JP2021159906A - New process device for liquid formulation ratio mixing - Google Patents

Abstract

To disclose a new process device for liquid formulation ratio mixing.SOLUTION: A new process device for liquid formulation ratio mixing includes a box body. Liquid boxes are arranged symmetrically on an upper wall of the box body. Inside the box body, formulation ratio mechanisms located below the liquid boxes are symmetrically arranged. A motor is installed between the liquid boxes. A motor shaft is connected to a bottom wall of the motor so that it can be driven. The motor shaft is connected to the box body so as to be rotatable. The motor shaft is fixedly connected to a first gear. The first gear meshes with second gears arranged symmetrically. The right and left second gears and the first gear are both located in a first gear space. The second gears are fixedly connected to a first gear shaft. The first gear shaft is connected to the box body so as to be rotatable.SELECTED DRAWING: Figure 1

Description

The present invention takes up a new process technology field, specifically, a new process apparatus for mixing liquid mixing ratios.

The new process refers to the efficient and accurate realization of the conventional process through mechanical devices.
Current liquid mix ratio mixing requires manual operation, different mix ratios of liquids cannot be achieved accurately, purification before mixing is very cumbersome, mixing is likely to be inadequate, conventional The process does not meet today's high efficiency and accuracy requirements.

Chinese Patent Application Publication No. 1040565662

An object of the present invention provides a new process apparatus for mixing liquid mix ratios, which can solve the problems in the current technology described above.

The new process apparatus for mixing the liquid mixing ratio of the present invention includes a box body, and the liquid boxes are arranged symmetrically on the upper wall of the box body, and the liquid boxes are located in the box body below the liquid box body. The compounding ratio mechanism is arranged symmetrically, a motor is installed between the liquid boxes, a motor shaft is connected to the bottom wall of the motor so as to be transmitted, and the motor shaft can rotate with the box body. The motor shaft is fixedly connected to the first gear, the first gear meshes with the second gear arranged symmetrically, and the left and right second gear and the first gear Are all located in the first gear space, the second gear is fixedly connected to the first gear shaft, and the first gear shaft is connected so as to be rotatable with the box body. The bottom wall of the one gear shaft is fixedly connected to the first pulley, the first pulley is located in the first belt space, and a mixing mechanism is installed under the first belt space. A second pulley located behind the first pulley is installed in the first belt space, the second pulley and the first pulley are connected by the first belt, and the second pulley is a pulley. It is fixedly connected to the upper end of the shaft, the pulley shaft is connected so that it can rotate with the box body, the bottom end of the pulley shaft is fixedly connected to the third pulley, and the third pulley is the second belt space. A fourth pulley located on the front side of the third pulley is installed in the second belt space, and the fourth pulley and the third pulley are connected by the second belt. , The fourth pulley is fixedly connected to the second gear shaft, the second gear shaft is connected so as to be rotatable with the box body, and a centrifugal separation mechanism is arranged symmetrically on the outside of the second belt. Has been done.

Preferentially, the blending ratio mechanism includes a liquid blending cup installed under the liquid box, in which a liquid blending groove opened upward is formed in the liquid blending groove, in the liquid blending groove. A slide groove opened to turn the back to the motor is formed on the wall away from the motor, and a liquid mixing block opened to turn the back to the motor on the wall away from the motor in the liquid mixing cup. A groove is formed, the liquid mixing block groove is connected so as to slide with the liquid mixing block, and a rotating rod shaft is fixedly connected between the front and rear walls on the upper side of the liquid mixing block groove. Is rotatably connected to the rotating rod, floats are fixedly installed at both left and right ends of the rotating rod, and an opening is provided in the liquid mixing block groove so as to turn the back to the motor on a wall away from the motor. The rotary groove is formed, the float away from the motor is located in the rotary groove, and the rotary door shaft is fixed between the upper and lower walls at one end away from the rotary groove in the rotary groove. The rotary door shaft is connected to the rotary door so as to be rotatable, and the wall close to the motor and the rear wall of the rotary groove are connected by a pull spring at the rotary door to move up and down the liquid mixing groove. The liquid passage pipes are symmetrically and fixedly connected to the wall, the liquid passage pipe is provided with a knob, the knob is located in the knob groove, and the liquid passage on the upper side. The upper end of the tube is fixedly connected to the liquid box, and automatic on / off mechanisms are symmetrically arranged on the front and rear sides of the left and right knobs.

