CN107225434A - A kind of coolant filtration cycle system - Google Patents

Abstract

The invention discloses a kind of coolant filtration cycle system, including first be sequentially communicated from top to bottom stores liquid case, the first Rose Box, the second storage liquid case；Second storage liquid case is communicated with the second Rose Box by intake chute；It is provided with conveyer belt in first Rose Box, conveyer belt includes main drive roller, from live-roller and the conveyer belt provided with sieve aperture；Main drive roller, the rear and front end for being rotatably connected on from live-roller the first Rose Box respectively；Magnetic roller is provided with the inlet of second Rose Box；Magnetic roller is located at intake chute and exports lower section；The axial line of magnetic roller is located on the outside of intake chute outlet edge, and splicing plate is provided with the outside of magnetic roller；Scraper plate is connected with along on the inside edge of splicing plate, scraper plate is contacted on the periphery of magnetic roller；The outer wall of second Rose Box is provided with discharge opeing interface.The present invention can carry out multistage filtering to coolant, and direct filtering is combined with filtering indirectly, and filter effect is excellent, while also achieving the deslagging in filtering, filter efficiency is high.

Description

A kind of coolant filtration cycle system

Technical field

The present invention relates to machining technology field, especially the coolant used in machining is carried out at filtering The cyclic utilization system of reason.

Background technology

Lathe needs to cool down cutting tool with coolant during cutting metal material, to extend the use longevity of cutter Life, generally requires 1000~1500L/min big flow coolant, coolant very may be used through being such as expelled directly out throwing away after Cherish, and add the cost of machining, can also cause environmental pollution.

Therefore, it will usually use the circulatory system, i.e., after the coolant splash ejected from shower nozzle to cutter, return and drop into again In groove, then recycle, but the chip that cutter can get off cutting during mach is dropped into equipped with coolant Groove among, be thus easy to bring some tiny chips in the circulatory system into, cause the blocking of cooling recirculation system, it is right Also have an impact in mach precision.

The circulatory system of the prior art simply collects coolant, then directly reuses, not to coolant Filtration treatment is carried out, machining accuracy is both influenceed, the blocking of the circulatory system is easily caused again.

The content of the invention

For above-mentioned the deficiencies in the prior art, the present invention provides a kind of coolant filtration cycle system, to solve existing skill The circulatory system can not carry out melt cinder separation, hold susceptible to plugging technical problem in art, and filtration treatment, separation can be carried out to coolant The waste residue gone out in coolant, so as to avoid coolant circulation system from blocking；Filter efficiency is high, and filter effect is excellent.

In order to solve the above-mentioned technical problem, present invention employs following technical scheme：A kind of coolant filtration cycle system System, including first be sequentially communicated from top to bottom store liquid case, the first Rose Box, the second storage liquid case；Set in the first storage liquid case Have into liquid interface；The second storage liquid case front end face is communicated with the second Rose Box by intake chute；First Rose Box front end exceeds Second stores the front end face of liquid case；It is provided with conveyer belt in first Rose Box, the conveyer belt includes main drive roller, from live-roller And the conveyer belt provided with sieve aperture；The main drive roller, the rear and front end for being rotatably connected on from live-roller the first Rose Box respectively； The axis of the main drive roller is located at the second outside for storing liquid case front end face；Magnetic is provided with the inlet of second Rose Box Roller, magnetic roller two ends are rotatably connected on the two side of the second Rose Box respectively；The magnetic roller is located at intake chute and exports lower section, The axial line of magnetic roller is located on the outside of intake chute outlet edge, axial line and the vertical guide where intake chute outlet edge of magnetic roller Distance be not more than the radius of magnetic roller；Splicing plate is provided with the outside of the magnetic roller, splicing plate is located above the second Rose Box, and Below the main drive roller；Scraper plate is connected with along on the inside edge of splicing plate, the scraper plate contact is in magnetic roller On periphery；The projection of the main drive roller in the horizontal direction can be covered or part covers the magnetic roller；Described second The outer wall of Rose Box, which is provided with discharge opeing interface, the second Rose Box to be provided with, to be used to the coolant after filtering being discharged in discharge opeing interface Pumping equipment.

It is preferred that, the conveyer belt is obliquely installed, and main drive roller is located at from live-roller oblique upper；Described first stores liquid case bottom Face is the inclined end face parallel to conveyer belt, and the inclined end face lower end is provided with the first liquid outlet being located at directly over conveyer belt.

It is preferred that, the first Rose Box lower end is the opening for not setting bottom surface, so as to be connected by open with the second storage liquid case It is logical.

