CN219794093U - Baffle and integrated water tank with double-layer structure - Google Patents

Abstract

The utility model relates to the technical field of kitchen equipment, in particular to a partition board with a double-layer structure and an integrated water tank, which comprises the following components: a first diaphragm assembly, a second diaphragm assembly; the first baffle plate component is movably connected with the second baffle plate component; the first baffle plate component is arranged in the water tank to separate the internal space of the water tank; the first baffle assembly is provided with a through hole communicated with the inner space of the water tank partitioned by the first baffle assembly, and the second baffle assembly moves relative to the first baffle assembly to open and close the through hole. According to the utility model, the first baffle plate assembly for separating the water tank is combined with the second baffle plate assembly serving as the draining board and the chopping board, so that the second baffle plate assembly is stored, the table top is not required to occupy space, and meanwhile, the effect of adjustable space in the water tank can be realized through the movement of the second baffle plate assembly relative to the first baffle plate assembly, the use requirement of a user can be fully met, and convenience is brought to the use of the user.

Description

Baffle and integrated water tank with double-layer structure

Technical Field

The utility model relates to the technical field of kitchen equipment, in particular to a partition plate with a double-layer structure and an integrated water tank.

Background

Along with the continuous development of economy, the living standard of people is continuously improved, and meanwhile, the requirements of people on the functions and the quality of kitchen furniture are also higher. Kitchen sinks are indispensable in the kitchen and take up considerable space. The water tank is usually made of stainless steel, ceramic or plastic, is arranged below the faucet, is convenient for a user to clean rags, various vegetable raw materials, pans, bowls and other objects, mainly plays a role in containing water generated by cleaning and guiding the water so that the water uniformly flows into a sewer pipe through a water outlet, and thus, the cleanness, the neatness and the sanitation of a kitchen are maintained.

At present, the sink is usually provided with a large sink body and a small sink body which are used for cleaning tableware and vegetables, and the effect is relatively single. The frequently used chopping boards, vegetable washing baskets, draining baskets and the like are independently placed on the table top, so that the kitchen is messy and untidy due to the fact that the large space of the kitchen is occupied. The basin is provided with chopping board, waterlogging caused by excessive rainfall basket etc. in the cooperation usually, and chopping board and waterlogging caused by excessive rainfall basket are all placed in the basin and are convenient for wash vegetables and cut dish, but when later washs the bowl dish, then need take out the chopping board and place on the mesa in kitchen, not only occupy the space of mesa, but also the water on the chopping board can also wet the mesa, and user experience is relatively poor. Meanwhile, when the chopping board can be stored in the water tank, the storage position of the chopping board can only serve as a storage carrier along with the extraction and the insertion of the chopping board, and the function is single.

And how to realize better and more functional combination of the sink and the chopping board is considered by the prior art.

Disclosure of Invention

The utility model aims to solve at least one technical problem in the background art and provides a partition plate with a double-layer structure and an integrated water tank.

In order to achieve the above object, the present utility model provides a partition board with a double-layer structure and an integrated water tank, comprising:

a first diaphragm assembly, a second diaphragm assembly;

the first baffle plate component is movably connected with the second baffle plate component;

the first baffle plate component is arranged in the water tank to separate the internal space of the water tank;

the first baffle assembly is provided with a through hole communicated with the inner space of the water tank partitioned by the first baffle assembly, and the second baffle assembly moves relative to the first baffle assembly to open and close the through hole.

Preferably, a receiving groove is provided on the first partition plate assembly;

the second baffle plate component is movably connected in the accommodating groove to open and close the through hole.

Preferably, the through hole is circumferentially closed, and the through hole communicates with the accommodating groove.

Preferably, the outer edge of the first baffle plate assembly and the inner wall of the water tank enclose the through hole.

Preferably, the through hole is communicated with the accommodating groove, and the first baffle plate assembly is detachably connected with the water tank.

Preferably, the second baffle assembly comprises an inner body and a sealing member, wherein the sealing member is mounted on the inner body, and the inner body is in interference abutting joint with the inner wall of the water tank through the sealing member.

Preferably, the first partition assembly includes an outer body provided with a notch communicating the inside and the outside of the receiving groove, and a sealing member covering the notch, the through hole being formed between the sealing member and the inner wall of the tub;

when the second partition plate assembly is inserted into the accommodating groove, the second partition plate assembly penetrating through the notch and located outside the accommodating groove drives the sealing member to be in contact with the inner wall of the water tank so as to cover the through hole.

