CN212014998U - Corner flying saucer structure - Google Patents

Abstract

The utility model discloses a corner butterfly basin structure installs in the cabinet internally, include: the butterfly basin is used for accommodating kitchen ware; the linkage arm group is arranged at the bottom of the flying saucer basin, and the swinging of the linkage arm group is used for assisting the flying saucer basin to rotate out of or into the cabinet body; the linkage arm group is connected with the mounting side plate; the flying saucer and the linkage arm group are integrally arranged on the inner side wall of the cabinet body by taking the mounting side plate as a support. The utility model discloses well corner flies the overall structure of butterfly basin structure and is directly assembled in the inside wall of the cabinet body through the installation curb plate, and whole assembling process will fly butterfly basin structure and install in advance, then will install the curb plate be fixed in the internal side wall of cabinet can, the integral erection process is simple, swift, compares in traditional double-column assembly, has simplified double-column erection's loaded down with trivial details step, and the dismouting is more convenient, and efficiency is higher.

Description

Corner flying saucer structure

Technical Field

The utility model relates to a cupboard technical field, more specifically the corner butterfly basin structure that says so relates to a corner.

Background

The traditional cupboard is of a cabinet type structure and is only of a cabinet type structure, kitchen utensils are placed in the cupboard in an auto-superposition mode, the cupboard has a certain depth, the kitchen utensils which are not commonly used are often placed in the deep position of the cupboard, the kitchen utensils which are commonly used are placed in the position, close to the cupboard door, of the cupboard, and daily taking and placing are facilitated. The cupboard of traditional cabinet type structure is lacked in space utilization to some extent, and kitchen utensils and appliances can only superpose in the cupboard and place, and the space that is located the high-order is often left empty, makes the space utilization of cupboard low like this to be difficult to get and put kitchen utensils and appliances, when looking for kitchen utensils and appliances regularly, need earlier take out near the kitchen utensils and appliances of cupboard door, carry out deep seeking again.

In order to overcome the problems, manufacturers develop a corner pull basket/butterfly basin which can be applied to a cabinet body, particularly a cabinet, wherein the butterfly basin can be rotated out or rotated into the cabinet, kitchen ware or articles can be conveniently taken and placed, and the space utilization rate of the cabinet can be improved. As patent numbers: 2016213547764 corner basket, as shown in fig. 1, comprises a basin 610, a first upright column 710, a second upright column 720, a first swing arm 620 and a second swing arm 630, wherein the first swing arm 620 and the second swing arm 630 assist the basin 610 to rotate, and the whole corner basket structure is installed in the cabinet through the first upright column 710 and the second upright column 720. Because the internal space of the cabinet is not large, the assembly process is complicated by the way of assembling the double-upright posts, and the difficulty of assembling in a narrow space is increased.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a corner butterfly basin structure flies.

In order to achieve the above purpose, the utility model adopts the following technical scheme: corner butterfly basin structure installs in the cabinet internally, includes: the butterfly basin is used for accommodating kitchen ware; the linkage arm group is arranged at the bottom of the flying saucer basin, and the swinging of the linkage arm group is used for assisting the flying saucer basin to rotate out of or into the cabinet body; the linkage arm group is connected with the mounting side plate; the flying saucer and the linkage arm group are integrally arranged on the inner side wall of the cabinet body by taking the mounting side plate as a support.

In some embodiments, the linkage arm set comprises: the first swing rod, the second swing rod and the third swing rod are connected with the mounting side plate; the first swing rod and the second swing rod are pivoted on the mounting side plate and can swing horizontally;

the bottom of the butterfly basin is supported at the free ends of the second swing rod and the third swing rod; one end of the third swing rod is connected with the first swing rod, and a limiting sliding device used for limiting a swing track is arranged between the third swing rod and the second swing rod; and the limiting sliding device limits the swing track of the third swing rod to realize the arc-shaped corner swing of the butterfly basin.

In some embodiments, a buffer device is arranged between the first swing link and the third swing link, and the buffer device is triggered when the third swing link swings horizontally relative to the first swing link, so that the third swing link can swing slowly, and the butterfly basin can rotate out of or into the cabinet body slowly.

