CN108202268B - Improved generation machining field cutting fluid recovery unit - Google Patents

Abstract

The invention discloses an improved cutting fluid recovery device in the machining field, which comprises a main through hollow column shell, wherein a connecting plate is fixed at the bottom of the main through hollow column shell through a stud, a supporting foot which forms a global structure with the connecting plate is arranged in the middle of the bottom of the connecting plate, a conical smooth cavity is arranged in the middle of the top of the main through hollow column shell, an annular smooth cavity is arranged at the bottom of the conical smooth cavity inside the main through hollow column shell, a liquid inlet speed change structure is arranged in the annular smooth cavity inside the main through hollow column shell, and a stirring smooth cavity is arranged at the bottom of the annular smooth cavity inside the main through hollow column shell. The invention has the functions of material stirring and material conveying, and the device selects the functions of stirring and spiral feeding according to the preset functions by utilizing the functions of turning right and turning left of the force conveying device, thereby having stronger practicability.

Description

Improved generation machining field cutting fluid recovery unit

Technical Field

The invention relates to the technical field of machining, in particular to an improved cutting fluid recovery device in the field of machining.

Background

At present, in the field of machining, when parts are machined, cutting fluid is always required to be sprayed, in the existing equipment, the cutting fluid and the cutting fluid always enter a recovery system together, so that the cutting fluid and the cutting fluid cannot be effectively separated, residues are left in a circulating pipeline, great troubles are caused, the equipment separates and removes the cutting fluid and the cutting fluid to a great extent, and the production efficiency is improved.

Disclosure of Invention

The invention aims to provide an improved cutting fluid recovery device in the field of machining so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides an improved generation machining field cutting fluid recovery unit, includes that owner leads to the hollow column shell, the fixed web of double-screw bolt is passed through to the bottom that owner led to the hollow column shell, the meso position of web bottom is provided with the spike rather than constituteing global structure, the bottom that owner led to the hollow column shell still is provided with isolating construction, isolating construction includes: the device comprises a liquid outlet, a liquid baffle plate, a thread groove, a thread shaft, a liquid baffle block, a force transmission device for the liquid baffle block, a turning block, a left cavity, a left end shaft of a filter screen, a turning cavity, a filter screen, a right cavity, a force transmission device for the right cavity, a force transmission device shaft for the right cavity, a driving gear, a driven gear, a right end shaft of the filter screen, a driving gear inner hole, a driven gear inner hole, a sliding cavity, a right end rotating ring of the filter screen and a chemical-proof ring, wherein the turning block is fixedly arranged below the liquid baffle block, the turning cavity is arranged in the turning block, the filter screen is transversely arranged in the turning cavity, the liquid outlet communicated with the turning cavity is arranged at the middle end part of the liquid baffle block, the inner wall of the liquid outlet is internally provided with the sliding cavity, the liquid baffle plate is slidably arranged in the sliding cavity, the thread groove with the opening facing the right is arranged in the liquid baffle plate, the force transmission device for the liquid baffle block is fixedly arranged at the right end wall of the sliding cavity, the left end of the force transmission device for the liquid baffle block is provided with the thread shaft in a rolling manner, the spiral shell tooth axle stretches into in the spiral shell tooth groove and the spiral shell tooth cooperation is linked, be provided with right chamber in the stirring piece, the fixed power device that is provided with right chamber of right side chamber right side inner wall, the fixed power device axle fixed connection that is provided with of right side chamber of the power device that is failed has the driving gear, right side chamber is provided with driven gear, driven gear with the driving gear cooperation is linked, driven gear's filter screen right end axle passes right side chamber left side inner wall and with filter screen fixed connection, the fixed filter screen left end axle that is provided with in filter screen left end axle, filter screen left end axle can rolling set up in stirring chamber left side wall is internal, thereby puts into the cutting fluid stirring chamber, filters the scum out, and can retrieve the cutting fluid and recycle. The middle position of the top of the main through hollow column shell is provided with a conical smooth cavity, the main through hollow column shell is further provided with a lighting device, the lighting device comprises a lamp stand and a fluorescent lamp, the inside of the main through hollow column shell is provided with an annular smooth cavity at the bottom of the conical smooth cavity, the main through hollow column shell is internally provided with a liquid inlet speed change structure at the annular smooth cavity, the inside of the main through hollow column shell is provided with a stirring and sliding cavity at the bottom of the annular smooth cavity, one side of the stirring and sliding cavity of the main through hollow column shell is provided with a conical through hollow column shell which forms a global structure with the main through hollow column shell, one end of the conical through hollow column shell is provided with a spray gun structure which forms a global structure with the conical through hollow column shell, the inside of the conical through hollow column shell is provided with a conical through structure which is communicated with the stirring and sliding cavity, and the inside of the spray gun structure is provided with the conical through hollow column shell, the outer part of the main through hollow column shell is fixed with a force transmission device installation column shell at the other end of the stirring and sliding cavity through a stud, the force transmission device is installed in the force transmission device installation column shell, a main sealing ring is arranged on one side of the main through hollow column shell opposite to the force transmission device, an output shaft of the force transmission device in the force transmission device penetrates through the main through hollow column shell and the main sealing ring, a shaft body of the output shaft of the force transmission device in the stirring and sliding cavity is connected in a shoulder sleeve, the outer surface of the shoulder sleeve is provided with a plurality of stirring and rotating sheets which form a global structure with the stirring and rotating sheets, the end part of the output shaft of the force transmission device is connected with a main rolling support rod in the through hollow structure through a positioning connection mechanism, a screw-type rotating sheet is fixed on the shaft body of the main rolling support rod, and when the output shaft of the force transmission device rolls to the right, the liquid outlet caused by the curvature of the rotor is positioned at one side of the spray gun sliding cavity.