Preferably, the first baffle assembly comprises an elastic member, and the second baffle assembly comprises a limit groove;

or, the first baffle plate component comprises a limit groove, and the second baffle plate component comprises an elastic piece;

the elastic piece or the limiting groove moves along with the second baffle plate assembly, and when the elastic piece moves into the limiting groove, the elastic piece is in an extending state and limits the second baffle plate assembly to move relative to the first baffle plate assembly;

when the elastic piece moves out of the limit groove, the elastic piece is in a compressed state, and the second baffle plate assembly moves relative to the first baffle plate assembly.

Preferably, the second baffle plate assembly is provided with a pressing plate and a sliding block, the first baffle plate assembly is provided with a limiting groove, and the pressing plate is elastically connected with the sliding block;

when the limiting groove corresponds to the sliding block, the pressing plate is in an extending state, and the sliding block is extruded to enter the limiting groove to limit the second baffle plate assembly to move relative to the first baffle plate assembly;

the pressing plate is in a pressing state, the sliding block moves out of the limiting groove, and the second baffle plate assembly moves relative to the first baffle plate assembly.

Preferably, the first baffle assembly is disposed immediately adjacent to the second baffle assembly;

the through hole is arranged on the side surface of the first baffle plate component;

the second diaphragm assembly seals and covers the through hole when the second diaphragm assembly is in full contact with the first diaphragm assembly.

Preferably, the first baffle assembly is detachably connected with the inner wall of the water tank.

In order to achieve the above object, the present utility model further provides an integrated water tank, including the partition plate having a double-layer structure as described in any one of the above.

Based on the above, the utility model has the beneficial effects that:

1. according to the scheme, the partition plate comprises the first partition plate component and the second partition plate component, the first partition plate component is positioned in the water tank, the water tank can be divided into two independent small water tanks and can be used independently, meanwhile, through holes are formed in the first partition plate component, communication between the two small water tanks can be achieved through the through holes, the first partition plate component is movably connected with the second partition plate component, through the movement of the second partition plate component relative to the first partition plate component, the second partition plate component can seal or open the through holes, and further selective communication between the two small water tanks is achieved, and the partition plate is used for freely controlling the size of the inner space of the water tank through controlling the second partition plate component, so that various use requirements are met;

2. according to the scheme, the first baffle plate component is provided with the accommodating groove, the through holes can be formed in the side wall of the accommodating groove, the circumference of the through holes is closed, and the second baffle plate component is inserted into and pulled out of the accommodating groove, so that the through holes are covered and uncovered, and further the through holes are opened and closed; meanwhile, the outer edge of the first baffle plate assembly and the inner wall of the water tank can be mutually surrounded, the second baffle plate assembly is inserted into the accommodating groove and penetrates through the through hole, so that the second baffle plate assembly is in interference abutting joint with the inner wall of the water tank, and the through hole is sealed;

3. according to the scheme provided by the utility model, the accommodating groove is formed in the first baffle plate assembly, the second baffle plate assembly is positioned in the accommodating groove, the elastic piece and the limiting groove are formed between the accommodating groove and the second baffle plate assembly, when the elastic piece is positioned in the limiting groove, the movement of the second baffle plate assembly can be limited, so that the second baffle plate assembly is accommodated in the first baffle plate assembly and is not easy to take out, when a user needs to use the second baffle plate assembly, the second baffle plate assembly can be pulled out forcefully, so that the elastic piece is positioned outside the limiting groove, and the second baffle plate assembly can move relative to the first baffle plate assembly, so that the pulling out is realized;

4. according to the scheme, the pressing plate and the sliding block are arranged on the second baffle plate assembly, the pressing plate is elastically connected with the sliding block, the limiting groove is formed in the first baffle plate assembly, when the second baffle plate assembly is inserted into the accommodating groove and moves along the inner wall of the accommodating groove, the sliding block corresponds to the limiting groove, if the pressing plate is in an extending state, the pressing plate extrudes the sliding block, so that the sliding block moves into the limiting groove, and the limiting groove limits the movement of the second baffle plate assembly; if the pressing plate is in a pressing state, the sliding block moves out of the limiting groove due to the elastic action and does not limit the movement of the second baffle plate assembly, so that the second baffle plate assembly can move relative to the first baffle plate assembly;

