CN210146223U - Milling machine ironwork processing coolant liquid filter equipment - Google Patents

Abstract

The utility model discloses a milling machine ironwork processing coolant liquid filtering device, the structure of which comprises a movable caster and a first sliding door, the utility model has the following advantages that the filtering device can not filter a large amount of scrap iron in coolant liquid after being used, impurity particles can be filtered, the system can be blocked, the manual cleaning is tedious, the efficient grading filtering treatment can not be carried out, particularly, the filtered scrap iron can be recycled, when the filtering device is used, the coolant liquid can be adsorbed by a water pump and flows into a filtering mechanism through a guide pipe, the scrap iron in the coolant liquid is adsorbed when flowing to a scrap absorbing mechanism, the coolant liquid is subjected to secondary filtering, redundant impurity sundries can be intercepted by a filter screen, then the coolant liquid is collected through the repeated movement of an electric push rod, and simultaneously the coolant liquid is discharged through a drain pipe, iron fillings are adsorbed by permanent magnetism sucking disc and can overturn and collect, have realized the function of hierarchical filtration recycle.

Description

Milling machine ironwork processing coolant liquid filter equipment

Technical Field

The utility model relates to a ironwork processing technology field, in particular to milling machine ironwork processing coolant liquid filter equipment.

Background

The milling machine is a machine tool for processing various surfaces of a workpiece by using a milling cutter, generally, the milling cutter mainly moves by rotating, the movement of the workpiece and the milling cutter is feeding movement, the milling machine can process planes and grooves, and can process various curved surfaces, gears and the like, which are generally processed by using a numerical control milling machine at present, a plurality of ironworks are processed by using the milling machine, the cooling of parts and tool bits is indispensable during processing, and with the rapid development of scientific technology, the milling machine ironwork processing coolant filtering device is also technically improved, but the novel milling machine ironwork processing coolant liquid filter equipment of prior art can't have a large amount of iron fillings in to the coolant liquid after using, and impurity particulate matter filters, can lead to the system to block up, and artifical clearance is loaded down with trivial details, also can't carry out the hierarchical filtration processing of efficient, and especially filterable iron fillings can also be recycled again.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art not enough, present a milling machine ironwork processing coolant liquid filter equipment to solve the novel milling machine ironwork processing coolant liquid filter equipment of prior art and can't have a large amount of iron fillings in the coolant liquid after using, impurity particulate matter filters, and manual cleaning is loaded down with trivial details, also can't carry out the hierarchical filtration processing of efficient, and especially filterable iron fillings can also recycle again, thereby has reached hierarchical filtration recycle's effect.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a milling machine ironwork processing coolant liquid filtering device, which comprises a movable caster, a first sliding door, a second sliding door, an observation window, a water pump, a handrail, a control panel, a drain pipe, a switching pipe and a filtering mechanism, wherein the right rear side of the bottom end of the filtering mechanism is in bolt connection with the movable caster through a nut, the bottom part of the right side of the filtering mechanism is in rotary connection with the first sliding door through a rotary shaft, the left bottom part of the front end of the filtering mechanism is in rotary connection with the second sliding door through a rotary shaft, the right side of the top end of the filtering mechanism is in rotary connection with the observation window through a rotary shaft, the left side of the top end of the filtering mechanism is in bolt connection with the water pump through a support rod, the left top end of the filtering mechanism is in bolt connection with the handrail through a nut, the left top part of the front end of the filtering mechanism is in sleeve connection with, the bottom of the front end of the water pump is mutually spliced with the switching pipe, the filtering mechanism comprises an outer shell, a flow guide pipe, a scrap sucking mechanism, a blocking strip, a collecting box, a water collecting tank, a baffle and a water filtering mechanism, the left side of the top of the outer shell is spliced with the flow guide pipe, the left top of the inner side of the outer shell is in bolted connection with the scrap sucking mechanism through a nut, the left side of the inner top of the outer shell is welded with the blocking strip, the left bottom of the inner side of the outer shell is mutually attached to the collecting box, the bottom of the inner side of the outer shell is welded with the water collecting tank, the right bottom of the inner side of the outer shell is welded with the baffle, the middle of the inner side of the outer shell is in rotary connection with the water filtering mechanism through a rotary shaft, the right rear side of the bottom of the outer shell is in bolted connection with a movable caster, the utility model discloses a water catch bowl, including shell body, observation window, bracing piece, shell body top left side, shell body top right side rotates through pivot and observation window to be connected, shell body top left side carries out bolted connection through bracing piece and water pump, shell body left side top carries out bolted connection through nut and handrail, shell body front end left side top cup joints with the control panel, bottom and drain pipe peg graft in the water catch bowl front end.