Preferably, the liquid inlet speed change structure comprises a diaphragm plate for the liquid inlet speed change structure, an open hole liquid inlet structure for the liquid inlet speed change structure, a partition plate sliding cavity for the liquid inlet speed change structure, a partition plate for the liquid inlet speed change structure, a rotary ring for the liquid inlet speed change structure, a thread rod for the liquid inlet speed change structure, a thread structure for the liquid inlet speed change structure and a rolling plate for the liquid inlet speed change structure.

As preferred, feed liquor for variable speed structure diaphragm is fixed at the annular smooth intracavity portion that mainly leads to in the hollow column shell, the well position of feed liquor for variable speed structure diaphragm is provided with the feed liquor for variable speed structure of intercommunication annular smooth chamber for feed liquor variable speed structure, feed liquor for variable speed structure diaphragm is provided with feed liquor for variable speed structure and moves smooth chamber with the division board in one side that is located feed liquor for variable speed structure open hole feed liquor structure, feed liquor for variable speed structure diaphragm is in the internally mounted that is located feed liquor for variable speed structure open hole feed liquor structure and feed liquor for variable speed structure division board and moves smooth chamber for the division board, feed liquor for variable speed structure one side of division board is through feed liquor for variable speed structure swivel fixed feed liquor for variable speed structure thread pole, feed liquor for variable speed structure thread pole break-through feed liquor for variable speed structure diaphragm and main hollow column shell of leading to, just feed liquor for variable speed structure thread pole is located the fixed feed liquor of the outside one end of main hollow column shell of leading to become The rolling board is used to fast structure, the outer wall that the main empty column shell that leads to is provided with the feed liquor variable speed structure that constitutes global formula structure rather than with the thread structure, just the feed liquor variable speed structure is with thread structure and feed liquor variable speed structure is with the thread pole through the thread structure link.

Preferably, the thread structure comprises an outer thread structure arranged on the rod body of the thread rod for the liquid inlet variable speed structure and an inner thread structure positioned inside the thread structure for the liquid inlet variable speed structure.

