CN218984114U - A cooling liquid filtration recovery device - Google Patents

Abstract

The utility model discloses a cooling liquid filtration recovery device, which comprises a base, a collection box and a filtration recovery device. The collection box is installed on the base, and the filtration recovery device is installed on the collection box. As well as the recovery structure, the filter structure includes a receiving plate, a slide rail, a slider, a filter screen, a sealing strip and a handle. With the cooperation, when the CNC machine tool is processing the workpiece, the large-volume debris can be separated from the coolant, and the separated debris can be recycled to avoid waste of resources and facilitate the recovery of the coolant; this case is equipped with a stirring structure, Through the cooperation between the various parts of the stirring structure, the cooling liquid mixed with small particle debris can be stirred, and under the action of centrifugal force, the small particle debris can be gathered together.

Description

A cooling liquid filtration recovery device

technical field

The utility model relates to the technical field of numerical control machine tools, in particular to a cooling liquid filtration recovery device.

Background technique

When CNC machine tools are processing parts, a large amount of heat will be generated at the contact part between the tool and the workpiece. If the heat is not treated in time, it will damage the internal structure of the workpiece and cause damage to the tool. Therefore, it is necessary to cool the workpiece through coolant, and timely Take away the generated heat to protect the tool and workpiece. When the coolant cools down, it will wash away the debris generated together. The coolant mixed with debris is not easy to recycle, resulting in waste of coolant. At the same time, the debris in the coolant Failure to recycle will also cause waste of resources. Therefore, a cooling liquid filtration and recovery device is designed.

Utility model content

In order to achieve the above purpose, the utility model is realized through the following technical solutions: a cooling liquid filtration and recovery device, including a base, a collection box and a filtration and recovery device, the collection box is installed on the base, and the filtration and recovery device is installed on the collection box The filter recovery device includes a filter structure, an agitation structure and a recovery structure. The filter structure is installed on the collection box. The agitation structure is installed on the collection box. The recovery structure is installed on the collection box. Filters, seals and handles;

The slide rail is installed on the collection box, the receiving plate is installed in the collecting box, the slider is installed on the receiving plate and on the slide rail, the handle is installed on the receiving plate, the filter is installed in the receiving plate, and the sealing strip is installed on the receiving plate on the plate.

Preferably, a connecting pipe is provided between the collection box and the base.

Preferably, the stirring structure includes a drive motor, a connecting shaft, a stirring blade and a conical block;

The driving motor is installed on the collecting box, the connecting shaft is installed on the driving end of the driving motor, the stirring blade is installed on the connecting shaft, and the conical block is installed on the connecting shaft.

Preferably, a filter cover is arranged above the connecting pipe.

Preferably, the recovery structure includes a filter layer, a positioning rod, a collection pipe, an electric control valve and a discharge pipe;

The filter layer is installed on the collection box, the positioning rod is installed on the inner wall of the collection box, the collection pipe is installed on the collection box, the electric control valve is installed on the collection pipe, and the discharge pipe is installed on the collection box.

Preferably, the discharge pipe is provided with a control valve.

Beneficial effect

The utility model provides a cooling liquid filtration recovery device, which has the following beneficial effects:

1. This case is equipped with a filter structure, which includes a receiving plate, a slide rail, a slider, a filter screen, a sealing strip and a handle. Through the cooperation between the filter structures, the workpiece containing debris can be removed when the CNC machine tool is processing the workpiece. The coolant is filtered to separate the large-volume debris from the coolant, and the separated debris can be recycled to avoid waste of resources and facilitate the recovery of coolant;

2. This case is equipped with a stirring structure, which includes a drive motor, a connecting shaft, a stirring blade and a conical block. Through the cooperation between the components of the stirring structure, the coolant mixed with small particles can be stirred. Under the action of the action, the small particle debris is gathered together, reducing the impurity content in the cooling liquid, and facilitating the recovery of the cooling liquid;

3. This case is equipped with a recovery structure, which includes a filter layer, a positioning rod, a collection pipe, an electric control valve and a discharge pipe. Through the cooperation between the components of the recovery structure, the cooling liquid can be filtered again to reduce impurities in the cooling liquid The coolant is recovered after the content is reduced, and the accumulated impurities can be discharged through the discharge pipe to save resources.