Furthermore, inhale bits mechanism and include electronic pivot, first permanent magnetic chuck and second permanent magnetic chuck, electronic pivot bottom rear side welds with first permanent magnetic chuck, electronic pivot bottom front portion welds with second permanent magnetic chuck, bolted connection is carried out through nut and shell body in electronic pivot top.

Further, drainage mechanism includes filter screen frame, filter screen, electric putter and cover shell, the inboard middle part of filter screen frame is pegged graft with the filter screen, left side and electric putter weld before the filter screen frame bottom, the filter screen frame right-hand member carries out bolted connection through nut and cover shell, the filter screen frame left side is rotated through pivot and shell body and is connected, the electric putter left end welds with the shell body.

Furthermore, the electric push rods are provided with two electric push rods which are respectively arranged at the front part and the rear part of the left side of the bottom end of the filter screen frame.

Furthermore, a semi-arc-surface-shaped lug is poured and fused on the right side of the filter screen frame.

Furthermore, three layers of magnetic isolation plates are arranged in the middle of the first permanent magnetic chuck and the second permanent magnetic chuck.

Furthermore, the blend stop is provided with two altogether, installs both sides around the top left portion of casing respectively, and two relative inboards of blend stop all overlap and have the silica gel strip moreover.

Furthermore, the filter screen rack middle part is provided with the inserting groove and can be used for fixed filter screen, changes through the cover shell simultaneously.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) for solving the novel milling machine ironwork processing coolant liquid filter equipment of prior art can't have a large amount of iron fillings in the coolant liquid after using, impurity particulate matter filters, can lead to the system to block up, artifical clearance is loaded down with trivial details, also can't carry out efficient stage filtration processing, especially filterable iron fillings can also be recycled, can adsorb the coolant liquid through the honeycomb duct in flowing into filtering mechanism through the water pump when having designed the use, iron fillings in the coolant liquid are adsorbed when flowing to the suction mechanism, the coolant liquid carries out the second grade and filters, unnecessary impurity debris can be intercepted by the filter screen, then collect it through electric putter repetitive motion, the coolant liquid passes through the drain pipe and discharges simultaneously, iron fillings are adsorbed by permanent magnet chuck and can overturn and collect, stage filtration recycle's function has been realized.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

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

FIG. 2 is a schematic view of the internal structure of the filtering mechanism of the present invention;

FIG. 3 is a schematic structural view of the scrap suction mechanism of the present invention;

fig. 4 is a schematic structural view of the water filtering mechanism of the present invention;

in the figure: the device comprises a filtering mechanism-1, a movable caster-2, a first sliding door-3, a second sliding door-4, an observation window-5, a water pump-6, a handrail-7, a control screen-8, a water drain pipe-9, a switching pipe-10, an outer shell-101, a flow guide pipe-102, a scrap sucking mechanism-103, a baffle-104, a collecting box-105, a water collecting tank-106, a baffle-107, a water filtering mechanism-108, an electric rotating shaft-10301, a first permanent magnetic suction cup-10302, a second permanent magnetic suction cup-10303, a filter screen frame-10801, a filter screen-10802, an electric push rod-10803 and a casing-10804.

