CN115138251A

CN115138251A - Mixer for producing artificial diamond

Info

Publication number: CN115138251A
Application number: CN202211066242.1A
Authority: CN
Inventors: 夏海霖; 彭胜; 周建山
Original assignee: Changsha Shili Superhard Material Co ltd
Current assignee: Changsha Shili Superhard Material Co ltd
Priority date: 2022-09-01
Filing date: 2022-09-01
Publication date: 2022-10-04

Abstract

The invention relates to the field of artificial diamond production equipment, in particular to a mixer for producing artificial diamond, which comprises a base, wherein a portal frame is fixed on the base, the portal frame is fixedly connected with a mixing box through a plurality of supporting rods, the bottom of the mixing box is provided with a discharge valve, and the mixer further comprises: the stirring and mixing mechanism is used for mixing and stirring various raw materials in the mixing box; the intermittent feeding mechanism is used for intermittently and quantitatively conveying various raw materials into the mixing box, and the stirring and mixing mechanism drives the intermittent feeding mechanism to intermittently and quantitatively convey various raw materials into the mixing box while mixing the various raw materials; and the exhaust mechanism is used for driving the exhaust mechanism to exhaust the air in the mixing box while the stirring and mixing mechanism is used for mixing and stirring various raw materials in the mixing box. This kind of blendor of artificial diamond production improves the mixing efficiency and the effect to various raw materialss greatly, helps improving the production efficiency and the manufacturing quality to the diamond.

Description

Mixer for artificial diamond production

Technical Field

The invention relates to the field of artificial diamond production equipment, in particular to a mixer for producing artificial diamonds.

Background

In the production process of the artificial diamond, graphite micro powder, a metal catalyst and the like need to be fully mixed, the existing mixing device is uneven in mixing, and the graphite micro powder contains a large amount of air, so that the production efficiency of the diamond is low and the quality of the diamond is poor.

Disclosure of Invention

The invention aims to provide a mixer for producing artificial diamond, which solves the problems in the prior art. In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a blendor of synthetic diamond production, includes the base, is fixed with the portal frame on the base, and through a plurality of branch fixed connection mixing box on the portal frame, the bottom of mixing box is provided with the blow-off valve, still includes:

the stirring and mixing mechanism is used for mixing and stirring various raw materials in the mixing box;

the intermittent feeding mechanism is used for intermittently and quantitatively conveying various raw materials into the mixing box, and the stirring and mixing mechanism is used for mixing various raw materials and simultaneously driving the intermittent feeding mechanism to intermittently and quantitatively convey various raw materials into the mixing box;

and the exhaust mechanism is arranged on the portal frame and drives the exhaust mechanism to exhaust gas in the mixing box while the stirring and mixing mechanism mixes and stirs various raw materials in the mixing box.

Preferably, the stirring and mixing mechanism comprises a cross support plate fixed on the portal frame, the cross support plate is arranged on the upper side of the mixing box, a motor is fixed on the cross support plate, a first stirring shaft is rotatably connected in the mixing box in a fixed shaft mode, the upper end of the first stirring shaft penetrates through an upper end cover and the cross support plate of the mixing box, and the upper end of the first stirring shaft is connected with the motor in a transmission mode.

Preferably, a cantilever is fixed on one section of the upper side wall of the mixing shaft inside the mixing box, a second mixing shaft is rotatably connected to the cantilever in a fixed shaft mode, the rotation center of the second mixing shaft and the rotation center of the first mixing shaft are arranged in parallel, a gear is fixedly connected to the upper end of the second mixing shaft in a coaxial mode, a gear ring is fixed on the inner top face of the mixing box, the gear ring and the mixing shaft share the central axis, and the gear is meshed with teeth on the inner side wall of the gear ring.

