CN111569505B

CN111569505B - Cutting fluid multi-layer filtering and recycling device for ceramic processing

Info

Publication number: CN111569505B
Application number: CN202010498836.4A
Authority: CN
Inventors: 彭姗
Original assignee: Yongzhou Mingrui Ceramic Technology Co ltd
Current assignee: Yongzhou Mingrui Ceramic Technology Co ltd
Priority date: 2020-06-04
Filing date: 2020-06-04
Publication date: 2022-08-09
Anticipated expiration: 2040-06-04
Also published as: CN111569505A

Abstract

A multilayer filtering and recovering device for cutting fluid for ceramic processing comprises: the device comprises a base, wherein two groups of L-shaped rods are fixedly connected to one side of the base, and the number of the L-shaped rods in each group is two; the hollow cylinder is fixedly connected between the end parts of the four L-shaped rods far away from the base, and two sides of the hollow cylinder are provided with openings; the support frame is fixedly connected to the edge of one side of the base, which is close to one group of the L-shaped rods; the discharging hopper is fixedly connected to the end part of the supporting frame far away from the base, the middle part of one side of the discharging hopper, which faces the base, is connected with a discharging valve pipe, and the discharging valve pipe is communicated with the inside of the discharging hopper; through pouring the cutting fluid into down in the hopper, open discharge valve pipe, the cutting fluid in the hopper passes through the discharge valve pipe and drops to the filter frame in, because there are two filter frames in every side, two filter frames drop to the collection container after filtering the cutting fluid in, so, can carry out recycle after the double-deck filtration to the cutting fluid, the filter effect is good.

Description

Cutting fluid multi-layer filtering and recycling device for ceramic processing

Technical Field

The invention relates to a recovery device, in particular to a cutting fluid multilayer filtering recovery device for ceramic processing.

Background

The ceramic processing is that a workshop specially processes ceramics. Ceramic machining requires special machining tools and machining processes. The machining of ceramic materials is a special case of machining, a general machining workshop does not have the capacity of ceramic machining, a machine is required to be used for machining ceramics during the ceramic machining, cutting fluid is required to be used during the machining process, but a large amount of waste residues are generated when the cutting fluid is used for a long time, and the waste residues in the cutting fluid need to be filtered and recovered.

The conventional recovery device, as disclosed in chinese patent with patent publication No. CN103736312A, comprises a discharge port and a recovery box, wherein the discharge port is arranged above the recovery box, a track with a gap is arranged between the discharge port and the recovery box, filter paper is laid on the track, a paper winding cylinder is arranged at the left end of the track, one end of the filter paper is wound on the paper winding cylinder, and the other end of the filter paper extends into a waste box arranged at the right side of the recovery box. Filter used cutting fluid through the filter paper that sets up on the track to retrieve through the collection box, material saving, reduce cost, and use the buoy to control filter paper, make every section filter paper can not filter too many times, improve filterable effect, above-mentioned patent exists following not enoughly: the waste residue of the cutting fluid can be filtered for one time, so that the filtering effect of the cutting fluid is poor, and the recycling is influenced.

Disclosure of Invention

In order to overcome the defects that the cutting fluid is not good in filtering effect and influences recycling because waste residues of the cutting fluid can be filtered for one time, the technical problem to be solved is as follows: provided is a cutting fluid multilayer filtration recovery device for ceramic processing, which can perform multilayer filtration on a cutting fluid, has a good filtration effect, and does not affect recycling.

The technical scheme of the invention is as follows: a multilayer filtering and recovering device for cutting fluid for ceramic processing comprises: the device comprises a base, wherein two groups of L-shaped rods are fixedly connected to one side of the base, and the number of the L-shaped rods in each group is two; the hollow cylinder is fixedly connected between the end parts of the four L-shaped rods far away from the base, and two sides of the hollow cylinder are provided with openings; the support frame is fixedly connected to the edge of one side of the base, which is close to one group of the L-shaped rods; the discharging hopper is fixedly connected to the end part of the supporting frame far away from the base, the middle part of one side of the discharging hopper, which faces the base, is connected with a discharging valve pipe, and the discharging valve pipe is communicated with the inside of the discharging hopper; the guide mechanism is arranged among the upper parts of the four L-shaped rods and used for guiding; and the filtering mechanism is arranged on the guide mechanism, is matched with the hollow cylinder and is used for filtering waste residues in the cutting fluid.

