CN216286328U - Adjustable overflow outlet structure - Google Patents

Abstract

The utility model discloses an adjustable overflow outlet structure which comprises a cover plate and a connecting assembly, wherein the connecting assembly comprises a bottom plate and a connecting rod, the bottom plate is abutted against a first side of a side wall of a containing device, the edge of a main plate of the cover plate is provided with a side wall of the cover plate which extends outwards perpendicularly, the side wall of the cover plate is abutted against a second side of the side wall of the containing device, and the connecting rod penetrates through the side wall of the containing device and is used for movably connecting the bottom plate and the main plate of the cover plate; an overflow port is formed in the area range on the side wall of the containing device formed by the side wall of the cover plate in a surrounding manner, and a first flow guide port is also formed in the side wall of the cover plate; the positions of the overflow ports on the side wall of the accommodating device and the corresponding positions of the bottom plate abutting against the side wall of the accommodating device are staggered; the cover plate can rotate and adjust to move the lowest water inlet position of the first diversion port to different heights. The technical scheme of the utility model has wide adjustment range, and can flexibly and effectively control the liquid level height in the accommodating device; and the structure fault rate is lower, and the stability is strong.

Description

Adjustable overflow outlet structure

Technical Field

The utility model relates to the technical field of liquid storage containers, in particular to an adjustable overflow outlet structure.

Background

At present, the height of the liquid level is adjusted and controlled by controlling the entering amount of liquid by using a floating ball valve in the market, and advanced electronic liquid level switches and other modes are available; however, some of the methods are not stable, faults are easy to occur, and some devices are high in cost and cannot be popularized generally.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an adjustable overflow outlet structure, aiming at ensuring wide liquid level adjusting range and flexibly and effectively controlling the liquid level height in a containing device.

The above problems to be solved by the present invention are achieved by the following technical solutions:

an adjustable overflow outlet structure comprises a cover plate and a connecting assembly, wherein the connecting assembly comprises a bottom plate and a connecting rod, the bottom plate is abutted against a first side of a side wall of a containing device, the edge of a cover plate main plate is provided with a cover plate side wall extending outwards perpendicularly, the cover plate side wall is abutted against a second side of the side wall of the containing device, and the connecting rod penetrates through the side wall of the containing device and is used for movably connecting the bottom plate and the cover plate main plate;

an overflow port is formed in the area range on the side wall of the containing device formed by the side wall of the cover plate in a surrounding manner, and a first flow guide port is also formed in the side wall of the cover plate; the positions of the overflow ports on the side wall of the accommodating device and the corresponding positions of the bottom plate abutting against the side wall of the accommodating device are staggered;

the cover plate can be rotated and adjusted to move the lowest water inlet position of the first diversion port to different heights.

Preferably, the adjustable overflow outlet structure further comprises an adjusting retaining member, the adjusting retaining member is movably connected to one end of the connecting rod penetrating through the cover plate main plate, and the adjusting retaining member can limit and abut against the cover plate side wall at different positions of the second side of the accommodating device side wall.

Preferably, the adjusting locking piece comprises a butterfly nut, and the butterfly nut and the connecting rod are connected into a whole through threads.

Preferably, the cover plate main plate is far away from one side of the cover plate side wall, a convex part is arranged on the side of the cover plate main plate, a mounting hole is formed in the convex part, and the connecting rod penetrates through the mounting hole and is connected with the adjusting locking part.

Preferably, a sealing element is arranged in the mounting hole and is respectively connected to the outer wall of the connecting rod and the inner wall of the mounting hole in a clinging manner.

Preferably, the adjustable overflow outlet structure further comprises a sealing pad, the shape of the sealing pad is adapted to the shape of the cover plate side wall, the sealing pad is located between the cover plate side wall and the second side of the accommodating device side wall, and the sealing pad is used for preventing the diversion liquid of the overflow outlet from leaking.

