CN210993311U - Novel cleaning liquid tank - Google Patents

Abstract

The utility model discloses a novel washing liquid cistern, including the cell body, the cell body divide into liquid inlet area, foam collecting region, sediment district, oil slick collection district and filtering liquid district to be equipped with liquid recovery mouth, row foam mouth, row's cinder notch, oil drain port and drawing liquid mouth on the cell body, liquid recovery mouth is located the top of liquid inlet area and communicates with each other with the liquid inlet area, arrange foam mouth, row's cinder notch, oil drain port and drawing liquid mouth and communicate foam collecting region, sediment district, oil slick collection district and filtering liquid district respectively, the flow path that advances liquid zone, sediment district, oil slick collection district and filtering liquid district constitutes U type route structure, be equipped with one between sediment district and the liquid inlet area and adjust the door, be equipped with the filter screen between oil collection district and the filtering liquid district, be equipped with in the oil slick collection district simultaneously and can carry out floating collection mechanism that floats from top to bottom along with this district interior liquid level. The utility model discloses can separately handle dross and come-up grease, sediment, furthest extension liquid cycle live time reduces the waste liquid and produces.

Description

Novel cleaning liquid tank

Technical Field

The utility model relates to a novel washing liquid cistern belongs to energy saving and emission reduction, cleaner production field.

Background

The metal workpiece needs to be cleaned or subjected to surface treatment or spraying and other different process flows on a spraying line, liquid medicine or cleaning water can be polluted after being recycled for several times, the liquid contains a large amount of impurities such as foam, grease, suspended matters and solid particles, the service life of the liquid (liquid medicine or cleaning water) is prolonged, the operation economic benefit is improved, the discharge amount of waste liquid is reduced, and pollutants in the liquid need to be cleaned and removed in real time, and the traditional treatment method comprises the following steps:

(1) at the washing liquid cistern lateral wall, a little higher than the position of liquid level, the fluting, through adding liquid constantly, let the come-up pollutant from the overflow mouth constantly get rid of, this kind of method uses simply also effective result, but the shortcoming is also very obvious, mainly has:

a) the overflow is realized in a mode of continuously adding liquid, and useful liquid is discharged together with floating pollutants, so that the resource waste is caused, the energy consumption is increased, and meanwhile, a large amount of waste liquid to be treated is generated, so that the environmental protection is not facilitated (even the utilization rate of equipment is low due to limited discharge indexes of many enterprises);

b) because equipment is out of work, the liquid level of cistern is in the high level, and the overflow mouth is in the position that is a little higher than the liquid level, and when equipment operation, a large amount of liquid leads to the liquid level to reduce in the pipeline, need constantly supply liquid to the high level this time, until can the overflow, but when shutting down, liquid backward flow in the pipeline leads to a large amount of liquid to need arrange outward and produce unnecessary waste water and wasting of resources, can lead to liquid overflow liquid groove because the overflow comes too late to discharge even, pollutes operational environment.

(2) A floating slag pumping port (or a pumping port) is arranged on the liquid level in the liquid tank, the floating pumping port floats along the liquid level and is slightly lower than the liquid level, the floating pollutants and the upper layer liquid in the liquid tank are pumped away by a pump continuously, the floating pollutants and the upper layer liquid are separated by a subsequent separation device or a filter device, and the treated liquid flows back to the liquid tank; the treatment method can cause the floating pollutants (such as foams and oil stains) to be dispersed into the liquid in the treatment process, so that the pollutants can not be separated out, and meanwhile, the treatment method has higher energy consumption.

(3) The bottom of the liquid tank is provided with an inclined plate, a slag settling tank and a filter screen, so that sinking pollutants are isolated and prevented from entering a circulating pipeline for the second time. However, as the suction port of the pump is arranged at the high position of the inclined plate and the sediment port is arranged at the low position of the inclined plate, the backflow liquid does not enter the sediment tank at the bottom of the liquid tank and directly enters the suction port of the pump along the water flow direction above the liquid level of the liquid tank, although the filter screen is arranged, smaller pollutants can pass through the filter screen and enter 2 times of circulation, so that the pollutants are always circulated in the pipeline and can sink to the sediment zone until the machine is shut down.

