阅读说明：本技术 一种金属切屑液的除杂设备 (Impurity removing equipment for metal cutting liquid ) 是由 姜瑾雯 于 2021-01-11 设计创作，主要内容包括：本发明公开的一种金属切屑液的除杂设备,包括除杂净化箱,所述除杂净化箱内设有除杂腔,所述除杂腔左右壁连通设有对称的震动腔,左右所述震动腔前后壁上下滑动连接有连接块,所述连接块内设有开口向相互靠近一侧的连接腔,所述连接块内设有位于左右所述连接腔相互远离一侧的复位腔,所述震动腔前后壁上下滑动连接有位于所述连接块下侧的凸轮推板,所述震动腔下壁连通设有凸轮腔,本发明通过切换动力来带动过滤箱的向下移动,当过滤箱移动至底端后带动搅拌叶搅拌从而防止由于杂质的沉淀而残留,当对杂质收集完成后能够对过滤箱进行震动,从而将吸附的冷却液抖落从而防止浪费。(The invention discloses impurity removing equipment for metal cutting fluid, which comprises an impurity removing and purifying box, wherein an impurity removing cavity is arranged in the impurity removing and purifying box, the left wall and the right wall of the impurity removing cavity are communicated with symmetrical vibrating cavities, the front wall and the rear wall of the left vibrating cavity and the right vibrating cavity are connected with connecting blocks in an up-down sliding manner, a connecting cavity with an opening towards one side close to each other is arranged in the connecting block, a reset cavity is arranged in the connecting block and is positioned at one side of the left connecting cavity and the right connecting cavity away from each other, the front wall and the rear wall of the vibration cavity are connected with a cam push plate which is positioned on the lower side of the connecting block in a vertical sliding way, the lower wall of the vibration cavity is communicated with a cam cavity, the filter box is driven to move downwards by switching power, when the filter box moves to the bottom end, the stirring blades are driven to stir, thereby preventing the impurities from being left due to precipitation, can shake the rose box after collecting the completion to impurity to thereby shake off absorbent coolant liquid and prevent extravagantly.)

1. An impurity removing equipment for metal cutting fluid is characterized in that: an impurity removing cavity is arranged in the impurity removing and purifying box, the left wall and the right wall of the impurity removing cavity are communicated and provided with symmetrical vibrating cavities, the front wall and the rear wall of the left vibrating cavity and the right vibrating cavity are vertically and slidably connected with connecting blocks, connecting cavities with openings close to one side are arranged in the connecting blocks, a reset cavity is arranged in the connecting blocks and is positioned at one side where the left connecting cavity and the right connecting cavity are far away from one side, the front wall and the rear wall of the vibrating cavity are vertically and slidably connected with cam push plates positioned at the lower sides of the connecting blocks, the lower wall of the vibrating cavity is communicated and provided with cam cavities, the upper side of the rear wall of the impurity removing cavity is communicated and provided with a telescopic cavity, a collecting box capable of extending into the impurity removing cavity is longitudinally and slidably connected in the telescopic cavity, the left wall and the right wall of the impurity removing cavity are vertically and slidably, the axis of rotation with the equal fixedly connected with fixed block of outer disc of back shaft controls terminal surface fixedly connected with rose box under the fixed block, it is equipped with oblique guide block chamber, right side all to communicate to remove the filter block left and right sides terminal surface vibrations chamber right side is equipped with the transmission chamber, transmission chamber upside intercommunication is equipped with the screw chamber, transmission chamber downside intercommunication is equipped with the puddler chamber, screw chamber upper wall rotates to be connected with downwardly extending to the main screw rod of edulcoration intracavity, it link up from top to bottom and is located to be equipped with in the removal filter block the sleeve chamber on upset chamber right side, the disc thread connection has and runs through outside the main screw rod sleeve chamber just extends to the sleeve of both sides about the sleeve chamber, puddler chamber lower wall rotates to be connected with upwards extending to the puddler of edulcoration intracavity.

