CN219378276U

CN219378276U - Copper alloy cleaning equipment

Info

Publication number: CN219378276U
Application number: CN202223018112.9U
Authority: CN
Inventors: 高宁宁; 王磊
Original assignee: Liaoning Yongd Non Ferrous Foundry Co ltd
Current assignee: Liaoning Yongd Non Ferrous Foundry Co ltd
Priority date: 2022-11-14
Filing date: 2022-11-14
Publication date: 2023-07-21
Anticipated expiration: 2032-11-14

Abstract

The utility model discloses copper alloy cleaning equipment, which comprises: a case; the driving assembly is arranged above the box body in a lifting manner through the lifting piece; the at least two groups of brushing assemblies are vertically distributed in the box body in a rotatable mode through the driving assembly, and the at least two groups of brushing assemblies are not in contact with each other; any one of the sets of scrubbing assemblies includes a driven shaft; a transverse support beam; two arc-shaped flushing brushes; a plurality of high-pressure spray holes and a water inlet pipeline; the support net is horizontally arranged in the box body and positioned below the at least two groups of brushing components; a plurality of net-shaped bosses integrally formed on the support net; a cleaning liquid tank. The copper alloy cleaning equipment provided by the utility model can synchronously clean the inner wall and the outer wall of the copper alloy pipe to be cleaned and accurately spray the cleaning liquid at high pressure, can effectively improve the cleaning cleanliness, improves the cleaning efficiency, realizes the recycling of the cleaning liquid and the recovery of copper scraps, and saves the cost.

Description

Copper alloy cleaning equipment

Technical Field

The utility model relates to the field of cleaning devices, in particular to copper alloy cleaning equipment.

Background

The copper alloy pipe is an alloy pipe formed by adding one or more other elements into pure copper serving as a matrix. After the copper alloy pipe is produced, the inner wall and the outer wall of the copper alloy pipe all contain certain burrs and scraps, so the copper alloy pipe needs to be cleaned before being put into use. The Chinese patent with application number 201922172499.5 discloses copper alloy cleaning equipment, which can clean the outer side wall and the inner side wall of a copper alloy pipe simultaneously, and greatly improves the cleaning degree of the inner wall and the outer wall of the copper alloy pipe. However, the following problems still remain: when the inner side wall of the copper alloy pipe is cleaned, an inner wall cleaning roller which is completely matched with the inner diameter of the copper alloy pipe is needed, and if the inner wall cleaning roller is not high in the adaptation degree of the inner diameter of the copper alloy pipe, the cleaning effect can be directly affected.

Disclosure of Invention

It is an object of the present utility model to solve at least the above problems and to provide at least the advantages to be described later.

The utility model also aims to provide copper alloy cleaning equipment which can synchronously clean the inner wall and the outer wall of a copper alloy pipe to be cleaned and accurately spray cleaning liquid at high pressure, so that the cleaning cleanliness can be effectively improved, the cleaning efficiency is improved, the recycling of the cleaning liquid and the recovery of copper scraps are realized, and the cost is saved.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, there is provided a copper alloy cleaning apparatus comprising:

a case;

the driving assembly is arranged above the box body in a lifting manner through the lifting piece;

the at least two groups of brushing assemblies are vertically distributed in the box body in a rotatable mode through the driving assembly, and the at least two groups of brushing assemblies are not in contact with each other; any group of brushing assemblies comprises a driven shaft which is arranged in a synchronous rotation way with a driving shaft of the driving assembly through a gear set; one end of the transverse supporting beam is connected and fixed to the driven shaft, and the other end of the transverse supporting beam horizontally extends to one side of the driven shaft; the upper ends of the two arc-shaped flushing brushes are slidably arranged on the transverse supporting beam; the high-pressure spray holes are uniformly distributed on two opposite side walls of the two arc-shaped flushing brushes and spray water to the inner side wall and the outer side wall of the copper alloy pipe to be cleaned respectively; the water inlet pipeline is extended and distributed in at least two groups of brushing assemblies, and the water outlet end of the water inlet pipeline is communicated with a plurality of high-pressure spray holes;

the support net is horizontally arranged in the box body and positioned below the at least two groups of brushing components; the plurality of reticular bosses are integrally formed on the supporting net, the reticular bosses are arranged in one-to-one correspondence with at least two groups of brushing components, the circle center of any reticular boss is positioned on the axis of the driven shaft of one group of brushing components which is arranged in correspondence with the reticular bosses, the lower end of the copper alloy pipe to be cleaned is detachably clamped on the reticular bosses, and the aperture of the supporting net is larger than the grain diameter of copper scraps;

the liquid inlet of the cleaning liquid tank is communicated to the bottom of the tank body through a return pipe, and the liquid outlet of the cleaning liquid tank is communicated to the water inlet end of the water inlet pipeline through a water supply pipe.