Detailed Description

In the technical scheme:

the utility model comprises a filtering mechanism-1, an outer shell-101, a flow guide pipe-102, a scrap sucking mechanism-103, a barrier strip-104, a collecting box-105, a water collecting tank-106, a baffle-107, a water filtering mechanism-108, an electric rotating shaft-10301, a first permanent magnetic chuck-10302, a second permanent magnetic chuck-10303, a filter screen frame-10801, a filter screen-10802, an electric push rod-10803 and a casing-10804, which are substantial innovative components.

The movable caster-2, the first sliding door-3, the second sliding door-4, the observation window-5, the water pump-6, the handrail-7, the control screen-8, the drain pipe-9 and the adapter pipe-10 are necessary connection components for realizing the technical proposal of the utility model.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, 2, 3 and 4, the present invention provides a milling machine ironwork processing coolant filtering apparatus: comprises a movable caster 2, a first sliding door 3, a second sliding door 4, an observation window 5, a water pump 6, a handrail 7, a control panel 8, a drain pipe 9, a switching pipe 10 and a filtering mechanism 1, wherein the right rear side of the bottom end of the filtering mechanism 1 is in bolt connection with the movable caster 2 through a nut, the bottom of the right side of the filtering mechanism 1 is in rotary connection with the first sliding door 3 through a rotary shaft, the left bottom of the front end of the filtering mechanism 1 is in rotary connection with the second sliding door 4 through a rotary shaft, the right side of the top end of the filtering mechanism 1 is in rotary connection with the observation window 5 through a rotary shaft, the left side of the top end of the filtering mechanism 1 is in bolt connection with the water pump 6 through a support rod, the left top end of the filtering mechanism 1 is in bolt connection with the handrail 7 through a nut, the left top of the front end of the filtering mechanism 1 is in sleeve connection with the control panel 8, the lower part, the filtering mechanism 1 comprises an outer shell 101, a guide pipe 102, a scrap sucking mechanism 103, a barrier strip 104, a collecting box 105, a water collecting tank 106, a baffle 107 and a water filtering mechanism 108, wherein the left side in the top of the outer shell 101 is spliced with the guide pipe 102, the left top inside the outer shell 101 is in bolted connection with the scrap sucking mechanism 103 through a nut, the left side of the top inside the outer shell 101 is welded with the barrier strip 104, the left bottom inside the outer shell 101 is mutually attached with the collecting box 105, the bottom inside the outer shell 101 is welded with the water collecting tank 106, the right bottom inside the outer shell 101 is welded with the barrier strip 107, the middle inside of the outer shell 101 is in rotational connection with the water filtering mechanism 108 through a rotating shaft, the right rear side at the bottom end of the outer shell 101 is in bolted connection with a movable caster 2 through a nut, the right bottom of the outer shell 101 is in rotational connection with a first, shell body 101 top right side rotates through pivot and observation window 5 to be connected, and shell body 101 top left side carries out bolted connection through bracing piece and water pump 6, and shell body 101 left side top carries out bolted connection through nut and handrail 7, and shell body 101 front end left side top cup joints with control panel 8, and bottom is pegged graft with drain pipe 9 in the water catch bowl 106 front end.

Wherein, inhale bits mechanism 103 and include electronic pivot 10301, first permanent magnet sucking disc 10302 and second permanent magnet sucking disc 10303, electronic pivot 10301 bottom rear side welds with first permanent magnet sucking disc 10302, electronic pivot 10301 bottom front portion welds with second permanent magnet sucking disc 10303, electronic pivot 10301 top carries out bolted connection through nut and shell body 101, can change the iron fillings that adsorb in the coolant liquid.

Wherein, drainage mechanism 108 includes strainer frame 10801, filter screen 10802, electric putter 10803 and cover box 10804, the inboard middle part of strainer frame 10801 is pegged graft with filter screen 10802, left side and electric putter 10803 weld before strainer frame 10801 bottom, strainer frame 10801 right-hand member carries out bolted connection through nut and cover box 10804, strainer frame 10801 left side is rotated through pivot and shell body 101 and is connected, electric putter 10803 left end welds with shell body 101, can collect the filtrations after further filtering the coolant liquid.