2. An apparatus for removing impurities from a metal cutting fluid according to claim 1, wherein: sliding connection has the damping piece about the chamber that resets, fixedly connected with pouring weight in the damping piece, pouring weight up end with fixedly connected with reset spring between the chamber upper wall resets, and chamber lower wall intercommunication that resets is equipped with the connecting rod chamber, controls a lateral wall intercommunication that the connecting rod chamber is close to each other is equipped with the push rod chamber of connecting the chamber intercommunication, sliding connection has about the push rod chamber can stretch into connect the push rod of intracavity, the terminal surface articulates downwardly extending under the pouring weight to the connecting rod of connecting rod intracavity controls the connecting rod bottom is with controlling a side end face that the push rod was kept away from each other is articulated.

3. An apparatus for removing impurities from a metal cutting fluid according to claim 1, wherein: control the vibrations chamber is the fixed motor device that is equipped with of a lateral wall downside of keeping away from each other, controls one side fixedly connected with dog that vibrations chamber lower wall is close to each other, the slider is led to dog up end fixedly connected with control a side end face power connection that motor device is close to each other has and controls a side end face that the dog was kept away from each other rotates the camshaft of connecting, the outer disc fixedly connected with of camshaft can stretch into cam in the cam intracavity, cam push pedal up end with fixedly connected with vibrations spring under the connecting block between the terminal surface.

4. An apparatus for removing impurities from a metal cutting fluid according to claim 1, wherein: the telescopic cavity is characterized in that a screw motor is fixedly arranged at the rear end of the lower wall of the telescopic cavity, a movable screw is connected with the front end face of the screw motor in a power mode, a screw cavity is communicated with the rear end face of the collecting box, the movable screw extends into the screw cavity and is in threaded connection with the screw cavity, and a collecting cavity with an upward opening is formed in the collecting box.

5. An apparatus for removing impurities from a metal cutting fluid according to claim 1, wherein: the fixed motor that is located that is equipped with in the removal filter block of axis of rotation left side, rotate the motor right-hand member face with axis of rotation left end power is connected, be equipped with the ascending filter chamber of opening in the rose box, control the oblique guide block chamber upper and lower wall horizontal sliding connection has oblique guide block, controls a lateral surface that oblique guide block is close to each other with control fixedly connected with oblique guide block spring between a lateral wall that oblique guide block chamber is close to each other, the terminal surface intercommunication is equipped with and is located under the removal filter block sleeve chamber with lead the slide bar chamber between the upset chamber, terminal surface left end fixedly connected with upwards stretch into under the sleeve to lead the slide bar of leading in the slide bar intracavity.

6. An apparatus for removing impurities from a metal cutting fluid according to claim 1, wherein: the left wall and the right wall of the transmission cavity are rotatably connected with a key shaft, the left end of the key shaft is in power connection with the right end face of the motor device on the right side, the outer circular face of the key shaft is in key connection with a switching sleeve, the left side of the outer circular face of the switching sleeve is fixedly connected with a stirring bevel gear, the right side of the outer circular face of the switching sleeve is fixedly connected with a screw bevel gear, the upper wall of the screw cavity is rotatably connected with a screw transmission shaft extending downwards into the transmission cavity, the lower wall of the stirring rod cavity is rotatably connected with a stirring transmission shaft extending upwards into the transmission cavity, the bottom end of the outer circular face of the screw transmission shaft is fixedly connected with an upper bevel gear capable of being in meshing transmission with the screw bevel gear, and the top.

7. An apparatus for removing impurities from a metal cutting fluid according to claim 6, wherein: an annular magnetic block is fixedly arranged on the right end face of the switching sleeve, an annular electromagnet corresponding to the annular magnetic block is fixedly arranged on the right wall of the transmission cavity, and a clutch spring wound on the outer circular face of the key shaft is abutted between the right wall of the transmission cavity and the right end face of the switching sleeve.