Preferentially, the automatic on / off mechanism includes an upper rack groove formed so as to be arranged symmetrically on the front and rear walls of the upper knob groove, and the upper rack groove includes the upper rack groove and a slide. Upper racks that are connected so as to be installed are installed, and the upper knobs located between the inner walls of the front and rear upper racks and the front and rear upper racks are engaged with each other, and the walls of the upper racks that are close to the motors. And the upper rack groove are connected by a first spring, a pull string is fixedly connected to a wall away from the motor in the upper rack, and one end of the pull string away from the motor rotates a thread winding shaft. It is fixedly connected to the float on the side away from the motor, the thread winding shaft is fixedly installed between the front and rear walls of the upper rack groove, and a rotating groove is formed on the inner wall of the upper rack groove. An upper rotation pin is installed on the right inner wall of the upper rack, and the inner end of the upper rotation pin is connected to the upper end of the swing rod so as to be rotatable, and the swing rod shaft is fixed to the outer wall of the rotation groove. , The swing rod shaft is connected so as to be rotatable with the swing rod, the bottom end of the swing rod is connected so as to be rotatable with the lower rotation pin, and the outer end of the lower rotation pin is connected to the lower rack. A lower rack groove is formed on the outer wall on the bottom side of the rotating groove, the lower rack is located in the lower rack groove, and the lower rack is connected to the lower rack groove. The lower rack is connected so as to be slidable, the wall close to the motor in the lower rack and the lower rack groove are connected by a second spring, and the inner walls of the front and rear lower racks are located between the front and rear lower racks. It meshes with the knob on the side.

Preferentially, the mixing mechanism includes a mixing space installed below the first belt space, and an inner ring gear is fixedly installed on the side wall of the mixing space, and the inner ring gear and the inner ring gear The planetary gears located in the ring are meshed, the planetary gears are meshed with the sun gears, the sun gears are fixedly connected to the bottom end of the motor shaft, and the motor shaft and the upper side of the sun gears are fixedly connected. The connecting frame rod located at is connected so as to be rotatable, the other end of the connecting frame rod is connected so as to be rotatable with the planetary wheel shaft, the planetary wheel shaft is fixedly connected to the planetary gear, and the sun gear is connected. And the fixed stirring rod located below the sun gear are fixedly connected, and the planetary gear and the rotating stirring rod located below the planetary gear are fixedly connected to the rotating stirring rod. The bottom end of the fixed stirring rod is fixedly connected to the brush, an outlet groove opened forward is formed on the front wall of the mixing space, and an outlet door is installed on the front wall of the outlet groove. ing.

Preferentially, the centrifugal separation mechanism includes a third gear arranged symmetrically, the third gear is fixedly connected to the bottom wall of the second gear shaft, and the left and right third gears are any of them. Is also located in the second gear space, the third gear and the fourth gear located on the front side of the third gear are in mesh, and the fourth gear and the bottom end of the third gear shaft are engaged with each other. Fixedly connected, the upper end of the third gear shaft is fixedly connected to the fifth pulley, the fifth pulley is located in the third belt space, and in the third belt space. A sixth pulley is installed, the sixth pulley is located in the fifth pulley in a direction away from the motor, the sixth pulley and the fourth pulley are connected by a third belt, and the sixth pulley is connected. Is fixedly connected to the centrifuge power shaft, the upper end of the centrifuge power shaft is connected so as to be transmitted to the centrifuge, and the upper end of the centrifuge is the bottom end of the lower liquid passage tube. In the centrifuge device, the side close to the motor and the mixing space are connected by a purification liquid pipe, and a waste liquid pipe is installed on the side away from the motor in the centrifuge device. In the waste liquid pipe, a wall away from the motor and a liquid storage box are fixedly connected.

Preferentially, the on / off of the liquid passage pipe can be controlled by rotating the knob in the forward and reverse directions.

The apparatus of the present invention realizes a new process of mixing liquid mixing ratios by a mechanical device, and liquids having different mixing ratios required can be automatically extracted, purified, and completely mixed, and liquids having different mixing ratios can be mixed. The mixing accuracy and efficiency have been greatly improved, the mixing ratio mechanism can automatically take out liquids with different mixing ratios by controlling the automatic on / off mechanism, and the centrifugation mechanism separates and separates the liquids. It can be purified and the mixing mechanism mixes the liquid with sufficient agitation.

