CN112021253A

CN112021253A - Be used for fish bowl bottom to deposit dispersion belt cleaning device

Info

Publication number: CN112021253A
Application number: CN202010813284.1A
Authority: CN
Inventors: 丁柳朋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2020-12-04

Abstract

The invention discloses a device for precipitating, dispersing and cleaning the bottom of a fish tank, and belongs to the technical field of fish tank precipitate cleaning. A sedimentation dispersion cleaning device for the bottom of a fish tank comprises a positioning structure, a butt joint structure, a driving structure and a locking structure, wherein the positioning structure comprises a supporting part and a circulating part; circulation portion comprises the inhalant canal of seting up in the supporting part side and the water conservancy diversion passageway of seting up in the supporting part front end, inhalant canal is linked together with the water conservancy diversion passageway, dock structure is rotary motion in inhalant canal so that rivers flow through dock structure surface different positions, dock structure surface rivers go out the position and rotate to when corresponding with the water conservancy diversion passageway, rivers flow to external fish bowl in, can be through rotatable spiral channel's setting, the realization is washd the scanning formula of the precipitate of bottom of fish bowl, and then make the face of wasing wider, reduce and wash the dead angle, the cleaning efficiency is higher.

Description

Be used for fish bowl bottom to deposit dispersion belt cleaning device

Technical Field

The invention relates to the technical field of fish tank sediment cleaning, in particular to a sediment dispersing and cleaning device for a fish tank bottom.

Background

The fish tank in-process of breeding fish, the circulation that the intercommunication pipeline between fish bowl and the end jar only can realize water flows, but the deposit of sediment in the fish bowl bottom can't be discharged away, not only is unfavorable for the health of fish in the fish bowl, can arouse circulation pipeline's jam moreover for the pollution of water, waste water resource increases the consumption of filter media cleaning frequency and filter media.

In order to solve the problems, the wave making pump is introduced, the wave making pump is a three-in-one pump, the functions of filtering, surfing and oxygenation are integrated, the wave making pump has the advantages that the use function can be flexibly selected, the equipment investment is reduced, and in the design of the wave making pump, one water inlet, two water outlets and an air inlet are additionally arranged, so that the functions of filtering, surfing and oxygenation can be realized.

When making unrestrained pump and carrying out surfing formula clearance to the precipitate of fish bowl bottom, the rigidity of delivery port for the clearance that can not be comprehensive of the precipitate of other bottom positions of fish bowl, and be difficult to the clearance more to the precipitate at dead angle department, precipitate cleaning efficiency is lower.

Disclosure of Invention

1. The invention aims to solve the technical problems in the prior art, and aims to provide a sediment dispersing and cleaning device for a fish tank bottom, which can realize scanning type cleaning of sediment at the bottom of the fish tank through the arrangement of a rotatable spiral channel, so that the cleaning surface is wider, the cleaning dead angle is reduced, and the cleaning efficiency is higher.

2. Technical solution to solve the above problems, the present invention adopts the following technical solutions.

A sedimentation dispersion cleaning device for the bottom of a fish tank comprises a positioning structure, a butt joint structure, a driving structure and a locking structure; the positioning structure comprises a supporting part and a circulating part; the circulating part consists of a water inlet channel arranged at the side end of the supporting part and a flow guide channel arranged at the front end of the supporting part, and the water inlet channel is communicated with the flow guide channel; the butt joint structure rotates in the water inlet channel to enable water to flow out from different positions on the surface of the butt joint structure, and when the water outflow position on the surface of the butt joint structure rotates to correspond to the flow guide channel, the water flows out of the external fish tank; the driving structure can rotate to drive water flow in the external fish tank to be guided into the butt joint structure; the locking structure is arranged between the butt joint structure and the driving structure; the locking structure rotates anticlockwise along with the driving structure to enable the butting structure and the driving structure to be limited and fixed, so that the butting structure rotates along with the driving structure; the locking structure rotates clockwise along with the driving structure to enable the butt joint structure to be separated from the limit fixing between the butt joint structure and the driving structure, and water flow is guided into the butt joint structure.

Further, butt joint structure includes the rotating part and sets up the helical coiled passage in the rotating part surface, the rotating part is at the inhalant canal internal rotation, and rotating part pivoted in-process, the helical coiled passage outflow helical coiled passage that water stream is linked together with the water conservancy diversion passageway flows through, and then washes the dispersion in flowing into the fish bowl to fish bowl bottom's precipitate.