In some embodiments, the cushioning device comprises: the damper is assembled on the first swing rod, the damper connecting rod is connected to the damper, one end of the damper connecting rod is connected to the third swing rod, and the damper connecting rod is pulled when the third swing rod swings to trigger the damper.

In some embodiments, the cushioning device further comprises: the damper comprises a damper shell and a damper sliding block arranged in the damper shell, wherein the damper is arranged in the damper sliding block, and a damper connecting rod is connected to the damper in the damper sliding block.

In some embodiments, the limit slide assembly comprises: a sliding groove piece arranged on the second swing rod and a plastic rotating shaft arranged on the third swing rod; a sliding groove is formed in the sliding groove piece, and one end of the plastic rotating shaft is limited in the sliding groove and can slide along the sliding groove.

In some embodiments, the chute member is formed with an opening communicating with the chute, and the plastic rotating shaft enters the connecting chute from the opening, and the chute is designed in an arc shape; and a short shaft is formed at one end of the plastic rotating shaft clamped in the sliding groove.

In some embodiments, the free ends of the second swing link and the third swing link are provided with hollow pivoting sleeves; the bottom of the butterfly basin is provided with a connecting component, a small rotating pipe is arranged on the connecting component, and the small rotating pipe is inserted into the pin joint sleeve to complete pin joint.

In some embodiments, the mounting side plate is locked to the inner side wall of the cabinet body through screws, a screw hole is formed in the mounting side plate, and a decorative plastic cover for covering the screw hole is assembled on the mounting side plate.

In some embodiments, the first swing link and the second swing link are symmetrically distributed on the left and right of the installation side plate, the first swing link is located at a position close to the inside of the cabinet body after assembly, and the second swing link is located at a position close to the outside of the cabinet body; the butterfly basin is provided with a handle which is convenient for pulling the butterfly basin to rotate out of or into the cabinet body.

Known through foretell technical scheme, compare with prior art, the utility model discloses following beneficial effect has:

1. the integral structure of the butterfly basin in the utility model is directly assembled on the inner side wall of the cabinet body through the installation side plate, the butterfly basin structure is pre-installed in the whole assembling process, and then the installation side plate is fixed on the inner side wall of the cabinet body, the integral installing process is simple and quick, compared with the traditional double-stand column assembling mode, the complex steps of double-stand column installation are simplified, the assembly and disassembly are more convenient, and the efficiency is higher;

2. the utility model is provided with a buffer device, a damper of the buffer device is arranged on the first swing rod, a damper connecting rod is connected with the third swing rod, and the damper is triggered by the rotation of the third swing rod relative to the first swing rod, so that the third swing rod can swing slowly, and the butterfly basin can be slowly rotated out or rotated into the cabinet body;

3. the utility model discloses in be provided with spacing slider, be provided with the spout in the spacing slider, connect the plastics pivot on the third pendulum rod along the spout gliding, the spout is the multistage arc and connects the setting, forms the movement track that the butterfly basin rolled out, guides the rotation of butterfly basin effectively.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a schematic structural view of a corner drawer basket in the prior art;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a schematic view of the present invention from the bottom;

FIG. 4 is a schematic structural view of the linkage arm assembly in a closed state according to the present invention;

fig. 5 is a schematic structural view of the linkage arm set in the expanded state of the present invention;

fig. 6 is a schematic structural view of the exploded state of the present invention;

fig. 7A is a schematic structural view of the buffer device according to the present invention in an exploded state;

FIG. 7B is a schematic view of the structure of the butterfly basin of the present invention installed in the cabinet;

fig. 8 is a schematic structural view of the present invention assembled in a cabinet body;

FIGS. 9-13 are schematic views showing the process of the pull-out movement of the butterfly basin inside the cabinet body and out of the cabinet body;

fig. 14 is a schematic structural view of the utility model when one of the butterfly basins is rotated out of the cabinet body and the other butterfly basin is rotated into the cabinet body.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

In the description of the present application, it is to be understood that the terms "longitudinal", "radial", "length", "width", "thickness", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, are used in the positional or positional relationship indicated in the drawings for convenience in describing and simplifying the description, and do not indicate or imply that the apparatus or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application. In the description of the present application, "a plurality" means two or more unless otherwise specified.