Preferably, the driving assembly includes: a driving motor, a driving shaft of which is provided with a driving gear; the driven gear is sleeved on the driven shaft and meshed with the driving gear; wherein, correspond at least two sets of scrubbing assemblies, the gear train includes driving gear and at least two driven gears.

Preferably, the method further comprises: the arc convex rings are uniformly sleeved and distributed around the reticular convex plates by taking the reticular convex plates as circle centers, and the interval distance between two adjacent arc convex rings is matched with the thickness of the pipe wall of the copper alloy pipe.

Preferably, the lower surface of the transverse supporting beam is shaped into a sliding rail, the upper ends of the two arc-shaped flushing brushes are clamped on the sliding rail in a sliding way through a clamping ring, and the clamping ring is detachably fixed on the sliding rail through bolts.

Preferably, any one of the two arc-shaped washing brushes comprises a pair of arc-shaped supporting sheets which are respectively arranged at two ends of the arc-shaped washing brush; the three brush rollers are axially arranged in parallel, and two ends of the three brush rollers are respectively and rotatably arranged on the pair of arc-shaped supporting sheets; and the spray pipes are arranged between two adjacent brush rolls, and a plurality of high-pressure spray holes are distributed on the spray pipes.

Preferably, the driven shaft is arranged in a hollow way to form a water inlet pipeline, and the driven shaft is connected with the water supply pipe through a bearing; the water supply pipe in the lower end of the driven shaft is communicated with the spray pipe through a metal hose.

Preferably, the method further comprises: the filter screen is arranged near the inner bottom of the cleaning liquid tank, and the water outlet is positioned above the filter screen; and a liquid inlet pipe extending from the liquid inlet to the bottom of the cleaning liquid tank through the filter screen.

Preferably, the base lifting member further comprises: a base; the driving assembly is arranged on the supporting plate, and the driving shaft and driven shafts of at least two groups of brushing groups respectively penetrate through the supporting plate; the bases of the hydraulic rod groups are respectively fixed on the bases, and the front ends of the hydraulic rod groups are hinged and supported on the supporting plates.

The utility model at least comprises the following beneficial effects:

the driving assembly drives at least two groups of brushing assemblies to clean the inner wall and the outer wall of the copper alloy pipe to be cleaned under the brushing assemblies respectively, and the two arc-shaped flushing brushes sweep the inner wall and the outer wall of the copper alloy pipe and spray cleaning liquid at high pressure at the same time, so that the cleaning liquid is precisely sprayed, the cleaning cleanliness can be effectively improved, the cleaning efficiency is improved, and the cost is saved. The supporting net and the plurality of netlike bosses provide effective supporting and fixing structures for the copper alloy pipe to be cleaned on one hand, and can also realize effective recovery of cleaning liquid and copper scraps on the other hand, and the copper alloy pipe cleaning device is simple in structure, convenient and quick.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a schematic view of a copper alloy cleaning apparatus according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a cross-section of two arcuate rinse brushes of any one set of rinse assemblies in accordance with one embodiment of the present utility model;

FIG. 3 is a schematic diagram of a driving assembly according to an embodiment of the present utility model;

FIG. 4 is a schematic top view of a support net according to one embodiment of the present utility model;

FIG. 5 is a schematic cross-sectional view of a cross-support beam and snap ring according to one embodiment of the utility model;

FIG. 6 is a schematic view of a structure of any one of the arc-shaped washing brushes according to an embodiment of the present utility model;

FIG. 7 is a schematic perspective view of a cleaning solution tank according to an embodiment of the present utility model;

