CN106861283A - A kind of cutting fluid concentration filter system standby each other - Google Patents

Abstract

The invention provides a kind of cutting fluid concentration filter system standby each other, including the first cutting fluid cyclic utilization system and the second cutting fluid cyclic utilization system, the first cutting fluid cyclic utilization system includes the first filtration system, first machining area and the first transfer tank, first filtration system is connected by the first main feed pipe with first machining area, tube is connected with the first transfer tank during first machining area passes through first, the first transfer tank is connected with the first reflux pump, the output end of first reflux pump is connected through the first return duct with first filtration system.The beneficial effects of the invention are as follows：First cutting fluid cyclic utilization system and the second cutting fluid cyclic utilization system can it is standby each other, exchange switching, it is ensured that the uninterrupted cutting fluid of supply to process equipment.

Description

A kind of cutting fluid concentration filter system standby each other

Technical field

The present invention relates to cutting fluid concentration filter system, more particularly to a kind of cutting fluid concentration filter system standby each other System.

Background technology

Processed, it is necessary to carry out milling, car, mill etc. to blank using machining tool in mechanical parts production and processing, so that hair Blank turns into finished product or semi-finished product.In process, it is necessary to continuous complete to lubricate cutter using cutting fluid, cutting temperature is reduced The techniques such as degree, wash away debris, antirust workpiece.

The characteristics of having independent toward each other due to the processing technology of each machining tool, enterprise is typically matched somebody with somebody using every lathe A standby cutting fluid circulation separation system.This scheme, increased equipment purchase expense and maintenance cost, Relatively centralized filtering system System has the shortcomings of fault rate is high, and energy consumption is big.In order to avoid appeal defect, big machinery processing enterprise such as automobile engine work Factory, generally using single set concentration filter system.

When single set cutting fluid concentration filter system supply one, several production lines or whole workshop cutting fluid, once concentrate There is feed flow problem in filtration system system（Liquid supply pressure fluctuation is abnormal, and break suddenly liquid）, it will make machining tool that breaking, master to occur Axle hits the uncontrollable failure such as machining tool, even results in whole line and shuts down, and production occurs and is difficult to recover in short-term, and factory does not have product defeated The unfavorable situation such as go out.

The content of the invention

In order to solve the problems of the prior art, the invention provides a kind of cutting fluid concentration filter system standby each other System.

Recycle and be the invention provides a kind of cutting fluid concentration filter system standby each other, including the first cutting fluid System and the second cutting fluid cyclic utilization system, the first cutting fluid cyclic utilization system include that the first filtration system, first add Work area domain and the first transfer tank, first filtration system are connected by the first main feed pipe with first machining area, institute State tube during the first machining area passes through first to be connected with the first transfer tank, the first transfer tank is connected with the first backflow Pump, the output end of first reflux pump is connected through the first return duct with first filtration system；Second cutting fluid is followed Ring includes the second filtration system, the second machining area and the second transfer tank using system, and second filtration system passes through second Main feed pipe is connected with second machining area, and second machining area is by tube and the second transfer tank in second Connection, the second transfer tank is connected with the second reflux pump, the output end of second reflux pump through the second return duct with it is described Second filtration system is connected；Wherein, switching feed flow is communicated between the described first main feed pipe and the second main feed pipe to connect Siphunculus, is provided with switching feed flow pneumatic operated valve the switching feed flow communicating pipe.

As a further improvement on the present invention, the described first main feed pipe is provided with the first filtration system switch pneumatic operated valve, The first filtration system switch pneumatic operated valve was arranged between first filtration system, switching feed flow communicating pipe.

As a further improvement on the present invention, the described second main feed pipe is provided with the second filtration system switch pneumatic operated valve, The second filtration system switch pneumatic operated valve was arranged between second filtration system, switching feed flow communicating pipe.

As a further improvement on the present invention, switching backflow is communicated between first return duct, the second return duct to connect Siphunculus, the switching backflow is provided with and switches back into stream pneumatic operated valve communicating pipe.

As a further improvement on the present invention, first return duct is provided with the first backflow switch pneumatic operated valve, described the One backflow switch pneumatic operated valve was arranged between first filtration system, switching backflow communicating pipe.

As a further improvement on the present invention, second return duct is provided with the second backflow switch pneumatic operated valve, described the Two backflow switch pneumatic operated valves were arranged between second filtration system, switching backflow communicating pipe.

As a further improvement on the present invention, first reflux pump includes that the first backflow main pump and the first backflow are standby Pump, the first backflow main pump, the input of the first backflow stand-by pump are connected with the first transfer tank respectively, described first time Stream main pump, the access port of the first backflow stand-by pump are connected with first return duct respectively.