Description of drawings

Fig. 1 is the schematic diagram of the front view structure of a kind of cooling liquid filtration recovery device of the present invention;

Fig. 2 is a top view partial structural schematic diagram of a coolant filtration and recovery device of the present invention;

Fig. 3 is a partial enlarged structure schematic diagram of the front view of a cooling liquid filtration and recovery device of the present invention;

In the figure: 1. Base; 2. Collection box; 3. Receiving plate; 4. Slide rail; 5. Slider; 6. Filter net; 7. Sealing strip; 8. Handle; 9. Connecting pipe; 10. Drive Motor; 11, connecting shaft; 12, stirring blade; 13, conical block; 14, filter cover; 15, filter layer; 16, positioning rod; 17, collecting pipe; 18, electric control valve; 19, discharge pipe; 20 ,Control valve;

Detailed ways

Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Please refer to Figures 1-3. The utility model provides a technical solution for a cooling liquid filtration and recovery device.

Example:

Please refer to the accompanying drawings 1-3. In the specific implementation process, a cooling liquid filtration recovery device includes a base 1, a collection box 2 and a filtration recovery device. The collection box 2 is installed on the base 1, and the filtration recovery device is installed on the On the collection box 2, the filter recovery device includes a filter structure, an agitation structure and a recovery structure, the filter structure is installed on the collection box 2, the agitation structure is installed on the collection box 2, the recovery structure is installed on the collection box 2, and the filter structure includes a receiving plate 3. Slide rail 4, slider 5, filter screen 6, sealing strip 7 and handle 8;

The slide rail 4 is installed on the collection box 2, the receiving tray 3 is installed in the collection box 2, the slider 5 is installed on the receiving tray 3 and on the slide rail 4, the handle 8 is installed on the receiving tray 3, and the filter screen 6 is installed In the receiving plate 3, the sealing strip 7 is installed on the receiving plate 3;

It should be noted that the base 1 supports the CNC machine tool, and the collection box 2 is installed on the base 1. The coolant is filtered through the filter recovery device in the collection box 2, and the debris mixed in the coolant is mixed with the coolant. Separation, separate recovery after separation, saving resources, the filter recovery device includes a filter structure, agitation structure and recovery structure, through the cooperation between the filter structures, the coolant containing debris can be filtered, and the large volume of debris and The coolant is separated, and the separated debris can be recycled to avoid waste of resources, and at the same time facilitate the recovery of the coolant. Through the cooperation between the components of the stirring structure, the coolant mixed with small particle debris can be stirred. Under the action of centrifugal force, the small particles and debris are gathered together to reduce the impurity content in the cooling liquid and facilitate the recovery of the cooling liquid. Through the cooperation between the various parts of the recovery structure, the cooling liquid can be filtered again to reduce the amount of impurities in the cooling liquid. After reducing the content of impurities, the coolant is recovered, and at the same time, the accumulated impurities can be discharged through the discharge pipe 19, saving resources;

When the CNC machine tool is processing the workpiece, the coolant cools the workpiece and the cutting tool, and at the same time, the debris is taken away from the processing surface through the coolant. After the debris is initially filtered through the filter cover 14 on the base 1, it flows to the collector with the coolant. In the box 2, after the coolant containing debris flows into the collection box 2, it falls onto the filter screen 6 of the receiving tray 3, and the larger volume of debris is separated from the coolant through the filter screen 6, and the coolant falls to the At the bottom of the collection box 2, the debris remains on the filter screen 6 of the receiving tray 3. Regularly clean the debris in the receiving tray 3 to avoid accumulation of debris and affect the filtration of coolant. When cleaning debris, pull the handle 8, the handle 8 Drag the receiving tray 3 equipped with the slider 5 to move along the direction of the slide rail 4, so that the receiving tray 3 can be easily pulled out from the collection box 2, and the debris on the filter screen 6 in the receiving tray 3 can be cleaned. 5 cooperates with the slide rail 4 to make the pushing and pulling of the receiving plate 3 smoother, and the sealing strip 7 can prevent the coolant from leaking out from the connection between the receiving plate 3 and the collection box 2 .

In the specific implementation process, a connecting pipe 9 is provided between the collection box 2 and the base 1;

It should be noted that the connecting pipe 9 guides the cooling liquid, so that the cooling liquid can flow into the collection box 2 through the connecting pipe 9 .