In one embodiment, the guide mechanism comprises: the u-shaped plate is slidably connected between the upper parts of the two L-shaped rods on the same side in a penetrating manner; the number of the vertical plates is two, the vertical plates are fixedly connected between the side ends of each of the two u-shaped plates and are connected and matched with the filtering mechanism; the U-shaped fixing plates are two in number, one of the U-shaped fixing plates is fixedly connected between one side of the two vertical plates which are far away from the base and are at the same side with the U-shaped plate, and the other one of the U-shaped fixing plates is fixedly connected between the other sides of the two vertical plates which are far away from the base and are at the same side with the U-shaped plate; the limiting plates are fixedly connected to one side, facing the vertical plate of the hollow cylinder, of each side, the number of the limiting plates on each side is two, and the limiting plates are in contact fit with the filtering mechanism.

In one embodiment, the filter mechanism comprises: the sliding grooves are symmetrically formed in one side, facing the vertical plate, of the hollow cylinder; the sliding block is placed in the sliding groove in a sliding manner; the filter frame is rotatably arranged on one side of the sliding block facing the hollow cylinder and is in contact fit with the limiting plate; the spring, the quantity of spring is four, and wherein two connect in be close to the base and keep away from the support frame slider one side with be close to the u template between the spout one side, two other connect in towards the support frame just keeps away from the base slider one side with keep away from the u template between the spout one side.

In one embodiment, the device further comprises a driving mechanism, wherein the driving mechanism comprises: the rotating shaft is symmetrically and rotatably connected to one side of the vertical plate far away from the hollow cylinder; the chain wheel is fixedly sleeved at the end part of the rotating shaft far away from the vertical plate; a chain wound between two of the sprockets on each side; the gear is fixedly sleeved on each rotating shaft; the special-shaped guide rods are slidably connected to the upper side and the lower side of the vertical plate in a penetrating manner, and the end part, close to the sliding groove, of each special-shaped guide rod is fixedly connected with one side of the sliding block; the rack is fixedly connected to the end part, far away from the hollow cylinder, of the special-shaped guide rod and meshed with the gear; the handle, the handle rigid coupling in towards the support frame just keeps away from the base the rack tip.

In one embodiment, the method further comprises the following steps: the cylinder body is fixedly connected to the middle of one side of the outer side of the filtering frame away from the gear; the iron ball is slidably placed in the barrel.

The beneficial effects are that:

1. through pouring the cutting fluid into down in the hopper, open discharge valve pipe, the cutting fluid in the hopper passes through the discharge valve pipe and drops to the filter frame in, because there are two filter frames in every side, two filter frames drop to the collection container after filtering the cutting fluid in, so, can carry out recycle after the double-deck filtration to the cutting fluid, the filter effect is good.

2. Through actuating mechanism's effect, the pulling handle removes backward can make the filter frame outwards remove and break away from with the limiting plate, just also pours the waste residue into in the collection container, need not operating personnel and promotes the filter frame outwards with both hands and remove convenient and fast.

3. Through the effect of barrel and iron ball, can shake the filter frame when the filter frame rotates for filter frame is better pours the waste residue.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a partial perspective view of the present invention.

