CN117414749B - Mixing detection device of diamond grinding fluid - Google Patents

Abstract

The invention discloses a mixing detection device of diamond grinding fluid, which comprises a mixing tank, a concentration detection mechanism, a detection probe and wiring, and comprises the following components: a polishing liquid storage member: the outside of the mixing tank is fixedly provided with a plurality of vertically distributed side joint bins, a liquid inlet groove is formed on the mixing tank, and a hole groove is formed at the top of the side joint bins; a detection member: the sliding frame is provided with a concentration detection mechanism; a polishing liquid inlet and outlet member: and a butt joint frame is arranged in the sliding frame in a sliding manner. According to the invention, the detection probe extends into the side joint bin through the hole groove to detect the concentration of the grinding fluid discharged into the side joint bin, in the detection process, the stirring mechanism in the mixing tank can still stir the grinding fluid uniformly, when the grinding fluid in the side joint bin is detected to be not mixed uniformly, the grinding fluid in the side joint bin is discharged into the mixing tank again through the sealing cover to be stirred continuously and mixed uniformly, so that the purposes of improving the mixing efficiency and facilitating the operation of staff are achieved.

Description

Mixing detection device of diamond grinding fluid

Technical Field

The invention relates to the technical field of diamond grinding fluid processing equipment, in particular to a mixing detection device for diamond grinding fluid.

Background

The diamond polishing liquid is a liquid having a sharpening effect by dispersing diamond as an abrasive in a liquid medium by adding a dispersant or the like.

The diamond grinding liquid is sprayed on the alloy surface in the processing process, so that the grinding rate of the alloy material by processing equipment can be improved, a large amount of heat generated in the grinding process can be rapidly discharged, and the diamond grinding liquid is required to be uniformly mixed and stirred by a stirring device before the diamond grinding liquid is sprayed for use, so that diamond powder in a precipitation state is uniformly distributed in a water base.

For realizing the even detection to diamond grinding fluid, among the prior art, usually use the concentration detection appearance that stretches into in the jar body to detect the grinding fluid that is in the jar body at different degree of depth, thereby judge whether the grinding fluid in the jar body mixes, often need control stirring vane to stop rotating to the detector for avoiding pivoted stirring vane, if detect the grinding fluid in the jar body and not by the stirring, the staff still need restart agitating unit, to grinding fluid continue mixing, this mixing degree detection mode, the efficiency is lower, and be unfavorable for the problem of staff's operation.

Based on the defects, a mixing detection device for diamond grinding fluid is provided.

Disclosure of Invention

The invention aims at: in order to solve the above problems, a mixing detection device for diamond polishing liquid is proposed.

In order to achieve the above purpose, the present invention adopts the following technical scheme: the utility model provides a mixing detection device of diamond grinding fluid, includes mixing jar, concentration detection mechanism, detection probe to and electric connection is in the wiring between detection probe and the concentration detection mechanism, includes:

a polishing liquid storage member: the outside of the mixing tank is fixedly provided with a plurality of side joint bins which are vertically distributed, the mixing tank is provided with liquid inlets which are communicated with the side joint bins, the top of the side joint bins is provided with a hole groove which is matched with the detection probe to extend into, the outside of the mixing tank is vertically slid with a cover plate which is matched with the liquid inlets for plugging, the side joint bins are horizontally and smoothly moved with a sealing cover for plugging the liquid inlets, and the sealing cover is fixedly provided with a sliding frame through a cross rod which penetrates through the side joint bins in a sliding way;

a detection member: the outside of the mixing tank is vertically slid with a sliding frame, a first driving piece for controlling the sliding frame to vertically move is arranged outside the mixing tank, a concentration detection mechanism is arranged on the sliding frame, a hoisting frame matched with a detection probe for placing is slidably arranged in the sliding frame, and a second driving piece for driving the hoisting frame to enter and exit a hole slot is arranged in the sliding frame;

a polishing liquid inlet and outlet member: the sliding frame is provided with a butt joint frame in a sliding manner, the side part of the sliding frame is provided with a notch groove matched with the butt joint frame in a sliding manner, the sliding frame is provided with a transmission part, the butt joint frame is driven to transversely move relative to the sliding frame through the transmission part when the lifting frame moves, the outside of the side joint bin is provided with a linkage part, and the sliding frame drives the cover plate to move in the vertical direction through the linkage part when the sliding frame moves horizontally along with the butt joint frame.