SUMMERY OF THE UTILITY MODEL

For overcoming the not enough of prior art existence to consider factors such as energy saving and emission reduction, high-efficient environmental protection, cleaner production, the utility model provides a novel washing liquid cistern.

The utility model adopts the technical proposal that: a novel cleaning liquid flume comprises a flume body, wherein the flume body is divided into a liquid inlet area, a foam collecting area, a sediment area, a floating oil collecting area and a filtering liquid area, a liquid recovery port, a foam discharging port, a slag discharging port, an oil discharging port and a liquid pumping port are arranged on the flume body, the liquid recovery port is positioned above the liquid inlet area and communicated with the liquid inlet area, the foam discharging port, the slag discharging port and the liquid pumping port are respectively communicated with the foam collecting area, the sediment area, the floating oil collecting area and the filtering liquid area, the flow paths of the liquid inlet area, the sediment area, the floating oil collecting area and the filtering liquid area form a U-shaped path structure, the sediment area is positioned at the outlet end of the liquid inlet area, the floating oil collecting area is positioned at the inlet end of the filtering liquid area, a regulating door capable of regulating up and down is arranged between the sediment area and the liquid inlet area, a filter screen is arranged between the floating oil collecting area and the filtering liquid area, and the, one end of the foam collecting box is positioned in the liquid inlet area, the other end of the foam collecting box is positioned in the sediment area, the middle of the foam collecting box is provided with a foam inlet, the foam inlet is lower than the working liquid level in the area where the foam inlet is positioned, and a floating collecting mechanism which can float up and down along with the liquid level in the area is arranged in the floating oil collecting area.

Furthermore, the bottom of the sediment zone is of a concave arc surface structure, a slag discharge pipe communicated with the slag discharge port is connected to the bottom end of the arc surface, and the upper part of one section of the slag discharge pipe positioned at the bottom end of the arc surface is in an inclined opening shape.

Further, the liquid recovery mouth is long banding open structure, and it is located the backward flow mouth below of wasing the canopy body to the grafting bounding wall direct detachable that the backward flow mouth lower extreme set up inserts in the liquid recovery mouth.

Further, the collection mechanism floats including oil float, connection pad, collection oil pipe and row oil pipe, collection oil pipe upper end is connected and its top is equipped with the funnel with the connection pad, is equipped with above the connection pad oil float, the telescopic insertion of collection oil pipe lower extreme is in row oil pipe upper end, and the oil drain port is connected to the lower extreme of arranging oil pipe.

Furthermore, the tank body is also provided with an overflow liquid inlet and an overflow port, the overflow liquid inlet and the overflow port are communicated with the sediment zone and the floating oil collecting zone, and the height of the overflow liquid inlet on the tank body is higher than that of the overflow port.

Furthermore, when the cleaning liquid tanks are connected in series, the cleaning liquid tanks can be cleaned in multiple stages, when the cleaning liquid tanks are connected in series, the overflow ports on the upper tank body are connected with the overflow liquid inlets on the lower tank body, and the overflow ports on the upper tank body are consistent with the overflow liquid inlets on the lower tank body in height.

Furthermore, the box body adopts an outer rib inward-folding structure.

Furthermore, the periphery of a cover opening above each area of the groove body is of an upward flanging structure.

Furthermore, the upper parts of the sediment zone and the floating oil collecting zone are of an open structure, and the open structure is covered by a cover plate.

Furthermore, the bottom of cell body is equipped with the stabilizer blade, and this support inserts on adjusting the foot stand, it includes pedestal, adjusting bolt and adjusting bottom plate to adjust the foot stand, be equipped with on the pedestal and be used for stabilizer blade male regulation chamber, the bottom in adjusting the chamber is equipped with adjusting bottom plate, adjusting bottom plate passes through adjusting bolt and can carry out the regulation from top to bottom.