In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 are the same.

FIG. 1 is a schematic structural diagram of a new process apparatus for mixing liquid mixing ratios of the present invention. FIG. 2 is a schematic view of AA of FIG. 1 according to an embodiment of the present invention. FIG. 3 is a schematic view of BB of FIG. 1 according to an embodiment of the present invention. FIG. 4 is a schematic view of CC of FIG. 2 according to an embodiment of the present invention.

The new process apparatus for mixing the liquid mixing ratio of the present invention includes the box body 10, and the liquid boxes 11 are arranged symmetrically on the upper wall of the box body 10, and the liquid box 11 is contained in the box body 10. The mixing ratio mechanism located on the lower side is arranged symmetrically, a motor 13 is installed between the liquid boxes 11, and a motor shaft 37 is connected to the bottom wall of the motor 13 so as to be transmitted. The motor shaft 37 is rotatably connected to the box body 10, the motor shaft 37 is fixedly connected to the first gear 36, and the first gear 36 meshes with the second gear 35 arranged symmetrically. The left and right second gears 35 and the first gear 36 are both located in the first gear space 39, and the second gear 35 is fixedly connected to the first gear shaft 38. , The first gear shaft 38 is connected to the box body 10 so as to be rotatable, the bottom wall of the first gear shaft 38 is fixedly connected to the first pulley 44, and the first pulley 44 is the first belt. It is located in the space 45, a mixing mechanism is installed below the first belt space 45, and a second gear located behind the first pulley 44 in the first belt space 45. A pulley 54 is installed, the second pulley 54 and the first pulley 44 are connected by a first belt 55, the second pulley 54 is fixedly connected to the upper end of the pulley shaft 53, and the pulley shaft 53 is connected. It is rotatably connected to the box body 10, the bottom end of the pulley shaft 53 is fixedly connected to the third pulley 49, and the third pulley 49 is located in the second belt space 51. A fourth pulley 52 located on the front side of the third pulley 49 is installed in the second belt space 51, and the fourth pulley 52 and the third pulley 49 are connected by the second belt 50, and the first The four pulleys 52 are fixedly connected to the second gear shaft 48, the second gear shaft 48 is connected to the box body 10 so as to be rotatable, and a centrifugal separation mechanism is bilaterally symmetrical on the outside of the second belt 50. Is located in.

Beneficially, the blending ratio mechanism includes a liquid blending cup 66 installed below the liquid box 11, wherein an upwardly open liquid blending groove 59 is formed in the liquid blending cup 66. In the liquid mixing groove 59, a slide groove 67 opened so as to turn its back to the motor 13 is formed on the wall away from the motor 13, and in the liquid mixing cup 66, the wall away from the motor 13 is formed with the motor 13. A liquid compounding block groove 60 is formed so as to turn its back to the liquid compounding block groove 60, and the liquid compounding block groove 60 is connected to the liquid compounding block 68 so as to be slidable between the front and rear walls on the upper side of the liquid compounding block groove 60. The rotating rod shaft 69 is fixedly connected, the rotating rod shaft 69 is connected to the rotating rod 70 so as to be rotatable, and floats 71 are fixedly installed at both left and right ends of the rotating rod 70 to prepare the liquid. In the block groove 60, a rotary groove 18 opened so as to turn its back to the motor 13 is formed on the wall away from the motor 13, and the float 71 away from the motor 13 is located in the rotary groove 18. A rotary door shaft 41 is fixedly connected between the upper and lower walls at one end of the rotary groove 18 away from the rotary groove 18, and the rotary door shaft 41 is connected to the rotary door 40 so as to be rotatable. In the rotary door 40, the wall close to the motor 13 and the rear wall of the rotary groove 18 are connected by a pull spring 42, and the liquid passage pipes 19 are symmetrically arranged on the upper and lower walls of the liquid mixing groove 59. The knob 17 is installed in the liquid passage pipe 19, the knob 17 is located in the knob groove 20, and the upper end of the upper liquid passage pipe 19 is the liquid box. It is fixedly connected to 11, and automatic on / off mechanisms are symmetrically arranged on the front and rear sides of the left and right knobs 17.