Throughout the description of the present application, it is to be noted that, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

Referring to fig. 2-3, the corner butterfly basin structure includes a butterfly basin 100, a linkage arm set 200 mounted at the bottom of the butterfly basin 100, and a mounting side plate 240, wherein the butterfly basin 100 and the linkage arm set 200 are integrally mounted in a cabinet 300 through the mounting side plate 240.

The linkage arm set 200 assists the butterfly basin 100 to rotate into or out of the cabinet 300, the structure of the cabinet 300 is not shown in fig. 2-3, and the cabinet may be a cabinet with a general structure, without limitation.

Referring to fig. 4-6, the linkage arm assembly 200 includes: the first swing link 210, the second swing link 220 and the third swing link 230, the first swing link 210, the second swing link 220 and the third swing link 230 may swing to rotate the butterfly basin 100 out of or into the cabinet 300, and the mounting side plate 240 is used for stably mounting the whole butterfly basin structure in the cabinet 300. As shown in fig. 4, the linkage arm set 200 only needs to install the butterfly basin 100 in the linkage arm set 200, and then the installation side plate 240 is locked in the inner side wall of the cabinet body 300 through the upper screw, so that the whole assembly process is simple and convenient, and compared with the traditional corner pull-basket structure requiring two upright posts to be assembled in the cabinet body, the assembly is simpler and more efficient.

In some embodiments, the mounting between the mounting side plate 240 and the inner side wall of the cabinet 300 may be fixed by other fastening methods such as snap fastening, gluing, etc. besides the upper screw fixing method, but the upper screw fixing method is preferred in the present application.

The two flying saucer basins 100 in fig. 2 are distributed up and down, the bottom of each flying saucer basin 100 is provided with a linkage arm group 200, in this application, the upper linkage arm group 200 and the lower linkage arm group 200 are respectively connected with a mounting side plate 240, and a user can select the number of the flying saucer basins 100 to be mounted according to the size of a cabinet. But generally at least two fly bowls 100 are assembled such that each fly bowl 100 is assembled in turn within the cabinet 300.

In some embodiments, the mounting side plate 240 connected to the upper and lower linkage arm sets 200 may be integrated into a large mounting side plate, and in this way, when assembling, the two butterfly bowls 100 and the linkage arm sets 200 are assembled in advance, and the large mounting side plate is only required to be assembled on the inner side wall of the cabinet 300 at one time.

The first swing link 210 and the second swing link 220 are symmetrically distributed on the mounting side plate 240 in a left-right manner and are rotatably mounted on the mounting side plate 240, after assembly, the first swing link 210 is located in the cabinet 300 at an inner position, the second swing link 240 is located in the cabinet 300 at an outer position (i.e., a position close to the cabinet door), and the first swing link 210 and the second swing link 220 can horizontally rotate to drive the butterfly basin 100 to rotate.

Specifically, the open ends of the first swing link 210 and the second swing link 220 are pivoted on the installation side plate 240, pivoting lugs 241 are arranged on the left side and the right side of the installation side plate 240, pivoting sleeves 201 are formed at the open ends of the first swing link 240 and the second swing link 220, the pivoting sleeves 201 are clamped into the pivoting lugs 241, and pivoting is achieved through integral penetration of pivoting shafts. This realizes horizontal rotation of the first and second swing links 210 and 220.

The third swing link 230 is pivoted with the end of the first swing link 210, the two ends of the third swing link 230 are both formed with the pivoting sleeve 201, the end of the first swing link 210 is formed with the pivoting lug 202, the pivoting sleeve 201 at the opening end of the third swing link 230 is clamped into the pivoting lug 202 at the end of the first swing link 210, and the third swing link 230 can rotate around the pivoting position with the first swing link 210 by integrally penetrating through the pivoting shaft to realize pivoting.