8. An apparatus for removing impurities from a metal cutting fluid according to claim 6, wherein: the stirring device is characterized in that a screw driving belt is in power connection between the top end of the outer circular surface of the screw driving shaft and the top end of the outer circular surface of the main screw, a stirring driving belt is in power connection between the bottom end of the outer circular surface of the stirring driving shaft and the bottom end of the outer circular surface of the stirring rod, and stirring blades are fixedly connected to the top end of the outer circular surface of the stirring rod.

Technical Field

The invention relates to the relevant field of metal cutting, in particular to impurity removing equipment for metal cutting fluid.

Background

In the cutting process of metal, because the friction between a cutter and a workpiece can generate huge heat, the cutter, a machine tool and the like can be easily damaged after long-term cooling, so the cutting process generally uses cooling liquid for cooling, a large amount of impurities easily exist in the cutting liquid, and the impurity removal of the cutting liquid cannot be very thorough at present, so the impurities in the cutting liquid can easily damage a pipeline, a pump body and the like of the machine tool, and the existing some cutting liquid filtering and impurity removing equipment can hardly carry out deep impurity removal on the cutting liquid.

Disclosure of Invention

In order to solve the problems, the embodiment designs an impurity removing device of metal cutting fluid, which comprises an impurity removing and purifying box, wherein an impurity removing cavity is arranged in the impurity removing and purifying box, the left wall and the right wall of the impurity removing cavity are communicated with symmetrical vibration cavities, the front wall and the rear wall of the left vibration cavity and the right vibration cavity are vertically and slidably connected with connecting blocks, a connecting cavity with an opening towards one side close to each other is arranged in each connecting block, a reset cavity is arranged in each connecting block, the left connecting cavity and the right connecting cavity are far away from each other, the front wall and the rear wall of the vibration cavity are vertically and slidably connected with cam push plates positioned on the lower sides of the connecting blocks, the lower wall of the vibration cavity is communicated with a cam cavity, a telescopic cavity is arranged on the upper side of the rear wall of the impurity removing cavity in a communicating manner, a collecting box capable of extending into the impurity removing, the top end of the left wall of the turning cavity is rotationally connected with a rotating shaft, the top end of the right wall of the turning cavity is rotationally connected with a supporting shaft, the rotating shaft and the outer circular surface of the supporting shaft are both fixedly connected with a fixed block, the lower end surfaces of the left fixed block and the right fixed block are fixedly connected with a filter box, the end surfaces of the left side and the right side of the movable filter block are both communicated with an inclined guide block cavity, the right side of the vibration cavity on the right side is provided with a transmission cavity, the upper side of the transmission cavity is communicated with a screw cavity, the lower side of the transmission cavity is communicated with a stirring rod cavity, the upper wall of the screw cavity is rotationally connected with a main screw rod which extends downwards into the impurity removing cavity, a sleeve cavity which is communicated up and down and is positioned at the right side of the turnover cavity is arranged in the movable filter block, the outer disc thread connection of main screw rod has and runs through sleeve chamber and both sides extend to from top to bottom the sleeve of both sides about the sleeve chamber, puddler chamber lower wall rotates to be connected with and upwards extends to the puddler of edulcoration intracavity.

But preferably, sliding connection has the damping piece about the chamber that resets, fixedly connected with pouring weight in the damping piece, pouring weight up end with fixedly connected with reset spring between the chamber upper wall resets, and chamber lower wall intercommunication that resets is equipped with the connecting rod chamber, controls a lateral wall intercommunication that the connecting rod chamber is close to each other be equipped with the push rod chamber of connecting the chamber intercommunication, sliding connection has about the push rod chamber can stretch into the push rod of connecting the intracavity, the terminal surface is articulated downwardly extending to under the pouring weight connecting rod in the connecting rod chamber controls the connecting rod bottom is articulated with controlling a side end face that the push rod was kept away from each other.

