CN215035899U - Automatic cutting fluid circulation supply system - Google Patents

Abstract

The utility model discloses an automatic cutting fluid circulation supply system, which comprises a plurality of cutting fluid grooves arranged on a machine tool, a cooling filter box communicated with the fluid outlets of the cutting fluid grooves, and a cutting fluid settling box communicated with the fluid inlets of the cutting fluid grooves; the cooling filter box is placed at the top of the cutting fluid sedimentation box, a liquid outlet below the cooling filter box is communicated with the interior of the cutting fluid sedimentation box, a cold water heat absorption pipe is arranged on the outer side wall of the cooling filter box in a surrounding manner, a cooling water tank is arranged at the top of the cutting fluid sedimentation box and on one side of the cooling filter box, two ends of the cold water heat absorption pipe are communicated with the cooling water tank, a circulating water pump is arranged at a water inlet at the upper end of the cold water heat absorption pipe, and a primary coarse filter screen and a secondary fine filter screen which are sequentially arranged from top to bottom are arranged in the cooling filter box; the automatic filtering, purifying and supplying device solves the problems of automatic filtering, purifying and supplying of cutting fluid of a machine tool, reduces the labor intensity of workers, and improves the machining efficiency of the machine tool.

Description

Automatic cutting fluid circulation supply system

Technical Field

The utility model belongs to the technical field of the cutting fluid supply of digit control machine tool equipment, especially, relate to a cutting fluid automatic cycle feed system.

Background

The cutting fluid has the main functions of cooling and lubricating in the cutting process of the machine tool, and as is well known, fine cutting chips, dust, machine tool guide rail oil, spindle oil and hydraulic oil are inevitably mixed in the cutting fluid in the using process, so that the quality of the cutting fluid is reduced, and the cutting fluid needs to be continuously replaced by new cutting fluid in the machining process, thereby greatly improving the machining cost. At present, cutting fluid is recycled after being purified by a purifying device, but generally the cutting fluid needs to be conveyed to the purifying device manually for purification, and then the purified cutting fluid is conveyed to a machine tool for use, so that the labor intensity of workers is high, and the machining efficiency is greatly reduced, therefore, how to convey the cutting fluid to a cutting fluid tank of the machine tool is one of the problems to be solved urgently in the technical field.

Disclosure of Invention

The utility model discloses the purpose is: the automatic cutting fluid circulating supply system solves the problems of automatic filtering, purifying and supplying of cutting fluid of a machine tool, reduces the labor intensity of workers and improves the machining efficiency of the machine tool.

The technical scheme of the utility model is that: an automatic cutting fluid circulation supply system comprises a plurality of cutting fluid tanks arranged on a machine tool, cooling filter boxes communicated with the fluid outlets of the cutting fluid tanks, and cutting fluid settling boxes communicated with the fluid inlets of the cutting fluid tanks; the cooling filter box is placed at the top of the cutting fluid sedimentation box, a liquid outlet below the cooling filter box is communicated with the inside of the cutting fluid sedimentation box, a cold water heat absorption pipe is arranged on the outer side wall of the cooling filter box in a surrounding manner, a cooling water tank is arranged at the top of the cutting fluid sedimentation box and on one side of the cooling filter box, two ends of the cold water heat absorption pipe are communicated with the cooling water tank, a circulating water pump is arranged at a water inlet at the upper end of the cold water heat absorption pipe, and a primary coarse filter screen and a secondary fine filter screen which are sequentially arranged from top to bottom are arranged in the cooling filter box; the method comprises the steps of firstly, carrying out quick cooling and secondary filtration (coarse filtration and fine filtration) treatment on the cutting waste liquid recovered from a cutting liquid tank through a cooling filter box, then precipitating the cutting liquid through a cutting liquid precipitation box, and then returning the precipitated cutting liquid to the cutting liquid tank on the machine tool, so that the problems of automatic filtering, purification and supply of the cutting liquid of the machine tool are solved, the labor intensity of workers is reduced, and the processing efficiency of the machine tool is improved.