In the reference symbols: a 1.. base, 2.. L-shaped rods, 3.. hollow cylinders, 4.. support frames, 5.. blanking hoppers, 51.. discharge valve pipes, 6.. guide mechanisms, 61.. u-shaped plates, 62.. risers, 63.. limiting plates, 64.. u-shaped fixing plates, 7.. filter mechanisms, 71.. sliding grooves, 72.. sliding blocks, 73.. filter frames, 74.. springs, 8.. drive mechanisms, 81.. special-shaped guide rods, 82.. racks, 83.. handles, 84.. rotating shafts, 85.. gears, 86.. chain wheels, 87.. chains, 9.. cylinders, 10.. iron balls.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

A multilayer filtering and recycling device for cutting fluid for ceramic processing is shown in figures 1 and 2 and comprises a base 1, an L-shaped rod 2, a hollow cylinder 3 and a support frame 4, hopper 5 down, discharge valve pipe 51, guiding mechanism 6 and filter mechanism 7, all the rigid coupling has two L type poles 2 in the middle of the both sides around the 1 top of base, the rigid coupling has hollow section of thick bamboo 3 between 2 inner on four L type poles, the 3 left and right sides of hollow section of thick bamboo are uncovered setting, be equipped with guiding mechanism 6 between 2 upper portions on four L type poles, guiding mechanism 6 and the cooperation of hollow section of

thick bamboo

3, 6 inboard of guiding mechanism are equipped with filter mechanism 7, filter mechanism 7 and the cooperation of hollow section of thick bamboo 3, install support frame 4 in the middle of the 1 top rear side of base, 4 top rigid couplings of support frame have hopper 5 down, 5 middle connections in the bottom of hopper have discharge valve pipe 51 down, discharge valve pipe 51 and hopper 5 intercommunication down, discharge valve pipe 51 is located hollow section of thick bamboo 3 tops.

Guiding mechanism 6 is including u type board 61, riser 62, limiting plate 63 and u type fixed plate 64, between two L type pole 2 upper portions of front side and between two L type pole 2 upper portions of rear side all the sliding type cross-under have u type board 61, all the rigid coupling has riser 62 between the front and back both sides u type board 61 left end and between the right side, the cooperation is connected with filtering mechanism 7 to the 62 medial surface of left and right sides riser, all the rigid coupling has u type fixed plate 64 between the 62 front side upper portions of left and right sides riser and between the upper portion of rear side, both sides all the rigid coupling has limiting plate 63 about the 62 medial surface middle part of left and right sides, limiting plate 63 and filtering mechanism 7 contact cooperation.

The filtering mechanism 7 comprises a sliding block 72, a filtering frame 73 and a spring 74, sliding grooves 71 are formed in the upper side and the lower side of the inner side of a vertical plate 62 on the left side and the right side, the sliding block 72 is arranged in the sliding grooves 71 in an inward sliding mode, the filtering frame 73 is rotatably connected to the middle of the inner side of the sliding block 72 on the left side and the right side, the filtering frame 73 is in contact fit with the top of the limiting plate 63, the filtering frame 73 is matched with the hollow cylinder 3, the spring 74 is connected between the front side of the sliding block 72 on the lower side and the front side of the sliding groove 71 on the lower side, and the spring 74 is also connected between the rear side of the sliding block 72 on the upper side and the rear side of the sliding groove 71 on the upper side.

Firstly, an operator pours cutting fluid mixed with a large amount of waste residues in ceramic processing into a discharge hopper 5, then places three collecting containers on a base 1, opens a discharge valve pipe 51, the cutting fluid in the discharge hopper 5 flows into a right-side filtering mechanism 7 through the discharge valve pipe 51, the right-side filtering mechanism 7 filters the waste residues in the cutting fluid, the filtered cutting fluid flows into a middle collecting container, when a proper amount of waste residues are filtered in the right-side filtering mechanism 7, the discharge valve pipe 51 is closed, the cutting fluid in the discharge hopper 5 stops being discharged, a guide mechanism 6 is pulled to move rightwards, the guide mechanism 6 moves rightwards to drive the filtering mechanism 7 to move rightwards, when the right-side filtering mechanism 7 moves rightwards to the outside of a hollow cylinder 3, the left-side filtering mechanism 7 also moves into the hollow cylinder 3, the guide mechanism 6 stops being pulled, and the right-side filtering mechanism 7 is pushed to operate without being limited by the guide mechanism 6, right side filter mechanism 7 rotates and pours the waste residue into right side collection container in, the back is poured to the waste residue is whole, loosen right side filter mechanism 7 and reset, open discharge valve pipe 51 once more, the cutting fluid in lower hopper 5 flows into hollow section of thick bamboo 3 in through discharge valve pipe 51 and contacts with left side filter mechanism 7, left side filter mechanism 7 filters the cutting fluid, left side filter mechanism 7 has filtered a large amount of waste residues, close discharge valve pipe 51, it resets to promote 6 leftwards movements of guiding mechanism and drive filter mechanism 7 leftwards movements, promote left side filter mechanism 7 to rotate and pour the waste residue into left side collection container in, so relapse, can be continuous filter the waste residue in the cutting fluid, after the cutting fluid is whole to be filtered, take up three collection container and carry out subsequent processing to waste residue and cutting fluid.