But preferably, control the vibrations chamber is the fixed motor device that is equipped with of a lateral wall downside of keeping away from each other, controls one side fixedly connected with dog that vibrations chamber lower wall is close to each other, the slider is led to dog up end fixedly connected with one side terminal surface power connection that motor device is close to each other has and controls a side terminal surface that the dog kept away from each other rotates the camshaft of connecting, outer disc fixedly connected with of camshaft can stretch into cam in the cam intracavity, cam push pedal up end with fixedly connected with vibrations spring under the connecting block between the terminal surface.

Preferably, a screw motor is fixedly arranged at the rear end of the lower wall of the telescopic cavity, a movable screw is dynamically connected to the front end face of the screw motor, a screw cavity is communicated with the rear end face of the collecting box, the movable screw extends into the screw cavity and is in threaded connection with the screw cavity, and a collecting cavity with an upward opening is formed in the collecting box.

But preferably, it is equipped with to remove the filter block internal fixation and is located the left motor that rotates of axis of rotation, rotate the motor right-hand member face with axis of rotation left end power is connected, be equipped with the ascending filter chamber of opening in the rose box, control the oblique guide block chamber upper and lower wall horizontal sliding connection has oblique guide block, controls a lateral surface that oblique guide block is close to each other with control fixedly connected with leads the block spring to one side between the lateral wall that oblique guide block chamber is close to each other, it is equipped with to remove terminal surface intercommunication under the filter block and is located sleeve chamber with lead the slide bar chamber between the upset chamber, terminal surface left end fixedly connected with upwards stretch into under the sleeve to lead the slide bar of leading in the slide bar intracavity.

Preferably, the left wall and the right wall of the transmission cavity are rotatably connected with a key shaft, the left end of the key shaft is in power connection with the right end face of the motor device on the right side, the outer circular surface of the key shaft is in key connection with a switching sleeve, the left side of the outer circular surface of the switching sleeve is fixedly connected with a stirring bevel gear, the right side of the outer circular surface of the switching sleeve is fixedly connected with a screw bevel gear, the upper wall of the screw cavity is rotatably connected with a screw transmission shaft extending downwards into the transmission cavity, the lower wall of the stirring rod cavity is rotatably connected with a stirring transmission shaft extending upwards into the transmission cavity, the bottom end of the outer circular surface of the screw transmission shaft is fixedly connected with an upper bevel gear capable of being in meshing transmission with the screw bevel gear, and the top end of.

Preferably, an annular magnetic block is fixedly arranged on the right end face of the switching sleeve, an annular electromagnet corresponding to the annular magnetic block is fixedly arranged on the right wall of the transmission cavity, and a clutch spring wound on the outer circular surface of the key shaft is abutted between the right wall of the transmission cavity and the right end face of the switching sleeve.

Preferably, a screw driving belt is in power connection between the top end of the outer circular surface of the screw transmission shaft and the top end of the outer circular surface of the main screw, a stirring driving belt is in power connection between the bottom end of the outer circular surface of the stirring transmission shaft and the bottom end of the outer circular surface of the stirring rod, and the top end of the outer circular surface of the stirring rod is fixedly connected with a stirring blade.

The invention has the beneficial effects that: according to the invention, the power is switched to drive the filter box to move downwards, the stirring blades are driven to stir after the filter box moves to the bottom end, so that the residue caused by the precipitation of impurities is prevented, the filter box can be vibrated after the impurities are collected, so that the adsorbed cooling liquid is shaken off, the waste is prevented, and the filter box can be turned over while vibrating, so that the impurities in the filter box are shaken off and collected.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the structure a-a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

Fig. 4 is an enlarged schematic view of C in fig. 1.