As the optimized technical proposal, the automatic cutting fluid circulation supply system of the utility model also comprises a circulation liquid supply pipeline, the circulating liquid supply pipeline comprises a main liquid supply pipeline communicated with the liquid outlet of the cutting liquid settling tank, a plurality of branch liquid supply pipelines communicated with the main liquid supply pipeline and the liquid inlet of the cutting liquid groove, and a main recovery pipeline communicated with the liquid inlet of the cooling filter tank, and a plurality of branch recycling pipelines which are communicated with the main recycling pipeline and the liquid outlet of the cutting fluid tank, through this circulation feed liquor pipeline completion cost utility model cutting fluid automatic cycle feed system's pipeline overall arrangement, avoided current adoption manual work to purify cutting fluid in carrying purification device, the problem that will purify cutting fluid transport after again and use on meeting the lathe, greatly reduced the cost of labor, and practiced thrift the transit time of cutting fluid.

As a preferred technical scheme, a first circulating pump is arranged on the main liquid supply pipeline, a first one-way control valve is arranged on each sub liquid supply pipeline, and automatic feeding of cutting liquid is completed through the first circulating pump and the first one-way control valve.

And as a preferable technical scheme, a second circulating pump is arranged on the main recovery pipeline, a one-way control valve II is arranged on each sub recovery pipeline, and automatic blanking of the cutting fluid is completed through the second circulating pump and the one-way control valve II.

As a preferable technical scheme, three precipitation blocking plates arranged at intervals are arranged inside the cutting fluid settling tank and on the right side of a fluid outlet below the cooling filter tank, wherein the precipitation blocking plate in the middle is fixed at the bottom of the cutting fluid settling tank, the other two precipitation blocking plates are fixed at the top of the cutting fluid settling tank, and the cutting fluid can be well precipitated by adopting the three precipitation blocking plates arranged upside down, so that impurities are prevented from entering a cutting fluid tank.

According to the preferable technical scheme, the bottom of the cutting fluid settling tank and the right side of the third settling barrier plate are provided with the aeration device, the aeration device is connected with the external ozone generator, a large amount of organic thalli such as anaerobic bacteria and the like bred in the cutting fluid can be effectively killed through the aeration device and the ozone generator, the cutting fluid is prevented from being smelly, the operating environment of a workshop is improved, and the effects of deodorizing, disinfecting, sterilizing and removing peculiar smell are achieved.

As preferred technical scheme, the utility model discloses a cutting fluid automatic cycle feed system still including set up in the left oil slick collecting box of cutting fluid setting tank be provided with the oil slick export on the left side wall of cutting fluid setting tank, and install L type oil outlet pipe on the oil slick export, the oil-out that this L type oil outlet pipe is located the top of oil slick collecting box is in simultaneously be provided with the oil slick bleeder valve on the L type oil outlet pipe, reach certain thickness when the oil slick in the cutting fluid setting tank leftmost sedimentation region, open the oil slick bleeder valve, carry out recovery processing in discharging and collecting the oil slick collecting box with upper oil slick.

As preferred technical scheme the bottom of cooling filter box is provided with the toper liquid outlet, this toper liquid outlet with the inside of cutting fluid setting tank is linked together, and the conical surface through this toper liquid outlet gathers the cutting fluid of cooling filter box inside fast to the top inlet of cutting fluid setting tank, carries out sedimentation treatment on next step.

The utility model has the advantages that:

1. the utility model discloses a cutting fluid automatic cycle feed system at first cools off fast and secondary filter (coarse filtration, fine filtration) handles through the cutting waste liquid that the cooling filter box retrieved in to the cutting fluid cistern, then deposits the back to the cutting fluid through the cutting fluid setting tank, gets back to the cutting fluid cistern on the lathe again in, has solved the cutting fluid automatic filtration of lathe and has purified and supply with the problem, has reduced workman's intensity of labour, has improved the machining efficiency of lathe moreover.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

The invention will be further described with reference to the following drawings and examples:

fig. 1 is a schematic structural view of the present invention;

wherein: 1 cutting fluid flume, 2 cooling filter cases, 3 cutting fluid setting tanks, 4 cold water heat absorption pipes, 5 cooling water tanks, 6 circulating water pumps, 7 first-level coarse filter screens, 8 second-level fine filter screens, 9 main liquid supply pipelines, 10 branch liquid supply pipelines, 11 main recovery pipelines, 12 branch recovery pipelines, 13 first circulating pumps, 14 one-way control valves I, 15 second circulating pumps, 16 one-way control valves II, 17 sedimentation baffle plates, 18 aeration devices, 19 ozone generators, 20 floating oil collecting boxes, 21 floating oil outlets, 22L-shaped oil outlet pipes, 23 floating oil discharge valves and 24 conical liquid outlets.