Further, the drive structure is including accepting the seat, setting firmly in the rotating electrical machines who accepts the seat upper portion and setting firmly in the eccentric post of rotating electrical machines output, eccentric post is at the rotating part internal rotation, the diameter of eccentric post is less than the internal diameter of rotating part, accept the left side that the seat is located the supporting part, when rotating electrical machines rotates, drive eccentric post at the rotating part internal rotation, when eccentric post rotates, constantly take place the circumference with rotating part inner wall pivoted contact surface and change, and eccentric post pivoted in-process guides rivers in the fish bowl to the rotating part in.

Furthermore, the connection part between the output end of the rotating motor and the eccentric column is a non-central part of the side end of the eccentric column, so that water flow in the fish tank can be extruded into the rotating part under the rotating action of the eccentric column relative to the inner wall of the rotating part.

Furthermore, the locking structure comprises a threaded rod fixedly arranged at one end of the eccentric column far away from the output end of the rotating motor, a positioning part in threaded connection with the outer wall of the threaded rod, at least two telescopic limiting parts arranged on the outer wall of the positioning part, a press switch arranged at one end of the positioning part far away from the eccentric column, and at least two limiting grooves arranged on the inner wall of the rotating part, wherein one end of the telescopic limiting part far away from the positioning part is positioned in the limiting grooves, the press switch is in contact with the right inner wall of the rotating part, the axis of the threaded rod is collinear with the axis of the eccentric column, when the eccentric column drives the threaded rod to rotate anticlockwise, the positioning part gradually moves rightwards along the threaded rod under the rotation action of the threaded rod, when the positioning part moves to contact the right inner wall of the rotating part, the positioning part is controlled to continue, stretch out and go into the limiting groove by flexible spacing portion, eccentric post continues under the pivoted condition this moment, drive location portion and rotate, because of the conflict limiting displacement between flexible spacing portion and the limiting groove, thereby can drive the rotating part and rotate, and then can realize the water extrusion in the fish bowl to the rotation of the colleague control rotating part in the rotating part, the position that makes helical channel and water conservancy diversion passageway be linked together changes, after the clearance of the sediment of the fish bowl bottom at this stage is accomplished, make rotating electrical machines anticlockwise rotation, drive eccentric post and threaded rod anticlockwise rotation, location portion moves left along the threaded rod gradually, press the switch and break away from by the state of pressing, flexible spacing portion resumes the original position, and break away from outside the limiting groove gradually, whole clearance process that deposits is accomplished promptly.

Furthermore, the sum of the cross-sectional width of the telescopic limiting part and the cross-sectional width of the press switch is less than or equal to the cross-sectional width of the limiting groove, so that when the positioning part just starts to rotate anticlockwise and the press switch is not completely separated from the pressed state, the telescopic limiting part has a certain rotating space in the limiting groove due to the fact that the limiting groove has a certain cross-sectional width, and the blocking is not easily caused in the rotating process of the positioning part.

Furthermore, the sum of the two times of the minimum height of the telescopic limiting part and the diameter of the positioning part is smaller than or equal to the inner diameter of the rotating part, so that when the telescopic limiting part is not clamped into the limiting groove, the telescopic limiting part is not easy to obstruct the rotation of the positioning part in the rotating part.

3. Compared with the prior art, the invention has the advantages that: (1) this scheme provides a new technical thinking, through rotatable helical coiled passage's setting, realizes wasing the scanning formula of fish bowl bottom's precipitate, and then makes the face of wasing wider, reduces and washs the dead angle, and the cleaning efficiency is higher.

(2) The water flow in the fish tank is stably input into the butt joint structure through the arrangement of the driving structure so as to provide the water flow required for cleaning sediments.

(3) The setting through locking structure makes drive structure when with rivers input dock structure, realizes dock structure's rotary motion, need not add the rotatory power supply of drive dock structure.

(4) The arc length of the limiting groove in the circumferential direction of the rotating part is larger than that of the telescopic limiting part in the circumferential direction of the rotating part, the transverse section width of the limiting groove is larger than or equal to the sum of the section width of the telescopic limiting part and the section width of the press switch, and when the button switch is separated from a pressed state, the telescopic limiting part is not easy to obstruct the rotation of the positioning part in the original position recovery direction.