Fig. 5 is an enlarged schematic view of D in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to impurity removing equipment for metal cutting fluid, which comprises an impurity removing and purifying box 11, wherein an impurity removing cavity 12 is arranged in the impurity removing and purifying box 11, the left wall and the right wall of the impurity removing cavity 12 are communicated and provided with symmetrical vibration cavities 13, the front wall and the rear wall of the left vibration cavity 13 and the right vibration cavity 13 are vertically and slidably connected with a connecting block 37, a connecting cavity 44 with an opening towards one side close to each other is arranged in the connecting block 37, a reset cavity 38 which is positioned at one side far away from the left connecting cavity 44 and the right connecting cavity 44 is arranged in the connecting block 37, the front wall and the rear wall of the vibration cavity 13 are vertically and slidably connected with a cam push plate 50 positioned at the lower side of the connecting block 37, a cam cavity 54 is communicated and arranged at the lower wall of the vibration cavity 13, a telescopic cavity 32 is communicated and arranged at the upper side of the rear wall of the impurity removing cavity 12, remove the upset chamber 26 that link up from top to bottom that is equipped with in the filter block 14, upset chamber 26 left side wall top rotates to be connected with axis of rotation 16, upset chamber 26 right side wall top rotates to be connected with back shaft 69, axis of rotation 16 with the equal fixedly connected with fixed block 70 of outer disc of back shaft 69, control terminal surface fixedly connected with rose box 24 under the fixed block 70, it is equipped with oblique guide block chamber 64, the right side all to communicate to remove 14 left and right sides of filter block terminal surface the vibration chamber 13 right side is equipped with transmission chamber 22, transmission chamber 22 upside intercommunication is equipped with screw cavity 28, transmission chamber 22 downside intercommunication is equipped with puddler chamber 18, screw cavity 28 upper wall rotates to be connected with downwardly extending to main screw rod 30 in the edulcoration chamber 12, it link up and be located from top to bottom to remove to be equipped with in the filter block 14 sleeve chamber 67 on upset chamber 26 right side, main screw rod 30 outer disc threaded connection has to run through sleeve chamber 67 and two sides extend to top and bottom to sleeve The lower wall of the stirring rod cavity 18 of the sleeve 68 at two sides is rotatably connected with a stirring rod 19 which extends upwards into the impurity removing cavity 12.

Beneficially, the reset cavity 38 is connected with a damping block 40 in an up-and-down sliding manner, a weight 41 is fixedly connected in the damping block 40, a reset spring 39 is fixedly connected between the upper end face of the weight 41 and the upper wall of the reset cavity 38, a connecting rod cavity 43 is arranged in the lower wall of the reset cavity 38 in a communicating manner, a push rod cavity 45 communicated with the connecting cavity 44 is arranged in a communicating manner in a side wall where the connecting rod cavity 43 is close to each other in a left-and-right sliding manner, a push rod 46 capable of extending into the connecting cavity 44 is connected in the left-and-right sliding manner in the push rod cavity 45, a connecting rod 42 extending downwards into the connecting rod cavity 43 is hinged to the lower end face of the weight 41, and the bottom end of the left-.

Beneficially, a motor device 51 is fixedly arranged on the lower side of a side wall, away from each other, of the left vibration cavity 13 and the right vibration cavity 13, a stop block 48 is fixedly connected to one side, close to each other, of the lower wall of the left vibration cavity 13, a guide block 47 is fixedly connected to the upper end face of the stop block 48, a cam shaft 52 is dynamically connected to one side end face, close to each other, of the motor device 51, and is rotatably connected to one side end face, away from each other, of the left stop block 48, a cam 53 can extend into the cam cavity 54 is fixedly connected to the outer circular face of the cam shaft 52, and a vibration spring 49 is fixedly connected between the upper end face of.