Preferably, the first driving piece comprises a stand fixedly arranged at the outer end of the mixing tank, a screw is rotationally connected to the stand, a driving motor for controlling the screw to rotate is arranged on the stand, and a bracket in screwed connection with the screw is fixedly arranged at the side end of the sliding frame.

Preferably, the second driving piece comprises a bending frame which is arranged on the outer side of the sliding frame in a sliding manner, a telescopic mechanism for controlling the bending frame to move vertically is arranged at the outer end of the sliding frame, a hack lever which penetrates through the sliding frame inwards is fixedly arranged on the bending frame, a vertical groove matched with the hack lever to slide is formed in the sliding frame, and a sleeve fixed with the hoisting frame is sleeved on the outer side of the hack lever in a sliding manner.

Preferably, a supporting rod is fixedly arranged at the side end of the lifting frame, a sliding groove matched with the supporting rod to penetrate in a sliding mode is formed in the sliding frame, and the sliding groove consists of a vertical groove and an inclined groove.

Preferably, the transmission piece comprises a wheel disc rotatably connected at the inner end of the sliding frame and a component for driving the wheel disc to rotate, the outer sides of the two wheel discs are sleeved with chains in a meshed mode, and a connecting frame is fixedly arranged between the butt joint frame and the chains.

Preferably, the assembly for driving the wheel disc to rotate comprises a rack arranged at the side end of the sliding frame in a sliding manner and a combination piece for driving the rack to horizontally move, wherein a gear coaxially fixed with the wheel disc is rotationally connected to the side end of the sliding frame, and the gear is in meshed connection with the rack.

Preferably, the combined piece for driving the rack to horizontally move comprises a strip-shaped block fixed on the rack, and a strip-shaped groove matched with the supporting rod to slide is formed in the strip-shaped block.

Preferably, the linkage piece comprises two bar frames which are arranged on the outer side of the mixing tank in a sliding manner, and a component for driving the bar frames to horizontally move, wherein two opposite ends of the bar frames are fixedly provided with sliding plates, the outer ends of the cover plates are fixedly provided with protruding blocks, and sliding ways matched with the protruding blocks to slide are formed in the sliding plates.

Preferably, the assembly for driving the bar frame to horizontally move comprises a transverse shaft which is rotationally connected to the outer side of the mixing tank through a side frame, a transmission arm is fixedly arranged at the outer end of the transverse shaft, the free end of the transmission arm is rotationally connected with the sliding connection frame, a sliding sleeve which is fixedly connected with the bar frame is sleeved on the outer side of the transverse shaft in a sliding manner, a protrusion is formed on the inner wall of the sliding sleeve, a sliding rail matched with the protrusion to slide is formed on the side wall of the transverse shaft, and the sliding rail is of a spiral structure.

Preferably, the side joint bin is provided with a magnetic sheet matched with the sliding joint frame to attract the magnetism.

In summary, due to the adoption of the technical scheme, the beneficial effects of the invention are as follows:

1. in this application, through vertical distribution in the side joint storehouse of blending jar lateral part, with sample the diamond grinding fluid of different degree of depth in the blending jar, detection probe stretches into in the side joint storehouse through the hole groove, detect the grinding fluid that discharges into in the side joint storehouse, in the testing process, rabbling mechanism in the blending jar still can evenly stir the grinding fluid, when detecting the grinding fluid and not being mixed, in the blending jar is discharged again to the grinding fluid through in the side joint storehouse, in order to realize the continuation stirring to the grinding fluid, thereby reach the blending efficiency that improves, and the purpose of staff's operation of being convenient for.