5. according to the scheme, the first baffle plate assembly can be closely adjacent to the second baffle plate assembly, and when the second baffle plate assembly is in complete contact with the first baffle plate assembly after moving relative to the first baffle plate assembly, the second baffle plate assembly can seal and cover the through holes arranged on the side wall of the first baffle plate assembly, so that the through holes can be selectively opened and closed to be communicated with the separated inner space of the water tank;

6. according to the scheme provided by the utility model, the first baffle plate assembly is detachably connected with the inner wall of the water tank, and a user can freely adjust the size of the partitioned space of the inner wall of the water tank by changing the position of the first baffle plate assembly in the water tank, so that convenience is brought to the use of the user.

Drawings

FIG. 1 schematically illustrates a schematic structure of an integrated sink according to an embodiment of the present utility model;

FIG. 2 schematically illustrates a first separator plate assembly according to an embodiment of the present utility model;

FIG. 3 schematically illustrates a first embodiment of a via formation structure according to an embodiment of the present utility model;

FIG. 4 schematically shows a structure of a second forming method of the through hole according to an embodiment of the present utility model;

FIG. 5 schematically illustrates a structural view of an outer body and seal in accordance with one embodiment of the present utility model;

FIG. 6 schematically illustrates a structure of an elastic member and a limiting groove according to an embodiment of the present utility model;

FIG. 7 schematically illustrates a platen and slider configuration in accordance with one embodiment of the present utility model;

FIG. 8 schematically illustrates a close-up view of FIG. 7 in accordance with one embodiment of the present utility model;

fig. 9 schematically shows a state of use of the integrated water tank according to an embodiment of the present utility model.

Detailed Description

The present disclosure will now be discussed with reference to exemplary embodiments. It should be understood that the embodiments discussed are merely to enable those of ordinary skill in the art to better understand and thus practice the teachings of the present utility model and do not imply any limitation on the scope of the utility model.

As used herein, the term "comprising" and variants thereof are to be interpreted as meaning "including but not limited to" open-ended terms. The term "based on" is to be interpreted as "based at least in part on". The terms "one embodiment" and "an embodiment" are to be interpreted as "at least one embodiment.

Fig. 1 schematically illustrates a structure of an integrated water tank according to an embodiment of the present utility model, and fig. 2 schematically illustrates a structure of a first diaphragm assembly according to an embodiment of the present utility model, as shown in fig. 1 and 2, a diaphragm having a double-layered structure according to the present utility model includes:

a first diaphragm assembly 10, a second diaphragm assembly 20;

the first baffle plate assembly 10 is movably connected with the second baffle plate assembly 20;

the first diaphragm assembly 10 is disposed within the tub to divide the tub interior space;

the first diaphragm assembly 10 is provided with a through hole 101 communicating with the inside space of the water tank partitioned by the first diaphragm assembly 10, and the second diaphragm assembly 20 moves relative to the first diaphragm assembly 10 to open and close the through hole 101.

Specifically, the first baffle assembly 10 is located in the water tank, is in interference fit with the inner wall of the water tank, can divide the inner space of the water tank into two parts, is not communicated with each other, can be used independently, and meets diversified use requirements of users.

Meanwhile, a plurality of through holes 101 are formed in the first partition plate assembly 10, when the through holes 101 are not sealed and blocked, the through holes 101 can be communicated with the two water tank inner spaces separated by the first partition plate assembly 10, and when the through holes 101 are sealed and blocked, the two divided water tank inner spaces are not communicated with each other and can be used independently.

The utility model also provides a second baffle assembly 20 which is combined with the first baffle assembly 10, the second baffle assembly 20 can be used as a chopping board, a draining board, a thawing board and the like, in the prior art, tools such as the chopping board and the like are stored on the integrated water tank table surface when not used, the kitchen is occupied with a large space, the table surface is wetted, a user is required to clean frequently, the kitchen is inconvenient, the chopping board and the like are combined with the water tank in the prior art, and the chopping board is stored in the water tank, so that the chopping board can be arranged in a place without occupying the space of the integrated water tank, but the kitchen is simply stored in the water tank, and the kitchen has only a storing function and is single.