When the right-side filtering mechanism 7 filters a proper amount of waste slag and the discharge valve pipe 51 stops spraying cutting fluid, when the vertical plate 62 is pushed to move rightwards through the u-shaped plate 61, the vertical plate 62 moves rightwards to drive the filter mechanism 7 to move rightwards, the right filter mechanism 7 moves rightwards to move out of the hollow cylinder 3, the left filtering mechanism 7 moves into the hollow cylinder 3, the vertical plate 62 stops being pushed, the left filtering mechanism 7 filters the waste residues in the cutting fluid, the right filtering mechanism 7 is pulled to move to be separated from the right limiting plate 63, the right filtering mechanism 7 rotates to pour the waste residues into the right collecting container, after all the waste residues are poured out, the filtering mechanism 7 is loosened to reset, the right limiting plate 63 continues to limit the right filtering mechanism 7, and similarly, when the left filtering mechanism 7 filters a proper amount of waste residues, the vertical plate 62 is pushed to move leftwards, and the vertical plate 62 moves leftwards to drive the filtering mechanism 7 to move leftwards to reset. Pulling left side filter mechanism 7 and limiting plate 63 break away from, and filter mechanism 7 rotates and pours the waste residue into left side collection container in, and the back is poured to the waste residue is whole, loosens left side filter mechanism 7 and resets and continue to be spacing by left side limiting plate 63.

When the cutting fluid flows into the hollow cylinder 3 from the discharge valve pipe 51, the cutting fluid falls into the upper right filter frame 73, the upper right filter frame 73 filters the waste residues in the cutting fluid, the cutting fluid for filtering the primary waste residues falls into the lower right filter frame 73, the lower right filter frame 73 further filters the cutting fluid, the cutting fluid for filtering the waste residues falls into the middle collecting container, when the right two filter frames 73 filter a proper amount of waste residues, the vertical plate 62 is pushed to move rightwards, the vertical plate 62 moves rightwards and drives the four filter frames 73 to move rightwards through the sliding block 72, the right two filter frames 73 move rightwards to the outside of the hollow cylinder 3, the left two filter frames 73 move rightwards to the inside of the hollow cylinder 3, the vertical plate 62 is stopped being pushed, the right front and rear filter frames 73 move outwards and drive the sliding block 72 to move outwards, when the right front and rear filter frames 73 move outwards to be separated from the limiting plate 63, the right two filter frames 73 rotate outwards to pour the waste residues into the right collecting container under the action of gravity, and when the waste residues all fall into the right collecting container, the right front and rear filter frames 73 are loosened, and under the action of the right spring 74, the right two filter frames 73 move inwards to be in contact with the limiting plate 63, and the limiting plate 63 enables the right two filter frames 73 to rotate inwards to reset. And after the cutting fluid is filtered, taking up the collecting container to treat the cutting fluid and the waste residue.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, the present invention further comprises a driving mechanism 8, the driving mechanism 8 comprises a shaped guide rod 81, a rack 82, a handle 83, a rotating shaft 84, a gear 85, a sprocket 86 and a chain 87, the shaped guide rod 81 is slidably connected to both upper and lower sides of the vertical plate 62, the rack 82 is fixedly connected to the outer end of the shaped guide rod 81, the rear end of the upper shaped guide rod 81 is located in the upper sliding groove 71 and fixedly connected to the middle of the front side of the upper slider 72, the front end of the lower shaped guide rod 81 is located in the lower sliding groove 71 and fixedly connected to the middle of the rear side of the lower slider 72, the rotating shafts 84 are rotatably connected to both upper and lower sides of the middle of the outer side of the left and right vertical plates 62, the sprocket 86 is fixedly connected to the outer end of the rotating shaft 84, the chain 87 is wound between the two sprockets 86 of each side, the gear 85 is fixedly connected to the right circumferential direction of the left rotating shaft 84 and the left circumferential direction of the left rotating shaft 84, the gears 85 of the upper and lower sides are respectively engaged with the racks 82 of the upper and lower sides, the rear end of the upper rack 82 is fixedly connected with a handle 83.