Preferably, a first groove is formed in the first end of the sealing gasket, and the inner wall of the first groove is abutted against the side wall of the cover plate;

the cover plate side wall can rotate relative to the first groove inner wall to adjust movement, so that the lowest water inlet position of the first flow guide port moves to different heights.

Preferably, a second diversion port is arranged on the sealing gasket, at least part of the second diversion port is overlapped with the first diversion port, and the sealing gasket and the cover plate rotate synchronously for adjustment.

Preferably, the seal is a closed ring seal.

Has the advantages that: according to the technical scheme, the cover plate is limited and arranged at the overflow port of the accommodating device by the bottom plate, so that overflowing liquid in the accommodating device can flow into the cover plate; when the liquid in the accommodating device exceeds the height of the overflow water level, the cover plate is adjusted to enable the first diversion port to move to a radial different height position of the second side of the side wall of the accommodating device, so that the overflow liquid in the accommodating device passes through the overflow port and is discharged from the first diversion port, and the height of the liquid level in the accommodating device is adjusted; thereby obtaining an overflow outlet structure which has wide adjusting range, flexibly and effectively controls the height of the liquid level in the accommodating device; meanwhile, the structure failure rate of the mode is lower, the stability is strong, and therefore the cost of equipment can be reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings 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 some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic diagram of an explosive structure of an adjustable overflow outlet structure according to the present invention.

FIG. 2 is a schematic diagram of an assembled state of an adjustable overflow outlet structure according to the present invention.

FIG. 3 is a schematic diagram of an assembled state of an adjustable overflow outlet structure according to the present invention.

FIG. 4 is a schematic diagram of another embodiment of a seal of an adjustable overflow outlet construction according to the present invention.

The reference numbers illustrate: 100-a cover plate; 101-a first flow guide port; 102-a convex part; 1021-mounting holes; 200-a base plate; 300-a gasket; 301-a first groove; 302-a second flow guide port; 400-adjusting the locking member; 500-a seal; 600-installing a cavity; 700-a containment device; 701-overflow port.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in an embodiment of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, if the meaning of "and/or" and/or "appears throughout, the meaning includes three parallel schemes, for example," A and/or B "includes scheme A, or scheme B, or a scheme satisfying both schemes A and B. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides an adjustable overflow outlet structure.

As shown in FIGS. 1-2, in one embodiment of the present invention, the adjustable overflow outlet structure; the connecting assembly comprises a cover plate 100 and a connecting assembly, wherein the connecting assembly comprises a base plate 200 and a connecting rod 201, the base plate 200 is abutted against a first side of a side wall of a containing device 700, a side wall of the cover plate 100 extending outwards perpendicularly is arranged at the edge of a main plate of the cover plate 100, the side wall of the cover plate 100 is abutted against a second side of the side wall of the containing device 700, and the connecting rod 201 penetrates through the side wall of the containing device 700 and is used for movably connecting the base plate 200 and the main plate of the cover plate 100;

an overflow port 701 is formed in the area range on the side wall of the accommodating device 700 formed by the side wall of the cover plate 100 in a surrounding manner, and a first diversion port 101 is further formed in the side wall of the cover plate 100; the positions of the overflow ports 701 on the side wall of the accommodating device 700 and the corresponding positions of the bottom plate 200 abutting against the side wall of the accommodating device 700 are staggered;

the cover plate 100 can be rotated to adjust the lowest water inlet position of the first diversion port 101 to different heights.

According to the technical scheme, the cover plate 100 is limited and arranged at the overflow port 701 of the accommodating device 700 by the bottom plate 200, so that overflowed liquid in the accommodating device can flow into the cover plate 100; when the liquid in the container exceeds the height of the overflow water level, the cover plate 100 is adjusted to enable the first diversion port 101 to rotate to a radial different height position on the second side of the side wall of the container 700 so that the overflow liquid in the container is discharged from the first diversion port through the overflow port 701, and the height of the liquid level in the container 700 is adjusted; thereby obtaining an overflow outlet structure which has wide adjusting range, flexibly and effectively controls the height of the liquid level in the accommodating device; meanwhile, the structure failure rate of the mode is lower, the stability is strong, and therefore the cost of equipment can be reduced.