Detailed Description

The above-described scheme is further illustrated below with reference to specific examples. It should be understood that these examples are for illustrative purposes and are not intended to limit the scope of the present invention. The conditions used in the examples may be further adjusted according to the conditions of the particular manufacturer, and the conditions not specified are generally the conditions in routine experiments.

Example (b): referring to fig. 1, an automatic cutting fluid circulation supply system comprises a plurality of cutting fluid tanks 1 arranged on a machine tool, a cooling filter tank 2 communicated with a fluid outlet of the cutting fluid tank 1, and a cutting fluid settling tank 3 communicated with a fluid inlet of the cutting fluid tank 1; the cooling filter box 2 is placed at the top of the cutting fluid sedimentation box 3, a liquid outlet below the cooling filter box 2 is communicated with the inside of the cutting fluid sedimentation box 3, a cold water heat absorption pipe 4 is arranged on the outer side wall of the cooling filter box 2 in a surrounding manner, a cooling water tank 5 is arranged at the top of the cutting fluid sedimentation box 3 and on one side of the cooling filter box 2, two ends of the cold water heat absorption pipe 4 are both communicated with the cooling water tank 5, a circulating water pump 6 is arranged at a water inlet at the upper end of the cold water heat absorption pipe 4, and a primary coarse filter screen 7 and a secondary fine filter screen 8 which are sequentially arranged from top to bottom are arranged inside the cooling filter box 2; the method comprises the steps of firstly, carrying out quick cooling and secondary filtration (coarse filtration and fine filtration) treatment on the cutting waste liquid recovered from a cutting liquid tank 1 through a cooling filter box 2, then precipitating the cutting liquid through a cutting liquid precipitation box 3, and then returning the cutting liquid to the cutting liquid tank 1 on the machine tool, so that the problems of automatic filtering, purification and supply of the cutting liquid of the machine tool are solved, the labor intensity of workers is reduced, and the processing efficiency of the machine tool is improved.

In this embodiment, the utility model discloses a cutting fluid automatic cycle feed system still includes circulation feed liquor pipeline, this circulation feed liquor pipeline includes the main feed liquor pipeline 9 that is linked together with the liquid outlet of cutting fluid setting tank 3, the branch feed liquor pipeline 10 of a plurality of main feed liquor pipelines 9 of intercommunication and cutting fluid cistern 1 inlet, the main recovery pipeline 11 that is linked together with the inlet of cooling and filtering case 2, and the branch recovery pipeline 12 of a plurality of main recovery pipeline 11 of intercommunication and cutting fluid cistern 1 liquid outlet, it is complete with the utility model discloses cutting fluid automatic cycle feed system's pipeline overall arrangement through this circulation feed liquor pipeline, avoided current adoption manual work to carry the purification device with the cutting fluid and purify, the problem of using on the cutting fluid handling meeting lathe after will purifying again, greatly reduced the cost of labor, and practiced thrift the transit time of cutting fluid.

In this embodiment, a first circulation pump 13 is disposed on the main liquid supply pipeline 9, a first one-way control valve 14 is disposed on each sub liquid supply pipeline 10, a second circulation pump 15 is disposed on the main recovery pipeline 11, and a second one-way control valve 16 is disposed on each sub recovery pipeline 12, so that automatic feeding of the cutting fluid is completed through the first circulation pump 13 and the first one-way control valve 14, and automatic discharging of the cutting fluid is completed through the second circulation pump 15 and the second one-way control valve 16.

In this embodiment, in the inside of cutting fluid setting tank 3, and the right side that is located cooling filter box 2 below liquid outlet is provided with the sediment baffler 17 that three intervals set up, wherein the sediment baffler 17 that is located the intermediate position is fixed in the bottom of cutting fluid setting tank 3, and remaining two sediment bafflers 17 are fixed in the top of cutting fluid setting tank 3, and the sediment baffler 17 that adopts three upside down setting can be fine deposits the cutting fluid, avoids impurity to get into in cutting fluid cistern 1.

In this embodiment, the bottom of the cutting fluid settling tank 3 and the right side of the third settling barrier 17 are provided with the aeration device 18, the aeration device 18 is connected with the external ozone generator 19, and a large amount of organic bacteria such as anaerobic bacteria and the like bred in the cutting fluid can be effectively killed through the aeration device 18 and the ozone generator 19, so that the cutting fluid is prevented from being smelly, the operating environment of a workshop is improved, and the effects of deodorization, disinfection, sterilization and odor removal are realized.