Preferably, the positioning connection mechanism includes a first closing ring for the positioning connection mechanism, a hollow structure for the positioning connection mechanism, a convex structure for the positioning connection mechanism, a first connection shaft for the positioning connection mechanism, a second closing ring for the positioning connection mechanism, a first connection block for the positioning connection mechanism, a second connection block for the positioning connection mechanism, a connection stud for the positioning connection mechanism, and a fixing connection shaft for the positioning connection mechanism.

Preferably, the positioning connection mechanism has a hollow structure for positioning connection mechanism in the middle of the first closed ring, the positioning connection mechanism has a plurality of fixing shafts for positioning connection mechanism forming a global structure with the first closed ring in the middle of the outside of the first closed ring, the positioning connection mechanism has a convex structure for positioning connection mechanism at two opposite ends of the positioning connection mechanism in the hollow structure, the convex structures for positioning connection mechanism are mounted on the middle of the two convex structures for positioning connection mechanism, the positioning connection mechanism has a first closed ring, the positioning connection mechanism has a convex structure for positioning connection mechanism, and the positioning connection mechanism has a second closed ring, the positioning connection mechanism has a first connection shaft for positioning connection mechanism and a second connection shaft for positioning connection mechanism, the positioning connection mechanism has a first connection shaft and a second connection shaft for positioning connection mechanism, and the positioning connection mechanism has a first connection shaft and a second connection shaft located in the hollow structure for positioning connection mechanism The first connecting block for the positioning connecting mechanism and the second connecting block for the positioning connecting mechanism are respectively fixed at the two ends of the positioning connecting mechanism, and the first connecting block for the positioning connecting mechanism and the second connecting block for the positioning connecting mechanism are fixedly connected through the positioning connecting mechanism and the connecting stud.

Preferably, the ends of the positioning and connecting mechanism, which are located outside the first connecting shaft and the second connecting shaft, are fixedly connected to the output shaft of the power transmission device and the ends of the main rolling rod, respectively.

Preferably, the positioning and connecting mechanism is fixed to an inner wall of the agitation and sliding chamber by an end of a fixing and connecting shaft.

Preferably, the lamp stand is correspondingly arranged on the tops of the end faces of the two sides of the main hollow cylindrical shell, the fluorescent lamp is arranged at the bottom of the lamp stand, and a shell is arranged between the fluorescent lamp and the bottom of the lamp stand.

Compared with the prior art, the invention has the beneficial effects that:

the invention has the functions of material stirring and material conveying, and the device selects the functions of stirring and spiral feeding according to the preset functions by utilizing the functions of turning right and turning left of the force conveying device, thereby having stronger practicability.

Drawings

FIG. 1 is a schematic view of a full-section structure of a cutting fluid recovery device in the field of improved machining according to the present invention;

FIG. 2 is a schematic structural diagram of a liquid inlet speed changing structure in FIG. 1;

FIG. 3 is a schematic view of the positioning and connecting mechanism of FIG. 1;