The utility model has the advantages as follows:

(1) the U-shaped flow limiting channel through which the backflow liquid passes firstly raises the liquid level by limiting the liquid backflow speed, so that floating foam and floating particles can overflow into a special slag storage buffer compartment, and floating slag has enough time to be defoamed and discharged through the slag storage buffer compartment, so that the problems of liquid carrying of the discharged floating slag and liquid discharge of liquid overflow caused by liquid backflow in a pipeline after shutdown are solved;

(2) an oil pumping port which floats up and down independently is arranged, and floating oil is pumped, treated independently and reflows;

(3) the sediment is firstly introduced into a sediment area by a flow limiting channel to be settled, so as to avoid entering a liquid circulation pipeline;

(4) the observation port of the liquid tank adopts an open design and a cover with a unique design, so that external washing water can be completed

(5) The outer ribs of the box body are folded inwards, no reinforcing rib is arranged, and the integrity is stronger;

(6) the overflow liquid inlet and the overflow port are arranged, so that the cleaning liquid tank can be subjected to multistage series connection to realize multistage cleaning, the height of the overflow liquid inlet on the tank body is higher than that of the overflow port, the overflow port on the upper tank body is connected with the overflow liquid inlet on the lower tank body, the height of the overflow port on the upper tank body is consistent with that of the overflow liquid inlet on the lower tank body, the upper and lower height difference of the subsequent overflow to the previous tank is preferably larger than the volume of liquid stored in a pipeline, and in order to ensure the height difference and the volume of the water tank, the length and width of the water tank on the previous tank are enlarged to ensure the reflux speed and the size of a reflux channel and reduce; when the device is operated, the liquid level is reduced, and water can be supplemented without water.

(7) The adjusting base is arranged, so that the installation and adjustment of the tank body are facilitated.

To sum up, the utility model discloses can be suitable for the great (like wide 1.2 meters, high 2 meters) automatic spraying line of work piece to can rationally solve the too big problem of overflow volume and the life problem of cistern interior liquid, reduce the wasting of resources, reduce the emission.

In addition, the novel cleaning liquid tank does not need to remove floating slag on the surface layer in a liquid adding overflow mode, floating slag, floating grease and sinking slag can be separately treated, the liquid recycling time is prolonged to the maximum extent, and the generation of waste liquid is reduced; the novel cleaning liquid tank can be matched with corresponding environment-friendly equipment (waste gas and waste water treatment) to form series matching equipment, and is popularized and applied to the market.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the internal structure of the bottom of the present invention.

Fig. 3 is a schematic structural view of the front end portion of the present invention.

Fig. 4 is a schematic structural view of the left end of the present invention.

Fig. 5 is a schematic structural diagram of the right side end of the present invention.

Figure 6 is a partial schematic view of the foam collection area of the present invention.

Fig. 7 is a partial schematic view of the floating oil collection area of the present invention.

Fig. 8 is a partial schematic view of the adjusting base of the present invention.

Labeled as: 1-a groove body, 2-a liquid inlet area, 3-a foam collecting area, 4-a sediment area, 5-a floating oil collecting area, 6-a filtering liquid area, 7-a liquid recycling port, 8-a foam discharging port, 9-a slag discharging port, 10-an oil discharging port, 11-a liquid pumping port, 12-an overflow liquid inlet port, 13-an overflow port, 14-an adjusting door, 15-a filtering net, 16-an oil float, 17-a connecting disc, 18-an oil collecting pipe, 19-an oil discharging pipe, 20-a funnel, 21-a foam collecting box, 22-a foam inlet, 23-an outer rib inner fold, 24-a cover plate, 25-a supporting leg, 26-an adjusting leg seat, 27-a seat body, 28-an adjusting bolt, 29-an adjusting bottom plate and 30-an adjusting cavity.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 5, a novel cleaning liquid flume comprises a flume body 1, wherein the flume body 1 is divided into a liquid inlet area 2, a foam collecting area 3, a sediment area 4, a floating oil collecting area 5 and a filtering liquid area 6, and is provided with a liquid recovery port 7, a foam discharging port 8, a slag discharging port 9, an oil discharging port 10 and a liquid pumping port 11, the liquid recovery port 7 is positioned above the liquid inlet area 2 and communicated with the liquid inlet area 2, the foam discharging port 8, the slag discharging port 9, the oil discharging port 10 and the liquid pumping port 11 are respectively communicated with the foam collecting area 3, the sediment area 4, the floating oil collecting area 5 and the filtering liquid area 6, the liquid inlet area 2, the sediment area 4, the floating oil collecting area 5 and the filtering liquid area 6 form a U-shaped path structure, the sediment area 4 is positioned at the outlet end of the liquid inlet area 2, the floating oil collecting area 5 is positioned at the inlet end of the filtering liquid area 6, and an adjusting door 14 capable of up-down adjustment is arranged between the sediment area 4 and the liquid inlet area 2, a filter screen 15 is arranged between the floating oil collecting area 5 and the filtering liquid area 6.

