CN213998757U - Hydraulic valve block processing cutting fluid processing apparatus - Google Patents

Abstract

The utility model discloses a hydraulic valve piece processing cutting fluid processing apparatus, including the cell body, still including the filter, the cell body divide into a plurality of splitter boxes, and smear metal liquid passes through the inlet and gets into the cell body, one by one behind a plurality of splitter boxes, pass through the filter again and filter the back through the leakage fluid dram discharge, be equipped with the magnet that adsorbs ferromagnetic impurity in the splitter box. The device is used for collecting and processing the recovered cutting fluid after the hydraulic valve block is processed and returning the recovered cutting fluid for recycling. Firstly, cyclic utilization increases the feature of environmental protection, secondly carries out the branch clearance to each impurity in the cutting fluid, guarantee cutting fluid system operation security.

Description

Hydraulic valve block processing cutting fluid processing apparatus

Technical Field

The utility model relates to a hydraulic valve piece processing technology field, in particular to hydraulic valve piece processing cutting fluid processing apparatus.

Background

Machining operations such as drilling and tapping are adopted in the manufacturing process of the existing hydraulic valve block, cutting fluid used for cooling a machining part in the working process is directly discharged or recycled after being collected, the cutting fluid directly participates in the machining process, part of scrap iron is arranged inside the cutting fluid, if a traditional filter is adopted, the cutting fluid contains machining particles, so that a filter element is extremely prone to being scratched, and meanwhile, impurity categories are not distinguished, so that the filter element is easy to replace frequently.

SUMMERY OF THE UTILITY MODEL

For overcoming the problem that exists among the prior art, the utility model provides a hydrovalve piece processing cutting fluid processing apparatus.

The utility model provides a technical scheme that its technical problem adopted is: this kind of hydraulic valve piece processing cutting fluid processing apparatus, including the cell body, still including the filter, the cell body divide into a plurality of splitter boxes, and smear metal liquid passes through the inlet and gets into the cell body, one by one after a plurality of splitter boxes, discharge through the leakage fluid dram after the filter filtration again, is equipped with the magnet that adsorbs ferromagnetic impurity in the splitter box.

Furthermore, the diversion grooves are communicated with each other through diversion pipe openings at the upper parts of the diversion grooves, the diversion pipe openings are arranged in a staggered mode, and the cutting fluid forms S-shaped circulation lines among the diversion grooves.

Furthermore, the tank body is divided into at least three splitter boxes by partition plates, and magnets are arranged in the splitter boxes in the middle.

Further, the cell body divide into three splitter box, is one-level splitter box, second grade splitter box and tertiary splitter box respectively, and the rear side upper portion of one-level splitter box is equipped with the inlet, and baffle front side upper portion between one-level splitter box and the second grade splitter box is equipped with the reposition of redundant personnel mouth of pipe, and baffle rear side upper portion between second grade splitter box and the tertiary splitter box is equipped with the reposition of redundant personnel mouth of pipe, and the front side upper portion of dispersion splitter box is equipped with the liquid outlet, and the liquid outlet is connected with the filter.

Further, install magnet in the second grade splitter box, magnet is divided into multistage according to the front and back position, and each level magnet all divide into the multilayer according to upper and lower position.

Furthermore, the first-level splitter box is used for precipitating and removing large-particle impurities in the cutting fluid, the second-level splitter box is used for capturing ferromagnetic impurities existing in the cutting fluid, and the third-level splitter box is used for depositing and standing the cutting fluid again.

To sum up, the utility model discloses an above-mentioned technical scheme's beneficial effect as follows:

the device is used for collecting and processing the recovered cutting fluid after the hydraulic valve block is processed and returning the recovered cutting fluid for recycling. Firstly, cyclic utilization increases the feature of environmental protection, secondly carries out the branch clearance to each impurity in the cutting fluid, guarantee cutting fluid system operation security.

Drawings

Fig. 1 is a front view of the present invention.

Fig. 2 is a top view of the present invention.

In the figure:

the device comprises a tank body 1, a bottom plate 11, a left side plate 12, a right side plate 13, a front side plate 14, a rear side plate 15, a top plate 16, a partition plate 17, a first-level splitter box 2, a second-level splitter box 3, a third-level splitter box 4, a liquid inlet 5, a splitter tube opening 6, a liquid outlet 7, a filter 8 and a magnet 9.

Detailed Description

The features and principles of the present invention will be described in detail below with reference to the accompanying drawings, and the illustrated embodiments are only for explaining the present invention, and do not limit the scope of the present invention.

The hydraulic valve block machining cutting fluid treatment device comprises a groove body 1 and a filter 8. The device is arranged on a cutting fluid collecting and refluxing system, and the tank body 1 adopts a multi-stage step form.

Specifically, the tank body 1 is divided into a plurality of splitter boxes, and the impurities in the cutting fluid are cleaned in different items, so that the operation safety of the cutting fluid system is guaranteed.

As shown in fig. 1, the tank body 1 is a rectangular tank as a whole, and the tank body 1 includes a bottom plate 11, a left side plate 12, a right side plate 13, a front side plate 14, a rear side plate 15 and a top plate 16, that is, the tank body 1 is formed by assembling the above six plates. A partition plate 17 is further arranged in the tank body 1, and the partition plate 17 is as high as the left side plate 12, the right side plate 13, the front side plate 14 and the rear side plate 15. The division plate 17 divides the tank body 1 into a plurality of independent diversion tanks with the upper parts communicated through the diversion pipe openings 6. In order to facilitate the cleaning of the tank body 1, the bottom plate 11 is detachably connected with the left side plate 12, the right side plate 13, the front side plate 14 and the rear side plate 15, and a sealing ring or a sealing strip is arranged between the bottom plate 11 and the left side plate 12, the right side plate 13, the front side plate 14 and the rear side plate 15. After a period of use, the bottom plate 11 can be detached and cleaned, and then assembled after cleaning.