2. In this application, after the lapping liquid in the side joint storehouse accomplishes the mixing degree and detects, upwards remove through the control frame of bending for detecting probe upwards breaks away from the side joint storehouse earlier, later, when the hoist and mount frame is done the slant and is upwards removed, the closing cap will slide and lean on to the blending jar, after the closing cap is in the smooth hole groove, the apron will upwards remove the cover to the feed liquor groove, along with the continuation of closing cap impels, lapping liquid in the side joint storehouse will be pushed into the blending jar again in, realizes the recovery to the lapping liquid of accomplishing the detection.

Drawings

FIG. 1 illustrates a perspective view provided in accordance with an embodiment of the present invention;

FIG. 2 shows an exploded view of the external structure of a slide frame provided in accordance with an embodiment of the present invention;

fig. 3 is a schematic diagram showing an internal structure of a slide frame according to an embodiment of the present invention;

FIG. 4 shows a schematic cross-sectional view of a side cartridge provided in accordance with an embodiment of the present invention;

FIG. 5 shows a schematic cross-sectional view of a bar rack provided in accordance with an embodiment of the present invention;

fig. 6 shows a partial enlarged view at a provided in fig. 5 according to the present invention.

Legend description:

1. a mixing tank; 101. a liquid inlet tank; 2. a side joint bin; 201. a hole groove; 3. a cover plate; 4. a bump; 5. a sliding connection frame; 501. a notch groove; 6. a cross bar; 7. a cover; 8. a horizontal axis; 801. a slide rail; 9. a bar-shaped frame; 10. a sliding sleeve; 11. a protrusion; 12. a slide plate; 1201. a slideway; 13. a transmission arm; 14. a sliding frame; 1401. a vertical groove; 1402. a chute; 15. a concentration detection mechanism; 16. hoisting the frame; 17. a support rod; 18. a detection probe; 19. wiring; 20. a bending frame; 21. a telescoping mechanism; 22. a hack lever; 23. a sleeve; 24. a wheel disc; 25. a chain; 26. a butt joint frame; 27. a connecting frame; 28. a bar block; 2801. a bar-shaped groove; 29. a rack; 30. a gear; 31. a bracket; 32. a stand; 33. a driving motor; 34. and (3) a screw.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a mixing detection device of diamond grinding fluid, includes mixing jar 1, concentration detection mechanism 15, detection probe 18 to and electric connection is in the wiring 19 between detection probe 18 and concentration detection mechanism 15, includes:

a polishing liquid storage member: the outside of the mixing tank 1 is fixedly provided with a plurality of side joint bins 2 which are vertically distributed, the mixing tank 1 is provided with a liquid inlet groove 101 which is communicated with the side joint bins 2, the top of the side joint bins 2 is provided with a hole groove 201 which is matched with a detection probe 18 to extend into, the outside of the mixing tank 1 vertically slides with a cover plate 3 which is matched with the liquid inlet groove 101 to be blocked, the side joint bins 2 horizontally smoothly move with a sealing cover 7 which is used for blocking the liquid inlet groove 101, and the sealing cover 7 is fixedly provided with a sliding connection frame 5 through a cross rod 6 which slides to penetrate through the side joint bins 2;

the side joint bin 2 is vertically distributed along the mixing tank 1 so as to sample the diamond grinding fluid with different depths in the mixing tank 1, the grinding fluid in the mixing tank 1 is discharged into the side joint bin 2 through the liquid inlet groove 101, then the detection probe 18 extends into the side joint bin 2 through the hole groove 201, concentration detection is carried out on the grinding fluid discharged into the side joint bin 2, and whether the diamond grinding fluid in the mixing tank 1 is uniformly stirred is judged through concentration detection on the grinding fluid with different depths.

The concentration detection mechanism 15 employs an existing on-line tuning fork concentration meter.