Advantageously, the automatic on / off mechanism includes an upper rack groove 32 formed so as to be arranged symmetrically on the front and rear walls of the upper knob groove 20, and the upper rack groove 32 includes the upper rack. An upper rack 33 connected to the groove 32 so as to be slidable is installed, and the upper knob 17 located between the inner wall of the front and rear upper rack 33 and the front and rear upper rack 33 is engaged with the upper rack 33. In the rack 33, the wall close to the motor 13 and the upper rack groove 32 are connected by the first spring 34, and in the upper rack 33, the drawstring 43 is fixedly connected to the wall away from the motor 13. In the drawstring 43, one end away from the motor 13 rotates the thread winding shaft 72 and is fixedly connected to the float 71 on the side away from the motor 13, and the thread winding shaft 72 is connected to the front and rear walls of the upper rack groove 32. A rotating groove 57 is formed on the inner wall of the upper rack groove 32, an upper rotating pin 56 is installed on the right inner wall of the upper rack 33, and the inner end of the upper rack groove 56 is fixedly installed between them. It is rotatably connected to the upper end of the oscillating rod 61, and the oscillating rod shaft 58 is fixedly connected to the outer wall of the rotating groove 57 so that the oscillating rod shaft 58 can rotate with the oscillating rod 61. The bottom end of the swing rod 61 is rotatably connected to the lower rotation pin 62, and the outer end of the lower rotation pin 62 is rotatably connected to the lower rack 65. A lower rack groove 63 is formed on the outer wall on the bottom side, the lower rack 65 is located in the lower rack groove 63, and the lower rack 65 is connected to the lower rack groove 63 so as to be slidable. In the lower rack 65, the wall close to the motor 13 and the lower rack groove 63 are connected by a second spring 64, and the inner walls of the front and rear lower rack 65 are located on the lower side between the front and rear lower rack 65. It meshes with the knob 17.

Advantageously, the mixing mechanism includes a mixing space 16 installed below the first belt space 45, and an inner ring gear 15 is fixedly installed on the side wall of the mixing space 16 so that the inner ring gear 15 is installed. And the planetary gear 30 located in the ring of the inner ring gear 15 are meshed with each other, the planetary gear 30 is meshed with the sun gear 14, and the sun gear 14 is fixedly connected to the bottom end of the motor shaft 37. The motor shaft 37 and the connecting frame rod 12 located above the sun gear 14 are rotatably connected, and the other end of the connecting frame rod 12 is rotatably connected to the planetary wheel shaft 31. The planetary wheel shaft 31 is fixedly connected to the planetary gear 30, the sun gear 14 and the fixed stirring rod 28 located below the sun gear 14 are fixedly connected, and the planetary gear 30 and the planetary gear are fixedly connected. The rotating stirring rod 29 located on the lower side of the 30 is fixedly connected, and both the rotating stirring rod 29 and the bottom end of the fixed stirring rod 28 are fixedly connected to the brush 27, and the mixing space 16 An outlet groove 46 that opens forward is formed on the front wall of the outlet groove 46, and an outlet door 47 is installed on the front wall of the outlet groove 46.

Advantageously, the centrifugal separation mechanism includes a third gear 76 arranged symmetrically, the third gear 76 is fixedly connected to the bottom wall of the second gear shaft 48, and the left and right third gears are fixedly connected. Each of the gears 76 is located in the second gear space 77, and the third gear 76 and the fourth gear 78 located on the front side of the third gear 76 are in mesh with the fourth gear 78. The bottom end of the third gear shaft 79 is fixedly connected, the upper end of the third gear shaft 79 is fixedly connected to the fifth pulley 75, and the fifth pulley 75 is in the third belt space 74. The sixth pulley 24 is installed in the third belt space 74, and the sixth pulley 24 is located in the fifth pulley 75 in a direction away from the motor 13. The pulley 24 and the fourth pulley 52 are connected by a third belt 26, the sixth pulley 24 is fixedly connected to the centrifuge power shaft 25, and the upper end of the centrifuge power shaft 25 is a centrifuge device. It is connected to the centrifuge 23 so as to be able to transmit, and the upper end of the centrifuge 23 is fixedly connected to the bottom end of the liquid passage pipe 19 on the lower side, and the side of the centrifuge 23 close to the motor 13 and the said. The mixing space 16 is connected by a purification liquid pipe 73, a waste liquid pipe 22 is installed on the side away from the motor 13 in the centrifuge device 23, and a wall away from the motor 13 and liquid storage in the waste liquid pipe 22. The box 21 is fixedly connected.