The utility model combines the second baffle assembly 20 used as a chopping board, a draining board and the like with the first baffle assembly 10 used for separating the space of the water tank, so that the second baffle assembly 20 can be stored, and meanwhile, the second baffle assembly 20 can move relative to the first baffle assembly 10, so as to control whether the through holes 101 on the first baffle assembly 10 are sealed, and further, the size of the space in the water tank can be freely regulated, so that the second baffle assembly 20 not only has the function of being stored, but also has the function of freely separating the space in the water tank after being combined with the water tank, and the multifunction is realized.

Further, as shown in fig. 2:

in the above description, the first partition assembly 10 is movably connected with the second partition assembly 20, which may have various connection manners, and the first manner is:

a receiving groove 102 is provided on the first separator assembly 10;

the second partition assembly 20 is movably connected in the receiving groove 102.

In this way, the second partition board assembly 20 can be stored in the first partition board assembly 10, and because the through holes 101 are formed in the first partition board assembly 10, when the second partition board assembly 20 is inserted into the first partition board assembly 10, the through holes 101 are gradually blocked and sealed along with the insertion of the second partition board assembly 20, and when the second partition board assembly 20 blocks all the through holes 101, the inner space of the water tank separated by the first partition board assembly 10 cannot be communicated, so that two independent small water tanks are formed, and can be used by users individually.

When the second baffle assembly 20 is taken out, the through hole 101 is not sealed by the second baffle assembly 20 any more, the water tank inner space separated by the first baffle assembly 10 is communicated through the through hole 101, fluid in the water tank can enter the water tank on the other side from one side of the first baffle assembly 10 through the through hole 101, the fluid in the water tank on one side can be rapidly discharged in the mode, and meanwhile, after a water outlet in the water tank on one side is blocked, the fluid can be discharged from the other side in the mode, so that normal use of a user can not be influenced.

Meanwhile, further, the through hole 101 is located on the first partition board assembly 10, which may also have various implementation manners, and fig. 3 schematically illustrates a structural schematic diagram of a first forming manner of the through hole according to an embodiment of the present utility model, and as shown in fig. 3, the first implementation manner of the through hole 101 is:

the through hole 101 is circumferentially closed, and the through hole 101 communicates with the accommodation groove 102.

Specifically, the through hole 101 is disposed on the accommodating groove 102 and is located on a side wall of the accommodating groove 102, and the through hole 101 is circumferentially closed, forming a hole by itself.

In this way, when the second diaphragm assembly 20 is inserted into the receiving groove 102, the second diaphragm assembly 20 covers the through hole 101 on the sidewall of the receiving groove 20, thereby sealing the through hole 101 to form two sink inner spaces partitioned by the first diaphragm assembly 10.

Further, fig. 4 schematically illustrates a structural diagram of a second forming manner of the through hole according to an embodiment of the present utility model, and as shown in fig. 4, the second implementation manner of the through hole 101 is as follows:

the outer edge of the first diaphragm assembly 10 encloses a through hole 101 with the inner wall of the water tank.

Specifically, an arc-shaped groove is formed on the outer edge of the first partition board assembly 10, the arc-shaped groove is communicated with the containing groove 102, and when the first partition board assembly 10 is abutted against the inner wall of the water tank, a hole is formed between the inner wall of the arc-shaped groove and the inner wall of the water tank, and is a through hole 101.

In this way, after the second diaphragm assembly 20 is inserted into the receiving groove 102, as the second diaphragm assembly 20 moves downward, the second diaphragm assembly 20 passes through the through hole 101, so that the second diaphragm assembly 20 abuts against the inner wall of the water tank, thereby sealing the through hole 101, and further forming two water tank inner spaces partitioned by the first diaphragm assembly 10.

Further, the through hole 101 is communicated with the accommodating groove 102, and the first partition plate assembly 10 is detachably connected with the water tank;

the opening of the accommodating groove 102 is located at a side of the accommodating groove 102 communicating with the through hole 101.