Beneficially, a screw motor 34 is fixedly arranged at the rear end of the lower wall of the telescopic cavity 32, a movable screw 35 is dynamically connected to the front end face of the screw motor 34, a screw cavity 36 is communicated with the rear end face of the collecting box 31, the movable screw 35 extends into the screw cavity 36 and is in threaded connection with the screw cavity 36, and a collecting cavity 33 with an upward opening is arranged in the collecting box 31.

Beneficially, a rotating motor 15 located on the left side of the rotating shaft 16 is fixedly arranged in the movable filter block 14, the right end face of the rotating motor 15 is in power connection with the left end of the rotating shaft 16, a filter chamber 25 with an upward opening is arranged in the filter box 24, the upper wall and the lower wall of the left inclined guide block chamber 64 and the lower wall of the right inclined guide block chamber 64 are in left-right sliding connection with inclined guide blocks 66, an inclined guide block spring 65 is fixedly connected between the end face of one side, close to each other, of the left inclined guide block chamber 66 and the end face of one side, close to each other, of the left inclined guide block chamber 64, a guide slide rod chamber 72 located between the sleeve chamber 67 and the overturning chamber 26 is communicated with the lower end face of the movable filter block 14, and a guide slide rod 71 extending upwards into the guide slide rod chamber 72.

Advantageously, a key shaft 62 is rotatably connected to the left and right walls of the transmission cavity 22, the left end of the key shaft 62 is in power connection with the right end face of the right motor device 51, the outer circular surface of the key shaft 62 is in key connection with a switching sleeve 56, the left side of the outer circular surface of the switching sleeve 56 is fixedly connected with a stirring bevel gear 55, a screw bevel gear 58 is fixedly connected to the right side of the outer circular surface of the switching sleeve 56, a screw transmission shaft 27 extending downwards into the transmission cavity 22 is rotatably connected to the upper wall of the screw cavity 28, the lower wall of the stirring rod cavity 18 is rotatably connected with a stirring transmission shaft 23 which extends upwards into the transmission cavity 22, the bottom end of the outer circular surface of the screw transmission shaft 27 is fixedly connected with an upper bevel gear 57 which can be in meshing transmission with the screw bevel gear 58, the top end of the outer circular surface of the stirring transmission shaft 23 is fixedly connected with a lower bevel gear 63 which can be in meshing transmission with the stirring bevel gear 55.

Advantageously, an annular magnetic block 59 is fixedly arranged on the right end face of the switching sleeve 56, an annular electromagnet 61 corresponding to the annular magnetic block 59 is fixedly arranged on the right wall of the transmission cavity 22, and a clutch spring 60 wound on the outer circular face of the key shaft 62 is abutted between the right wall of the transmission cavity 22 and the right end face of the switching sleeve 56.

Advantageously, a screw driving belt 29 is dynamically connected between the top end of the outer circular surface of the screw driving shaft 27 and the top end of the outer circular surface of the main screw 30, a stirring driving belt 20 is dynamically connected between the bottom end of the outer circular surface of the stirring driving shaft 23 and the bottom end of the outer circular surface of the stirring rod 19, and the top end of the outer circular surface of the stirring rod 19 is fixedly connected with the stirring blade 17.

The use steps herein are described in detail below with reference to fig. 1-5:

in the initial state: the collecting box 31 does not extend into the impurity removing cavity 12, the movable filter block 14 is positioned at the lower side of the left and right vibrating cavities 13, the left and right oblique guide blocks 66 are limited in the oblique guide block cavities 64 through the left and right walls of the impurity removing cavity 12 and tighten the oblique guide block springs 65, the vibrating springs 49 are in a loosening state, the reset springs 39 pull the weight blocks 41 to be positioned at the upper limit positions of the reset cavity 38, the clutch springs 60 are in a loosening state, the screw bevel gears 58 and the upper bevel gears 57 are in a meshing state, the movable filter block 14 is placed at the upper side of the bottom end of the sleeve 68, and cutting fluid is placed at the bottom side of.

