CN205349064U - Sliding door mechanical connection arm turns over - Google Patents

Abstract

The utility model discloses a sliding door mechanical connection arm turns over, include that first connection piece, a plurality of connection screw, swivelling joint piece, first swinging boom, first round pin axle, the second of connecing soon connect round pin axle, second swinging boom, second connection piece, rotatory inlay groove, spacing of rotation, rotatory plush copper, rotatory bayonet joint and grafting through -hole soon, first connection piece even turns over the sliding door through connection screw, and the swivelling joint piece is established on first connection piece, and first swinging boom connects even second swinging boom of round pin axle through the first even swivelling joint piece of round pin axle that connects soon, first swinging boom through the second soon, and the second connection piece passes through the even cabinet body of connection screw, establishes on the second connection piece through rotatory inlay groove for rotatory spacing, and rotatory plush copper is through rotatory bayonet joint even second connection piece, and the second swinging boom is through the even rotatory bayonet joint of grafting through -hole. The utility model discloses can cooperate damping jointing equipment to be used together, can restrict the angle that the cabinet student turned over, improve the bearing capacity of cabinet door simultaneously, prevent that damping jointing equipment from damaging.

Description

Turn over sliding door and be mechanically connected arm

Technical field

This utility model relates to a kind of mechanical connection equipment, particularly relates to one and turns over sliding door mechanical connection arm.

Background technology

Being fitted with opening the door on various cabinets, the enabling of prior art has the various structures such as the sliding door horizontally slipped, the sliding door upwards opened, the sliding door outwards opened, the sliding door that opens downwards.The sliding door opened downwards of prior art is connected by damping device mostly, can slowly open and close, if but sliding door heavier-weight or be under pressure, damping device is easily damaged, cause sliding door Joint failure, make troubles to use.

Utility model content

The purpose of this utility model: provide one to turn over sliding door and be mechanically connected arm, protection can be used for and turn over sliding door, it is prevented that damage after turning over sliding door life-time service or stress, improve the weight capacity turning over sliding door.

To achieve these goals, the technical solution of the utility model is:

One is turned over sliding door and is mechanically connected arm, including a connecting piece, multiple connecting screw, the sheet that is rotatably connected, first rotating arm, first spin bearing pin, second spin bearing pin, the second turning arm, second connect sheet, rotating bezel tankage, rotary stopper article, rotate plush copper, rotary insertion joint and grafting through hole；Described a connecting piece is fixedly connected on by described multiple connecting screws and turns on sliding door, is positioned at the two side ends turning over sliding door；The described sheet that is rotatably connected is fixedly installed on described a connecting piece, and the described sheet that is rotatably connected is vertically arranged with described a connecting piece；One end of described first rotating arm is connected with the described sheet that is rotatably connected by described first bearing pin that spins, and described first rotating arm spins bearing pin rotation around described first；The other end of described first rotating arm is connected with one end of the second described turning arm by described second bearing pin that spins, and the second described turning arm spins bearing pin rotation around described second；Described second is connected an end face of sheet and is fixed on cabinet inwall by described multiple connecting screws laminating, is positioned at the both sides of cabinet；Described rotating bezel tankage embeds on another end face being arranged on the second described connection sheet, is positioned at described second and connects the central authorities of sheet, the rounded setting that caves inward of described rotating bezel tankage；Described rotary stopper bar embeds and is arranged in described rotating bezel tankage, is positioned on the inwall of described rotating bezel tankage；Described rotary insertion joint is semielliptical structure, described rotation plush copper is arranged in the planar ends of described rotary insertion joint, it is positioned at the edge of described rotary insertion joint, described rotary insertion joint is connected sheet and connects with described second, and described rotation plush copper is embedded in described rotating bezel tankage, and circumferentially rotating along described rotating bezel tankage；Described grafting through hole is positioned on described rotary insertion joint, and the thickness of described grafting through hole and width are respectively greater than thickness and the width of the second described turning arm, and the other end adaptation of the second described turning arm runs through described grafting through hole.

The above-mentioned sliding door that turns over is mechanically connected arm, and wherein, described rotary stopper bar is 3/4ths circular ring structures, makes 0 °-90 ° rotations between the two ends of described rotary stopper bar of described rotation plush copper.

The above-mentioned sliding door that turns over is mechanically connected arm, and wherein, described first rotating arm is double-decker, described is rotatably connected sheet and the second turning arm is clipped between the two ends of the first rotating arm described in two-layer respectively.

The above-mentioned sliding door that turns over is mechanically connected arm, and wherein, the second described turning arm runs through one end of described grafting through hole and is provided with lobe, and the thickness of described lobe is more than the thickness of described grafting through hole.