The electric push rods 10803 are provided with two electric push rods, are respectively installed at the front and rear parts of the left side of the bottom end of the screen frame 10801, and can be repeatedly extended and retracted at the same time.

Wherein, the filter screen frame 10801 right side is poured and fused with the half-arc-shaped convex block, which is convenient for throwing away the filtered object.

The middle parts of the first permanent magnetic chuck 10302 and the second permanent magnetic chuck 10303 are provided with three magnetic isolation plates, and the magnetic isolation plates can isolate magnetism at certain positions on opposite surfaces.

The two barrier strips 104 are arranged on the front side and the rear side of the left top of the shell 101 respectively, and silica gel strips are sleeved on the inner sides of the two barrier strips 104, so that partial cooling liquid can be isolated from entering the shell.

Wherein, filter screen frame 10801 middle part is provided with the inserting groove and can be used for fixed filter screen 10802, changes through cover case 10804 simultaneously.

The water pump 6 described in this patent is a machine for conveying liquid or pressurizing liquid, it transmits the mechanical energy of prime mover or other external energy to liquid, making the liquid energy increase, mainly used for conveying liquid including water, oil, acid-base liquid, emulsion, suspoemulsion and liquid metal, the first permanent magnetic chuck 10302 is also called magnetic chuck, is a magnetic clamp widely used in the machining field, such as machinery factory, die factory, etc., can greatly improve the efficiency of magnetic steel material clamping, the permanent magnetic chuck is with the rare earth material neodymium iron boron N >40 of high performance as the kernel, through manually pulling the chuck handle to rotate, thereby change the magnetic force system of the neodymium iron boron inside the chuck, reach the absorption or release of the processed work piece.

The working principle is as follows: when in use, the milling machine ironwork processing coolant filtering device is moved to a position to be used through the handrail 7, then the movable caster wheel 2 is fixed, then the external power supply is connected, the switching tube 10 is inserted with a milling machine coolant discharge port, then the control water pump 6 is opened on the control screen 8 for adsorption, then the coolant is adsorbed by the water pump 6 and flows to the scrap absorbing mechanism 103 through the guide tube 102, the scrap absorbing mechanism 103 can be electrified in a single direction, three layers of magnetic isolation plates are arranged in the middle of the first permanent magnetic chuck 10302 and the second permanent magnetic chuck 10303, and can conduct certain magnetic isolation on opposite surfaces, then when the coolant flows to the permanent magnetic chucks, scrap in the coolant is adsorbed, then the coolant is filtered in a second stage, redundant impurity sundries can be intercepted by the filter screen 10802 and then are collected through the repeated movement of the electric push rod 10803, the electric push rods 10803 are provided with two electric push rods which are respectively arranged at the front part, can carry out the flexible of relapse simultaneously, the coolant liquid discharges through drain pipe 9 simultaneously, iron fillings are adsorbed by permanent magnet chuck and can overturn and collect, filter screen frame 10801 right side is pour and is fused the lug that has the half arc surface form, can be convenient for throw away the filter, the permanent magnet chuck outage at the back makes iron fillings whereabouts pass through the baffle and is collected by collecting box 105 when electronic pivot 10301 overturns simultaneously, the user can regularly clear up, reuse, and unnecessary impurity debris can clear up through first sliding door 3 and collect, this device can carry out multistage filtration with the coolant liquid when using, and carry out the efficient with iron fillings and retrieve so that reuse.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. The utility model provides a milling machine ironwork processing coolant liquid filter equipment, includes activity truckle (2), first sliding door (3), second sliding door (4), observation window (5), water pump (6), handrail (7), control panel (8), drain pipe (9) and switching pipe (10), its characterized in that: the water-saving filter is characterized by further comprising a filter mechanism (1), the right rear side of the bottom end of the filter mechanism (1) is in bolted connection with a movable caster (2) through nuts, the right bottom of the right side of the filter mechanism (1) is in rotational connection with a first sliding door (3) through a rotating shaft, the left bottom of the front end of the filter mechanism (1) is in rotational connection with a second sliding door (4) through a rotating shaft, the right side of the top end of the filter mechanism (1) is in rotational connection with an observation window (5) through a rotating shaft, the left side of the top end of the filter mechanism (1) is in bolted connection with a water pump (6) through a supporting rod, the left top of the left top end of the filter mechanism (1) is in bolted connection with a handrail (7) through nuts, the left top of the front end of the filter mechanism (1) is in sleeved connection with a control screen (8), the lower part of the middle part of the front end of the filter mechanism (1) is in, the filtering mechanism (1) comprises an outer shell (101), a guide pipe (102), a scrap sucking mechanism (103), a blocking strip (104), a collecting box (105), a water collecting tank (106), a baffle (107) and a water filtering mechanism (108), wherein the left side of the top of the outer shell (101) is spliced with the guide pipe (102), the left top of the inner side of the outer shell (101) is in bolt connection with the scrap sucking mechanism (103) through nuts, the left side of the inner top of the outer shell (101) is welded with the blocking strip (104), the left bottom of the inner side of the outer shell (101) is mutually attached to the collecting box (105), the bottom of the inner side of the outer shell (101) is welded with the water collecting tank (106), the right bottom of the inner side of the outer shell (101) is welded with the baffle (107), the middle of the inner side of the outer shell (101) is in rotary connection with the water filtering mechanism (108) through a rotating shaft, and the right back side of the, the utility model discloses a water pump, including shell body (101), shell body (101) right side bottom rotate through pivot and first sliding door (3) and be connected, shell body (101) front end left bottom rotates through pivot and second sliding door (4) and is connected, shell body (101) top right side rotates through pivot and observation window (5) and is connected, shell body (101) top left side carries out bolted connection through bracing piece and water pump (6), shell body (101) left side top carries out bolted connection through nut and handrail (7), shell body (101) front end left side top cup joints with control panel (8), bottom and drain pipe (9) are pegged graft in water catch bowl (106) front end.