(5) The output of rotating electrical machines and the connecting part between the eccentric post be the non-central part of eccentric post side for the eccentric post can be followed the inner wall of rotating part and be circumferential motion, and the axis collineation of threaded rod and eccentric post makes rotating electrical machines drive when the eccentric post is rotary motion, can drive the threaded rod and drive location portion along rotating part axial lateral shifting.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a perspective view of a portion of the positioning structure and docking structure of the present invention;

FIG. 3 is a perspective view of a positioning structure portion of the present invention;

FIG. 4 is a schematic structural view of the retractable stopper portion of the push switch of the present invention in an un-pushed state;

FIG. 5 is a schematic side view of the spacing groove and the retractable spacing portion of the present invention;

FIG. 6 is a schematic structural view of a portion of the retractable position-limiting portion of the present invention in a position-limiting groove and with a push switch in a partially depressed state;

FIG. 7 is a schematic structural view of a portion of the retractable position-limiting portion of the present invention in a position-limiting groove and with a push switch in a fully-depressed state;

FIG. 8 is a schematic view of the structure at A in FIG. 7;

FIG. 9 is a structural diagram of a first state of the eccentric column of the present invention rotating in the rotating part;

FIG. 10 is a structural diagram of a second state of the eccentric column of the present invention rotating in the rotating part;

fig. 11 is a structural diagram illustrating a third state in which the eccentric column of the present invention rotates in the rotating portion.

The reference numbers in the figures illustrate: the device comprises a positioning structure 1, a supporting part 11, a circulation part 12, a butt joint structure 2, a rotating part 21, a spiral channel 22, a driving structure 3, a bearing seat 31, a rotating motor 32, an eccentric column 33, a threaded rod 41, a positioning part 42, a telescopic limiting part 43, a press switch 44 and a limiting groove 5.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; 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 meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-11, a settling, dispersing and cleaning device for a fish tank bottom includes a positioning structure 1, a docking structure 2, a driving structure 3 and a locking structure, wherein the docking structure 2 is not limited in length extending out of the positioning structure 1, the length is 0 to any number greater than 0, and the shorter the length is, the higher the stability in use is.

Location structure 1 includes supporting part 11 and circulation portion 12, the shape and the structure of supporting part 11 are arbitrary, only need to realize placing the effect in the fish bowl bottom can, and cooperation supporting part 11 and circulation portion 12 use, be provided with on the supporting part 11 and be used for controlling rotating electrical machines 32, the controller that button switch 44 and flexible spacing portion 43 start and stop, when button switch 44 is pressed down completely, with this information feedback to controller, controller control flexible spacing portion 43 stretches out and blocks into spacing inslot 5, when button switch 44 breaks away from the state of being pressed down completely, with this information feedback to controller, controller control flexible spacing portion 43 breaks away from spacing inslot 5 and resumes the normal position.

The circulation part 12 is composed of a water inlet channel arranged at the side end of the supporting part 11 and a flow guide channel arranged at the front end of the supporting part 11, the water inlet channel is communicated with the flow guide channel, and the cross section of the water inlet channel is of a circular structure so as to be matched with the rotation of the butt joint structure 2.

Rotary motion is done in inhalant canal to dock structure 2 so that rivers flow through 2 surperficial different positions of dock structure and flow out, the rivers play position on dock structure 2 surface is rotatory when corresponding with the water conservancy diversion passageway, rivers flow out to external fish bowl in, dock structure 2 includes rotating part 21 and sets up the helical channel 22 at the rotating part 21 surface, rotating part 21 is at the inhalant canal internal rotation, rotating part 21 pivoted in-process, the helical channel 22 that the water stream was linked together with the water conservancy diversion passageway flows out helical channel 22, and then the deposit to fish bowl bottom in the inflow fish bowl washes the dispersion.

Drive structure 3 can be rotary motion and be used for driving the rivers guide-in to butt joint structure 2 in the external fish bowl, drive structure 3 is including accepting seat 31, set firmly in the rotating electrical machines 32 on accepting seat 31 upper portion and set firmly in the eccentric post 33 of rotating electrical machines 32 output, eccentric post 33 rotates in rotating portion 21, the diameter of eccentric post 33 is less than the internal diameter of rotating portion 21, accept seat 31 is located the left side of supporting part 11, when rotating electrical machines 32 rotates, drive eccentric post 33 and rotate in rotating portion 21, when eccentric post 33 rotates, constantly take place the circumference change with rotating inner wall pivoted contact surface of rotating portion 21, eccentric post 33 pivoted in-process, guide the rivers in the fish bowl to rotating portion 21 in.