So configured, since the accommodating groove 102 is provided on the first diaphragm assembly 10 such that a certain space exists between the accommodating groove 102 and the outer edge of the first diaphragm assembly 10, if the through hole 101 is defined between the side wall of the first diaphragm assembly 101 and the inner wall of the water tank and the second diaphragm assembly 20 is inserted into the accommodating groove 102 from the top of the first diaphragm assembly 10, the second diaphragm assembly 20 cannot abut against the inner wall of the water tank even though passing through the through hole 101 as the second diaphragm assembly 20 is inserted, and thus the through hole 101 cannot be sealed;

therefore, only if the opening of the accommodating groove 102 is formed on the same side of the through hole 101 formed by the first partition board assembly 10 and the inner wall of the water tank, after the second partition board assembly 20 is inserted into the accommodating groove 102, the exposed end of the second partition board assembly is abutted against the inner wall of the water tank to seal the through hole 101, while the through hole 101 is formed by enclosing the first partition board assembly 10 and the inner wall of the water tank, when the first partition board assembly 10 is positioned in the water tank, the second partition board assembly 20 cannot be inserted into the accommodating groove 102, so that the first partition board assembly 10 and the water tank are detachably connected, and when the first partition board assembly 10 is in a detached state, the second partition board assembly 20 is inserted into the accommodating groove 102 and then is inserted into the water tank together to separate the inner space of the water tank.

Further, in the second implementation of the through hole 101, how to seal the through hole, it is also provided with two implementations, in the first sealing of the through hole 101:

the second diaphragm assembly 20 includes an inner body and a seal mounted on the inner body, the inner body being in interference abutment with the inner wall of the sink via the seal.

After the inner main body is inserted into the accommodating groove 102, the first partition board assembly 10 is inserted into the water tank again, and at this time, the sealing piece on the inner main body is in interference abutting connection with the inner wall of the water tank, so that the through hole 101 surrounded by the first partition board assembly 10 and the inner wall of the water tank is sealed, and the inner space of the water tank is partitioned.

Further, fig. 5 schematically illustrates a schematic structure of the outer body and the seal according to an embodiment of the present utility model, as shown in fig. 5, in a second sealing manner of the through hole 101:

the first diaphragm assembly 10 includes an outer body 103 and a sealing member 104, the receiving groove 102 is provided on the outer body 103, the outer body 103 is provided with a gap 1031 communicating the inside and the outside of the receiving groove 102, the sealing member 104 covers the gap 1031, and the through hole 101 is formed between the sealing member 104 and the inner wall of the water tank;

when the second diaphragm assembly 20 is inserted into the receiving groove 102, the second diaphragm assembly 20 passing through the notch 1031 and located outside the receiving groove 102 drives the sealing member 104 into contact with the inner wall of the water tub to cover the through hole 101.

Specifically, the accommodating groove 102 is formed in the outer body 103, meanwhile, a notch 1031 is formed in the outer body 103, the shape of the notch 1031 can be arc-shaped, the notch 1031 communicates the outside of the outer body 103 with the inside of the accommodating groove 102, a sealing piece 104 is arranged on one side, facing the inner wall of the water tank, of the notch 1031, the sealing piece 104 seals the notch 1031, and the sealing piece 104 can be made of elastic materials.

After the second partition board assembly 20 is inserted into the accommodating groove 102, and after the second partition board assembly 20 moves to the notch 1031, the sealing member 104 is touched, the sealing member 104 is pressed in a direction approaching to the water tank, so that the sealing member 104 is in interference abutting connection with the inner wall of the water tank, and the through hole 101 is sealed, so that separation of the inner space of the water tank is realized.

Further, in the third mode of forming the through holes 101, as shown in fig. 2, the above two modes of disposing the through holes 101 may be combined so that both the through holes 101 on the side wall of the first separator assembly 10 and the through holes 101 on the edge of the first separator assembly 10 are disposed on the first separator assembly 10;

when the second diaphragm assembly 20 is inserted into the receiving groove 102, the through holes 101 on the side wall and edge of the first diaphragm assembly 10 can be sealed at the same time, thereby realizing the separation of the inner space of the water tank.

Further, fig. 6 schematically illustrates a schematic structural diagram of an elastic member and a limiting groove according to an embodiment of the present utility model, as shown in fig. 6:

the first baffle assembly 10 comprises an elastic piece 30, the second baffle assembly 20 comprises a limit groove 40, or the first baffle assembly 10 comprises a limit groove 40, and the second baffle assembly 20 comprises an elastic piece 30;

the elastic member 30 moves into the limit groove 40, and the elastic member 30 is in an extended state to limit the movement of the second diaphragm assembly 20 relative to the first diaphragm assembly 10;

the elastic member 30 moves out of the limit groove 40, the elastic member 30 is in a compressed state, and the second diaphragm assembly 20 moves relative to the first diaphragm assembly 10.