Preferably, intermittent type formula feeding mechanism is including fixing workbin one and workbin two on the cross bracing board to and fix a feeding section of thick bamboo one and a feeding section of thick bamboo two on the compounding case lateral wall, and the one end that mixing case was kept away from to a feeding section of thick bamboo one, feeding section of thick bamboo two is respectively through pipeline intercommunication workbin one, workbin two, and one end that feeding section of thick bamboo one, feeding section of thick bamboo two are close to the compounding case all is provided with the solenoid valve, and equal dead axle rotation is connected with the spiral leaf axle in a feeding section of thick bamboo one and the feeding section of thick bamboo two.

Preferably, the stirring shaft I is arranged on one section of outer side wall outside the mixing box in a sleeved mode and is fixedly connected with the cam, the upper surface of the upper end cover of the mixing box is connected with a rack III in a sliding mode, the rack III is perpendicular to the stirring shaft I, one end of the rack III, which points to the cam, is fixedly axially connected with the idler wheel in a rotating mode, the idler wheel can be in buckling contact with the side wall of the cam and rolls on the side wall of the cam along the profile trend of the cam, a protruding rod II is fixed on the rack III, and the protruding rod II is connected with the side wall of the mixing box.

Preferably, the fixed shaft is rotatably connected with a worm on the supporting rod, one ends, far away from the mixing box, of the two spiral blade shafts are coaxially and fixedly connected with the turbines, the worm is meshed with the two turbines simultaneously, the upper end of the worm is coaxially and fixedly connected with the center of the inner ring of the ratchet wheel, and the outer ring of the ratchet wheel is meshed with the rack III.

Preferably, a key switch is fixed on the supporting rod, the key switch is electrically connected with the two electromagnetic valves, the supporting rod is penetrated through and is connected with an L-shaped rod in a sliding mode, one end of the L-shaped rod can be abutted and buckled with the key switch, the other end of the L-shaped rod is fixed with a lantern ring, the lantern ring is sleeved with a fixed shaft and is rotatably connected onto a sliding sleeve, the sliding sleeve is sleeved with a sliding sleeve and is connected onto a worm in a sliding mode, the sliding sleeve is connected with the bottom surface of an inner ring of a ratchet wheel through a second spring, the bottom surface of the inner ring of the ratchet wheel is hinged with a balancing weight through a second connecting rod, and the balancing weight is hinged with the outer side wall of the sliding sleeve through another second connecting rod.

Preferably, the exhaust mechanism comprises a pump cylinder fixed on the cross supporting plate, the inside of the pump cylinder is connected with a piston plate in a sliding mode, the upper surface of the piston plate is fixedly provided with a first rack, the first rack penetrates through and is connected with the upper end wall of the pump cylinder in a sliding mode, the lower end of the side wall of the pump cylinder is fixedly and communicated with a first air pipe and a second air pipe, the pump cylinder is communicated with the mixing box through the first air pipe, and a filter screen is fixed at the connecting end of the first air pipe and the mixing box.

Preferably, the first air pipe is connected with a first one-way valve, the conduction direction of the first one-way valve points to the inside of the pump barrel, the second air pipe is connected with a second one-way valve, and the conduction direction of the second one-way valve points to the outside of the pump barrel.

Preferably, a hanging rod is fixed on a cross beam of the portal frame, the lower end of the hanging rod is fixedly connected with the middle of the swing rod in a rotating mode through a fixed shaft, a second rack is fixed at one end of the swing rod and is arc-shaped, the circle center of the second rack is located at the rotating center of the swing rod, teeth on the outer arc of the second rack are meshed with the first rack, the upper end of the first stirring shaft is vertically and fixedly connected with a first convex rod, one end, far away from the first stirring shaft, of the first convex rod is hinged to one end of a first connecting rod through a spherical hinge pair, and the other end of the first connecting rod is hinged to one end, far away from the second rack, of the swing rod through the spherical hinge pair.