A detection member: the outside of the mixing tank 1 vertically slides to form a sliding frame 14, a first driving piece for controlling the sliding frame 14 to vertically move is arranged outside the mixing tank 1, a concentration detection mechanism 15 is arranged on the sliding frame 14, a hoisting frame 16 matched with a detection probe 18 for loading is arranged in the sliding frame 14 in a sliding manner, and a second driving piece for driving the hoisting frame 16 to enter and exit a hole slot 201 is arranged in the sliding frame 14; when the sliding frame 14 vertically moves along the blending tank 1, the lifting frame 16 is at a position far away from the blending tank 1, when the detection probe 18 needs to extend into the side joint bin 2, and when the concentration of grinding fluid in the side joint bin 2 is detected, the lifting frame 16 is controlled to move through the second driving piece, so that the lifting frame 16 firstly slides obliquely downwards to lean against the blending tank 1, and when the detection probe 18 is directly above the hole groove 201, the detection probe 18 vertically extends downwards into the side joint bin 2 along with the continuous movement of the lifting frame 16.

A polishing liquid inlet and outlet member: the sliding frame 14 is provided with a butt joint frame 26 in a sliding manner, the side part of the sliding frame 5 is provided with a notch groove 501 which is matched with the butt joint frame 26 in a sliding manner, the sliding frame 14 is provided with a transmission part, the butt joint frame 26 is driven to transversely move relative to the sliding frame 14 through the transmission part when the lifting frame 16 moves, the outside of the side joint bin 2 is provided with a linkage part, and the sliding frame 5 drives the cover plate 3 to move in the vertical direction through the linkage part when the sliding frame 5 moves along with the butt joint frame 26 horizontally.

When the concentration detection mechanism 15 needs to detect the concentration of the grinding fluid in the side joint bin 2, the sliding frame 14 needs to be stopped at the outer side of the corresponding side joint bin 2 under the action of the first driving piece, at the moment, the butt joint frame 26 is connected with the sliding joint frame 5 through the notch groove 501, when the lifting frame 16 slides towards the blending tank 1, the sliding joint frame 5 pulls the sealing cover 7 outwards through the cross rod 6 under the pulling of the butt joint frame 26, at the moment, the grinding fluid in the blending tank 1 enters the side joint bin 2 through the liquid inlet groove 101, the cover plate 3 moves downwards under the action of the linkage piece before the sealing cover 7 reaches the hole groove 201 along with the continued movement of the sealing cover 7, the sealing of the liquid inlet groove 101 is completed until the detection probe 18 moves to be positioned right above the hole groove 201, the sealing cover 7 slides to the position, and the detection probe 18 vertically passes through the hole groove 201 along with the downward movement of the lifting frame 16, and the concentration of the grinding fluid in the side joint bin 2 is detected;

when the concentration detection mechanism 15 completes detection of the concentration of the grinding fluid in the side joint bin 2, the detection probe 18 is separated from the side joint bin 2 upwards along with upward movement of the lifting frame 16, then the lifting frame 16 drives the detection probe 18 to move obliquely upwards in a direction away from the mixing tank 1, in the process, the sealing cover 7 slides to lean against the mixing tank 1, when the sealing cover 7 slides through the hole slot 201, the cover plate 3 upwards releases the cover of the liquid inlet slot 101 under the action of the linkage piece, and along with continued pushing of the sealing cover 7, the grinding fluid in the side joint bin 2 is pushed into the mixing tank 1 again, so that recovery of the detected grinding fluid is realized; the side edge of the sealing cover 7, which is in sliding fit with the side joint bin 2, is provided with an adhesive tape for limiting the seepage of the grinding fluid.

Specifically, as shown in fig. 1, the first driving member includes a stand 32 fixedly arranged at the outer end of the blending tank 1, a screw 34 is rotatably connected to the stand 32, a driving motor 33 for controlling the screw 34 to rotate is mounted on the stand 32, and a bracket 31 in screwed connection with the screw 34 is fixedly arranged at the side end of the sliding frame 14; the driving motor 33 is started to control the screw 34 to rotate, so that the bracket 31 connected with the screw 34 in a screwing way drives the sliding frame 14 to move along the vertical direction.

So that the concentration detection mechanism 15 mounted on the slide frame 14 detects the concentration of the polishing liquid at different depths.