The above-mentioned sliding door that turns over is mechanically connected arm, and wherein, the end, one end of described first rotating arm is provided with bumper, is positioned at the both sides, end of the second described linking arm.

This utility model can coordinate damping connection equipment to use together, can limit the angle turned under cabinet door, improve the bearing capacity of cabinet door simultaneously, it is prevented that damping connects device damage.

Accompanying drawing explanation

Fig. 1 is the front view that this utility model turns over sliding door mechanical connection arm.

Fig. 2 is the front view that this utility model turns over that sliding door is mechanically connected the second connection sheet of arm.

Fig. 3 is the side view that this utility model turns over that sliding door is mechanically connected the rotation plush copper of arm.

Fig. 4 is the top view that this utility model turns over that sliding door is mechanically connected the first rotating arm of arm.

Detailed description of the invention

Embodiment of the present utility model is further illustrated below in conjunction with accompanying drawing.

Refer to shown in accompanying drawing 1 to accompanying drawing 3, one is turned over sliding door and is mechanically connected arm, connects sheet 8, rotating bezel tankage 9, rotary stopper article 10 including a connecting piece 1, multiple connecting screw 2, the sheet 3 that is rotatably connected, first rotating arm 4, the first spin bearing pin 5, second spin bearing pin the 6, second turning arm 7, second, rotates plush copper 11, rotary insertion joint 12 and grafting through hole 13；Described a connecting piece 1 is fixedly connected on by described multiple connecting screws 2 and turns on sliding door, is positioned at the two side ends turning over sliding door；The described sheet 3 that is rotatably connected is fixedly installed on described a connecting piece 1, and the described sheet 3 that is rotatably connected is vertically arranged with described a connecting piece 1；One end of described first rotating arm 4 is connected with the described sheet 3 that is rotatably connected by described first bearing pin 5 that spins, and described first rotating arm 4 rotates around described first bearing pin 5 that spins；The other end of described first rotating arm 4 is connected with one end of the second described turning arm 7 by described second bearing pin 6 that spins, and the second described turning arm 7 rotates around described second bearing pin 6 that spins；Described second is connected an end face of sheet 8 and is fixed on cabinet inwall by described multiple connecting screws 2 laminating, is positioned at the both sides of cabinet；Described rotating bezel tankage 9 embeds on another end face being arranged on the second described connection sheet 8, is positioned at described second and connects the central authorities of sheet 8, the rounded setting that caves inward of described rotating bezel tankage 9；Described rotary stopper bar 10 embeds and is arranged in described rotating bezel tankage 9, is positioned on the inwall of described rotating bezel tankage 9；Described rotary insertion joint 12 is semielliptical structure, described rotation plush copper 11 is arranged in the planar ends of described rotary insertion joint 12, it is positioned at the edge of described rotary insertion joint 12, described rotary insertion joint 12 is connected sheet 8 with described second and connects, and described rotation plush copper 11 is embedded in described rotating bezel tankage 9, and circumferentially rotating along described rotating bezel tankage 9；Described grafting through hole 13 is positioned on described rotary insertion joint 12, and the thickness of described grafting through hole 13 and width are respectively greater than thickness and the width of the second described turning arm 7, and the other end adaptation of the second described turning arm 7 runs through described grafting through hole 13.

Described rotary stopper bar 10 is 3/4ths circular ring structures, makes 0 °-90 ° rotations between the two ends of described rotary stopper bar 10 of described rotation plush copper 11, can be used for limiting the second turning arm 7 around the second rotational angle connecting sheet 8.

Refer to shown in accompanying drawing 4, described first rotating arm 4 is double-decker, described it is rotatably connected sheet 3 and the second turning arm 7 is clipped between the two ends of the first rotating arm 4 described in two-layer respectively, can stable connection be rotatably connected sheet 3 and the second turning arm 7, and bearing capacity of the present utility model can be greatly increased, it is prevented that rupture after stress.

The second described turning arm 7 runs through one end of described grafting through hole 13 and is provided with lobe 14, and the thickness of described lobe 14, more than the thickness of described grafting through hole 13, can prevent the second turning arm 7 from deviating from from grafting through hole 13.

The end, one end of described first rotating arm 4 is provided with bumper 15, is positioned at the both sides, end of the second described linking arm 7, and after can be used for preventing whole of the second linking arm 7 from running through grafting through hole 13, the first linking arm 4 is directly connected sheet 8 with second and collides and damage.