In this embodiment, the container 700 may be a water tank, a water bucket, or other containers for storing liquid.

Specifically, as shown in fig. 3, the adjustable overflow outlet structure further includes an adjusting locking member 400, the adjusting locking member 400 is movably connected to one end of the connecting rod 201 passing through the main plate of the cover plate 100, and the adjusting locking member 400 can limit and abut the sidewall of the cover plate 100 at different positions of the second side of the sidewall of the accommodating device 700.

The adjusting locking piece is loosened to enable the cover plate to be loosened from the second side of the side wall of the accommodating device, then the adjusting cover plate is rotated to enable the adjusting cover plate to rotate to the next required height, and the adjusting locking piece is screwed down, so that the overflow liquid is guided to the liquid level with the required height, and flexible adjustment is completed; meanwhile, the diversion liquid can be prevented from leaking between the cover plate and the accommodating device by adjusting the locking piece.

In the embodiment, the adjusting locking member 400 can be a wing nut, and the wing nut and the connecting rod 201 are connected into a whole through a thread; the butterfly nut can ensure that the disassembly and assembly convenience between the bottom plate and the cover plate is improved, and meanwhile, the cost of the structure can be reduced.

Specifically, in this embodiment, as shown in fig. 1, a convex portion 102 is disposed on a side of the main plate of the cover plate 100 away from the side wall of the cover plate 100, a mounting hole 1021 is disposed in the convex portion 102, and the connecting rod 201 passes through the mounting hole 1021 to be connected to the adjusting locking member 400. When the adjusting locking piece 400 is used for locking and connecting the cover plate on the accommodating device, the convex part can effectively buffer and adjust the locking piece to directly apply locking stress on the cover plate, so that the phenomenon that the service life of the cover plate is influenced due to excessive deformation of the cover plate is avoided, and the use cost is effectively reduced.

Specifically, in the present embodiment, as shown in fig. 1, a sealing member 500 is disposed in the mounting hole 1021, and the sealing member 500 is closely attached to an outer wall of the connecting rod 201 and an inner wall of the mounting hole 1021. The sealing element 500 may be an O-shaped rubber sealing ring, and certainly, the sealing element 500 may also be a sealing element made of other materials, which is not limited herein; the sealing member 500 prevents the overflow liquid from leaking out of the adjusting locker 400, thereby further securing the sealing performance of the structure.

Specifically, as shown in fig. 3, the adjustable overflow outlet structure further includes a sealing gasket 300, a shape of the sealing gasket 300 is adapted to a shape of a side wall of the cover plate 100, the sealing gasket 300 is located between the side wall of the cover plate 100 and a second side of the side wall of the accommodating device 700, and the sealing gasket 300 is used for preventing a diversion liquid of the overflow outlet 701 from leaking. The sealing effect of the sealing gasket can further prevent the guide liquid from excessively leaking from the fit clearance to influence the cleanness degree of the environment. In the present embodiment, the sealing pad 300 may be a sealing rubber pad; of course, the gasket 300 may be made of other materials, and is not limited herein.

Specifically, a first groove 301 is formed in a first end of the sealing gasket 300, and an inner wall of the first groove 301 abuts against a side wall of the cover plate 100;

the side wall of the cover plate 100 can rotate relative to the inner wall of the first groove 301 to adjust the movement, so that the lowest water inlet position of the first diversion port 101 moves to different heights.

In an embodiment of the present invention, when the second end of the sealing gasket 300 is connected to the second side of the sidewall of the accommodating device 700, and the extending portion is tightly attached to the first groove 301, the adjusting locking member is loosened, the cover plate is rotated to drive the first diversion port to be adjusted to a desired position, and the adjusting locking member is tightened to automatically and orderly divert the diversion liquid to a specific height, so as to complete diversion of the overflowing diversion liquid.