It is preferred that, the pumping equipment is water wheels；The water wheels are just set to discharge opeing interface, and water wheels are by being arranged on second The motor driving of Rose Box side；The first belt wheel is also connected with the output shaft of the motor；The magnetic roller is by turning Axle is rotated with the second Rose Box 1 and is connected, and the rotating shaft two ends overhang the two sides of the second Rose Box, rotating shaft and motor homonymy One end on be connected with the second belt wheel, the first belt wheel conveys power by the first belt to the second belt wheel.

It is preferred that, the other end of the magnetic roller is connected with the 3rd belt wheel；The main drive roller and the 3rd belt wheel are same The one end fits of side are connected with the 4th belt wheel, and the 3rd belt wheel conveys power by the second belt to the 4th belt wheel；First mistake Filter box front end is connected with riser relative to the side of the 4th belt wheel, and main drive roller is rotatably connected on relative to one end of the 4th belt wheel On riser.

It is preferred that, the dividing plate provided with case before being divided into and rear cabinet in second Rose Box, dividing plate upper end is provided with company 3rd liquid outlet of case and rear cabinet before logical；The pumping equipment is arranged in preceding case, and the magnetic roller is arranged close to rear cabinet At rear end face；The front end face of case before the discharge opeing interface is arranged on.

It is preferred that, it is interval with apron strip on the conveyer belt, the width side of the length direction of apron strip along conveyer belt To.

Compared with prior art, it is of the invention to have the advantages that：

1st, the present invention carries out multistage filtering to coolant, carries out primary filter using conveyer belt, is capable of filtering out for rapid, high volume The waste residue of larger particles in coolant；Filter, filter out smaller in coolant again by the way of magnetic roller is by absorption The waste residue of particle；Filter efficiency is high, good filtration effect.

2nd, the present invention also utilizes waste residue and the difference in specific gravity of coolant in addition to using conveyer belt and magnetic roller directly filter It is different, waste residue is settled in the second storage liquid case and the second Rose Box, further coolant filtered indirectly, significantly Improve filter effect.

3rd, conveyer belt is obliquely installed, and coolant can be filtered since conveyer belt lower end, until upper end is sent to, Filter cycle so can be extended, so that filtering more thorough：Cooling liquid hold-up in waste residue is lower, more coolings Liquid flows into second and stored in liquid case.

4th, conveyer belt can not only be filtered to coolant, moreover it is possible to drop waste sludge discharge to splicing plate；Scraping on splicing plate Plate can be struck off the waste residue adsorbed on magnetic roller using its relative rotation between magnetic roller, then be discharged by splicing plate The circulatory system；The deslagging in filtering is realized, deslagging efficiency is not only increased, and without setting single slag-draining device again, And structure is simplified, the energy is greatlyd save.

5th, the present invention carries out coordinated signals using V belt translation, and stable drive, noise is small, and only needs a motor, saves Cost, simplifies structure.

6th, the apron strip on conveyer belt causes waste residue when being conveyed from conveyer belt lower end to upper end, not fall off conveyer belt Lower end, it is ensured that waste residue energy smooth delivery of power to conveyer belt upper end, so that waste residue can be dropped on splicing plate from conveyer belt upper end.

Brief description of the drawings

Fig. 1 is the side structure schematic diagram of coolant filtration cycle system in present embodiment；

Fig. 2 is the dimensional structure diagram of a strabismus angle of coolant filtration cycle system；

Fig. 3 is the dimensional structure diagram of another strabismus angle of coolant filtration cycle system；

Fig. 4 is Fig. 3 partial enlarged drawing a；

Fig. 5 is the internal structure schematic diagram of coolant filtration cycle system；

Fig. 6 is Fig. 5 partial enlarged drawing b；

Fig. 7 is the structural representation of the second Rose Box in coolant filtration cycle system diagram.

Embodiment

The present invention is described in further detail with preferred embodiment below in conjunction with the accompanying drawings.

