fixed block 4 by adjusting the limiting matching part 8.

The first fixed block 4 is provided with two guide grooves arranged at intervals, the first movable block 5 is provided with connecting holes corresponding to the two guide grooves arranged at intervals, and each guide groove and each connecting hole are connected in a penetrating way through a connecting piece, such as a rivet. The guide grooves, the connecting holes, the connecting pieces form a linear guide connection 7.

When the first movable block 5 moves, the connecting piece moves along the direction of the guide groove, and the contact surface of the connecting piece and the guide groove is in arc contact so as to reduce sliding friction force.

The first movable block 5 is provided with a plurality of first tooth grooves, the first fixed block 4 is provided with a mounting position, the mounting position is provided with a rotating gear, teeth of the gear are meshed with the first tooth grooves, protruding teeth are respectively arranged on two sides of the mounting position, second tooth grooves are respectively arranged on two sides of the gear corresponding to the protruding teeth, and the second tooth grooves are meshed with the protruding teeth to fix the rotated position of the gear.

When the first movable block 5 moves, the first tooth slot moves along with the first movable block 5, so that the gear of the first fixed block 4 rotates.

The gear is rotatably arranged on the mounting position through the rivet.

Other undescribed portions are identical to the first embodiment and will not be described in detail here.

Third embodiment

Referring to fig. 9 and 10, a drawer slide assembly with an integrated optimal adjustment structure is different from the first embodiment in that: a handle is also arranged between the first fixed block 4 and the first movable block 5, and the first fixed block 4, the first movable block 5 and the handle are assembled and connected through an eccentric nail.

One or two guide grooves are arranged on the first fixed block 4 at intervals, guide protrusions are arranged on the first movable block 5 corresponding to the guide grooves, and the guide protrusions are embedded in the guide grooves.

After the drawer is pulled out in the adjusting mode, a user stretches hands to enter the drawer back plate, and the user dials the handle to drive the first movable block 5 to move so as to drive the rear end of the drawer to move.

Other undescribed portions are identical to the first embodiment and will not be described in detail here.

The foregoing is a preferred embodiment of the utility model showing and describing the general principles, features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing embodiments, which have been described in the foregoing description merely illustrates the principles of the utility model, and that various changes and modifications may be made therein without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (10)

1. The utility model provides a drawer slide rail subassembly of integrated optimization regulation structure, includes rail (1), moves rail (2), its characterized in that: a left-right moving mechanism (3) far away from the front end surface of the fixed rail (1) and/or the movable rail (2) is arranged between the fixed rail (1) and the movable rail (2), the left-right moving mechanism (3) comprises a first fixed block (4) fixed on the movable rail (2), a first movable block (5) arranged on the first fixed block (4), and a first connecting part (6) is arranged on the first movable block (5); the sliding connection matching parts are arranged between the first fixed blocks (4) and the first movable blocks (5), the first movable blocks (5) are matched and connected with the first fixed blocks (4) through the sliding connection matching parts, and the first movable blocks (5) slide on the first fixed blocks (4) under the action of external force so as to adjust the distance between the first connection parts (6) and one side of the fixed rail (1).

2. The integrated, optimized-adjustment-structured drawer slide assembly of claim 1, wherein: the sliding directions of the first movable block (5) and the movable rail (2) are different, and the sliding directions of the first movable block (5) and the movable rail (2) are arranged in the longitudinal and transverse directions.

3. The integrated, optimized-adjustment-structured drawer slide assembly of claim 1, wherein: the sliding connection matching part comprises a linear guide connecting part (7), and the first movable block (5) transversely and linearly slides on the first fixed block (4) through the linear guide connecting part (7).

4. The integrated, optimized-adjustment-structured drawer slide assembly of claim 1, wherein: stepless or stepped adjusting and limiting matching parts (8) are further arranged between the first fixed block (4) and the first movable block (5), and the first movable block (5) performs stepless or stepped limiting movement on the first fixed block (4) through the adjusting and limiting matching parts (8).

5. The integrated, optimized-adjustment-structured drawer slide assembly of claim 1, wherein: a left-right adjusting mechanism (9) is arranged between the fixed rail (1) and the movable rail (2), and the left-right adjusting mechanism (9) and the left-right moving mechanism (3) are arranged at intervals in the front-back direction; control adjustment mechanism (9) including fix second fixed block (10) on moving rail (2), slide second movable block (11) of setting on second fixed block (10), be equipped with regulating part (12) between second fixed block (10) and second movable block (11), second fixed block (10) are connected through regulating part (12) cooperation with second movable block (11), be equipped with second connecting portion (13) on second movable block (11), and regulating part (12) drive second movable block (11) slide on second fixed block (10) under the exogenic action, with the interval between regulation second connecting portion (13) and rail (1) one side.

6. The integrated optimal adjustment mechanism drawer slide assembly of claim 5, wherein: the sliding directions of the first movable block (5) and the second movable block (11) are the same.

7. The integrated optimal adjustment mechanism drawer slide assembly of claim 5, wherein: one end of the adjusting piece (12) is provided with a manual adjusting part (18) extending along the outer side of the front end surface of the movable rail (2).

8. The integrated optimal adjustment mechanism drawer slide assembly of claim 5, wherein: the fixed rail (1) is fixed on the inner side of the cabinet body (14), the cabinet body (14) is provided with a drawer (15), the drawer (15) comprises a bottom plate (21), the bottom plate (21) is provided with two movable rails (2) arranged at intervals, each movable rail (2) is provided with a left-right moving mechanism (3), a first movable block (5) of the left-right moving mechanism (3) is connected with the drawer (15) in a matched manner through a first connecting part (6), a second movable block (11) of the left-right adjusting mechanism (9) is connected with the drawer (15) in a matched manner through a second connecting part (13), and after the second movable block (11) moves and adjusts the left-right position of the drawer (15) on the cabinet body (14), the drawer (15) drives the first movable block (5) of each left-right moving mechanism (3) to synchronously move under the action of external force.

9. The integrated optimal adjustment mechanism drawer slide assembly of claim 8, wherein: the drawer (15) comprises a rear plate (16) which is matched and connected with the first connecting part (6), and a side plate (17) which is matched and connected with the second connecting part (13), and the drawer (15) is positioned on the movable rail (2) front and back through the first connecting part (6) and the second connecting part (13).

10. The integrated optimal adjustment mechanism drawer slide assembly of claim 9, wherein: an extension part (19) is arranged on the side plate (17) of the drawer (15) corresponding to the fixed rail (1), and an adjusting gap (20) is arranged between the fixed rail (1) and the extension part (19); the first connecting part (6) extends along the front end surface of the first movable block (5); the second connecting part (13) extends above the second movable block (11).

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