In this embodiment, the utility model discloses a cutting fluid automatic cycle feed system is still including setting up in the left oil slick collecting box 20 of cutting fluid settling tank 3, be provided with oil slick export 21 on the left side wall of this cutting fluid settling tank 20, and install L type oil outlet pipe 22 on the oil slick export 21, the oil-out of this L type oil outlet pipe 22 is located the top of oil slick collecting box 20, be provided with oil slick bleeder valve 23 simultaneously on L type oil outlet pipe 22, oil slick in the left side sedimentation zone of cutting fluid settling tank 3 reaches certain thickness, open oil slick bleeder valve 23, discharge upper oil slick and collect and carry out recovery processing in the oil slick collecting box 20.

In this embodiment, be provided with toper liquid outlet 24 in the bottom of cooling and filtering case 2, this toper liquid outlet 24 is linked together with cutting fluid setting tank 3's inside, and the top inlet to cutting fluid setting tank 3 is gathered fast to the cutting fluid of cooling and filtering case 2 inside through the conical surface of this toper liquid outlet 24, carries out sedimentation treatment on next step.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (8)

1. An automatic cutting fluid circulation supply system is characterized by comprising a plurality of cutting fluid tanks arranged on a machine tool, cooling filter boxes communicated with the fluid outlets of the cutting fluid tanks, and cutting fluid settling boxes communicated with the fluid inlets of the cutting fluid tanks; the cooling filter box is placed in the top of cutting fluid setting tank, just the below liquid outlet of cooling filter box with the inside of cutting fluid setting tank is linked together around having cold water heat absorption pipe on the lateral wall of cooling filter box the top of cutting fluid setting tank, and be located cooling filter box one side is provided with coolant tank, the both ends of cold water heat absorption pipe all with coolant tank is linked together, and the upper end water inlet department of cold water heat absorption pipe is provided with circulating water pump, is in simultaneously the inside of cooling filter box is provided with the coarse filter screen of one-level and the smart filter screen of second grade that top-down set gradually.

2. The automatic cutting fluid circulation supply system according to claim 1, further comprising a circulation liquid supply pipeline, wherein the circulation liquid supply pipeline comprises a main liquid supply pipeline communicated with the liquid outlet of the cutting fluid settling tank, a plurality of branch liquid supply pipelines communicated with the main liquid supply pipeline and the liquid inlet of the cutting fluid tank, a main recovery pipeline communicated with the liquid inlet of the cooling filter tank, and a plurality of branch recovery pipelines communicated with the main recovery pipeline and the liquid outlet of the cutting fluid tank.

3. The automatic cutting fluid circulation supply system according to claim 2, wherein a first circulation pump is provided on the main fluid supply pipe, and a first one-way control valve is provided on each sub fluid supply pipe.

4. The automatic cutting fluid circulation supply system according to claim 2, wherein a second circulation pump is provided on the main recovery pipe, and a second one-way control valve is provided on each sub recovery pipe.

5. The automatic cutting fluid circulation supply system according to claim 1, wherein three spaced precipitation blocking plates are arranged inside the cutting fluid settling tank and on the right side of the fluid outlet below the cooling filter tank, wherein the precipitation blocking plate in the middle position is fixed at the bottom of the cutting fluid settling tank, and the other two precipitation blocking plates are fixed at the top of the cutting fluid settling tank.

6. The automatic cutting fluid circulation supply system according to claim 5, wherein an aeration device is provided at the bottom of the cutting fluid settling tank and on the right side of the third settling barrier plate, and the aeration device is connected to an external ozone generator.

7. The automatic cutting fluid circulation supply system according to claim 1, further comprising a floating oil collection box disposed on the left side of the cutting fluid settling tank, wherein a floating oil outlet is disposed on the left side wall of the cutting fluid settling tank, an L-shaped oil outlet pipe is mounted on the floating oil outlet, an oil outlet of the L-shaped oil outlet pipe is located above the floating oil collection box, and a floating oil discharge valve is disposed on the L-shaped oil outlet pipe.

8. The automatic cutting fluid circulation supply system according to claim 1, wherein a conical fluid outlet is provided at the bottom of the cooling filter tank, and communicates with the interior of the cutting fluid settling tank.

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