Advantageously, the on / off of the liquid passage pipe 19 can be controlled by rotating the knob 17 in the forward and reverse directions.

In the initial state, the pull spring 42, the first spring 34, and the second spring 64 are all in a normal tension state.
Flow of mechanical operation of the entire device:
1. 1. The rotating door 40 is opened, liquid mixing blocks 68 of different heights are slidably mounted in the left and right liquid mixing block grooves 60 at different mixing ratios, the slide groove 67 is stopped, and the side wall of the liquid mixing groove 59 is closed. Then, the turning rod 70 tilts into the liquid mixing groove 59, closes the rotating door 40, puts the necessary liquid in the liquid boxes 11 on both sides, puts the necessary liquid in the box body 10 in reverse, and is in the liquid box 11. When the liquid enters the liquid mixing groove 59 from the upper liquid passing pipe 19 and reaches the water level corresponding to the required mixing ratio, the float 71 in the liquid mixing groove 59 moves upward to move the rotating rod 70. Rotate, rotate the float 71 in the rotary groove 18 downward, pull the drawstring 43 to move the upper rack 33 with its back to the motor 13, rotate the upper knob 17, and rotate the upper liquid. The passing pipe 19 is stopped, the upper rack 33 moves so as to turn its back to the motor 13 to rotate the swing rod 61, the lower rack 65 moves toward the motor 13, and the lower knob 17 is rotated. The lower liquid passage pipe 19 is communicated with each other.
2. The motor 13 is started, the motor shaft 37 is rotated, the first gear 36 is rotated, the second gear 35 is rotated, the first gear shaft 38 is rotated, the first pulley 44 is rotated, and the second pulley 54 is rotated. Rotate, rotate the pulley shaft 53, rotate the third pulley 49, rotate the fourth pulley 52, rotate the second gear shaft 48, rotate the third gear 76, rotate the fourth gear 78. The third gear shaft 79 is rotated, the fifth pulley 75 is rotated, the sixth pulley 24 is rotated, the centrifuge power shaft 25 is rotated, the liquid passage pipe 19 communicates with the liquid, and the liquid is centrifuged. After falling into 23, the centrifuge power shaft 25 rotates to operate the centrifuge 23 to separate and purify the liquid, and the liquid to be separated enters the liquid storage box 21 by the waste liquid pipe 22. The liquid to be mixed enters the mixing space 16 by the purification liquid tube 73, and enters the mixing space 16.
3. 3. The motor shaft 37 rotates, the sun gear 14 rotates, the fixed stirring rod 28 rotates to agitate the liquid to accelerate mixing, and the sun gear 14 rotates to rotate the planetary gear 30 at the same time as it revolves and rotates. The stirring rod 29 is rotated and revolved at the same time, and the liquid is thoroughly mixed.
4. When the device returns, the outlet door 47 is opened to take out the mixed liquid, the motor 13 is stopped, each operating component is stopped, and the rotating rod 70 is reversed after the liquid in the liquid mixing groove 59 has flowed out. Then, it returns to the initial state, the upper liquid passage pipe 19 communicates, the lower liquid passage pipe 19 is cut, and the apparatus completes the return.

The above is merely a specific embodiment of the present invention, but the scope of protection of the present invention is not limited to this. Changes and replacements that come to mind through all creative labor are covered by the scope of the invention. Therefore, the scope of protection of the present invention is based on the scope of protection in which the request for rights is limited.

Claims (6)