In the specific implementation process, the stirring structure includes a driving motor 10, a connecting shaft 11, a stirring blade 12 and a conical block 13;

The driving motor 10 is installed on the collection box 2, the connecting shaft 11 is installed on the driving end of the driving motor 10, the stirring blade 12 is installed on the connecting shaft 11, and the conical block 13 is installed on the connecting shaft 11;

It should be noted that the collection box 2 is provided with an observation window, and the height of the coolant in the collection box 2 can be observed. When the coolant in the collection box 2 reaches a certain height, the drive motor 10 is started, and the drive motor 10 drives the connecting shaft. 11 rotates. When the connecting shaft 11 rotates, the stirring blade 12 installed on the connecting shaft 11 stirs the coolant containing debris. When the coolant rotates and stops, due to the different quality of the coolant and the debris, it will Most of the debris is gathered at the tip of the conical block 13 due to the eccentric force, and a small amount of debris is scattered at the bottom of the collection box 2, which will make the impurities and debris in the cooling liquid pile up and facilitate the recovery of the cooling liquid.

In the specific implementation process, a filter cover 14 is arranged above the connecting pipe 9;

It should be noted that the filter cover 14 above the connecting pipe 9 can block large-volume debris in the cooling liquid and perform preliminary filtration on the cooling liquid.

In the specific implementation process, the recovery structure includes a filter layer 15, a positioning rod 16, a collection pipe 17, an electric control valve 18 and a discharge pipe 19;

The filter layer 15 is installed on the collection box 2, the positioning rod 16 is installed on the inner wall of the collection box 2, the collection pipe 17 is installed on the collection box 2, the electric control valve 18 is installed on the collection pipe 17, and the discharge pipe 19 is installed on the collection box 2 superior;

It should be noted that when the coolant is stirred and stilled, most of the impurities and debris gather together, and the electric control valve 18 is activated. Because the position of the collection pipe 17 is higher than that of the discharge pipe 19, when the collection pipe 17 passes through, The coolant is discharged from the collection pipe 17 to collect the coolant. The filter layer 15 is installed on the inner wall of the collection box 2 through the positioning rod 16. The filter layer 15 filters the coolant again to intercept small particle debris to ensure recovery. The quality of the cooling liquid, through the discharge pipe 19, the bottom of the collection box 2 can be piled up and scattered impurities and debris and a small amount of residual cooling liquid can be discharged and collected.

In the specific implementation process, the discharge pipe 19 is provided with a control valve 20;

It should be noted that the control valve 20 can artificially control the opening and closing of the discharge pipe 19 .

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes and modifications can be made to these embodiments without departing from the principle and spirit of the present invention , replacements and modifications, the scope of the present utility model is defined by the appended claims and their equivalents.

Claims (6)

1. A cooling liquid filtration recovery device, including a base, a collection box and a filtration recovery device, the collection box is installed on the base, the filtration recovery device is installed on the collection box, and the filtration recovery device includes a filter structure, an agitation structure and a recovery structure , the filter structure is installed on the collection box, the agitation structure is installed on the collection box, the recovery structure is installed on the collection box, the filter structure includes a receiving plate, a slide rail, a slider, a filter screen, a sealing strip and a handle, and it is characterized in that: The slide rail is installed on the collection box, the receiving plate is installed in the collecting box, the slider is installed on the receiving plate and on the slide rail, the handle is installed on the receiving plate, the filter is installed in the receiving plate, and the sealing strip is installed on the receiving plate on the plate. 2. A cooling liquid filtration recovery device according to claim 1, characterized in that a connecting pipe is arranged between the collection box and the base. 3. A cooling liquid filtration and recovery device according to claim 1, wherein the agitation structure includes a drive motor, a connecting shaft, a stirring blade and a conical block; The driving motor is installed on the collecting box, the connecting shaft is installed on the driving end of the driving motor, the stirring blade is installed on the connecting shaft, and the conical block is installed on the connecting shaft. 4. A cooling liquid filtration recovery device according to claim 2, characterized in that a filter cover is arranged above the connecting pipe. 5. A coolant filtration recovery device according to claim 1, wherein the recovery structure comprises a filter layer, a positioning rod, a collection pipe, an electric control valve and a discharge pipe; The filter layer is installed on the collection box, the positioning rod is installed on the inner wall of the collection box, the collection pipe is installed on the collection box, the electric control valve is installed on the collection pipe, and the discharge pipe is installed on the collection box. 6. A cooling liquid filtration and recovery device according to claim 5, characterized in that a control valve is arranged on the discharge pipe.

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