As a further improvement on the present invention, second reflux pump includes that the second backflow main pump and the second backflow are standby Pump, the second backflow main pump, the input of the second backflow stand-by pump are connected with the second transfer tank respectively, described second time Stream main pump, the access port of the second backflow stand-by pump are connected with second return duct respectively.

The beneficial effects of the invention are as follows：By such scheme, the first cutting fluid cyclic utilization system and the second cutting fluid are followed Ring using system can it is standby each other, exchange switching, it is ensured that the uninterrupted cutting fluid of supply to process equipment.

Brief description of the drawings

Fig. 1 is a kind of basic principle schematic of cutting fluid concentration filter system standby each other of the present invention.

Fig. 2 is a kind of schematic diagram of cutting fluid concentration filter system standby each other of the present invention.

Fig. 3 is a kind of schematic diagram of the transfer tank of cutting fluid concentration filter system standby each other of the present invention.

Fig. 4 is a kind of system interaction signal circuit diagram of cutting fluid concentration filter system standby each other of the present invention.

Specific embodiment

The invention will be further described for explanation and specific embodiment below in conjunction with the accompanying drawings.

As shown in figure 1, clean cutting fluid flow to machining area M from concentration filter system F where process equipment, so as to Processing is used；The dirty cutting fluid of the process equipment outflow from where machining area M flows into terminal P-1, above terminal P-1 Dirty cutting fluid is withdrawn into cutting fluid concentration filter system by drawing liquid pump P.Cutting fluid concentration filter system is by after the treatment of dirty cutting fluid The process equipment for being changed into clean cutting fluid supply machining area M is used.So repeatedly, realize recycling.

As shown in Figures 1 to 4, a kind of cutting fluid concentration filter system standby each other, including the first cutting fluid circulation profit With system and the second cutting fluid cyclic utilization system, the first cutting fluid cyclic utilization system includes the first filtration system A, the One machining area M1 and the first transfer tank PA-1, the first transfer tank PA-1 are used for interim storage and process dirty liquid, first filtering System A is connected by the first main feed pipe 1 with the first machining area M1, and the first machining area M1 passes through the first transfer Pipe 2 is connected with the first transfer tank PA-1, and the first transfer tank PA-1 is connected with the first reflux pump, and the first reflux pump is used for Realize that pressure flows back, it is to avoid machining chips block liquid back pipe road, and the output end of first reflux pump is through the first return duct 3 and institute State the first filtration system A connections；The second cutting fluid cyclic utilization system includes the second filtration system B, the second machining area M2 and the second transfer tank PB-1, the second filtration system B are connected by the second main feed pipe 4 with the second machining area M2 Logical, tube 5 is connected with the second transfer tank PB-1 during the second machining area M2 passes through second, the second transfer tank PB-1 is connected with the second reflux pump, and the output end of second reflux pump connects through the second return duct 6 with the second filtration system B It is logical；Wherein, switching feed flow communicating pipe 7 is communicated between the described first main feed pipe 1 and the second main feed pipe 4, it is described to cut Change and be provided with switching feed flow pneumatic operated valve YV3 feed flow communicating pipes 7, two systems can be standby each other, even because set of system can not be for Cutting fluid is answered, just CLNT ON can be substituted in the system of feed flow by another set of, the feed flow of two systems can switch mutually simultaneously Ensure the uninterrupted cutting fluid of supply to process equipment；Two systems can interworking status information；Two systems work Whether machining center equipment of the status information comprising corresponding region has whether feed flow demand and concentration filter system transport in system Can row provide cutting fluid；Two systems are independent of one another；Cutting fluid use environment is two machining areas independent of each other.

As shown in Figures 1 to 4, the described first main feed pipe 1 is provided with the first filtration system switch pneumatic operated valve VA1, described First filtration system switch pneumatic operated valve VA1 was arranged between the first filtration system A, switching feed flow communicating pipe 7.

As shown in Figures 1 to 4, the described second main feed pipe 4 is provided with the second filtration system switch pneumatic operated valve VB1, described Second filtration system switch pneumatic operated valve VB1 was arranged between the second filtration system B, switching feed flow communicating pipe 7.

As shown in Figures 1 to 4, switching backflow communicating pipe 8 is communicated between first return duct 3, the second return duct 6, The switching backflow is provided with and switches back into stream pneumatic operated valve YV4 communicating pipe 8.

As shown in Figures 1 to 4, first return duct 3 is provided with the first backflow switch pneumatic operated valve YV1, described first time Stream switch pneumatic operated valve YV1 was arranged between the first filtration system A, switching backflow communicating pipe 8.