When the two right filter frames 73 move rightwards to the outside of the hollow cylinder 3, the right handle 83 is pulled to move backwards, the right handle 83 moves backwards to drive the rack 82 above the right to move backwards, the rack 82 above the right moves backwards to drive the special-shaped guide rod 81 above the right to move backwards, the special-shaped guide rod 81 above the right moves backwards to drive the right upper slide block 72 to move backwards, so that the filter frames 73 above the right move backwards to be separated from the limit plate 63, simultaneously, the right upper gear 85 rotates forwards to drive the right upper rotating shaft 84 to rotate forwards, the right upper rotating shaft 84 rotates forwards to drive the right upper chain wheel 86 to rotate forwards, the right upper chain wheel 86 rotates forwards to drive the right lower chain wheel 86 to rotate forwards through the chain 87, the right lower chain wheel 86 rotates forwards to drive the right lower rotating shaft 84 to rotate forwards, the right lower rotating shaft 84 rotates forwards to drive the right lower gear 85, the right lower chain wheel 86 drives the right lower chain wheel 82 to move forwards, the right lower rack 82 moves forwards to drive the right lower sliding block 72 to move forwards through the right lower special-shaped guide rod 81, the right lower filtering frame 73 also moves forwards to be separated from the limiting plate 63 to pour waste residues into the right collecting container, after the waste residues are poured out completely, the right handle 83 is loosened, due to the action of the right spring 74, the right sliding block 72 moves inwards to drive the right filtering frame 73 to move inwards to reset, meanwhile, the right sliding block 72 also drives the rack 82 to move inwards to reset through the special-shaped guide rod 81, the handle 83 also resets, and similarly, when the left filtering frame 73 moves leftwards to reset, the handle 83 is pulled to move backwards according to the operation, so that the left filtering frame 73 moves outwards to be separated from the limiting plate 63, and the waste residues are poured into the left collecting container. Therefore, the filter frame 73 does not need to be pushed by two hands to move outwards, and the operation is convenient and fast.

As shown in fig. 2, the device further comprises a cylinder 9 and iron balls 10, the cylinder 9 is fixedly connected to the middle part of the outer right side surface of the left upper and lower side filter frame 73 and the middle part of the outer left side surface of the right upper and lower side filter frame 73, and the iron balls 10 are arranged in the cylinder 9.

When the filter frame 73 rotates outwards to pour out the waste residues, the filter frame 73 also drives the cylinder 9 to rotate, the cylinder 9 rotates to drive the iron balls 10 to roll, and the iron balls 10 and the cylinder 9 vibrate the cylinder 9, so that the filter frame 73 is vibrated. Therefore, the filter frame 73 can better pour out the waste residues and avoid residues.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. The utility model provides a cutting fluid multilayer filtration recovery unit that ceramic machining used which characterized in that, including:

the device comprises a base (1), wherein two groups of L-shaped rods (2) are fixedly connected to one side of the base (1), and the number of the L-shaped rods (2) in each group is two;