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

in the invention, various raw materials are mixed and stirred by the stirring and mixing mechanism, and the intermittent feeding mechanism is simultaneously driven to intermittently and quantitatively convey various raw materials into the mixing box, so that the mixing efficiency and effect of various raw materials are greatly improved, the production efficiency of diamond is improved, and the stirring and mixing mechanism is used for mixing and stirring various raw materials in the mixing box and simultaneously driving the exhaust mechanism to exhaust air in the mixing box, so that the air contained in the raw materials is exhausted, and the manufacturing quality of the diamond is improved.

Drawings

FIG. 1 is a schematic cross-sectional view of the final assembly of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1;

FIG. 3 is an enlarged view of the structure at B in FIG. 1;

fig. 4 is a top view of the cam structure of the present invention.

In the figure: 1. a base; 2. a gantry; 3. a discharge valve; 4. a second stirring shaft; 5. a strut; 6. a first trachea; 7. a ring gear; 8. a one-way valve I; 9. a gear; 10. a cantilever; 11. a second air pipe; 12. a second one-way valve; 13. a piston plate; 14. a first rack; 15. a second rack; 16. a pump barrel; 17. a cross bracing plate; 18. a boom; 19. a swing rod; 20. a first connecting rod; 21. a first convex rod; 22. a motor; 23. a first material box; 24. a material box II; 25. a ratchet wheel; 26. a third rack; 27. a worm; 28. a turbine; 29. a feeding cylinder I; 30. a feeding cylinder II; 31. a helical blade shaft; 32. a mixing box; 33. a first stirring shaft; 34. a filter screen; 35. a second convex rod; 36. a first spring; 37. an electromagnetic valve; 38. a cam; 39. a roller; 40. a balancing weight; 41. a second connecting rod; 42. a second spring; 43. a sliding sleeve; 44. a collar; 45. a key switch; 46. an L-shaped rod.

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 any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a technical solution: the utility model provides a blendor of synthetic diamond production, includes base 1, is fixed with portal frame 2 on the base 1, and through 5 fixed connection mixing box 32 of a plurality of branches on the portal frame 2, the bottom of mixing box 32 is provided with blow-off valve 3, still includes:

the stirring and mixing mechanism is used for mixing and stirring various raw materials in the mixing box 32;

the intermittent feeding mechanism is used for intermittently and quantitatively conveying various raw materials into the mixing box 32, and the stirring and mixing mechanism drives the intermittent feeding mechanism to intermittently and quantitatively convey various raw materials into the mixing box 32 while mixing various raw materials;

and an exhaust mechanism which is arranged on the portal frame 2, and drives the exhaust mechanism to exhaust the gas in the mixing box 32 while the stirring and mixing mechanism mixes and stirs various raw materials in the mixing box 32.

In this embodiment, as shown in fig. 1 and fig. 2, the stirring and mixing mechanism includes a cross support plate 17 fixed on the gantry 2, and the cross support plate 17 is disposed on the upper side of the mixing box 32, the motor 22 is fixed on the cross support plate 17, a first stirring shaft 33 is rotatably connected to the mixing box 32 in a rotating manner, the upper end of the first stirring shaft 33 penetrates through the upper end cover of the mixing box 32 and the cross support plate 17, and the upper end of the first stirring shaft 33 is in transmission connection with the motor 22, a cantilever 10 is fixed on a section of upper side wall of the mixing box 32 of the first stirring shaft 33, a second stirring shaft 4 is rotatably connected to the cantilever 10 in a fixed-axis manner, the rotation center of the second stirring shaft 4 and the rotation center of the first stirring shaft 33 are parallel to each other, a gear 9 is coaxially and fixedly connected to the upper end of the second stirring shaft 4, a gear ring 7 is fixed on the inner top surface of the mixing box 32, the gear ring 7 and the first stirring shaft 33 share the central axis, and the gear 9 is engaged with the teeth on the inner side wall of the gear ring 7.