In some embodiments, the pivoting manner between the first swing link 210 and the installation side plate 240, the second swing link 220 and the installation side plate 240, and the third swing link 230 and the first swing link 210 may be changed to other pivoting manners in the prior art, as long as the purpose of rotation can be achieved.

A buffer device 400 is arranged between the third swing link 230 and the first swing link 210, the buffer device 400 is used for buffering when the butterfly basin 100 rotates out of or into the cabinet body 300, and the buffer device 400 is triggered when the third swing link 230 rotates relative to the first swing link 210.

The buffer device 400 includes: the damper 410 is mounted on the first swing link 210, one end of the damper link 420 is connected to the damper 410, and the other end is connected to the third swing link 230, and when the third swing link 230 rotates, the damper link 420 is linked to trigger the damper 410.

In a further aspect, to facilitate installation of the damper 410, the damping device 400 may further have the following structure: the buffer device 400 includes: damper 410, damper link 420, damper housing 430, and damper slider 440 mounted in damper housing 430, damper 410 being mounted in damper slider 440, damper link 420 being connected to damper 410 within damper slider 440. The damper link 420 is pivotally connected to the pull rod 412 of the damper 410, and the damper link 420 is pivotally connected to the third swing link 230.

As shown in fig. 7A, specifically, the damper housing 430 is formed by combining an upper housing 431 and a lower housing 432 in an upper-lower structure, the upper housing 431 and the lower housing 432 can be fixed by upper screws, and a space for assembling a damper slider 440 is formed after combination; the damper sliding block 440 is also formed by combining an upper cover 441 and a lower cover 442 which have an upper structure and a lower structure, and the upper cover 441 and the lower cover 442 can be fixed through locking screws; the damper slider 440 has a mounting groove 443 formed thereon, a first stub shaft 421 is formed at an end of the damper link 420 connected to the damper 410, the first stub shaft 421 is connected to the pull rod 412 of the damper 410 and the first stub shaft 421 is sunk in the mounting groove 443, and the body 411 of the damper 410 is fixed in the damper housing 430, and the first stub shaft 421 slides along the mounting groove 443 to pull the pull rod 412.

The damper housing 430 may be directly locked to the side of the first swing link 210 by screws, or may be mounted to the side of the first swing link 210 by means of a snap.

In some embodiments, the damper 410 and the damper link 420 of the shock absorber 400 may be installed in a reversed manner, that is, the damper 410 is assembled to the third swing link 230, and the damper link 420 is connected to the first swing link 210.

As shown in fig. 5 and 6, the third swing link 230 is connected to the second swing link 220 through a limiting sliding device 500. The limit slide 500 includes: a sliding groove member 510 mounted on the second swing link 220 and a plastic rotating shaft 520 mounted on the third swing link 230, wherein a sliding groove 501 is formed inside the sliding groove member 510, and one end of the plastic rotating shaft 520 is limited in the sliding groove 501 and can slide along the groove.

In some embodiments, the chute member 510 may be an integral structure or a split structure, but the chute member 510 is required to have the chute 501 therein.

In a split embodiment, the chute member 510 comprises: the sliding chute comprises a sliding chute upper cover 511 and a sliding chute lower cover 512, wherein the sliding chute upper cover 511 and the sliding chute lower cover 512 are assembled up and down, groove bodies are formed on the corresponding inner walls of the sliding chute upper cover 511 and the sliding chute lower cover 512, the groove bodies are correspondingly combined to form the sliding chute 501 after the sliding chute upper cover 511 and the sliding chute lower cover 512 are buckled, an opening 502 communicated with the sliding chute 501 is formed in the sliding chute piece 510, and the plastic rotating shaft 520 enters the connecting sliding chute 501 from the opening 502. The sliding groove 501 is designed in an arc shape, is a curved track formed by connecting multiple sections of arc shapes, and can swing in cooperation with the rotation angle of the butterfly basin 100, and the structure of the sliding groove 501 is shown in fig. 8.