The chip liquid enters the tank body 1 through the liquid inlet 5, passes through a plurality of splitter boxes one by one, is filtered through the filter 8 and then is discharged through the liquid outlet 7, and the splitter boxes are internally provided with magnets 9 for adsorbing ferromagnetic impurities.

As shown in figure 2, the diversion grooves are communicated with each other through diversion pipe openings 6 at the upper parts of the diversion grooves, the diversion pipe openings 6 are arranged in a staggered mode, and the chip liquid forms S-shaped circulation lines among the diversion grooves. The flowing time of the cutting fluid in the splitter box is prolonged, and the settling, adsorbing and standing efficiency is improved.

The tank body 1 is divided into at least three shunting grooves by the partition boards 17, and the magnet 9 is arranged in the middle shunting groove. The utility model discloses use cell body 1 to divide into three splitter box for the example to explain. Specifically, the three splitter boxes are a first-stage splitter box 2, a second-stage splitter box 3 and a third-stage splitter box 4 respectively; the rear side upper portion of one-level splitter box 2 is equipped with inlet 5, and baffle 17 front side upper portion between one-level splitter box 2 and the second grade splitter box 3 is equipped with reposition of redundant personnel mouth of pipe 6, and baffle 17 rear side upper portion between second grade splitter box 3 and tertiary splitter box 4 is equipped with reposition of redundant personnel mouth of pipe 6, and the front side upper portion of dispersion splitter box is equipped with the liquid outlet, and the liquid outlet is connected with filter 8. The level of the liquid inlet 5 is slightly higher than the level of the divergent orifice 6.

The magnets 9 are arranged in the secondary shunting grooves 3, the magnets 9 are divided into multiple stages according to the front position and the rear position, and the magnets 9 of each stage are divided into multiple layers according to the upper position and the lower position. Set up many magnet 9 in second grade splitter box 3 promptly, many magnet 9 distribute around second grade splitter box 3, control, carried out comprehensive, diversified impurity adsorption to the smear metal liquid in the second grade splitter box 3, improved adsorption efficiency.

Specifically, cell body 1 can adopt the metal material preparation, directly blocks magnet 9 in second grade splitter box 3, perhaps makes magnet 9 a whole, directly puts in second grade splitter box 3, uses after a period, clears up magnet 9 root by root or whole taking out. Or two ends of the magnet 9 are mounted on the corresponding partition plates 17 at two ends of the secondary splitter box 3 through bolts.

Wherein, the first-level splitter box 2 is used for precipitating and getting rid of the interior large granule impurity of smear metal liquid, and second grade splitter box 3 is used for catching the ferromagnetic impurity that has in the cutting fluid, and tertiary splitter box 4 is used for the cutting fluid that stews of deposiing once more. Most of impurities in the cutting fluid are removed after the cutting fluid is precipitated, adsorbed and stood through the multistage splitter box, the purity of the cutting fluid is greatly improved, the cutting fluid can be reused after being treated after being utilized by cutting, and the environmental protection performance is enhanced.

The device is used for collecting and processing the recovered cutting fluid after the hydraulic valve block is processed and returning the recovered cutting fluid for recycling. Firstly, cyclic utilization increases the feature of environmental protection, secondly carries out the branch clearance to each impurity in the cutting fluid, guarantee cutting fluid system operation security.

The above-mentioned embodiments are merely illustrative of the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements of the present invention may be made by those skilled in the art without departing from the spirit of the present invention, which is defined by the appended claims.

Claims (6)

1. The utility model provides a cutting fluid processing apparatus of hydrovalve piece processing, its characterized in that, includes the cell body, still including the filter, the cell body divide into a plurality of splitter boxes, and smear metal liquid passes through the inlet and gets into the cell body, one by one after a plurality of splitter boxes, discharge through the leakage fluid dram after the filter filtration again, is equipped with the magnet that adsorbs ferromagnetic impurity in the splitter box.

2. The apparatus of claim 1, wherein the fluid distribution grooves are communicated with each other through distribution pipe openings at upper portions of the fluid distribution grooves, the distribution pipe openings are staggered, and the chip fluid forms an S-shaped flow path between the fluid distribution grooves.

3. The cutting fluid processing device for hydraulic valve block processing according to claim 1, wherein the tank body is divided into at least three splitter boxes by partition plates, and a magnet is arranged in the middle splitter box.

4. A cutting fluid processing apparatus for hydraulic valve block machining according to claim 3, wherein the tank body is divided into three splitter boxes, namely a first-stage splitter box, a second-stage splitter box and a third-stage splitter box, a fluid inlet is provided on the upper portion of the rear side of the first-stage splitter box, a splitter tube opening is provided on the upper portion of the front side of the partition plate between the first-stage splitter box and the second-stage splitter box, a splitter tube opening is provided on the upper portion of the rear side of the partition plate between the second-stage splitter box and the third-stage splitter box, a fluid outlet is provided on the upper portion of the front side of the dispersion splitter box, and the fluid outlet is connected to the filter.

5. A cutting fluid treatment device for hydraulic valve block machining according to claim 4, wherein magnets are installed in the secondary diversion grooves, the magnets are divided into a plurality of stages according to front and rear positions, and each stage of magnets is divided into a plurality of layers according to upper and lower positions.

6. The cutting fluid processing device for hydraulic valve block machining according to claim 4, wherein the primary splitter box is used for precipitating and removing large-particle impurities in the cutting fluid, the secondary splitter box is used for capturing ferromagnetic impurities existing in the cutting fluid, and the tertiary splitter box is used for depositing and standing the cutting fluid again.

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