Specifically, the end of the elastic member 30 near the limiting groove 40 is arc-shaped, and the end of the elastic member 30 extends in the direction near the limiting groove 40 and protrudes to the mounting surface;

the limit groove 40 is provided as an arc-shaped groove recessed on the mounting surface thereof in a direction away from the elastic member 30.

The elastic member 30 is made of elastic material and has elasticity, when the second partition plate assembly 20 is inserted into the accommodating groove 102, the elastic member 30 is pressed by the inner wall of the accommodating groove 102 or the outer edge of the second partition plate assembly 20, so that the elastic member 30 is compressed, and is in a compressed state, and the elastic member 30 is positioned outside the limit groove 40;

along with the movement of the second partition board assembly 20, when the elastic piece 30 moves to correspond to the limit groove 40, the elastic piece 30 is not extruded any more, and can recover to the original state due to the elastic action of the elastic piece 30, so that the end part of the elastic piece 30 stretches to the direction close to the limit groove 40, and then the end part of the elastic piece 30 enters into the arc-shaped groove of the limit groove 40, at the moment, the elastic piece 30 is in the stretching state, when the second partition board assembly 20 continues to move, the end part of the elastic piece 30 is blocked by the groove wall of the limit groove 40, so that the second partition board assembly 20 cannot continue to move, and at the moment, the second partition board assembly 20 is inserted into the deepest part of the accommodating groove 102, so that the second partition board assembly 20 is accommodated.

The setting of elastic component 30 and spacing recess 40 can make second baffle subassembly 20 accomodate in holding tank 102 can not be taken out easily, can realize fine fixed effect, and when second baffle subassembly 20 need use again, then need the user to use great power to pull second baffle subassembly 20 for elastic component 30 takes place deformation after being extruded by spacing recess 40's cell wall, makes elastic component 30 be in compression state again, no longer restricts the removal of second baffle subassembly 20, makes second baffle subassembly 20 can take out.

Meanwhile, the elastic piece 30 can be provided as a spherical sliding block and a spring, the spherical sliding block and the spring are positioned in the second partition plate assembly 20, when the elastic piece 30 is positioned outside the limiting groove 40, the spring is compressed, so that the spherical sliding block is retracted into the second partition plate assembly 20, and the second partition plate assembly is convenient to move; when the second partition board assembly 20 moves to the position where the spherical sliding block corresponds to the limit groove 40, the spring stretches to push the spherical sliding block to enter the limit groove 40, so that the second partition board assembly 20 is limited to move relative to the first partition board assembly 10; when the second partition board assembly 20 wants to move again, the user can draw the second partition board assembly 20 with a larger force, so that the limiting groove 40 extrudes the spherical sliding block, and the spring is compressed, and the movement of the second partition board assembly 20 is realized.

Further, fig. 7 schematically illustrates a structural diagram of a platen and a slider according to an embodiment of the present utility model, and fig. 8 schematically illustrates a partial enlarged view of fig. 6 according to an embodiment of the present utility model, as shown in fig. 7 and 8:

the above-mentioned limit structure may also be that a pressing plate 50 and a sliding block 60 are disposed on the second partition board assembly 20, a limit groove 40 is disposed on the first partition board assembly 10, and the pressing plate 50 is elastically connected with the sliding block 60;

when the limit groove 40 corresponds to the slide block 60 and the pressing plate 50 is in the stretching state, the pressing plate 50 presses the slide block 60 into the limit groove 40 to limit the second partition plate assembly 20 to move relative to the first partition plate assembly 10;

when the pressing plate 50 is in a pressed state, the sliding block 60 moves out of the limiting groove 40, and the second partition assembly 20 moves relative to the first partition assembly 10.

Specifically, as shown in fig. 8, the pressing plate 50 is connected with the second partition plate assembly 20 through a spring, and can vertically move up and down relative to the second partition plate assembly 20, a spring and a pressing block 70 are arranged between the pressing plate 50 and the sliding block 60, the pressing block 70 is arranged close to the pressing plate 50, and the spring is arranged close to the sliding block 60;

one end of the extrusion block 70 close to the sliding block 60 is a flat surface, one end close to the pressing plate 50 is a slope, and the slope direction of the slope is inclined from the two ends of the second partition plate assembly 20 to the center;

and the pressing plate 50 is slidably coupled to the inclined surface of the pressing block 70.