In another embodiment, when the second end of the sealing gasket 300 is tightly attached to the second side of the sidewall of the accommodating device 700, the extending portion is tightly attached to the first groove 301, and the adjusting locking member is unscrewed and opened, the cover plate can be rotated and the sealing gasket 300 can be driven to rotate together, so that the first diversion port can be adjusted to a required position, and the adjusting locking member is screwed down to automatically and orderly divert the diversion liquid to a specific height, thereby completing diversion of the overflowing diversion liquid.

Specifically, in one embodiment, as shown in fig. 2, a second diversion opening 302 is provided on the gasket 300, the second diversion opening 302 and the first diversion opening 101 at least partially overlap, and the gasket 300 and the cover plate 100 are adjusted in a synchronous rotation manner. The flow guiding amount is enlarged through the second flow guiding opening, and the flow adjusting speed is improved.

Specifically, in another embodiment, as shown in fig. 4, the gasket 300 may be a closed ring gasket; wherein, the first groove 301 can be a closed sealed first groove.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. The adjustable overflow outlet structure is characterized by comprising a cover plate and a connecting assembly, wherein the connecting assembly comprises a bottom plate and a connecting rod, the bottom plate is abutted against a first side of a side wall of a containing device, the edge of a cover plate main plate is provided with a cover plate side wall extending outwards vertically, the cover plate side wall is abutted against a second side of the side wall of the containing device, and the connecting rod penetrates through the side wall of the containing device and is used for movably connecting the bottom plate and the cover plate main plate;

an overflow port is formed in the area range on the side wall of the containing device formed by the side wall of the cover plate in a surrounding manner, and a first flow guide port is also formed in the side wall of the cover plate; the positions of the overflow ports on the side wall of the accommodating device and the corresponding positions of the bottom plate abutting against the side wall of the accommodating device are staggered;

the cover plate can be rotated and adjusted to move the lowest water inlet position of the first diversion port to different heights.

2. The adjustable overflow outlet structure of claim 1, further comprising an adjusting locking member movably connected to one end of the connecting rod passing through the cover plate main plate, wherein the adjusting locking member can limit the cover plate sidewall to abut against different positions of the second side of the sidewall of the accommodating device.

3. The adjustable overflow outlet structure of claim 2, wherein the adjusting locking member comprises a butterfly nut, and the butterfly nut and the connecting rod are connected into a whole through a thread.

4. The adjustable overflow outlet structure of claim 2, wherein a convex portion is disposed on a side of the cover main plate away from the side wall of the cover, a mounting hole is disposed in the convex portion, and the connecting rod passes through the mounting hole and is connected to the adjusting locking member.

5. The adjustable overflow outlet structure of claim 4, wherein a sealing member is disposed in the mounting hole, and the sealing member is tightly attached to the outer wall of the connecting rod and the inner wall of the mounting hole, respectively.

6. The adjustable overflow outlet structure of claim 1, further comprising a sealing pad, wherein the shape of the sealing pad is adapted to the shape of the cover plate sidewall, the sealing pad is located between the cover plate sidewall and the second side of the sidewall of the container, and the sealing pad is used to prevent the guiding liquid of the overflow outlet from leaking.

7. The adjustable overflow outlet structure of claim 6, wherein a first groove is formed at a first end of the sealing gasket, and an inner wall of the first groove abuts against a side wall of the cover plate;

the cover plate side wall can rotate relative to the first groove inner wall to adjust movement, so that the lowest water inlet position of the first flow guide port moves to different heights.

8. The adjustable overflow outlet structure of claim 7, wherein the gasket is provided with a second guiding opening, the second guiding opening is at least partially overlapped with the first guiding opening, and the gasket and the cover plate rotate synchronously for adjustment.

9. The adjustable overflow outlet structure of claim 7, wherein the gasket is a closed annular gasket.

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