Specifically, as shown in fig. 1-4, the second driving piece includes a bending frame 20 slidably disposed at the outer side of the sliding frame 14, a telescopic mechanism 21 for controlling the bending frame 20 to move vertically is installed at the outer end of the sliding frame 14, a frame rod 22 penetrating the sliding frame 14 inwards is fixedly disposed on the bending frame 20, a vertical groove 1401 matched with the frame rod 22 to slide is formed in the sliding frame 14, and a sleeve 23 fixed with the lifting frame 16 is sleeved on the outer side of the frame rod 22 in a sliding manner; the telescopic mechanism 21 adopts the existing pneumatic or hydraulic telescopic rod.

A supporting rod 17 is fixedly arranged at the side end of the lifting frame 16, a sliding groove 1402 which is matched with the supporting rod 17 to pass through in a sliding way is formed on the sliding frame 14, and the sliding groove 1402 consists of a vertical groove and an inclined groove;

the bending frame 20 is controlled to move in the vertical direction through the telescopic mechanism 21, and when the supporting rod 17 fixed on the lifting frame 16 slides along the inclined groove of the sliding groove 1402, the sleeve 23 fixed on the lifting frame 16 slides along the hack lever 22; sleeve 23 maintains relative to frame bar 22 stationary as strut 17 slides along the vertical slot of chute 1402.

Specifically, as shown in fig. 1-4, the transmission member includes a wheel disc 24 rotatably connected to the inner end of the sliding frame 14, and a component for driving the wheel disc 24 to rotate, wherein chains 25 are engaged and sleeved on the outer sides of the two wheel discs 24, and a connection frame 27 is fixedly arranged between the butt joint frame 26 and the chains 25; when the wheel disc 24 rotates, the engagement effect on the chain 25 drives the engagement frame 27 fixed with the chain 25 to drive the butt joint frame 26 to move along the horizontal direction; the sheave 24 is a toothed sheave engaged with a chain 25.

The assembly for driving the wheel disc 24 to rotate comprises a rack 29 arranged at the side end of the sliding frame 14 in a sliding manner and a combination piece for driving the rack 29 to horizontally move, wherein a gear 30 coaxially fixed with the wheel disc 24 is rotationally connected to the side end of the sliding frame 14, and the gear 30 is in meshed connection with the rack 29; when the rack 29 slides along the side end of the slide frame 14, the meshing gear 30 with the rack 29 will rotate the wheel 24 coaxially fixed thereto.

The combined piece for driving the rack 29 to horizontally move comprises a bar block 28 fixed on the rack 29, wherein a bar groove 2801 matched with the supporting rod 17 to slide is formed in the bar block 28; when the strut 17 slides along the oblique slot of the chute 1402, the bar 28 will drive the rack 29 to slide in the horizontal direction under the compression of the strut 17 against the bar slot 2801.

Specifically, as shown in fig. 1-6, the linkage member includes two bar frames 9 slidably disposed at the outer side of the blending tank 1, and a component for driving the bar frames 9 to move horizontally, wherein a sliding plate 12 is fixedly disposed at the opposite ends of the two bar frames 9, a protruding block 4 is fixedly disposed at the outer end of the cover plate 3, and a sliding way 1201 for matching the protruding block 4 to slide is formed in the sliding plate 12;

the slideway 1201 is in a Z-shaped bending structure and consists of two horizontal sections and an inclined section communicated with the two horizontal sections.

When the bar frame 9 drives the sliding plate 12 to transversely move relative to the side joint bin 2, the convex blocks 4 fixed on the cover plate 3 slide along the slide ways 1201, and when the convex blocks 4 slide along the horizontal sections of the slide ways 1201, the cover plate 3 keeps a static state relative to the mixing tank 1; when the bump 4 slides along the oblique section of the slideway 1201, the cover plate 3 moves vertically relative to the mixing tank 1 under the pressing action of the oblique section of the slideway 1201 on the bump 4.