One end of the plastic rotating shaft 520 is fixed to the third swing link 230, and a second short shaft 521 is formed at one end of the snap-in sliding groove 501. The second stub shaft 521 is snapped into the slide channel 501 and slides along the channel.

In order that the plastic rotating shaft 520 is more stably assembled to the third swing link 23O, the plastic rotating shaft 520 may be mounted to the third swing link 230 in a half-clad manner and fastened with screws.

In some embodiments, it may also be: the limit slide 500 includes: a sliding groove member 510 mounted on the third swing link 220 and a plastic rotating shaft 520 mounted on the second swing link 230, wherein a sliding groove 501 is formed inside the sliding groove member 510, and one end of the plastic rotating shaft 520 is limited in the sliding groove 501 and can slide along the groove; namely, the chute member 510 and the plastic rotating shaft 520 are installed in a position-reversed manner.

The free ends of the second swing link 220 and the third swing link 230 are provided with hollow pivoting sleeves 201; the bottom of the butterfly basin 100 is connected with the second swing link 220 and the third swing link 230 by a connecting member 110, the connecting member 110 is provided with a small rotating pipe 120, and the small rotating pipe 120 is inserted into the corresponding pin joint sleeve 201 to complete pin joint.

The butterfly basin 100 is further provided with a handle 130 for pulling the butterfly basin 100 to rotate out of or into the cabinet 300. The handle 130 has a grip groove for forming a corresponding finger when being held.

As shown in fig. 7B and 8, the butterfly basin structure is mounted to the cabinet 300, and the mounting side plate 240 is screwed tightly on the inner side wall of the cabinet 300. As shown in fig. 6, the mounting side plate 240 is provided with a screw hole, and after the screw is assembled, the head of the screw is exposed outside, so that the appearance is influenced, and a decorative plastic cover 250 can be added on the mounting side plate 240 to cover the head of the screw, so that the mounting side plate is more attractive.

The following further describes the method of using the present product, as shown in fig. 8-13, to rotate the butterfly basin 100 out of the cabinet 300.

In fig. 8, the butterfly basin 100 is located in the cabinet 300, and is set to be in a closed state at this time, a connection point of the butterfly basin 100 and the second swing link 220 corresponds to a point a in the drawing, and a connection point of the butterfly basin 100 and the third swing link 230 corresponds to a point B in the drawing; in this state, the plastic rotating shaft 520 is located at the opening end of the sliding groove 501;

when the butterfly basin 100 starts to rotate and unfold in fig. 9, the butterfly basin 100 firstly rotates out of the cabinet 300 close to the opening of the cabinet 300, the third swing link 230 swings around the pivot with the first swing link 210, and the second short shaft 521 of the plastic rotating shaft 520 slides downwards along the sliding groove 501;

in fig. 10-12, during the process of continuously pulling out and unfolding the butterfly basin 100, the first swing link 210 and the second swing link 220 swing outwards at the same time, i.e. swing leftwards in the corresponding figures, while the second short shaft 521 of the plastic rotating shaft 520 continues to slide downwards along the sliding groove 501;

in fig. 13, the butterfly basin 100 is completely pulled out and unfolded, the first swing link 210 and the second swing link 220 swing to the left to the maximum state, and the second short shaft 521 of the plastic rotating shaft 520 slides to the end of the sliding slot 501.

Fig. 8-13 illustrate the deployment of the butterfly basin 100, but in the closed position, the reverse rotation is required.

As can be seen from fig. 8 to 13, when the butterfly basin 100 is in the closed state, a part of the butterfly basin 100 is located outside the cabinet 300, and the butterfly basin 100 cannot directly rotate along a complete arc, and needs a certain angle of rotation to be fully unfolded. The sliding slot 501 in the limit sliding device 500 defines the swing track of the butterfly basin 100, so that the butterfly basin 100 can rotate to the outside of the cabinet 300 along the correct track.