In this embodiment, the bottom of the slag settling zone 4 is a concave arc surface structure, the slag discharge pipe communicated with the slag discharge port 9 is connected to the bottom end of the arc surface, and the upper portion of the section of the slag discharge pipe located at the bottom end of the arc surface is in an inclined opening shape. In this embodiment, the liquid recovery port 7 is a long-strip-shaped opening structure, and is located below the return port of the cleaning shed body, and the insertion enclosing plate arranged at the lower end of the return port is directly detachably inserted into the liquid recovery port 7.

As shown in fig. 6, the foam collecting area comprises a foam collecting box 21, one end of the foam collecting box 21 is positioned in the liquid inlet area, the other end of the foam collecting box 21 is positioned in the sediment area, and the middle part of the foam collecting box 21 is provided with a foam inlet 22, and the foam inlet 22 is lower than the working liquid level in the area where the foam inlet is positioned.

As shown in figure 7, a floating collecting mechanism which can float up and down along with the liquid level in the floating oil collecting area is arranged in the floating oil collecting area 5. The collection mechanism floats including oil float 16, connection pad 17, collection oil pipe 18 and oil extraction pipe 19, collection oil pipe 18 upper end is connected and its top is equipped with funnel 20 with connection pad 17, is equipped with above connection pad 17 oil float 16, the telescopic insertion of collection oil pipe 18 lower extreme is in oil extraction pipe 19 upper end, and oil discharge opening 10 is connected to oil extraction pipe 19's lower extreme.

In a further preferred embodiment of the present invention, the tank body 1 is further provided with an overflow liquid inlet 12 and an overflow port 13, the overflow liquid inlet 12 and the overflow port 13 are communicated with the sediment zone 4 and the floating oil collecting zone 5, and the height of the overflow liquid inlet 12 on the tank body 1 is higher than the height of the overflow port 13. The cleaning liquid tank can be used for multi-stage cleaning when being connected in series in a multi-stage mode, when each cleaning liquid tank is connected in series, the overflow port 13 in the upper-level tank body is connected with the overflow liquid inlet 12 in the lower-level tank body, and the height of the overflow port 13 in the upper-level tank body is consistent with that of the overflow liquid inlet 12 in the lower-level tank body.

As shown in fig. 8, the bottom of the tank body 1 is provided with a support leg 25, the support 25 is inserted into an adjusting support leg 26, the adjusting support leg 26 includes a seat body 27, an adjusting bolt 28 and an adjusting bottom plate 29, the seat body 27 is provided with an adjusting cavity 30 for inserting the support leg 25, the bottom of the adjusting cavity 30 is provided with the adjusting bottom plate 29, and the adjusting bottom plate 29 can be adjusted up and down through the adjusting bolt 28.

The utility model discloses a working process does: cleaning liquid from a cleaning shed body enters a liquid tank liquid inlet area through a self backflow port and a liquid recovery port of a liquid tank, floating foam on the upper portion of the liquid in the liquid tank liquid inlet area enters a foam collecting box, other liquid enters a sediment area through a gap channel at the bottom of an adjusting door, at the moment, the liquid in the sediment area generates vortex, the internal slag body is precipitated to the bottom of the sediment area and is discharged through a slag discharge pipe, then, the liquid after slag discharge is collected in a floating oil collecting area in floating oil, the collected floating oil is discharged through an oil discharge port, and finally, the liquid after oil removal enters a filtering liquid area through a filter screen and enters the following circulation through a liquid suction port. When multi-stage liquid tanks are required to be connected in series to realize multi-stage cleaning, overflow ports on the upper-stage tank body can be connected with overflow liquid inlets on the lower-stage tank body, and thus liquid can be cleaned through the multi-stage liquid tanks.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It should be understood by those skilled in the art that the above embodiments do not limit the scope of the present invention in any way, and all technical solutions obtained by using equivalent substitution modes and the like fall within the scope of the present invention.