As shown in Figures 1 to 7, a kind of coolant filtration cycle system, including first be sequentially communicated from top to bottom store liquid Case 1, the first Rose Box 4, second store liquid case 9；The first storage liquid case 1 is provided with into liquid interface 2；Described second stores before liquid case 9 End face is communicated with the second Rose Box 21 by intake chute 92；The front end of first Rose Box 4 is beyond the second front end face for storing liquid case 9；Institute State and conveyer belt is provided with the first Rose Box 4, the conveyer belt includes main drive roller 7, from live-roller 6 and the conveying provided with sieve aperture Band 5；The main drive roller 7, the rear and front end for being rotatably connected on from live-roller 6 first Rose Box 4 respectively；The main drive roller 7 Axis be located at second store the front end face of liquid case 9 outside；Magnetic roller 13, magnetic are provided with the inlet of second Rose Box 21 The two ends of roller 13 are rotatably connected on the two side of the second Rose Box 21 respectively；The magnetic roller 13 is located under the outlet of intake chute 92 Side, the axial line of magnetic roller 13 is located on the outside of the outlet edge of intake chute 92, and axial line and the intake chute 92 of magnetic roller 13 export side The distance of vertical guide is not more than the radius of magnetic roller 13 where edge；The outside of magnetic roller 13 is provided with splicing plate 22, splicing plate 22 Positioned at the top of the second Rose Box 21, and positioned at the lower section of main drive roller 7；It is connected with and scrapes along on the inside edge of splicing plate 22 Plate 221, the scraper plate 221 is contacted on the periphery of magnetic roller 13；The projection of the main drive roller 7 in the horizontal direction can Covering or part cover the magnetic roller 13；The outer wall of second Rose Box 21 connects 20 mouthfuls, the second Rose Box 21 provided with discharge opeing It is interior to be provided with the pumping equipment for being used for being discharged to the coolant after filtering in discharge opeing interface 20.

Coolant enters the first storage liquid case 1, the conveyer belt mistake through the first Rose Box 4 from the liquid interface 2 that enters of the first storage liquid case 1 Enter second after filter to store in liquid case 9, the coolant in the second storage liquid case 9 passes through leading above the inlet of the second Rose Box 21 Liquid bath 92 is flowed into the second Rose Box 21；The whole flow process of coolant fully relies on Action of Gravity Field, past from high to low to flow down, Power conveying need not be additionally provided, energy consumption has greatly been saved.

For the waste residue isolated from coolant, then side mistake is carried out using 13 two filter elements of conveyer belt and magnetic roller Filter side deslagging：Conveyer belt can not only be filtered to coolant, moreover it is possible to by waste sludge discharge to splicing plate 22；On splicing plate 22 Scraper plate 221 can be struck off the waste residue adsorbed on magnetic roller 13 using its relative rotation between magnetic roller 13, then be passed through Splicing plate 22 discharges the circulatory system；The deslagging in filtering is realized, deslagging efficiency is not only increased, and without setting again individually Slag-draining device, and simplify structure, greatly save the energy.

The axial line of magnetic roller 13 is located on the outside of the outlet edge of intake chute 92, and axial line and the intake chute 92 of magnetic roller 13 go out The distance of vertical guide is not more than the radius of magnetic roller 13 where mouth edge.In such manner, it is possible to ensure the cooling come out from intake chute 92 Liquid directly trickling is filtered on magnetic roller 13.

The projection of main drive roller 7 in the horizontal direction can be covered or part covers the magnetic roller 13.In such manner, it is possible to keep away Exempt from conveyer belt and directly produce leak with magnetic roller 13, it is to avoid waste residue enters in the second Rose Box 21 from leak, and be to ensure Premise in waste residue energy land to splicing plate 22.

In present embodiment, the axis of the magnetic roller 13 is located at the inner side of the axis of main drive roller 7.So, from biography Send and take the waste residue fallen and can directly fall on splicing plate 22, without falling on magnetic roller 13, mitigate the negative of magnetic roller 13 Load, it is to avoid repeat to filter.

In present embodiment, the conveyer belt is obliquely installed, and main drive roller 7 is located at from the oblique upper of live-roller 6；It is described First to store liquid case 1 bottom surface be the inclined end face parallel to conveyer belt, and the inclined end face lower end is provided with the be located at directly over conveyer belt One liquid outlet 3.So, the inclined end face of the first storage liquid case 1 plays a part of the first liquid outlet on water conservancy diversion, inclined end face to coolant 3 are played a part of current limliting so that coolant gently quantitative can be flow on the conveyer belt of the first Rose Box 4 so that passed Send that band can rule be orderly that coolant is filtered.

In present embodiment, the lower end of the first Rose Box 4 is not set the opening of bottom surface, so that by open with the Two storage liquid cases 9 are connected.So so that the entrance second that coolant is capable of rapid, high volume is stored in liquid case 9, enables the second storage liquid case 9 It is enough to accumulate more coolant within a short period of time, to meet supply demand of the lathe to coolant.