As shown in fig. 14, the butterfly basin is mounted inside the cabinet 300. The two butterfly basin structures are respectively installed on the inner side wall of the cabinet body 300 through the installation side plates 240, and the two butterfly basin structures are independent and do not interfere with each other. In fig. 14, one of the butterfly basins 100 is rotated out of the cabinet body, and the other butterfly basin 100 is stored in the cabinet body, so that when the multifunctional cabinet is used, a user can rotate out the butterfly basins randomly according to requirements.

In different applications, the number of the butterfly basins 100 installed in the cabinet 300 may be different, or may be three, four, or the like.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. The corner flying saucer basin structure is installed in the cabinet body, its characterized in that: the method comprises the following steps:

the butterfly basin is used for accommodating kitchen ware;

the linkage arm group is arranged at the bottom of the flying saucer basin, and the swinging of the linkage arm group is used for assisting the flying saucer basin to rotate out of or into the cabinet body;

the linkage arm group is connected with the mounting side plate;

the flying saucer and the linkage arm group are integrally arranged on the inner side wall of the cabinet body by taking the mounting side plate as a support.

2. The corner flying saucer structure of claim 1, wherein: the linkage arm group include: the first swing rod, the second swing rod and the third swing rod are connected with the mounting side plate; the first swing rod and the second swing rod are pivoted on the mounting side plate and can swing horizontally;

the bottom of the butterfly basin is supported at the free ends of the second swing rod and the third swing rod;

one end of the third swing rod is connected with the first swing rod, and a limiting sliding device used for limiting a swing track is arranged between the third swing rod and the second swing rod; and the limiting sliding device limits the swing track of the third swing rod to realize the arc-shaped corner swing of the butterfly basin.

3. The corner flying saucer structure of claim 2, wherein: a buffer device is arranged between the first swing rod and the third swing rod, and the buffer device is triggered when the third swing rod swings horizontally relative to the first swing rod, so that the third swing rod can swing slowly, and the butterfly basin can be slowly rotated out of or into the cabinet body.

4. The corner flying saucer structure of claim 3, wherein: the buffer device comprises: the damper is assembled on the first swing rod, the damper connecting rod is connected to the damper, one end of the damper connecting rod is connected to the third swing rod, and the damper connecting rod is pulled when the third swing rod swings to trigger the damper.

5. The corner flying saucer structure of claim 4, wherein: the buffer device further comprises: the damper comprises a damper shell and a damper sliding block arranged in the damper shell, wherein the damper is arranged in the damper sliding block, and a damper connecting rod is connected to the damper in the damper sliding block.

6. The corner flying saucer structure of claim 2, wherein: the limiting sliding device comprises: a sliding groove piece arranged on the second swing rod and a plastic rotating shaft arranged on the third swing rod; a sliding groove is formed in the sliding groove piece, and one end of the plastic rotating shaft is limited in the sliding groove and can slide along the sliding groove.

7. The corner flying saucer structure of claim 6, wherein: an opening communicated with the sliding chute is formed on the sliding chute piece, the plastic rotating shaft enters the connecting sliding chute from the opening, and the sliding chute is designed in an arc shape; and a short shaft is formed at one end of the plastic rotating shaft clamped in the sliding groove.

8. The corner flying saucer structure of claim 2, wherein: the free ends of the second swing rod and the third swing rod are provided with hollow pivoting sleeves; the bottom of the butterfly basin is provided with a connecting component, a small rotating pipe is arranged on the connecting component, and the small rotating pipe is inserted into the pin joint sleeve to complete pin joint.

9. The corner flying saucer structure of claim 1, wherein: the mounting side plate is locked on the inner side wall of the cabinet body through screws, a screw hole is formed in the mounting side plate, and a decorative plastic cover used for covering the screw hole is assembled on the mounting side plate.

10. The corner flying saucer structure of claim 2, wherein:

the first swing rod and the second swing rod are symmetrically distributed on the mounting side plate from left to right, the first swing rod is positioned at the inner position in the cabinet body after assembly, and the second swing rod is positioned at the outer position in the cabinet body;

the butterfly basin is provided with a handle which is convenient for pulling the butterfly basin to rotate out of or into the cabinet body.

Images