fig. 8 is a schematic view showing a structure of a copper alloy cleaning apparatus according to still another embodiment of the present utility model.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It will be understood that terms, such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 and 2, the present utility model provides a copper alloy cleaning apparatus comprising: a case 10; the driving assembly 20 is arranged above the box body in a lifting manner through a lifting piece; at least two sets of scrubbing assemblies 40 rotatably vertically distributed within the housing by the drive assembly, and the at least two sets of scrubbing assemblies are not in contact with each other; any one of the sets of scrubbing assemblies includes a driven shaft 401 that is rotationally disposed in synchrony with the drive shaft 202 of the drive assembly through the gear set 201 of the drive assembly; a transverse supporting beam 402, one end of which is connected and fixed to the driven shaft, and the other end of which extends horizontally to one side of the driven shaft; two arc-shaped washing brushes 403, the upper ends of which are slidably arranged on the transverse supporting beam; the distance between the two arc-shaped flushing brushes and the position of the two arc-shaped flushing brushes on the transverse supporting beam can be adjusted through sliding, so that the cleaning requirements of copper alloy pipes with different wall thicknesses can be met conveniently; the plurality of high-pressure spray holes 404 are uniformly distributed on two opposite side walls of the two arc-shaped flushing brushes and respectively spray water to the inner side wall and the outer side wall of the copper alloy pipe to be cleaned; the water inlet pipeline is extended and distributed in at least two groups of brushing assemblies, and the water outlet end of the water inlet pipeline is communicated with a plurality of high-pressure spray holes; a support net 101 horizontally disposed within the case below the at least two sets of scrubbing assemblies; the plurality of net-shaped bosses 1011 are integrally formed on the supporting net, the plurality of net-shaped bosses are arranged in one-to-one correspondence with at least two groups of brushing components, the circle center of any net-shaped boss is positioned on the axis of the driven shaft of one group of brushing components which is arranged in correspondence with the circle center of any net-shaped boss, the lower end of the copper alloy pipe 1 to be cleaned is detachably clamped on the plurality of net-shaped bosses, and the aperture of the supporting net is larger than the particle size of copper scraps; the two arc-shaped flushing brushes synchronously brush the inner wall and the outer wall of the copper alloy pipe, the force is balanced, the self weight of the copper alloy pipe is added, and a plurality of net-shaped bosses are matched for clamping the copper alloy pipe, so that the copper alloy pipe can be stably supported and fixed; in addition, the cleaning liquid can also carry copper scraps to flow through the supporting net so as to realize recovery of the copper scraps and recycling of the cleaning liquid; the liquid inlet of the cleaning liquid tank 50 is communicated to the bottom of the tank body through a return pipe, and the liquid outlet of the cleaning liquid tank is communicated to the water inlet end of the water inlet pipeline through a water supply pipe. A circulation pump is arranged in the water supply pipe or the cleaning liquid tank. In this scheme, the drive assembly drive at least two sets of scrubbing assemblies respectively to the copper alloy pipe that wait to wash under it clean the inside and outside wall, sweep copper alloy pipe inside and outside wall at two arc flushing brushes and high pressure spray the washing liquid simultaneously, the washing liquid is accurate to be sprayed, can effectively improve and wash the cleanliness factor, improves cleaning efficiency, practices thrift the cost. The supporting net and the plurality of netlike bosses provide effective supporting and fixing structures for the copper alloy pipe to be cleaned on one hand, and can also realize effective recovery of cleaning liquid and copper scraps on the other hand, and the copper alloy pipe cleaning device is simple in structure, convenient and quick.

As shown in fig. 3, in a preferred embodiment, the driving assembly includes: a driving motor 203, the driving shaft of which is provided with a driving gear 2011; a driven gear 2012 which is sleeved on the driven shaft and is meshed with the driving gear; wherein, correspond at least two sets of scrubbing assemblies, the gear train includes driving gear and at least two driven gears. In this scheme, adopt simple gear train structure, drive motor drive driving gear drives two at least driven gears and rotates, and then drives two at least groups and washs the subassembly and wash the operation to two at least copper alloy pipes, mainly wash the operation to great specification, heavy copper alloy pipe of dead weight, copper sheathing etc..

As shown in fig. 4, in a preferred embodiment, the method further includes: the plurality of arc convex rings 1012 are uniformly sleeved around the plurality of net-shaped bosses by taking the net-shaped bosses as circle centers, and the interval distance between two adjacent arc convex rings is matched with the pipe wall thickness of the copper alloy pipe. The plurality of arc convex rings can be matched with and clamped with copper alloy pipes with a plurality of specifications so as to rapidly finish cleaning operation. In practical application, in order to avoid collision and abrasion of the copper alloy pipe and increase friction force, a buffer rubber sleeve can be sleeved on the side walls of the plurality of net-shaped bosses or the plurality of arc-shaped convex rings.

As shown in fig. 5, in a preferred embodiment, the lower surface of the transverse supporting beam is formed into a sliding rail 4021, the upper ends of the two arc-shaped washing brushes are slidably clamped on the sliding rail through a clamping ring 4022, and the clamping ring is detachably fixed on the sliding rail through a bolt. In this scheme, adopt snap ring and slide rail complex structure, realize fixed and the position adjustment to two arc washing brushes, simple structure, convenient dismantlement.

As shown in fig. 6, in a preferred embodiment, either one of the two arc-shaped washing brushes includes a pair of arc-shaped supporting pieces 4031 which are respectively provided at both ends of the arc-shaped washing brush; three brush rollers 4032 which are axially arranged in parallel with each other, and both ends of the three brush rollers are respectively rotatably arranged on a pair of arc-shaped supporting sheets; the shower 4033 is disposed between two adjacent brush rolls, and a plurality of high pressure spray holes are distributed on the shower. In this scheme, two arc washings brush are by three brush roll parallel arrangement respectively, under the support of a pair of arc backing sheet, realize with better laminating of curved copper alloy pipe's lateral wall, a plurality of high-pressure orifice distributes on independent shower to cooperate with three brush roll to better completion cleaning operation.