As shown in Figures 1 to 4, second return duct 6 is provided with the second backflow switch pneumatic operated valve YV2, described second time Stream switch pneumatic operated valve YV2 was arranged between the second filtration system B, switching backflow communicating pipe 8.

As shown in Figures 1 to 4, first reflux pump includes the first backflow main pump PA1 and the first backflow stand-by pump PA2, The first backflow main pump PA1, the input of the first backflow stand-by pump PA2 are connected with the first transfer tank PA-1 respectively, institute State the first backflow main pump PA1, the access port of the first backflow stand-by pump PA2 to be connected with first return duct 3 respectively, when a pump During damage, by another pump replacement work.

As shown in Figures 1 to 4, second reflux pump includes the second backflow main pump PB1 and the second backflow stand-by pump PB2, The second backflow main pump PB1, the input of the second backflow stand-by pump PB2 are connected with the second transfer tank PB-1 respectively, institute State the second backflow main pump PB1, the access port of the second backflow stand-by pump PB2 to be connected with second return duct 6 respectively, when a pump During damage, by another pump replacement work.

As shown in Fig. 2 a kind of standby each other cutting fluid concentration filter system that the present invention is provided, can either individually meet Machining area M1 also can individually meet the cutting fluid supply requirement of machining area M2.In addition, filtration system A or filtering System B can also simultaneously meet the cutting fluid supply requirement of machining area M1, machining area M2.In principle, filtration system A gives and adds The processing center machine tool CLNT ON of work area domain M1, filtration system B supplies cutting to the processing center machine tool of machining area M2 Liquid.

So that just there is following four kinds of cutting fluid supply situations：

1. operating mode 1：

Filtration system A only gives machining area M1 CLNT ONs；

Condition：1. filtration system A normal works；

2. the first filtration system switch pneumatic operated valve VA1, the first backflow switch pneumatic operated valve YV1 are opened, and are switched back into stream pneumatic operated valve YV4 and are closed Close.

Clean cutting fluid flow to machining area M1 from filtration system A where process equipment, used to process；From plus The dirty cutting fluid of the process equipment outflow where the M1 of work area domain flows into transfer tank PA-1, and the drawing liquid pump above transfer tank PA-1 will be dirty Cutting fluid is withdrawn into filtration system A.Filtration system A will be changed into clean cutting fluid supply machining area M1 after the treatment of dirty cutting fluid Process equipment use.So repeatedly, realize recycling.

2. operating mode 2：

Filtration system B only gives machining area M2 CLNT ONs.

Condition：1. filtration system B normal works；

2. the second filtration system switch pneumatic operated valve VB1, the second backflow switch pneumatic operated valve YV2 are opened；Stream pneumatic operated valve YV4 is switched back into close Close.

Clean cutting fluid flow to machining area M2 from filtration system B where process equipment, used to process；From plus The dirty cutting fluid of the process equipment outflow where the M2 of work area domain flows into transfer tank PB-1, and the drawing liquid pump above transfer tank PB-1 will be dirty Cutting fluid is withdrawn into filtration system B.Filtration system B will be changed into clean cutting fluid supply machining area M2 after the treatment of dirty cutting fluid Process equipment use.So repeatedly, realize recycling.

3. operating mode 3：

Filtration system A gives machining area M1 and machining area M2 region CLNT ONs simultaneously；

Filtration system B is used to safeguard or standby.

Condition：1. filtration system A normal works；

2. the first filtration system switch pneumatic operated valve VA1, the first backflow switch pneumatic operated valve YV1, switching feed flow pneumatic operated valve YV3, switching Backflow pneumatic operated valve YV4 is opened；Second filtration system switch pneumatic operated valve VB1, the second backflow switch pneumatic operated valve YV2 are closed.

Clean cutting fluid flow to machining area M1 and machining area M2 from filtration system A where process equipment, so as to Processing is used；From where machining area M1 and machining area M2 process equipment outflow dirty cutting fluid flow into transfer tank PA-1 and Dirty cutting fluid is withdrawn into filtration system A by the drawing liquid pump above transfer tank PB-1, transfer tank PA-1 and transfer tank PB-1.Filtering system System A will dirty cutting fluid process after be changed into the process equipment of clean cutting fluid supply machining area M1 and machining area M2 and use. So repeatedly, realize recycling.