The assembly for driving the bar frame 9 to horizontally move comprises a cross shaft 8 which is rotationally connected to the outer side of the mixing tank 1 through a side frame, a transmission arm 13 is fixedly arranged at the outer end of the cross shaft 8, the free end of the transmission arm 13 is rotationally connected with the sliding connection frame 5, a sliding sleeve 10 which is fixedly connected with the bar frame 9 is sleeved on the outer side of the cross shaft 8 in a sliding manner, a protrusion 11 is formed on the inner wall of the sliding sleeve 10, a sliding rail 801 which is matched with the protrusion 11 to slide is formed on the side wall of the cross shaft 8, and the sliding rail 801 is in a spiral structure; when the sliding connection frame 5 moves horizontally under the action of the butt joint frame 26, the transverse shaft 8 is driven to rotate by the driving arm 13, the protrusions 11 fixed on the inner wall of the sliding sleeve 10 slide along the sliding rails 801, and the bar-shaped frame 9 fixed with the sliding sleeve 10 is driven to slide along the transverse shaft 8 through the compression transmission of the sliding rails 801 to the protrusions 11.

The side joint bin 2 is provided with magnetic sheets matched with the sliding joint frame 5 to attract each other magnetically; after the sealing cover 7 pushes the grinding fluid in the side joint bin 2 into the mixing tank 1, the sliding joint frame 5 is tightly attached to the side joint bin 2 under the action of the magnetic sheet, so that the sealing cover 7 keeps a sealing state of the liquid inlet groove 101 after the butt joint frame 26 slides away from the sliding joint frame 5; the magnetic attraction of the magnetic sheet to the sliding frame 5 is larger than the pressure of the grinding fluid in the mixing tank 1 to the sealing cover 7; the sliding frame 5 is made of iron material matched with the magnetic sheet for attraction.

When the sliding frame 5 moves away from the side joint bin 2 under the action of the butt joint frame 26, the transmission arm 13 rotates and opens under the pulling of the sliding frame 5, at the moment, the transverse shaft 8 coaxially fixed with the transmission arm 13 drives the two bar frames 9 to synchronously move oppositely through the action of the sliding sleeve 10, the protruding block 4 fixed on the cover plate 3 slides along the horizontal section of the sliding way 1201 positioned above, in the process, the sliding plate 12 keeps a static state relative to the mixing tank 1, grinding fluid in the mixing tank 1 is discharged into the side joint bin 2 through the liquid inlet groove 101, the protruding block 4 slides along the sliding way 1201 along with the continuing sliding of the sliding frame 5, the cover plate 3 moves downwards at the moment to realize the blocking of the liquid inlet groove 101 until the sealing cover 7 slides through the hole groove 201, and the protruding block 4 slides along the horizontal section of the sliding way 1201 positioned below, at the moment, and the cover plate 3 keeps the blocking state of the liquid inlet groove 101 along with the continuing sliding of the sliding frame 5.

The previous description of the embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (2)

1. The utility model provides a mixing detection device of diamond grinding fluid, includes mixing jar (1), concentration detection mechanism (15), test probe (18) to and electric connection is in wiring (19) between test probe (18) and concentration detection mechanism (15), its characterized in that includes:

a polishing liquid storage member: the outside of blending jar (1) has set firmly a plurality of side joint storehouse (2) that are vertical distribution, be formed with on the blending jar (1) with side joint storehouse (2) be linked together feed liquor groove (101), the top of side joint storehouse (2) is formed with hole groove (201) that cooperation test probe (18) stretched into, the outside vertical slip of blending jar (1) has apron (3) of cooperation feed liquor groove (101) shutoff, the level is moved in side joint storehouse (2) has closing cap (7) to feed liquor groove (101) shutoff, sliding connection frame (5) have been set firmly through horizontal pole (6) that runs through side joint storehouse (2) on closing cap (7) by the slip;

a detection member: the outside of the mixing tank (1) vertically slides to form a sliding frame (14), a first driving piece for controlling the sliding frame (14) to vertically move is arranged outside the mixing tank (1), a concentration detection mechanism (15) is arranged on the sliding frame (14), a hoisting frame (16) matched with a detection probe (18) to be placed is arranged in the sliding frame (14) in a sliding mode, and a second driving piece for driving the hoisting frame (16) to enter and exit a hole groove (201) is arranged in the sliding frame (14);