In the embodiment, as shown in fig. 1, 3 and 4, the intermittent feeding mechanism includes a first bin 23 and a second bin 24 fixed on the cross support plate 17, and a first feeding cylinder 29 and a second feeding cylinder 30 fixed on the outer side wall of the mixing box 32, one ends of the first feeding cylinder 29 and the second feeding cylinder 30 far away from the mixing box 32 are respectively communicated with the first bin 23 and the second bin 24 through pipelines, one ends of the first feeding cylinder 29 and the second feeding cylinder 30 close to the mixing box 32 are respectively provided with an electromagnetic valve 37, both the first feeding cylinder 29 and the second feeding cylinder 30 are fixedly connected with a spiral vane shaft 31 in a fixed-axis rotation manner, one section of the outer side wall of the mixing box 32, on which the first stirring shaft 33 is located, is sleeved and fixedly connected with a cam 38, the upper surface of the upper end cover of the mixing box 32 is slidably connected with a third rack 26, the third rack 26 is perpendicular to the first stirring shaft 33, one end of the third rack 26 pointing to the cam 38 is fixedly connected with a roller 39 in a fixed-axis rotation manner, the roller 39 can be contacted with the side wall of the cam 38 in an abutting manner and rolls on the side wall of the cam 38 along the profile trend of the cam 38, a convex rod II 35 is fixed on a rack III 26, the convex rod II 35 is connected with the side wall of the mixing box 32, a worm 27 is connected on a support rod 5 in a fixed-axis rotating manner, one ends of two spiral blade shafts 31 far away from the mixing box 32 are coaxially and fixedly connected with a turbine 28, the worm 27 is simultaneously meshed and connected with the two turbines 28, the upper end of the worm 27 is coaxially and fixedly connected with the center of an inner ring of a ratchet wheel 25, an outer ring of the ratchet wheel 25 is meshed and connected with the rack III 26, a key switch 45 is fixed on the support rod 5, the key switch 45 is electrically connected with two electromagnetic valves 37, the support rod 5 penetrates through and is connected with an L-shaped rod 46 in a sliding manner, one end of the L-shaped rod 46 can be contacted with the key switch 45 in an abutting manner, the other end is fixed with a sleeve ring 44, the sleeve ring 44 is sleeved on the fixed-axis rotating and connected with a sliding sleeve 43, the sliding sleeve 43 is sleeved and connected on the worm 27 in a sliding manner, the sliding sleeve 43 is connected with the bottom surface of the inner ring of the ratchet wheel 25 through a second spring 42, the bottom surface of the inner ring of the ratchet wheel 25 is hinged with the counterweight block 40 through a second connecting rod 41, and the counterweight block 40 is hinged with the outer side wall of the sliding sleeve 43 through another second connecting rod 41.

In this embodiment, as shown in fig. 1, the exhaust mechanism includes a pump barrel 16 fixed on a cross support plate 17, the inside of the pump barrel 16 is slidably connected with a piston plate 13, a first rack 14 is fixed on the upper surface of the piston plate 13, the first rack 14 penetrates through and is slidably connected with the upper end wall of the pump barrel 16, a first air pipe 6 and a second air pipe 11 are fixed on the lower end of the side wall of the pump barrel 16 and are communicated, the pump barrel 16 is communicated with a mixing box 32 through the first air pipe 6, a filter screen 34 is fixed on the connection end of the first air pipe 6 and the mixing box 32, the filter screen 34 is used for filtering the far away from the inside of the mixing box 32 to prevent the first air pipe 6 from taking out the raw material when air in the mixing box 32 is pumped out, a first check valve 8 is connected on the first air pipe 6, and the conduction direction of the first check valve 8 points to the inside of the pump barrel 16, the second air pipe 11 is connected with a second check valve 12, the conduction direction of the second check valve 12 points to the outside of the pump barrel 16, a hanging rod 18 is fixed on a cross beam of the portal frame 2, the lower end of the hanging rod 18 is fixedly connected with the middle of the swinging rod 19 in a rotating mode, one end of the swinging rod 19 is fixed with a second rack 15, the second rack 15 is circular, the circle center of the second rack 15 is located at the rotating center of the swinging rod 19, teeth on the outer arc of the second rack 15 are meshed with the first rack 14, the upper end of the first stirring shaft 33 is vertically and fixedly connected with a first convex rod 21, one end, away from the first stirring shaft 33, of the first convex rod 21 is hinged to one end of the first connecting rod 20 through a spherical hinge pair, and the other end of the first connecting rod 20 is hinged to one end, away from the second rack 15, of the swinging rod 19 through a spherical hinge pair.