4. operating mode 4：

Filtration system B gives machining area M1 and machining area M2 CLNT ONs simultaneously；

Filtration system A is used to safeguard or standby；

Condition：1. filtration system B normal works；

2. the second filtration system switch pneumatic operated valve VB1, the second backflow switch pneumatic operated valve YV2, switching feed flow pneumatic operated valve YV3, switching Backflow pneumatic operated valve YV4 is opened；First filtration system switch pneumatic operated valve VA1, the first backflow switch pneumatic operated valve YV1 are closed.

Clean cutting fluid flow to machining area M1 and machining area M2 from filtration system B where process equipment, so as to Processing is used；From where machining area M1 and machining area M2 process equipment outflow dirty cutting fluid flow into transfer tank PA-1 and Dirty cutting fluid is withdrawn into filtration system B by the drawing liquid pump above transfer tank PB-1, transfer tank PA-1 and transfer tank PB-1.Filtering system System B will dirty cutting fluid process after be changed into the process equipment of clean cutting fluid supply machining area M1 and machining area M2 and use. So repeatedly, realize recycling.

Four kinds of operating modes of the above by the first filtration system switch pneumatic operated valve VA1, the second filtration system switch pneumatic operated valve VB1, First backflow switch pneumatic operated valve YV1, the second backflow switch pneumatic operated valve YV2, switching feed flow pneumatic operated valve YV3 and switch back into stream pneumatic operated valve YV4 automatically switches to realize.

As shown in figure 3, transfer tank includes two drawing liquid pumps, when liquid level reaches high level, P1 pumps start work under normal circumstances Make, when liquid level is fallen after rise to low liquid level, P1 pumps are stopped.P1 pump works are substituted by P2 pumps if when P1 pumps are damaged, it is ensured that dirty to cut Cut liquid energy and be withdrawn into cutting fluid concentration filter system.Flowed back using the pressure of pump, have certain pressure because returning liquid, can effectively kept away Exempt from blocking pipeline.

As shown in Figures 1 to 4, two systems work state information is programmable logic control system PLC by control Between relay adhesive and off-state realize.

As shown in figure 4, to realize four kinds of feed flow operating modes of cutting fluid, two sets of concentration cutting fluid systems must have signal to interact. Using PLC controls, working condition is transmitted by the adhesive and disconnection of auxiliary reclay contact on far module.Working condition Whether the machining center equipment comprising corresponding region has whether can feed flow demand and concentration filter system i.e. in system operation Cutting fluid is provided.Often the hardware system of set cutting fluid system is included：1 24V direct current of General Electric IC695PSD040 Source module, for being powered to PLC control modules；1 universal logic module PLC of General Electric IC695CPU320, uses In logic control；1 Profibus field bus communication module of General Electric IC695PBM300, for allow PLC to Profibus networks receive and send data；One remote I/O station includes 1 Bus Interface Unit of General Electric IC220PBI002 and 1 remote I/O module（The input module IC220MDL644 of 1 General Electric, 1 General Electric it is defeated Go out module IC220MDL752）.4 auxiliary reclay models unification of signal interaction is the GR-2C-DC24V of Honeywell.PLC Receive and send data-signal by Profibus buses to understand the working condition and machining center equipment of concentration filter system The cutting fluid demand information in region, so as to control the opening and closing of corresponding pneumatic operated valve.PLC can be controlled by Profibus buses The adhesive and closing of auxiliary reclay processed.

The physical meaning of auxiliary reclay state：

Auxiliary reclay K1 adhesives --- filtration system A regular supply cutting fluids；

Auxiliary reclay K1 disconnects --- and filtration system A is unable to regular supply cutting fluid；

Auxiliary reclay K2 adhesives --- machining area M1 has cutting fluid use demand；

Auxiliary reclay K2 disconnects --- and machining area M1 does not have cutting fluid use demand；

Auxiliary reclay K3 adhesives --- filtration system B regular supply cutting fluids；

Auxiliary reclay K3 disconnects --- and filtration system B is unable to regular supply cutting fluid；

Auxiliary reclay K4 adhesives --- machining area M2 has cutting fluid use demand；

Auxiliary reclay K4 disconnects --- and machining area M2 does not have cutting fluid use demand.

Correspondence operating mode 1：

When K1 adhesives, K2 adhesives, K3 adhesives or K4 disconnect, the gas on two sets of PLC control pipers of cutting fluid concentration filter system Dynamic valve is operated according to aforementioned case 1.

Correspondence operating mode 2：

When K3 adhesives, K4 adhesives, K1 adhesives or K2 disconnect, the gas on two sets of PLC control pipers of cutting fluid concentration filter system Dynamic valve is operated according to aforementioned case 2.