The connection part between the output end of the rotating motor 32 and the eccentric column 33 is a non-central part of the side end of the eccentric column 33, so that the water flow in the fish tank can be extruded into the rotating part 21 under the rotation action of the eccentric column 33 relative to the inner wall of the rotating part 21.

The locking structure is arranged between the butt joint structure 2 and the driving structure 3; locking structure follows the anticlockwise rotation of drive structure 3 and makes and carry out spacing fixed between butt joint structure 2 and the drive structure 3 to make butt joint structure 2 follow drive structure 3 rotatory.

The locking structure rotates clockwise along with the driving structure 3 to enable the butt joint structure 2 to be separated from the limiting fixing between the driving structure 3, and water flow is stopped to be guided into the butt joint structure 2.

The locking structure comprises a threaded rod 41 fixedly arranged at one end of the eccentric column 33 far away from the output end of the rotating motor 32, a positioning part 42 in threaded connection with the outer wall of the threaded rod 41, at least two telescopic limiting parts 43 arranged on the outer wall of the positioning part 42, a press switch 44 arranged at one end of the positioning part 42 far away from the eccentric column 33, and at least two limiting grooves 5 arranged on the inner wall of the rotating part 21, wherein one end of the telescopic limiting part 43 far away from the positioning part 42 is positioned in the limiting grooves 5, the press switch 44 is in contact with the right inner wall of the rotating part 21, the axes of the threaded rod 41 and the eccentric column 33 are collinear, when the threaded rod 41 is driven by the eccentric column 33 to rotate anticlockwise, the positioning part 42 gradually moves rightwards along the threaded rod 41 under the rotation action of the threaded rod 41, when the positioning part 42 moves to contact with the right inner wall, when the push switch 44 is pressed down completely, the telescopic limiting part 43 extends out and is clamped into the limiting groove 5, at this time, the eccentric column 33 continues to rotate, the positioning part 42 is driven to rotate, the collision limiting effect between the telescopic limiting part 43 and the limiting groove 5 can drive the rotating part 21 to rotate, the rotation of the rotating part 21 can be controlled by the same workers who extrude the water in the fish tank into the rotating part 21, the position where the spiral channel 22 is communicated with the flow guide channel is changed, after the precipitation cleaning of the bottom of the fish tank at this stage is completed, the rotating motor 32 rotates anticlockwise, the eccentric column 33 and the threaded rod 41 rotate anticlockwise, the positioning part 42 gradually moves leftwards along the threaded rod 41, the push switch 44 is separated from the pressed state, the telescopic limiting part 43 recovers the original position and gradually separates from the limiting groove 5, and the whole precipitation cleaning process is completed.

The sum of the cross-sectional width of the telescopic limiting part 43 and the cross-sectional width of the press switch 44 is less than or equal to the cross-sectional width of the limiting groove 5, the arc length of the limiting groove 5 in the circumferential direction of the rotating part 21 is greater than the arc length of the telescopic limiting part 43 in the circumferential direction of the rotating part 21, when the positioning part 42 starts to rotate counterclockwise, the press switch 44 does not completely separate from the pressed state, and the telescopic limiting part 43 has a certain cross-sectional width in the limiting groove 5, so that the telescopic limiting part 43 has a certain rotating space in the limiting groove 5, and the blocking is not easily caused in the rotating process of the positioning part 42.

The sum of the diameter of the positioning portion 42 and twice the minimum height of the telescopic stopper portion 43 is smaller than or equal to the inner diameter of the rotating portion 21, so that the telescopic stopper portion 43 does not easily obstruct the rotation of the positioning portion 42 in the rotating portion 21 when the telescopic stopper portion 43 is not caught in the stopper groove 5.

The bearing seat 31 and the supporting part 11 are both placed at the bottom of the fish tank by the self gravity.