fig. 4 is a schematic structural view of the separation structure of fig. 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the utility model provides an improved generation machining field cutting fluid recovery unit, includes that owner leads to hollow column shell 1, a connecting plate 19 is passed through the double-screw bolt to main bottom that leads to hollow column shell 1, the meso position of connecting plate 19 bottom is provided with and constitutes the spike 2 of global formula structure rather than, main bottom that leads to hollow column shell 1 still is provided with isolating construction 23, isolating construction 23 includes: the device comprises a liquid outlet 231, a liquid baffle 232, a thread groove 233, a thread shaft 234, a liquid baffle 235, a force conveying device 236 for the liquid baffle, a stirring block 237, a left cavity 238, a filter screen left end shaft 239, a stirring cavity 242, a filter screen 243, a right cavity 244, a right cavity force conveying device 245, a right cavity force conveying device shaft 246, a driving gear 247, a driven gear 248, a filter screen right end shaft 249, a driving gear inner hole 250, a driven gear inner hole 251, a sliding cavity 253, a filter screen right end rotating ring 254 and a chemical-resisting ring 255, wherein the lower part of the liquid baffle 235 is fixedly provided with the stirring block 237, the stirring block 237 is provided with the stirring cavity 242, the stirring cavity 242 is transversely provided with the filter screen 243, the middle end part of the liquid baffle 235 is provided with the liquid outlet 231 communicated with the stirring cavity 242, the inner wall of the liquid outlet 231 is provided with the sliding cavity 253, the liquid baffle 232 is slidably mounted in the sliding cavity 253, the liquid baffle 232 is provided with the thread groove 233 with an opening facing to the right, the right end wall of the sliding cavity 253 is fixedly provided with a force transmission device 236 for a liquid blocking block, the left end of the force transmission device 236 for the liquid blocking block is provided with a screw thread shaft 234 in a rolling manner, the screw thread shaft 234 extends into the screw thread groove 233 and is connected in a screw thread matching manner, the turning block 237 is provided with a right cavity 244, the right inner wall of the right cavity 244 is fixedly provided with a right cavity force transmission device 245, the right cavity force transmission device shaft 246 of the right cavity force transmission device 245 is fixedly connected with a driving gear 247, the right cavity 244 is provided with a driven gear 248, the driven gear 248 is connected with the driving gear 247 in a matching manner, a filter screen right end shaft 249 of the driven gear 248 penetrates through the left inner wall of the right cavity 244 and is fixedly connected with the filter screen 243, the left side of the filter screen 243 is fixedly provided with a filter screen left end shaft 239, the filter screen left end shaft 239 can be arranged in the body of the turning cavity 242 in a rolling manner, so as to put the cutting fluid into the turning cavity, the iron slag is filtered out, the cutting fluid can be recycled, a conical smooth cavity 3 is arranged in the middle position of the top of a main through hollow column shell 1, a lighting device is further arranged on the main through hollow column shell 1 and comprises a lamp platform 101 and a fluorescent lamp 102, the lamp platform 101 is correspondingly arranged on the tops of the end faces of two sides of the main through hollow column shell 1, the fluorescent lamp 102 is arranged at the bottom of the lamp platform 101, a shell cover 103 is arranged between the fluorescent lamp 102 and the bottom of the lamp platform 101, the requirement of the device for night lighting can be met through the fluorescent lamp 102, an annular smooth cavity 4 is arranged at the bottom of the conical smooth cavity 3 in the main through hollow column shell 1, a liquid inlet speed change structure 5 is arranged in the annular smooth cavity 4 in the main through hollow column shell 1, and a stirring smooth cavity 6 is arranged at the bottom of the annular smooth cavity 4 in the main through hollow column shell 1, the main through hollow column shell 1 is provided with a conical through hollow column shell 12 which forms a global structure with the stirring and sliding cavity 6 at one side of the stirring and sliding cavity 6, one end of the conical through hollow column shell 12 is provided with a spray gun structure 17 which forms a global structure with the stirring and sliding cavity, a conical through hollow structure 13 which communicates with the stirring and sliding cavity 6 is arranged inside the conical through hollow column shell 12, a spray gun sliding cavity 18 which communicates with the conical through hollow structure 13 is arranged inside the spray gun structure 17, a power transmission device installation column shell 7 is fixed at the other end of the stirring and sliding cavity 6 outside the main through hollow column shell 1 through a stud, a power transmission device 8 is installed inside the power transmission device installation column shell 7, a main sealing ring 11 is arranged on one side of the main through hollow column shell 1 opposite to the power transmission device 8, and a power transmission device output shaft 9 in the power transmission device 8 penetrates through the main through hollow column shell 1 and the main sealing ring 11, the output shaft 9 of the power transmission device is connected inside a shoulder sleeve 10 at the shaft body inside the stirring and sliding cavity 6, the outer surface of the shoulder sleeve 10 is provided with a plurality of stirring blades 20 which form a global structure with the shoulder sleeve, the end part of the output shaft 9 of the power transmission device is connected with a main rolling support rod 15 inside the cone-shaped hollow structure 13 through a positioning and connecting mechanism 14, a screw-shaped rotating blade 16 is fixed on the shaft body of the main rolling support rod 15, when the output shaft 9 of the power transmission device rolls to the right, a liquid outlet caused by the curvature of the rotating blade of the screw-shaped rotating blade 16 is positioned at one side of the spray gun sliding cavity 18, and the main principle is as follows: both had the effect of the material stirring through stirring piece 20, can have the 16 material conveying effects of spiral shell type rotor again, and the device utilizes defeated power device 8 to turn right the effect and turn left the effect and make the device select stirring and spiral feeding effect according to predetermined function, and concrete use flow is: open defeated power device 8 through the controller that links defeated power device 8, make defeated power device output shaft 9 roll to the left, then, pour into the waste material and the cutting fluid that drop into the inside of toper smooth chamber 3, open feed liquor variable speed structure 5 again, the speed that two kinds of materials dropped, under the effect of gravity, two kinds of materials drop in the inside of stirring smooth chamber 6, owing to stirring piece 20's effect, carry out effectual mixing stirring effect with two kinds of materials, at the in-process of stirring, because the effect that spiral shell type rotor plate 16 rolled to the left, can make the material can not carried out, play the restriction effect, after the stirring finishes, rethread controller makes defeated power device output shaft 9 roll to the right, at this moment, spiral shell type rotor plate 20 can roll to the right and carry out the mixture.