the hollow cylinder (3) is fixedly connected among the end parts of the four L-shaped rods (2) far away from the base (1), and two sides of the hollow cylinder (3) are arranged in an open manner;

the supporting frame (4), the supporting frame (4) is fixedly connected to the edge position of one side of the base (1) close to one group of the L-shaped rods (2);

the discharging hopper (5) is fixedly connected to the end part of the supporting frame (4) far away from the base (1), the middle part of one side of the discharging hopper (5) facing the base (1) is connected with a discharging valve pipe (51), and the discharging valve pipe (51) is communicated with the inside of the discharging hopper (5);

the guide mechanism (6) is arranged among the upper parts of the four L-shaped rods (2) and is used for guiding;

the filtering mechanism (7) is arranged on the guide mechanism (6), is matched with the hollow cylinder (3) and is used for filtering waste residues in the cutting fluid;

the guide mechanism (6) comprises:

the U-shaped plate (61), the U-shaped plate (61) is slidably penetrated between the upper parts of the two L-shaped rods (2) on the same side;

the number of the vertical plates (62) is two, the vertical plates (62) are fixedly connected between the end parts of each side of the two u-shaped plates (61), and the vertical plates are connected and matched with the filtering mechanism (7);

the number of the u-shaped fixing plates (64) is two, one of the u-shaped fixing plates (64) is fixedly connected between one side of the two vertical plates (62) which are far away from the base (1) and are on the same side with the u-shaped plate (61), and the other one of the u-shaped fixing plates (64) is fixedly connected between the other sides of the two vertical plates (62) which are far away from the base (1) and are on the same side with the u-shaped plate (61);

the limiting plates (63) are fixedly connected to one side, facing the vertical plate (62) of the hollow cylinder (3), of the limiting plates (63), the number of the limiting plates (63) on each side is two, and the two limiting plates are in contact fit with the filtering mechanism (7);

the filter mechanism (7) comprises:

the sliding grooves (71), the sliding grooves (71) symmetrically open on one side of the vertical plate (62) facing the hollow cylinder (3);

the sliding block (72) is placed in the sliding groove (71) in a sliding manner;

the filter frame (73) is rotatably arranged on one side, facing the slide block (72) of the hollow drum (3), of the filter frame (73), and is in contact fit with the limit plate (63);

the number of the springs (74) is four, two of the springs (74) are connected between one side, close to the base (1) and far away from the sliding block (72), of the supporting frame (4) and one side, close to the sliding groove (71) of the u-shaped plate (61), and the other two springs are connected between one side, facing the supporting frame (4) and far away from the sliding block (72), of the base (1) and one side, far away from the sliding groove (71), of the u-shaped plate (61);

still including actuating mechanism (8), actuating mechanism (8) including:

a rotating shaft (84), wherein the rotating shaft (84) is symmetrically and rotatably connected to the side of the vertical plate (62) far away from the hollow drum (3);

the chain wheel (86), the said chain wheel (86) is fixed and fitted to the end of the said spindle (84) far away from the said riser (62);

a chain (87), said chain (87) being wound between two of said sprockets (86) on each side;

the gear (85) is fixedly sleeved on each rotating shaft (84);

the upper side and the lower side of the vertical plate (62) are slidably connected with special-shaped guide rods (81) in a penetrating manner, and the end part of the special-shaped guide rods, which is close to the sliding groove (71), is fixedly connected with one side of the sliding block (72);

the rack (82) is fixedly connected to the end part of the special-shaped guide rod (81) far away from the hollow cylinder (3), and is meshed with the gear (85);

the handle (83) is fixedly connected to the end part of the rack (82) facing the support frame (4) and far away from the base (1);

also comprises:

the cylinder (9), the cylinder (9) is fixedly connected to the middle part of one side of the outside of the filter frame (73) far away from the gear (85);

the iron ball (10), the iron ball (10) is placed in the barrel (9) in a sliding mode.