When the pressing plate 50 is in the stretching state, the pressing plate 50 touches one end of the pressing block 70 close to the center of the second partition plate assembly 20, so that the pressing block 70 presses the pressing block 70, the pressing block 70 presses the spring and then the sliding block 60 moves towards the direction close to the limit groove 40, so that the sliding block 60 enters the limit groove 40, and the movement of the second partition plate assembly 20 is limited;

when the pressing plate 50 is pressed downwards, the pressing plate 50 is in a pressing state, the pressing plate 50 moves downwards, the length of the pressing plate 50 is fixed, one surface of the pressing block 70, which is close to the pressing plate 50, is set to be an inclined surface, and after the pressing plate 50 moves downwards, the pressing block 70 is dragged towards a direction close to the center of the second partition plate assembly 20 due to the sliding connection between the pressing plate 50 and the pressing block 70, so that the sliding block 60 moves out of the limiting groove 40, and the second partition plate assembly 20 can move.

Further, in the second connection mode of the first separator plate assembly 10 and the second separator plate assembly 20:

the first diaphragm assembly 10 is disposed immediately adjacent to the second diaphragm assembly 20;

the through hole 101 is provided at a side of the first separator assembly 10;

the second diaphragm assembly 20 seals and covers the through hole 101 when fully contacting the first diaphragm assembly 10.

Specifically, in this manner, the first diaphragm assembly 10 may be slidably connected to the second diaphragm assembly 20, so that the second diaphragm assembly 20 can vertically move up and down with respect to the first diaphragm assembly 10, and the through hole 101 on one side of the first diaphragm assembly 10 is hermetically covered, thereby realizing separation of the interior space of the sink;

the first baffle assembly 10 can be further rotationally connected with the second baffle assembly 20, a rotating piece is arranged at one end, far away from the bottom of the water tank, of the side face of the first baffle assembly 10, the rotating piece can be a hinge, one face of the hinge is fixedly connected with the side face of the first baffle assembly 10, the other face of the hinge is fixedly connected with the side face of the second baffle assembly 20, the second baffle assembly 20 can be turned upwards through the hinge, and then the opening and the closing of the through holes are realized, so that the space in the water tank is separated.

Further, in all the above embodiments, the first partition board assembly 10 may be detachably connected to the inner wall of the water tank, so that the installation position of the first partition board assembly 10 in the water tank can be moved, the separated water tank inner space can be controlled, and convenience is brought to the user.

Furthermore, the utility model also provides an integrated water tank, and the integrated water tank is provided with the partition plate with the double-layer structure.

Further, fig. 9 schematically illustrates a usage state of the integrated sink according to an embodiment of the present utility model, as shown in fig. 9, the second partition board assembly 20 according to the present utility model may be used as a chopping board, a thawing board, etc., one surface of the second partition board assembly 20 is set to be a flat surface 201, and the other surface is provided with a diversion trench 202, so that one board of the second partition board assembly 20 can be used for both purposes, and after the second partition board assembly 20 is drawn out of the accommodation trench 102, the second partition board assembly 20 is turned over, and one end of the second partition board assembly 20 is overlapped with the edge of the sink, and the other end is overlapped with the opening of the accommodation trench 102, and is horizontally placed, so that the flat surface 201 of the second partition board assembly 20 or the surface with the diversion trench 202 is exposed for a user to use; and the setting of first baffle subassembly 10 has then realized the accomodating effect of chopping board, thawing plate, avoids the user directly to place chopping board, thawing plate on the mesa of integrated basin, and then is wet the mesa, needs the frequent clearance of user.

In summary, the first partition board assembly 10 for separating the inner space of the water tank is improved, the second partition board assembly 20 serving as a chopping board and a draining board is combined with the first partition board assembly, so that the second partition board assembly 20 can be stored, whether the first partition board assembly 10 separates the inner space of the water tank or not can be controlled through the second partition board assembly 20, and meanwhile, the first partition board assembly 10 is detachably connected with the inner wall of the water tank, so that the inner space of the water tank can be freely adjusted, further, the requirements of users can be fully met, and convenience is brought to the use of the users.