Referring to fig. 2, the liquid inlet speed changing structure 5 includes a diaphragm 51 for the liquid inlet speed changing structure, an open liquid inlet structure 52 for the liquid inlet speed changing structure, a movable sliding cavity 53 for the partition 54 for the liquid inlet speed changing structure, a rotary ring 55 for the liquid inlet speed changing structure, a screw rod 56 for the liquid inlet speed changing structure, a screw structure 57 for the liquid inlet speed changing structure, and a rolling plate 58 for the liquid inlet speed changing structure; the feed liquor is fixed at the main annular smooth chamber 4 inside that leads to in the empty column shell 1 of diaphragm 51 for the variable speed structure, the well position of feed liquor for the variable speed structure diaphragm 51 is provided with the feed liquor for the variable speed structure of intercommunication annular smooth chamber 4 and opens the liquid inlet structure 52, feed liquor for the variable speed structure diaphragm 51 is provided with feed liquor for the variable speed structure and moves smooth chamber 53 at the one side that lies in feed liquor for the variable speed structure and opens the hole feed liquor structure 52, feed liquor for the variable speed structure diaphragm 51 is at the feed liquor for the variable speed structure and moves smooth chamber 53's for the spacer 54 for the variable speed structure of internally mounted feed liquor for the variable speed structure of spacer 52 and feed liquor for the variable speed structure, feed liquor for the variable speed structure the one side of spacer 54 is through feed liquor for the variable speed structure swivel 55 fixed feed liquor for the variable speed structure screw rod 56, feed liquor for the variable speed structure screw rod 56 break-through feed liquor for the feed liquor variable speed structure diaphragm 51 and main empty column shell 1 of leading to, a rolling plate 58 for the liquid inlet speed change structure is fixed at one end of the screw rod 56 for the liquid inlet speed change structure, which is positioned outside the main through hollow cylindrical shell 1, a screw structure 57 for the liquid inlet speed change structure, which forms a global structure with the main through hollow cylindrical shell 1, is arranged on the outer wall of the main through hollow cylindrical shell, and the screw structure 57 for the liquid inlet speed change structure and the screw rod 56 for the liquid inlet speed change structure are connected through screw structures; the thread structure is including setting up the outer thread structure on the body of 56 poles of thread for the feed liquor variable speed structure and being located the inside inner thread structure of 57 threads of structure for the feed liquor variable speed structure, and its leading principle utilizes the feed liquor variable speed structure to carry out limiting displacement with the thread structure between 56 poles of thread for the feed liquor variable speed structure and 57 threads of structure for the feed liquor variable speed structure to control feed liquor variable speed structure with the position of division board 54, and then the speed of control material when dropping.