In operation, the right motor device 51 is started to drive the key shaft 62 to rotate, the screw bevel gear 58 is driven to rotate by the rotation of the key shaft 62, the upper bevel gear 57 is driven to rotate by meshing transmission, the screw transmission shaft 27 is driven to rotate, the screw transmission belt 29 is driven to start transmission by the rotation of the screw transmission shaft 27, the main screw 30 is driven to rotate, the sleeve 68 is driven to move downwards by the rotation of the main screw 30 through the sliding and threaded connection of the sliding guide rod 71 and the sliding guide rod cavity 72, at the moment, the movable filter block 14 slides downwards by the self weight, when the movable filter block 14 moves to the bottom side of the impurity removing cavity 12, the annular electromagnet 61 is started to adsorb the annular magnetic block 59 to tighten the clutch spring 60, the switching sleeve 56 is driven to move rightwards, the stirring bevel gear 55 is driven to mesh with the lower bevel gear 63, and the upper bevel gear 57 is driven to disengage, at this time, the key shaft 62 rotates to drive the stirring transmission shaft 23 to rotate through meshing transmission, so as to drive the stirring transmission belt 20 to start transmission, the stirring rod 19 is driven to rotate through the transmission of the stirring transmission belt 20, so as to drive the stirring blade 17 to rotate to stir the cutting fluid in the impurity removing cavity 12, so as to prevent the impurities in the cutting fluid from precipitating, after the stirring blade 17 rotates for a certain time, the upper bevel gear 57 is driven to mesh with the bevel gear 58 again, at the moment, the key shaft 62 is driven to rotate reversely through the right motor device 51, so as to drive the main screw 30 to rotate reversely and drive the movable filter block 14 to move upwards and take out the impurities in the cutting fluid, when the inclined guide block cavity 64 is close to the connecting cavity 44, the inclined guide block 66 can be pushed to move into the connecting cavity 44 through the guiding of the guide block 47 and the pushing force of the inclined guide block spring 65, so as to form connection through positive rotation, at the main screw 30 drives the sleeve 68 to move downwards for a Starting the left and right motor devices 51 to drive the cam shaft 52 to rotate, thereby driving the cam 53 to rotate, pushing the cam push plate 50 to slide up and down through the rotation of the cam 53, thereby driving the connecting block 37 to slide up and down through the connection of the vibration spring 49, thereby driving the movable filter block 14 to vibrate up and down to shake off the redundant cutting fluid, simultaneously starting the rotary motor 15 and the screw motor 34 simultaneously, starting the rotary motor 15 to drive the rotary shaft 16 to rotate, driving the left and right fixed blocks 70 and the filter box 24 to rotate one hundred eighty degrees around the support shaft 69 through the support of the support shaft 69, at this time, the cutting fluid impurities filtered and collected in the filter cavity 25 can drop downwards, driving the movable screw 35 to rotate through the start of the screw motor 34, and simultaneously driving the collection box 31 to move forwards to the lower side of the filter box 24 through the threaded connection through the rotation of the movable screw 35, the impurities in the filter chamber 25 fall down into the collection chamber 33.

When the connecting block 37 slides up and down, the weight 41 overcomes the pulling force of the return spring 39 and drives the weight 41 to move slowly downward due to the weight of the weight 41 and the friction force of the damping block 40, so that the left and right push rods 46 are driven to move to the side close to each other through the connection of the connecting rod 42, and the inclined guide block 66 is driven to move out of the connecting cavity 44 and slide downward to be supported by the sleeve 68 again.

The invention has the beneficial effects that: according to the invention, the power is switched to drive the filter box to move downwards, the stirring blades are driven to stir after the filter box moves to the bottom end, so that the residue caused by the precipitation of impurities is prevented, the filter box can be vibrated after the impurities are collected, so that the adsorbed cooling liquid is shaken off, the waste is prevented, and the filter box can be turned over while vibrating, so that the impurities in the filter box are shaken off and collected.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.