When cleaning the sediment at the bottom of the fish tank, the rotating motor 32 rotates counterclockwise first to drive the eccentric column 33 and the threaded rod 41 to rotate, and further the positioning part 42 rotates rightwards along the threaded rod 41, when the press switch 44 contacts the right inner wall of the rotating part 21 and is completely pressed by the right inner wall of the rotating part 21, the telescopic limiting part 43 extends out and is clamped into the limiting groove 5, the rotating motor 32 continues to drive the eccentric column 33 to rotate, the telescopic limiting part 43 drives the rotating part 21 to rotate in the supporting part 11, so that the water outlets at different positions of the spiral channel 22 are respectively and correspondingly communicated with the diversion channel, the water flow squeezed into the rotating part 21 by the rotating motion of the eccentric column 33 flows into the fish tank through the diversion channel to wash the sediment, the sediment at the bottom of the fish tank can be cleaned in a scanning manner by the arrangement of the rotatable spiral channel 22, and further the cleaning surface is wider, reduce and wash the dead angle, the cleaning efficiency is higher.

The above; but are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. The utility model provides a be used for fish bowl bottom to deposit dispersion belt cleaning device which characterized in that: comprises a positioning structure (1), a butt joint structure (2), a driving structure (3) and a locking structure; the positioning structure (1) comprises a support part (11) and a circulating part (12); the circulating part (12) consists of a water inlet channel arranged at the side end of the supporting part (11) and a flow guide channel arranged at the front end of the supporting part (11), and the water inlet channel is communicated with the flow guide channel; the butt joint structure (2) rotates in the water inlet channel to enable water to flow out from different positions on the surface of the butt joint structure (2), and when the water flowing-out position on the surface of the butt joint structure (2) rotates to correspond to the flow guide channel, the water flows out of the external fish tank; the driving structure (3) can rotate to drive water flow in an external fish tank to be guided into the butt joint structure (2); the locking structure is arranged between the butt joint structure (2) and the driving structure (3); the locking structure rotates anticlockwise along with the driving structure (3) to enable the butting structure (2) and the driving structure (3) to be limited and fixed, so that the butting structure (2) rotates along with the driving structure (3); the locking structure rotates clockwise along with the driving structure (3) to enable the butt joint structure (2) to be separated from the limiting fixing between the locking structure and the driving structure (3), and water flow is guided into the butt joint structure (2) in a stopping mode.

2. The sediment dispersion cleaning device for the bottom of the fish tank is characterized in that: butt joint structure (2) include rotating part (21) and set up in spiral channel (22) of rotating part (21) surface, rotating part (21) are at the inhalant canal internal rotation.

3. The sediment dispersion cleaning device for the bottom of the fish tank is characterized in that: drive structure (3) including accepting seat (31), set firmly in rotating electrical machines (32) on accepting seat (31) upper portion and set firmly in eccentric post (33) of rotating electrical machines (32) output, eccentric post (33) are at rotating portion (21) internal rotation, the diameter of eccentric post (33) is less than the internal diameter of rotating portion (21), accept the left side that seat (31) are located supporting part (11).

4. A sediment dispersion cleaning device for the bottom of an aquarium according to claim 3, wherein: the connecting part between the output end of the rotating motor (32) and the eccentric column (33) is a non-central part at the side end of the eccentric column (33).

5. A sediment dispersion cleaning device for the bottom of an aquarium according to claim 3, wherein: locking structure is including setting firmly threaded rod (41), threaded connection in threaded rod (41) of the one end of rotating electrical machines (32) output of keeping away from in eccentric post (33), threaded connection in location portion (42) of threaded rod (41) outer wall, locating two at least flexible spacing portion (43) of location portion (42) outer wall, locating press switch (44) of the one end of locating portion (42) and offering in two at least spacing grooves (5) of rotating part (21) inner wall, the one end that location portion (42) were kept away from in flexible spacing portion (43) is located spacing groove (5), press switch (44) and rotating part (21) right side inner wall contact, threaded rod (41) and the axle center collineation of eccentric post (33).

6. A sediment dispersion cleaning device for a fish tank bottom as claimed in claim 5, wherein: the sum of the cross section width of the telescopic limiting part (43) and the cross section width of the push switch (44) is less than or equal to the cross section width of the limiting groove (5).

7. A sediment dispersion cleaning device for a fish tank bottom as claimed in claim 5, wherein: the sum of twice the minimum height of the expansion limiting part (43) and the diameter of the positioning part (42) is less than or equal to the inner diameter of the rotating part (21).