Referring to fig. 3, the positioning connection mechanism 14 includes a first sealing ring 141 for the positioning connection mechanism, a hollow structure 142 for the positioning connection mechanism, a convex structure 143 for the positioning connection mechanism, a first connection shaft 144 for the positioning connection mechanism, a second connection shaft 145 for the positioning connection mechanism, a second sealing ring 146 for the positioning connection mechanism, a first connection block 147 for the positioning connection mechanism, a second connection block 148 for the positioning connection mechanism, a connection stud 149 for the positioning connection mechanism, and a connection shaft 1410 for the positioning connection mechanism; the positioning connection mechanism first closing ring 141 is provided with a positioning connection mechanism hollow structure 142 at the middle position inside the first closing ring 141, the positioning connection mechanism first closing ring 141 is provided with a plurality of positioning connection mechanism fixing shafts 1410 forming a global structure with the positioning connection mechanism fixing shafts at the middle position outside the first closing ring 141, the positioning connection mechanism first closing ring 141 is provided with a positioning connection mechanism convex structure 143 at two opposite ends inside the positioning connection mechanism hollow structure 142, the middle positions of the two positioning connection mechanism convex structures 143 are provided with a positioning connection mechanism second closing ring 146, the positioning connection mechanism first closing ring 141, the positioning connection mechanism convex structure 143 and the positioning connection mechanism second closing ring 146 are respectively connected by a positioning connection mechanism first shaft 144 and a positioning connection mechanism second penetrating shaft 145, a first connecting block 147 for the positioning connecting mechanism and a second connecting block 148 for the positioning connecting mechanism are respectively fixed on two ends of the first connecting shaft 144 for the positioning connecting mechanism and the second connecting shaft 145 for the positioning connecting mechanism in the hollow structure 142 for the positioning connecting mechanism, and the first connecting block 147 for the positioning connecting mechanism and the second connecting block 148 for the positioning connecting mechanism are fixedly connected through a connecting stud 149 for the positioning connecting mechanism; the ends of the first connecting shaft 144 and the second connecting shaft 145 outside the positioning connecting mechanism are respectively fixedly connected with the output shaft 9 of the power transmission device and the end of the main rolling support rod 15; the end part of the fixed connecting shaft 1410 for the positioning connecting mechanism is fixed on the inner wall of the main hollow column shell 1 positioned in the stirring and sliding cavity 6, and the main function is as follows: the output shaft 9 of the power transmission device is connected with the main rolling support rod 15, and the power transmission device has a fixing function when being connected, so that the transmission of rolling force is realized, and the influence on the service life of parts due to the centrifugal action under the action of gravity is prevented.

The specific use mode is as follows: during operation, when the stirring device is used, the controller opens the power transmission device 8 to enable the output shaft 9 of the power transmission device to roll to the left, then, dropped waste materials and cutting fluid are injected into the tapered smooth cavity 3, then, the liquid inlet speed change structure 5 is opened to control the dropping speed of the two materials, the two materials drop into the stirring and sliding cavity 6 under the action of gravity, the two materials are effectively mixed and stirred under the action of the stirring and rotating piece 20, the materials can not be conveyed out under the action of the left rolling of the spiral rotating piece 16 in the stirring process to play a limiting role, and after the stirring is finished, the output shaft 9 of the power transmission device rolls to the right through the controller, and at the moment, the spiral rotating piece 20 can roll to the right to convey the mixture.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. 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.