In a preferred scheme, the driven shaft is arranged in a hollow way to form a water inlet pipeline, and the driven shaft is connected with the water supply pipe through a bearing; the water supply pipe in the lower end of the driven shaft is communicated with the spray pipe through a metal hose. In the scheme, a water inlet pipeline is directly formed by utilizing the driven shaft, and a metal hose is arranged between the hollow pipe body of the driven shaft and the spray pipe, so that the position of the two arc-shaped flushing brushes on at least two brushing assemblies can be conveniently matched.

As shown in fig. 7, in a preferred embodiment, the method further includes: a filter screen 501 disposed near the bottom of the cleaning liquid tank, and the water outlet 502 is located above the filter screen; a liquid inlet pipe 503 extending from the liquid inlet through the filter screen to near the bottom of the cleaning liquid tank. In this scheme, the feed liquor pipe injects the washing liquid that has the copper dust into the washing liquid incasement bottom, and the filter screen entraps the copper dust, makes it deposit in the bottom of the box, and the delivery port is located the filter screen top to can cyclic utilization washing liquid. In practical application, one or a plurality of filter screens can be arranged to divide the tank body into a left space and a right space, the liquid inlet pipe injects the cleaning liquid with copper scraps into the tank body at the left part of the filter screens, and the water outlet is positioned in the tank body at the right part of the filter screens, so that the purpose of separating and recycling the copper scraps can be achieved.

As shown in fig. 8, in a preferred embodiment, the lifting assembly base lifting member further includes: a base 301; the support plate 302 is horizontally arranged on the base in a liftable manner through the hydraulic rod group 303, the driving assembly is arranged on the support plate, and the driving shaft and driven shafts of at least two groups of brushing groups respectively penetrate through the support plate; the bases of the hydraulic rod groups are respectively fixed on the bases, and the front ends of the hydraulic rod groups are hinged and supported on the supporting plates. In this scheme, provide the structure of a lifting element to realize the lift of drive assembly, conveniently replace the copper alloy pipe, adjust the position of two arc cleaning brushes in the at least two sets of scrubbing assembly, and equipment maintenance etc..

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims

1. A copper alloy cleaning apparatus, comprising:

a case;

the liquid inlet of the cleaning liquid tank is communicated to the bottom of the tank body through a return pipe, and the liquid outlet of the cleaning liquid tank is communicated to the water inlet end of the water inlet pipeline through a water supply pipe;

the lower surface of the transverse supporting beam is formed into a sliding rail, the upper ends of the two arc-shaped flushing brushes are clamped on the sliding rail in a sliding way through a clamping ring, and the clamping ring is detachably fixed to the sliding rail through bolts.

2. The copper alloy cleaning apparatus of claim 1, wherein the drive assembly comprises:

a driving motor, a driving shaft of which is provided with a driving gear;

the driven gear is sleeved on the driven shaft and meshed with the driving gear;

wherein, correspond at least two sets of scrubbing assemblies, the gear train includes driving gear and at least two driven gears.

3. The copper alloy cleaning apparatus according to claim 1, further comprising:

the arc convex rings are uniformly sleeved and distributed around the reticular convex plates by taking the reticular convex plates as circle centers, and the interval distance between two adjacent arc convex rings is matched with the thickness of the pipe wall of the copper alloy pipe.

4. The copper alloy cleaning apparatus according to claim 1, wherein either one of the two arc-shaped rinse brushes comprises a pair of arc-shaped support pieces provided separately at both ends of the arc-shaped rinse brush; the three brush rollers are axially arranged in parallel, and two ends of the three brush rollers are respectively and rotatably arranged on the pair of arc-shaped supporting sheets; and the spray pipes are arranged between two adjacent brush rolls, and a plurality of high-pressure spray holes are distributed on the spray pipes.

5. The copper alloy cleaning apparatus according to claim 4, wherein the driven shaft is provided with a hollow formed water inlet pipeline, and the driven shaft is connected with the water supply pipe through a bearing; the water supply pipe in the lower end of the driven shaft is communicated with the spray pipe through a metal hose.

6. The copper alloy cleaning apparatus according to claim 1, further comprising:

the filter screen is arranged near the inner bottom of the cleaning liquid tank, and the liquid outlet is positioned above the filter screen;

and a liquid inlet pipe extending from the liquid inlet to the bottom of the cleaning liquid tank through the filter screen.

7. The copper alloy cleaning apparatus according to claim 1, further comprising:

a base;

the driving assembly is arranged on the supporting plate, and the driving shaft and driven shafts of at least two groups of brushing groups respectively penetrate through the supporting plate; the bases of the hydraulic rod groups are respectively fixed on the bases, and the front ends of the hydraulic rod groups are hinged and supported on the supporting plates.