Correspondence operating mode 3：

When K1 adhesives, K2 adhesives, K3 disconnects, when K4 is closed, the gas on two sets of PLC control pipers of cutting fluid concentration filter system Dynamic valve is operated according to aforementioned case 3.Illustrate that now filtration system B is unable to CLNT ON.

Correspondence operating mode 4：

When K3 adhesives, K4 adhesives, K1 disconnects, when K2 is closed, the gas on two sets of PLC control pipers of cutting fluid concentration filter system Dynamic valve is operated according to aforementioned case 4.Illustrate that now filtration system A is unable to CLNT ON.

The present invention provide a kind of standby each other cutting fluid concentration filter system, the first cutting fluid cyclic utilization system and Second cutting fluid cyclic utilization system can it is standby each other, exchange switching, it is ensured that the uninterrupted cutting fluid of supply is to processing Equipment, increased the reliability of CLNT ON, improve the utilization rate of cutting fluid concentration filter system, improve machining center The fault rate started rate, reduce process equipment of equipment；By the repair time of reasonable arrangement two systems（Set of system is examined When repairing, by another set of system CLNT ON）, maintainability is improve, service life is extended, fault rate is reduced, further Improve process equipment starts rate.

Above content is to combine specific preferred embodiment further description made for the present invention, it is impossible to assert Specific implementation of the invention is confined to these explanations.For general technical staff of the technical field of the invention, On the premise of not departing from present inventive concept, some simple deduction or replace can also be made, should be all considered as belonging to of the invention Protection domain.

Claims (8)

1. a kind of cutting fluid concentration filter system standby each other, it is characterised in that：Including the first cutting fluid cyclic utilization system With the second cutting fluid cyclic utilization system, the first cutting fluid cyclic utilization system include the first filtration system, first processing Region and the first transfer tank, first filtration system are connected by the first main feed pipe with first machining area, described Tube is connected with the first transfer tank during first machining area passes through first, and the first transfer tank is connected with the first backflow Pump, the output end of first reflux pump is connected through the first return duct with first filtration system；Second cutting fluid is followed Ring includes the second filtration system, the second machining area and the second transfer tank using system, and second filtration system passes through second Main feed pipe is connected with second machining area, and second machining area is by tube and the second transfer tank in second Connection, the second transfer tank is connected with the second reflux pump, the output end of second reflux pump through the second return duct with it is described Second filtration system is connected；Wherein, switching feed flow is communicated between the described first main feed pipe and the second main feed pipe to connect Siphunculus, is provided with switching feed flow pneumatic operated valve the switching feed flow communicating pipe.

2. cutting fluid concentration filter system standby each other according to claim 1, it is characterised in that：The first main confession Liquid pipe is provided with the first filtration system switch pneumatic operated valve, and the first filtration system switch pneumatic operated valve is arranged on first filtering Between system, switching feed flow communicating pipe.

3. cutting fluid concentration filter system standby each other according to claim 2, it is characterised in that：The second main confession Liquid pipe is provided with the second filtration system switch pneumatic operated valve, and the second filtration system switch pneumatic operated valve is arranged on second filtering Between system, switching feed flow communicating pipe.

4. cutting fluid concentration filter system standby each other according to claim 1, it is characterised in that：First backflow Switching backflow communicating pipe is communicated between pipe, the second return duct, the switching backflow is provided with and switches back into stream pneumatic operated valve communicating pipe.

5. cutting fluid concentration filter system standby each other according to claim 4, it is characterised in that：First backflow Pipe is provided with the first backflow switch pneumatic operated valve, and the first backflow switch pneumatic operated valve is arranged on first filtration system, switching Between backflow communicating pipe.

6. cutting fluid concentration filter system standby each other according to claim 5, it is characterised in that：Second backflow Pipe is provided with the second backflow switch pneumatic operated valve, and the second backflow switch pneumatic operated valve is arranged on second filtration system, switching Between backflow communicating pipe.

7. cutting fluid concentration filter system standby each other according to claim 1, it is characterised in that：First backflow Pump includes the first backflow main pump and the first backflow stand-by pump, the first backflow main pump, the input point of the first backflow stand-by pump Do not connected with the first transfer tank, the first backflow main pump, the access port of the first backflow stand-by pump are respectively with described first Return duct is connected.

8. cutting fluid concentration filter system standby each other according to claim 7, it is characterised in that：Second backflow Pump includes the second backflow main pump and the second backflow stand-by pump, the second backflow main pump, the input point of the second backflow stand-by pump Do not connected with the second transfer tank, the second backflow main pump, the access port of the second backflow stand-by pump are respectively with described second Return duct is connected.