Claims (4)

1. The utility model provides an improved generation machining field cutting fluid recovery unit, includes main empty column shell that leads to, its characterized in that: the bottom of main empty column shell that leads to passes through a fixed web of double-screw bolt, the meso position of web bottom is provided with rather than the spike of constituteing global formula, the bottom of main empty column shell that leads to still is provided with isolating construction, isolating construction includes: the device comprises a liquid outlet, a liquid baffle plate, a thread groove, a thread shaft, a liquid baffle block, a force transmission device for the liquid baffle block, a turning block, a left cavity, a left end shaft of a filter screen, a turning cavity, a filter screen, a right cavity, a force transmission device for the right cavity, a force transmission device shaft for the right cavity, a driving gear, a driven gear, a right end shaft of the filter screen, a driving gear inner hole, a driven gear inner hole, a sliding cavity, a right end rotating ring of the filter screen and a chemical-proof ring, wherein the turning block is fixedly arranged below the liquid baffle block, the turning cavity is arranged in the turning block, the filter screen is transversely arranged in the turning cavity, the liquid outlet communicated with the turning cavity is arranged at the middle end part of the liquid baffle block, the inner wall of the liquid outlet is internally provided with the sliding cavity, the liquid baffle plate is slidably arranged in the sliding cavity, the thread groove with the opening facing the right is arranged in the liquid baffle plate, the force transmission device for the liquid baffle block is fixedly arranged at the right end wall of the sliding cavity, the left end of the force transmission device for the liquid baffle block is provided with the thread shaft in a rolling manner, the screw tooth shaft extends into the screw tooth groove and is connected with the screw teeth in a matching mode, a right cavity is arranged in the material turning block, a right cavity force transmission device is fixedly arranged on the inner wall of the right side of the right cavity, a driving gear is fixedly connected with a right cavity force transmission device shaft of the right cavity force transmission device, a driven gear is arranged in the right cavity and is connected with the driving gear in a matching mode, a filter screen right end shaft of the driven gear penetrates through the left inner wall of the right cavity and is fixedly connected with the filter screen, a filter screen left end shaft is fixedly arranged on the left side of the filter screen, and the filter screen left end shaft can be arranged in the left side wall of the material turning cavity in a rolling mode;

the middle position of the top of the main through hollow column shell is provided with a conical smooth cavity, the main through hollow column shell is further provided with a lighting device, the lighting device comprises a lamp stand and a fluorescent lamp, the inside of the main through hollow column shell is provided with an annular smooth cavity at the bottom of the conical smooth cavity, the main through hollow column shell is internally provided with a liquid inlet speed change structure at the annular smooth cavity, the inside of the main through hollow column shell is provided with a stirring and sliding cavity at the bottom of the annular smooth cavity, one side of the stirring and sliding cavity of the main through hollow column shell is provided with a conical through hollow column shell which forms a global structure with the main through hollow column shell, one end of the conical through hollow column shell is provided with a spray gun structure which forms a global structure with the conical through hollow column shell, the inside of the conical through hollow column shell is provided with a conical through structure which is communicated with the stirring and sliding cavity, and the inside of the spray gun structure is provided with the conical through hollow column shell, the outer part of the main through hollow column shell is fixed with a force transmission device installation column shell at the other end of the stirring and sliding cavity through a stud, the inner part of the force transmission device installation column shell is provided with a force transmission device, the main through hollow column shell is provided with a main sealing ring at one side opposite to the force transmission device, an output shaft of the force transmission device penetrates through the main through hollow column shell and the main sealing ring, a shaft body of the output shaft of the force transmission device in the stirring and sliding cavity is connected in a shoulder sleeve, the outer surface of the shoulder sleeve is provided with a plurality of stirring and rotating sheets which form a global structure with the stirring and rotating sheets, the end part of the output shaft of the force transmission device is connected with a main rolling support rod in the through hollow conical structure through a positioning and connecting mechanism, a screw-shaped rotating sheet is fixed on the shaft body of the main rolling support rod, and when the output shaft of the force transmission device rolls to the right, a liquid outlet caused by the curvature of the rotor is positioned at one side of the spray gun sliding cavity;

the liquid inlet speed change structure comprises a diaphragm plate for the liquid inlet speed change structure, an open hole liquid inlet structure for the liquid inlet speed change structure, a partition plate moving and sliding cavity for the liquid inlet speed change structure, a partition plate for the liquid inlet speed change structure, a rotating ring for the liquid inlet speed change structure, a screw tooth rod for the liquid inlet speed change structure, a screw tooth structure for the liquid inlet speed change structure and a rolling plate for the liquid inlet speed change structure;