In present embodiment, described second, which stores the front end face upper end of liquid case 9, is provided with the second liquid outlet 91；The intake chute 92 be the groove of opening upwards, and positioned at the lower section of the second liquid outlet 91；Intake chute 92 stores the Rose Box of liquid case 9 to the second 21 from second Direction is down tilted.Second storage liquid case 9 can indirectly be filtered by settling waste residue to coolant, due to the second liquid outlet 91 Liquid case front end face upper end is stored positioned at second, then what is flowed out from the second liquid outlet 91 is upper strata more limpid coolant, cold But liquid is by the cascading water of intake chute 92 to magnetic roller 13, then by the adsorption filtration of magnetic roller 13, results in excellent filtering Effect.

In present embodiment, the pumping equipment is water wheels 19；The water wheels 19 are just set to discharge opeing interface 20, water Wheel 19 is driven by being arranged on the motor 18 of the side of the second Rose Box 21；Also it is connected with the output shaft 17 of the motor 18 First belt wheel 16；The magnetic roller 13 is rotated with the second Rose Box 21 by rotating shaft 12 and is connected, and the two ends of rotating shaft 12 are overhanging Go out the two sides of the second Rose Box 21, rotating shaft 12 on one end of the homonymy of motor 18 with being connected with the second belt wheel 15, first band Wheel 16 conveys power by the first belt 14 to the second belt wheel 15.So, using water wheels 19 as pumping equipment, with water pump phase Than not resulting in blocking；Motor 18 also drives the first belt wheel 16 to rotate, so that band in the lump while driving water wheels 19 to rotate The dynamic synchronous axial system of magnetic roller 13, realizes the linkage of water wheels and magnetic roller, simplifies structure, cost-effective.

In present embodiment, the other end of the magnetic roller 13 is connected with the 3rd belt wheel 11；The main transmission The one end fits of roller 7 and the homonymy of the 3rd belt wheel 11 are connected with the 4th belt wheel 8, and the 3rd belt wheel 11 is by the second belt 10 to the 4th band Wheel 8 conveys power；The front end of first Rose Box 4 is connected with riser relative to the side of the 4th belt wheel 8, and main drive roller 7 is relative It is rotatably connected in one end of the 4th belt wheel 8 on riser.So, while magnetic roller 13 is rotated, the 3rd belt wheel 11 is also synchronous Rotate, so as to drive the 4th belt wheel 8 to rotate, the 4th belt wheel 8 drives main drive roller 7 to rotate again, realize magnetic roller 13 and passed with main The linkage of dynamic roller 7, that is to say the linkage of magnetic roller 13 and conveyer belt, along with the linkage of water wheels 19 and magnetic roller 13, realize Coordinated signals are carried out using motor, about cost, simplify structure, and all use V belt translation, stable drive, noise It is small.

In present embodiment, the dividing plate provided with case before being divided into and rear cabinet in second Rose Box 21, every 3rd liquid outlet of case and rear cabinet before plate upper end is communicated with；The pumping equipment is arranged in preceding case, and the magnetic roller 13 is pacified It is installed adjacent at the rear end face of rear cabinet；The front end face of case before the discharge opeing interface 20 is arranged on.So, by dividing plate by the second mistake Case and rear cabinet before filter box 21 is divided into, coolant will not be discharged directly after being filtered through magnetic roller 13 by pumping equipment, also need first to exist Filtered indirectly by settlement action in rear cabinet, before being then drained into again by the 3rd liquid outlet in case, then in preceding case Pumping equipment is discharged, and greatly improves the filter effect to coolant.

In present embodiment, the rear cabinet upper end is opening, and splicing plate 22 is covered and is fixed in opening；Before described Case lid is removably connected with case.So, splicing plate 22 can as rear cabinet case lid, play stop waste residue enter rear cabinet work With without setting single case lid again on rear cabinet；Set case lid that coolant can be avoided by outside contamination on preceding case, case lid is can Pumping equipment inside dismounting connection, easy cleaning and maintenance.

In present embodiment, be interval with apron strip 51 on the conveyer belt 5, the length direction of apron strip 51 along The width of conveyer belt 5.Apron strip 51 on conveyer belt 5 make it that waste residue, will not when being conveyed from conveyer belt lower end to upper end Conveyer belt lower end is slipped to, it is ensured that waste residue energy smooth delivery of power to conveyer belt upper end, so that waste residue can fall from conveyer belt upper end Onto splicing plate 22.

In present embodiment, it is described enter liquid interface 2 and discharge opeing interface 20 be tubulose.So, it is convenient using pipe Road is connected into liquid interface and discharge opeing interface, very sanitation and hygiene.