The utility model discloses the part that does not relate to all is the same with prior art or can adopt prior art to realize.

Claims (10)

1. A novel cleaning liquid flume comprises a flume body and is characterized in that the flume body is divided into a liquid inlet area, a foam collecting area, a sediment area, a floating oil collecting area and a filtering liquid area, a liquid recycling port, a foam discharging port, a slag discharging port, an oil discharging port and a liquid pumping port are arranged on the flume body, the liquid recycling port is positioned above the liquid inlet area and communicated with the liquid inlet area, the foam discharging port, the slag discharging port and the liquid pumping port are respectively communicated with the foam collecting area, the sediment area, the floating oil collecting area and the filtering liquid area, the flow paths of the liquid inlet area, the sediment area, the floating oil collecting area and the filtering liquid area form a U-shaped path structure, the sediment area is positioned at the outlet end of the liquid inlet area, the floating oil collecting area is positioned at the inlet end of the filtering liquid area, a regulating gate capable of regulating up and down is arranged between the sediment area and the liquid inlet area, and a filtering liquid area is provided with a filter screen, the foam collecting area comprises a foam collecting box, one end of the foam collecting box is positioned in the liquid inlet area, the other end of the foam collecting box is positioned in the sediment area, a foam inlet is formed in the middle of the foam collecting box and is lower than the working liquid level in the area where the foam inlet is positioned, and a floating collecting mechanism capable of floating up and down along with the liquid level in the area is arranged in the floating oil collecting area.

2. The novel cleaning solution liquid tank as claimed in claim 1, wherein the bottom of the sediment zone is a concave arc surface structure, a slag discharge pipe communicated with the slag discharge port is connected to the lowest end of the arc surface, and the upper part of the section of the slag discharge pipe positioned at the lowest end of the arc surface is in an oblique opening shape.

3. The novel cleaning solution tank as claimed in claim 1, wherein the solution recovery port has an elongated opening structure and is located below the return port of the cleaning shed, and the insertion enclosure provided at the lower end of the return port is directly and detachably inserted into the solution recovery port.

4. The novel cleaning solution liquid groove as claimed in claim 1, wherein the floating collection mechanism comprises an oil float, a connecting disc, an oil collection pipe and an oil discharge pipe, the upper end of the oil collection pipe is connected with the connecting disc, a funnel is arranged at the top of the oil collection pipe, the oil float is arranged above the connecting disc, the lower end of the oil collection pipe is telescopically inserted into the upper end part of the oil discharge pipe, and the lower end of the oil discharge pipe is connected with an oil discharge port.

5. A novel cleaning liquid tank as claimed in claim 1, wherein the tank body is further provided with an overflow liquid inlet and an overflow port, the overflow liquid inlet and the overflow port are communicated with the sediment zone and the floating oil collection zone, and the height of the overflow liquid inlet on the tank body is higher than that of the overflow port.

6. A novel cleaning solution liquid groove as claimed in claim 5, characterized in that, when the cleaning solution liquid groove is connected in series in multiple stages, the cleaning solution liquid groove can be cleaned in multiple stages, when each cleaning solution liquid groove is connected in series, the overflow port on the superior groove body is connected with the overflow inlet on the inferior groove body, and the overflow port on the superior groove body is in accordance with the overflow inlet on the inferior groove body in height.

7. A novel cleaning solution liquid tank as claimed in claim 1, wherein the tank body adopts an outer rib inward-folded structure.

8. A novel cleaning solution liquid tank as claimed in claim 1, characterized in that the periphery of the cover opening above each zone of the tank body is of an upturned structure.

9. A novel cleaning liquid tank as claimed in claim 1 or 8, wherein the upper part of the sediment zone and the floating oil collection zone is of an open structure, and the open structure is covered by a cover plate.

10. A novel cleaning solution liquid groove as claimed in claim 1, characterized in that the bottom of the groove body is provided with support legs, the bracket is inserted into an adjusting foot seat, the adjusting foot seat comprises a seat body, an adjusting bolt and an adjusting bottom plate, the seat body is provided with an adjusting cavity for inserting the support legs, the bottom of the adjusting cavity is provided with the adjusting bottom plate, and the adjusting bottom plate can be adjusted up and down through the adjusting bolt.

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