feed liquor for variable speed structure diaphragm plate fix the annular smooth intracavity portion in main empty column shell that leads to, feed liquor for variable speed structure diaphragm plate's meso position is provided with the feed liquor for variable speed structure of intercommunication annular smooth chamber and opens the hole inlet structure, feed liquor for variable speed structure diaphragm plate is provided with feed liquor for variable speed structure and moves smooth chamber with the division board in one side that lies in feed liquor for variable speed structure and opens the hole inlet structure and feed liquor for variable speed structure internally mounted one feed liquor for variable speed structure that the division board moved smooth chamber, feed liquor for variable speed structure is through feed liquor for variable speed structure one side of division board and is fixed a feed liquor for variable speed structure screw rod with swivel, feed liquor for variable speed structure screw rod break-through feed liquor for variable speed structure diaphragm plate and main empty column shell that leads to, just variable speed for feed liquor structure screw rod is lieing in the outside one end of main empty column shell is fixed a feed liquor for variable speed structure and is used to roll tooth rod The outer wall of the main through hollow column shell is provided with a thread structure for a liquid inlet speed change structure which forms a global structure with the main through hollow column shell, and the thread structure for the liquid inlet speed change structure is connected with a thread rod for the liquid inlet speed change structure through the thread structure;

the positioning connecting mechanism comprises a first closed ring for the positioning connecting mechanism, a hollow structure for the positioning connecting mechanism, a convex structure for the positioning connecting mechanism, a first connecting shaft for the positioning connecting mechanism, a second closed ring for the positioning connecting mechanism, a first connecting block for the positioning connecting mechanism, a second connecting block for the positioning connecting mechanism, a connecting stud for the positioning connecting mechanism and a fixing connecting shaft for the positioning connecting mechanism;

the positioning connection mechanism is characterized in that a hollow structure for the positioning connection mechanism is arranged at the middle position inside a first closed ring, a plurality of fixing connection shafts for the positioning connection mechanism forming a global structure with the positioning connection mechanism are arranged at the middle position outside the first closed ring, protruding structures for the positioning connection mechanism are arranged at the two opposite ends inside the hollow structure for the positioning connection mechanism by the first closed ring, the middle positions of the protruding structures for the positioning connection mechanism and the second closed ring for the positioning connection mechanism are respectively penetrated by the first connection shaft for the positioning connection mechanism and the second connection shaft for the positioning connection mechanism, the first connection shaft for the positioning connection mechanism and the second connection shaft for the positioning connection mechanism are respectively arranged at the two ends inside the hollow structure for the positioning connection mechanism The first connecting block for the positioning connecting mechanism and the second connecting block for the positioning connecting mechanism are fixed and connected by the connecting stud through the positioning connecting mechanism;

and one ends of the positioning connecting mechanisms, which are positioned outside the first connecting shaft and the second connecting shaft, are fixedly connected with the output shaft of the power transmission device and the end part of the main rolling support rod respectively.

2. The improved machining field cutting fluid recovery device of claim 1, wherein: the screw tooth structure comprises an outer screw tooth structure arranged on the rod body of the screw tooth rod for the liquid inlet variable speed structure and an inner screw tooth structure positioned inside the screw tooth structure for the liquid inlet variable speed structure.

3. The improved cutting fluid recovery device in the machining field as claimed in claim 1, wherein: the positioning connecting mechanism is fixed on the inner wall of the stirring and sliding cavity by the end part of the fixing and connecting shaft.

4. The improved cutting fluid recovery device in the machining field as claimed in claim 1, wherein: the lamp stand is correspondingly arranged on the tops of the end faces of the two sides of the main hollow cylindrical shell, and the fluorescent lamp is arranged at the bottom of the lamp stand and provided with a housing between the fluorescent lamp and the bottom of the lamp stand.

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