The invention has the advantages that: when the mixer for producing the artificial diamond is used, the working process is as follows:

as shown in fig. 1 and 2, the mixing box 32 is used for various containers, the motor 22 is started to work, the motor 22 drives the first stirring shaft 33 to rotate, the first stirring shaft 33 mixes and stirs various raw materials in the mixing box 32, the first stirring shaft 33 rotates and simultaneously drives the cantilever 10 to rotate, the cantilever 10 synchronously drives the second stirring shaft 4 to rotate around the first stirring shaft 33, the stirring effect on various raw materials is improved, the gear 9 drives the second stirring shaft 4 to rotate around the central axis of the gear ring 7 under the tooth transmission effect of the gear ring 7 while the second stirring shaft 4 rotates around the first stirring shaft 33, the stirring efficiency and effect on various raw materials are improved, various raw materials are uniformly mixed, the production efficiency on artificial diamond is improved, and after the mixing and the stirring are finished, the uniformly mixed mixture is taken out by opening the discharge valve 3.

As shown in fig. 1, 3 and 4, when feeding materials into the mixing box 32, firstly, the materials to be mixed of the artificial diamond are respectively put into the first bin 23 and the second bin 24, the first stirring shaft 33 synchronously drives the cam 38 to rotate while rotating, so that the cam 38 drives the third rack 26 to horizontally slide left and right through the roller 39, when the third rack 26 moves rightwards, the third rack 26 drives the inner ring to rotate through the outer ring and the pawl of the ratchet 25 and drives the worm 27 to rotate, the rotation of the inner ring drives the counterweight block 40 to rotate through the second connecting rod 41 on the upper side in fig. 3, and the counterweight block 40 obtains a centrifugal force, so that the second connecting rod 41 on the lower side in fig. 3 drives the sliding sleeve 43 to move upwards and compresses the second spring 42, so that the second spring 42 obtains a restoring force, the sliding sleeve 43 moves upwards and drives the L-shaped rod 46 to move upwards through the collar 44, so that the L-shaped rod 46 applies pressure to the key switch 45, so that the key switch 45 is in a passage state, and further, so that the two electromagnetic valves 37 are in an open state, so that the first feeding cylinder 29 and the second feeding cylinder 30 feed box 32.

The rotation of the worm 27 drives the corresponding spiral vane shaft 31 to rotate through the worm 27, so that the spiral vane shaft 31 conveys the corresponding raw materials into the mixing box 32, the first spring 36 is stretched through the second protruding rod 35 while the third rack 26 moves to the right, so that the first spring 36 obtains a restoring force, when the thrust applied to the roller 39 by the cam 38 is gradually reduced, so that the third rack 26 moves to the left under the restoring force of the first spring 36, the left movement of the third rack 26 cannot drive the inner ring and the worm 27 to rotate through the outer ring and the pawl of the ratchet 25, so that the balancing weight 40 loses a centrifugal force, the sliding sleeve 43 and the collar 44 move downwards and reset under the restoring force of the second spring 42, so that the collar 44 drives the L-shaped rod 46 to move downwards and reset, so that the key switch 45 is in an open circuit state, namely, the two electromagnetic valves 37 are closed, so that the first feeding barrel 29 and the second feeding barrel 30 are prevented from feeding more air into the mixing box 32, and the worm 27 is prevented from driving the corresponding spiral vane shaft 31 to rotate through the worm 28 to feed materials, so that the intermittent feeding is realized, and the problem of uneven mixing efficiency is improved due to the multiple times of the quantitative mixing and the uneven mixing of the raw materials is solved.