2. The milling machine ironwork machining coolant filter device of claim 1, wherein: inhale bits mechanism (103) and include electronic pivot (10301), first permanent magnet sucking disc (10302) and second permanent magnet sucking disc (10303), electronic pivot (10301) bottom rear side welds with first permanent magnet sucking disc (10302), electronic pivot (10301) bottom front portion welds with second permanent magnet sucking disc (10303), bolted connection is carried out through nut and shell body (101) in electronic pivot (10301) top.

3. The milling machine ironwork machining coolant filter device of claim 1, wherein: water filtering mechanism (108) include strainer rack (10801), filter screen (10802), electric putter (10803) and cover shell (10804), it pegs graft with filter screen (10802) to strain strainer rack (10801) inboard middle part, left side and electric putter (10803) weld before strainer rack (10801) bottom, carry out bolted connection through nut and cover shell (10804) strainer rack (10801) right-hand member, strainer rack (10801) left side is rotated through pivot and shell body (101) and is connected, electric putter (10803) left end welds with shell body (101).

4. The milling machine ironwork machining coolant filter device of claim 3, wherein: the electric push rods (10803) are provided with two electric push rods which are respectively arranged at the front part and the rear part of the left side of the bottom end of the filter screen frame (10801).

5. The milling machine ironwork machining coolant filter device of claim 3, wherein: the right side of the filter screen frame (10801) is poured and fused with a semi-arc-shaped lug.

6. The milling machine ironwork machining coolant filter device of claim 2, wherein: three layers of magnetic isolation plates are arranged in the middle of the first permanent magnetic chuck (10302) and the second permanent magnetic chuck (10303).

7. The milling machine ironwork machining coolant filter device of claim 1, wherein: the two blocking strips (104) are arranged and respectively arranged on the front side and the rear side of the left top of the shell (101), and silica gel strips are sleeved on the inner sides of the two blocking strips (104).

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