The above description is only illustrative of the preferred embodiments of the present utility model and of the principles of the technology employed. It will be appreciated by persons skilled in the art that the scope of the utility model referred to in the present utility model is not limited to the specific combinations of the technical features described above, but also covers other technical features formed by any combination of the technical features described above or their equivalents without departing from the inventive concept. Such as the above-mentioned features and the technical features disclosed in the present utility model (but not limited to) having similar functions are replaced with each other.

It should be understood that, the sequence numbers of the steps in the summary and the embodiments of the present utility model do not necessarily mean the order of execution, and the execution order of the processes should be determined by the functions and the internal logic, and should not be construed as limiting the implementation process of the embodiments of the present utility model.

Claims (12)

1. A separator having a double-layered structure, comprising:

a first diaphragm assembly, a second diaphragm assembly;

the first baffle plate component is movably connected with the second baffle plate component;

the first baffle plate component is arranged in the water tank to separate the internal space of the water tank;

the first baffle assembly is provided with a through hole communicated with the inner space of the water tank partitioned by the first baffle assembly, and the second baffle assembly moves relative to the first baffle assembly to open and close the through hole.

2. The separator having a double-layered structure according to claim 1, wherein a receiving groove is provided on the first separator assembly;

the second baffle plate component is movably connected in the accommodating groove to open and close the through hole.

3. The separator having a double-layered structure according to claim 2, wherein the through hole is closed circumferentially, the through hole communicating with the accommodation groove.

4. The separator having a double-layered structure according to claim 2, wherein an outer edge of the first separator assembly and the inner wall of the water tank enclose the through hole.

5. The separator having a double-layered structure according to claim 4, wherein the through hole communicates with the receiving groove, and the first separator assembly is detachably connected with the water tank;

the opening of the accommodating groove is positioned at one side of the accommodating groove communicated with the through hole.

6. The separator plate having a double-layered structure according to claim 5, wherein the second separator plate assembly includes an inner body and a seal member, the seal member being mounted on the inner body, the inner body being in interference abutment with the inner wall of the water tank through the seal member.

7. The separator having a double-layered structure according to claim 4, wherein the first separator assembly includes an outer body on which the accommodation groove is provided, the outer body being provided with a notch communicating an inside and an outside of the accommodation groove, and a seal member covering the notch, the through-hole being formed between the seal member and the inner wall of the water tank;

when the second partition plate assembly is inserted into the accommodating groove, the second partition plate assembly penetrating through the notch and located outside the accommodating groove drives the sealing member to be in contact with the inner wall of the water tank so as to cover the through hole.

8. The separator having a double-layered structure according to claim 2, wherein the first separator assembly includes an elastic member, and the second separator assembly includes a limit groove;

or, the first baffle plate component comprises a limit groove, and the second baffle plate component comprises an elastic piece;

the elastic piece or the limiting groove moves along with the second baffle plate assembly, and when the elastic piece moves into the limiting groove, the elastic piece is in an extending state and limits the second baffle plate assembly to move relative to the first baffle plate assembly;

when the elastic piece moves out of the limit groove, the elastic piece is in a compressed state, and the second baffle plate assembly moves relative to the first baffle plate assembly.

9. The separator having a double-layer structure according to claim 2, wherein the second separator assembly is provided with a pressing plate and a slider, the first separator assembly is provided with a limit groove, and the pressing plate is elastically connected with the slider;

when the limiting groove corresponds to the sliding block, the pressing plate is in an extending state, and the sliding block is extruded to enter the limiting groove to limit the second baffle plate assembly to move relative to the first baffle plate assembly;

the pressing plate is in a pressing state, the sliding block moves out of the limiting groove, and the second baffle plate assembly moves relative to the first baffle plate assembly.

10. The separator plate having a double-layered structure according to claim 1, wherein the first separator plate assembly is disposed in close proximity to the second separator plate assembly;

the through hole is arranged on the side surface of the first baffle plate component;

the second diaphragm assembly seals and covers the through hole when the second diaphragm assembly is in full contact with the first diaphragm assembly.

11. The separator having a double-layered structure according to claim 1, wherein the first separator assembly is detachably connected to the inner wall of the water tank.

12. An integrated sink comprising a partition plate having a double layer structure according to any one of the preceding claims 1-11.