The present invention coolant filtration cycle system, can to coolant carry out multistage filtering, and will directly filter with Filtering is combined indirectly, and filter effect is excellent, while also achieving the deslagging in filtering, filter efficiency is high.

Claims (10)

1. a kind of coolant filtration cycle system, it is characterised in that：First including being sequentially communicated from top to bottom stores liquid case, first Rose Box, second store liquid case；The first storage liquid case is provided with into liquid interface；The second storage liquid case front end face passes through intake chute It is communicated with the second Rose Box；First Rose Box front end is beyond the second front end face for storing liquid case；Provided with biography in first Rose Box Send band, the conveyer belt includes main drive roller, from live-roller and the conveyer belt provided with sieve aperture；The main drive roller, from transmission Roller is rotatably connected on the rear and front end of the first Rose Box respectively；The axis of the main drive roller is located at second and stores liquid case front end face Outside；Magnetic roller is provided with the inlet of second Rose Box, magnetic roller two ends are rotatably connected on the second Rose Box respectively On two side；The magnetic roller is located at intake chute and exports lower section, and the axial line of magnetic roller is located on the outside of intake chute outlet edge, magnetic Property roller axial line and intake chute outlet edge where the distance of vertical guide be not more than the radius of magnetic roller；On the outside of the magnetic roller Provided with splicing plate, splicing plate is located above the second Rose Box, and below the main drive roller；Along the inner side edge of splicing plate Scraper plate is connected with edge, the scraper plate contact is on the periphery of magnetic roller；The projection of the main drive roller in the horizontal direction It can cover or part covers the magnetic roller；The outer wall of second Rose Box is provided with discharge opeing interface, the second Rose Box and set Have the pumping equipment for the coolant after filtering being discharged in discharge opeing interface.

2. coolant filtration cycle system according to claim 1, it is characterised in that：The conveyer belt is obliquely installed, main Live-roller is located at from live-roller oblique upper；The first storage liquid case bottom surface is the inclined end face parallel to conveyer belt, the inclined end face Lower end is provided with the first liquid outlet being located at directly over conveyer belt.

3. coolant filtration cycle system according to claim 1, it is characterised in that：The first Rose Box lower end is not If the opening of bottom surface, so as to be connected by open with the second storage liquid case.

4. coolant filtration cycle system according to claim 1, it is characterised in that：The axis of the magnetic roller is located at master It is driven the inner side of roll axis.

5. coolant filtration cycle system according to claim 1, it is characterised in that：Described second stores on liquid case front end face End is provided with the second liquid outlet；The intake chute is the groove of opening upwards, and below the second liquid outlet；Intake chute is from second Liquid case is stored down to tilt to the second Rose Box direction.

6. coolant filtration cycle system according to claim 1, it is characterised in that：The pumping equipment is water wheels；Institute State water wheels just to set discharge opeing interface, water wheels drive by being arranged on the motor of the second Rose Box side；The output of the motor The first belt wheel is also connected with axle；The magnetic roller is rotated with the second Rose Box 1 by rotating shaft and is connected, the rotating shaft two ends The two sides of the second Rose Box are overhang, rotating shaft on one end of motor homonymy with being connected with the second belt wheel, the first belt wheel Power is conveyed to the second belt wheel by the first belt.

7. coolant filtration cycle system according to claim 5, it is characterised in that：The other end of the magnetic roller coordinates It is connected with the 3rd belt wheel；The one end fits of the main drive roller and the 3rd belt wheel homonymy are connected with the 4th belt wheel, and the 3rd belt wheel leads to Cross the second belt and convey power to the 4th belt wheel；The first Rose Box front end is connected with vertical relative to the side of the 4th belt wheel Plate, main drive roller is rotatably connected on riser relative to one end of the 4th belt wheel.

8. coolant filtration cycle system according to claim 1, it is characterised in that：Being provided with second Rose Box will The dividing plate of case and rear cabinet before it is divided into, the 3rd liquid outlet of case and rear cabinet before dividing plate upper end is communicated with；The pumping equipment In preceding case, the magnetic roller is arranged close at the rear end face of rear cabinet；The front end of case before the discharge opeing interface is arranged on Face.

9. coolant filtration cycle system according to claim 8, it is characterised in that：The rear cabinet upper end is opening, is connect Flitch is covered and is fixed in opening；Case lid is removably connected with the preceding case.

10. coolant filtration cycle system according to claim 1, it is characterised in that：It is interval with the conveyer belt Apron strip, the width of the length direction of apron strip along conveyer belt.