The first stirring shaft 33 synchronously drives the first protruding rod 21 to rotate while rotating, so that the first protruding rod 21 applies pulling force or pushing force to the right end of the swing rod 19 through the first connecting rod 20, and the swing rod 19 swings up and down around a hinged shaft of the swing rod 19 and the suspender 18.

The swing rod 19 synchronously swings the rack II 15 up and down while swinging up and down, the rack II 15 is arc-shaped, the circle center of the rack II 15 is located at the rotation center of the swing rod 19, teeth on the outer arc of the rack II 15 are meshed with the rack I14, so that the rack II 15 drives the rack I14 to reciprocate through the teeth on the rack II, when the rack I14 moves up, the rack I14 synchronously drives the piston plate 13 to move up, and suction force is generated in the pump barrel 16, because the conduction direction of the check valve I8 points to the inside of the pump barrel 16, and the conduction direction of the check valve II 12 points to the outside of the pump barrel 16, the suction force conveys air in the mixing box 32 to the pump barrel 16 through the air pipe I6, and when the rack I14 moves down, the air in the pump barrel 16 is compressed through the piston plate 13, so that the air is discharged through the air pipe II 11, and the reciprocating, thereby discharging the air contained in the raw materials while mixing mechanism mixes various raw materials, and further improving the yield quality of diamond.

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, 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.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Claims

1. The utility model provides a blendor of synthetic diamond production, includes base (1), be fixed with portal frame (2) on base (1), and portal frame (2) go up through a plurality of branch (5) fixed connection mixing box (32), the bottom of mixing box (32) is provided with blow-off valve (3), its characterized in that: further comprising:

the stirring and mixing mechanism is used for mixing and stirring various raw materials in the mixing box (32);

the stirring and mixing mechanism comprises a cross support plate (17) fixed on a portal frame (2), the cross support plate (17) is arranged on the upper side of the mixing box (32), a motor (22) is fixed on the cross support plate (17), a first stirring shaft (33) is rotatably connected in the mixing box (32) in a rotating mode, the upper end of the first stirring shaft (33) penetrates through the upper end cover of the mixing box (32) and the cross support plate (17), and the upper end of the first stirring shaft (33) is in transmission connection with the motor (22);

the intermittent feeding mechanism is used for intermittently and quantitatively conveying various raw materials into the mixing box (32), and the stirring and mixing mechanism drives the intermittent feeding mechanism to intermittently and quantitatively convey various raw materials into the mixing box (32) while mixing the various raw materials;

the intermittent feeding mechanism comprises a first feed box (23) and a second feed box (24) which are fixed on a cross support plate (17), and a first feeding cylinder (29) and a second feeding cylinder (30) which are fixed on the outer side wall of a mixing box (32), wherein one ends of the first feeding cylinder (29) and the second feeding cylinder (30) far away from the mixing box (32) are respectively communicated with the first feed box (23) and the second feed box (24) through pipelines, electromagnetic valves (37) are respectively arranged at one ends of the first feeding cylinder (29) and the second feeding cylinder (30) close to the mixing box (32), spiral vane shafts (31) are respectively and fixedly connected in the first feeding cylinder (29) and the second feeding cylinder (30), a cam (38) is sleeved and fixedly connected on one section of the outer side wall of the mixing box (32) at the first stirring shaft (33), a rack three (26) is slidably connected on the upper surface of an upper end cover of the mixing box (32), the rack three (26) and the first stirring shaft (33) are mutually perpendicular to each other, one end of the rack three (26) points to a cam (38) and is rotatably connected with the fixed shaft (39), the cam (38), the rack three) can be in contact with the profile of the cam (38), the cam (39) and the cam (35) is connected with the side wall of the cam (35) along the cam (35), a worm (27) is rotatably connected to a fixed shaft on the support rod (5), one ends, far away from the mixing box (32), of the two spiral blade shafts (31) are coaxially and fixedly connected with a worm wheel (28), the worm (27) is meshed and connected with the two worm wheels (28) at the same time, the upper end of the worm (27) is coaxially and fixedly connected with the center of an inner ring of a ratchet wheel (25), an outer ring of the ratchet wheel (25) is meshed and connected with a third rack (26), a key switch (45) is fixed on the support rod (5), the key switch (45) is electrically connected with the two electromagnetic valves (37), the support rod (5) penetrates through and is slidably connected with an L-shaped rod (46), one end of the L-shaped rod (46) can be in abutting and buckling contact with the key switch (45), a sleeve ring (44) is fixed to the other end of the support rod (5), the sleeve ring (44) is rotatably connected to a sliding sleeve (43), the sliding sleeve (43) is sleeved and slidably connected to the bottom surface of the worm wheel (25) through a second spring (42), and the bottom surface of the sliding sleeve (43) is hinged to the other connecting rod (40) and the connecting rod (41) and the other connecting rod (41) is hinged to the inner ring (41);