During use, a connecting piece 1 and second are connected sheet 8 respectively through multiple connecting screws 2 be fixed on cupboard and under on the cabinet door that turns over, when open under cabinet door open or on turn over closedown time, first rotating arm 4 is rotated around the sheet 3 that is rotatably connected by first bearing pin 5 that spins, second turning arm 7 is connected sheet 8 around second rotated by second bearing pin 6 that spins, connection-peg 12 is rotated rotate, make rotation plush copper 11 rotate between the two ends of rotary stopper bar 10, can limit, by the rotation and the movement in grafting through hole 13 of second turning arm 7 rotating plush copper 11, the angle turned under cabinet door.

In description of the present utility model, it will be appreciated that, term " on ", " both sides ", " one end ", " other end ", " width ", " thickness ", " central authorities ", D score, " interior ", " two ends ", the orientation of the instruction such as " circumference " or position relationship be based on orientation shown in the drawings or position relationship, it is for only for ease of description this utility model and simplifies description, rather than the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

Additionally, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or imply relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature.In description of the present utility model, " multiple " are meant that at least two, for instance two, three etc., unless otherwise expressly limited specifically.

In this utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " setting ", " connection ", " fixing ", " running through " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or integral；Can be mechanically connected, it is also possible to be electrical connection；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be connection or the interaction relationship of two elements of two element internals, unless otherwise clear and definite restriction.For the ordinary skill in the art, it is possible to understand above-mentioned term concrete meaning in this utility model as the case may be.

In sum, this utility model can coordinate damping connection equipment to use together, can limit the angle turned under cabinet door, improve the bearing capacity of cabinet door simultaneously, it is prevented that damping connects device damage.

The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure transformation utilizing this utility model description to make; or directly or indirectly use the technical field being attached to other Related products, all in like manner include in scope of patent protection of the present utility model.

Claims (5)

1. one kind is turned over sliding door and is mechanically connected arm, it is characterised in that: include a connecting piece, multiple connecting screw, the sheet that is rotatably connected, first rotating arm, first spin bearing pin, second spin bearing pin, the second turning arm, second connect sheet, rotating bezel tankage, rotary stopper article, rotate plush copper, rotary insertion joint and grafting through hole；Described a connecting piece is fixedly connected on by described multiple connecting screws and turns on sliding door, is positioned at the two side ends turning over sliding door；The described sheet that is rotatably connected is fixedly installed on described a connecting piece, and the described sheet that is rotatably connected is vertically arranged with described a connecting piece；One end of described first rotating arm is connected with the described sheet that is rotatably connected by described first bearing pin that spins, and described first rotating arm spins bearing pin rotation around described first；The other end of described first rotating arm is connected with one end of the second described turning arm by described second bearing pin that spins, and the second described turning arm spins bearing pin rotation around described second；Described second is connected an end face of sheet and is fixed on cabinet inwall by described multiple connecting screws laminating, is positioned at the both sides of cabinet；Described rotating bezel tankage embeds on another end face being arranged on the second described connection sheet, is positioned at described second and connects the central authorities of sheet, the rounded setting that caves inward of described rotating bezel tankage；Described rotary stopper bar embeds and is arranged in described rotating bezel tankage, is positioned on the inwall of described rotating bezel tankage；Described rotary insertion joint is semielliptical structure, described rotation plush copper is arranged in the planar ends of described rotary insertion joint, it is positioned at the edge of described rotary insertion joint, described rotary insertion joint is connected sheet and connects with described second, and described rotation plush copper is embedded in described rotating bezel tankage, and circumferentially rotating along described rotating bezel tankage；Described grafting through hole is positioned on described rotary insertion joint, and the thickness of described grafting through hole and width are respectively greater than thickness and the width of the second described turning arm, and the other end adaptation of the second described turning arm runs through described grafting through hole.

2. the sliding door that turns over according to claim 1 is mechanically connected arm, it is characterised in that: described rotary stopper bar is 3/4ths circular ring structures, makes 0 °-90 ° rotations between the two ends of described rotary stopper bar of described rotation plush copper.

3. the sliding door that turns over according to claim 1 is mechanically connected arm, it is characterised in that: described first rotating arm is double-decker, described is rotatably connected sheet and the second turning arm is clipped between the two ends of the first rotating arm described in two-layer respectively.

4. the sliding door that turns over according to claim 1 is mechanically connected arm, it is characterised in that: the second described turning arm runs through one end of described grafting through hole and is provided with lobe, and the thickness of described lobe is more than the thickness of described grafting through hole.

5. the sliding door that turns over according to claim 1 is mechanically connected arm, it is characterised in that: the end, one end of described first rotating arm is provided with bumper, is positioned at the both sides, end of the second described linking arm.