a polishing liquid inlet and outlet member: the sliding frame (14) is provided with a butt joint frame (26) in a sliding manner, the side part of the sliding frame (5) is provided with a notch groove (501) which is matched with the butt joint frame (26) in a sliding manner, the sliding frame (14) is provided with a transmission part, the hoisting frame (16) drives the butt joint frame (26) to transversely move relative to the sliding frame (14) through the transmission part when moving, the outside of the side joint bin (2) is provided with a linkage part, and the sliding frame (5) drives the cover plate (3) to move along the vertical direction through the linkage part when moving along with the butt joint frame (26);

the second driving piece comprises a bending frame (20) arranged on the outer side of the sliding frame (14) in a sliding manner, a telescopic mechanism (21) for controlling the bending frame (20) to move vertically is arranged at the outer end of the sliding frame (14), a hack lever (22) penetrating through the sliding frame (14) inwards is fixedly arranged on the bending frame (20), a vertical groove (1401) matched with the hack lever (22) in a sliding manner is formed in the sliding frame (14), and a sleeve (23) fixed with the lifting frame (16) is sleeved on the outer side of the hack lever (22) in a sliding manner;

a supporting rod (17) is fixedly arranged at the side end of the lifting frame (16), a sliding groove (1402) matched with the supporting rod (17) to penetrate in a sliding mode is formed in the sliding frame (14), and the sliding groove (1402) is composed of a vertical groove and an inclined groove;

the transmission part comprises a wheel disc (24) which is rotatably connected to the inner end of the sliding frame (14) and a component which drives the wheel disc (24) to rotate, a chain (25) is meshed and sleeved on the outer sides of the two wheel discs (24), and a connecting frame (27) is fixedly arranged between the butt joint frame (26) and the chain (25);

the assembly for driving the wheel disc (24) to rotate comprises a rack (29) arranged at the side end of the sliding frame (14) in a sliding manner and a combination piece for driving the rack (29) to horizontally move, a gear (30) coaxially fixed with the wheel disc (24) is rotationally connected to the side end of the sliding frame (14), and the gear (30) is meshed with the rack (29);

the combined piece for driving the rack (29) to horizontally move comprises a strip-shaped block (28) fixed on the rack (29), wherein a strip-shaped groove (2801) matched with the supporting rod (17) to slide is formed in the strip-shaped block (28);

the linkage piece comprises two bar frames (9) which are arranged on the outer side of the mixing tank (1) in a sliding manner and a component for driving the bar frames (9) to horizontally move, wherein sliding plates (12) are fixedly arranged at the opposite ends of the two bar frames (9), protruding blocks (4) are fixedly arranged at the outer ends of the cover plates (3), and sliding ways (1201) for matching the protruding blocks (4) to slide are formed in the sliding plates (12);

the assembly for driving the horizontal movement of the bar frame (9) comprises a transverse shaft (8) which is rotationally connected to the outer side of the mixing tank (1) through a side frame, a transmission arm (13) is fixedly arranged at the outer end of the transverse shaft (8), the free end of the transmission arm (13) is rotationally connected with the sliding connection frame (5), a sliding sleeve (10) which is fixedly connected with the bar frame (9) is sleeved on the outer side of the transverse shaft (8) in a sliding manner, a protrusion (11) is formed on the inner wall of the sliding sleeve (10), a sliding rail (801) which is matched with the protrusion (11) in a sliding manner is formed on the side wall of the transverse shaft (8), the sliding rail (801) is of a spiral structure, and a magnetic sheet which is matched with the sliding connection frame (5) in a magnetic manner is mounted on the side joint bin (2).

2. The mixing detection device of diamond grinding fluid according to claim 1, wherein the first driving member comprises a stand (32) fixedly arranged at the outer end of the mixing tank (1), a screw (34) is rotatably connected to the stand (32), a driving motor (33) for controlling the screw (34) to rotate is mounted on the stand (32), and a bracket (31) in screwed connection with the screw (34) is fixedly arranged at the side end of the sliding frame (14).