and the exhaust mechanism is arranged on the portal frame (2), and drives the exhaust mechanism to exhaust the gas in the mixing box (32) while the stirring and mixing mechanism mixes and stirs various raw materials in the mixing box (32).

2. The mixer for the production of synthetic diamonds according to claim 1, wherein: fixed cantilever (10) on (mixing) shaft (33) is located one section inside upper portion lateral wall of mixing box (32), dead axle rotation is connected with (mixing) shaft two (4) on cantilever (10), and the center of rotation of (mixing) shaft two (4) and the mutual parallel arrangement of center of rotation of (mixing) shaft one (33), the coaxial fixedly connected with gear (9) in upper end of (mixing) shaft two (4), be fixed with ring gear (7) on the inside top surface of mixing box (32), and ring gear (7) and (mixing) shaft one (33) sharing the central axis, gear (9) are connected with the tooth meshing of ring gear (7) inside wall.

3. The mixer for the production of synthetic diamonds according to claim 1, wherein: the exhaust mechanism comprises a pump cylinder (16) fixed on a cross support plate (17), the interior of the pump cylinder (16) is connected with a piston plate (13) in a sliding mode, a first rack (14) is fixed on the upper surface of the piston plate (13), the first rack (14) penetrates through and is connected with the upper end wall of the pump cylinder (16) in a sliding mode, the lower end of the side wall of the pump cylinder (16) is fixed and communicated with a first air pipe (6) and a second air pipe (11), the pump cylinder (16) is communicated with the mixing box (32) through the first air pipe (6), and a filter screen (34) is fixed at the connecting end of the first air pipe (6) and the mixing box (32).

4. The mixer for the production of synthetic diamonds according to claim 3, wherein: the air pipe I (6) is connected with a one-way valve I (8), the conduction direction of the one-way valve I (8) points to the inside of the pump barrel (16), the air pipe II (11) is connected with a one-way valve II (12), and the conduction direction of the one-way valve II (12) points to the outside of the pump barrel (16).

5. The mixer for the production of synthetic diamonds according to claim 3, wherein: a hanging rod (18) is fixed on a cross beam of the portal frame (2), the lower end of the hanging rod (18) is fixed at the middle of a fixed shaft and is connected with a swing rod (19), a rack II (15) is fixed at one end of the swing rod (19), the rack II (15) is arc-shaped, the center of the circle of the rack II (15) is located at the rotating center of the swing rod (19), teeth on the outer arc of the rack II (15) are meshed with the rack I (14), the upper end of the stirring shaft I (33) is vertically and fixedly connected with a convex rod I (21), one end, far away from the stirring shaft I (33), of the convex rod I (21) is hinged to one end of a connecting rod I (20) through a spherical hinge pair, and the other end of the connecting rod I (20) is hinged to one end, far away from the rack II (15), of the swing rod (19) through a spherical hinge pair.