A liquid box is symmetrically arranged on the upper wall of the box including the box body, and a mixing ratio mechanism located below the liquid box is arranged symmetrically in the box body to form the liquid. A motor is installed between the boxes, and the motor shaft is connected to the bottom wall of the motor so that the motor shaft can be transmitted, the motor shaft is connected to the box body so as to be rotatable, and the motor shaft is connected to the first gear. The first gear is fixedly connected and meshes with the second gear arranged symmetrically, and the left and right second gears and the first gear are both located in the first gear space. The second gear is fixedly connected to the first gear shaft, the first gear shaft is connected so as to be rotatable with the box body, and the bottom wall of the first gear shaft is fixed to the first pulley. The first pulley is located in the first belt space, a mixing mechanism is installed under the first belt space, and the first pulley is in the first belt space. A second pulley located on the rear side is installed, the second pulley and the first pulley are connected by a first belt, the second pulley is fixedly connected to the upper end of the pulley shaft, and the pulley shaft is connected. Is rotatably connected to the box body, the bottom end of the pulley shaft is fixedly connected to the third pulley, the third pulley is located in the second belt space, and the second belt space. A fourth pulley located on the front side of the third pulley is installed inside, the fourth pulley and the third pulley are connected by a second belt, and the fourth pulley is fixed to the second gear shaft. The second gear shaft is connected to the box body so as to be rotatable, and the centrifugal separation mechanism is arranged symmetrically on the outside of the second belt. New process equipment. The mixing ratio mechanism includes a liquid mixing cup installed under the liquid box, and a liquid mixing groove opened upward is formed in the liquid mixing cup, and the liquid mixing groove is separated from the motor in the liquid mixing groove. A slide groove opened to turn the back to the motor is formed on the wall, and a liquid mixing block groove opened to turn the back to the motor is formed on the wall away from the motor in the liquid mixing cup. The liquid compounding block groove is connected so as to slide with the liquid compounding block, a rotating rod shaft is fixedly connected between the front and rear walls on the upper side of the liquid compounding block groove, and the rotating rod shaft rotates with the rotating rod. Floats are fixedly installed at both left and right ends of the rotating rod so as to be possible, and a rotary groove opened so as to turn the back to the motor is formed on the wall away from the motor in the liquid mixing block groove. The float away from the motor is located in the rotary groove, and the rotary door shaft is fixedly connected between the upper and lower walls at one end away from the rotary groove in the rotary groove. The rotary door shaft is rotatably connected to the rotary door, and at the rotary door, the wall close to the motor and the rear wall of the rotary groove are connected by a pull spring, and liquid passes through the upper and lower walls of the liquid mixing groove. The tubes are symmetrically and fixedly connected, the liquid passage tube is provided with a knob, the knob is located in the knob groove, and the upper end of the upper liquid passage tube is said to be said. The new process apparatus for mixing liquid mixing ratios according to claim 1, wherein the automatic on / off mechanism is symmetrically arranged on the front and rear sides of the left and right knobs, which are fixedly connected to the liquid box. The automatic on / off mechanism includes an upper rack groove formed so as to be arranged symmetrically on the front and rear walls of the knob groove on the upper side, and is connected to the upper rack groove so as to be slidable with the upper rack groove. An upper rack is installed, and the upper knob located between the front and rear inner walls of the upper rack and the front and rear upper racks are engaged with each other, and the wall close to the motor and the upper rack groove in the upper rack are engaged with each other. Is connected by a first spring, a pull string is fixedly connected to a wall away from the motor in the upper rack, and one end of the pull string away from the motor turns a thread winding shaft to separate from the motor. It is fixedly connected to the float on the side, the thread winding shaft is fixedly installed between the front and rear walls of the upper rack groove, a rotating groove is formed on the inner wall of the upper rack groove, and the right side of the upper rack is formed. An upper rotation pin is installed on the inner wall, and the inner end of the upper rotation pin is connected to the upper end of the swing rod so as to be rotatable, and the swing rod shaft is fixedly connected to the outer wall of the rotation groove. The swing rod shaft is rotatably connected to the swing rod, the bottom end of the swing rod is rotatably connected to the lower rotation pin, and the outer end of the lower rotation pin can rotate to the lower rack. Connected, a lower rack groove is formed on the outer wall on the bottom side of the rotating groove, the lower rack is located in the lower rack groove, and the lower rack is connected so as to slide with the lower rack groove. In the lower rack, the wall close to the motor and the lower rack groove are connected by a second spring, and the inner walls of the front and rear lower racks are connected to the lower knob located between the front and rear lower racks. The new process apparatus for mixing liquid mixing ratios according to claim 2, wherein they are in mesh. The mixing mechanism includes a mixing space installed below the first belt space, and an inner ring gear is fixedly installed on the side wall of the mixing space and is located in the ring of the inner ring gear and the inner ring gear. The planetary gear is meshed, the planetary gear is meshed with the sun gear, the sun gear is fixedly connected to the bottom end of the motor shaft, and a connecting frame located above the motor shaft and the sun gear. The rod is rotatably connected, the other end of the connecting frame rod is rotatably connected to the planetary wheel shaft, the planetary wheel shaft is fixedly connected to the planetary gear, and the sun gear and the sun gear are connected. The fixed stirring rod located on the lower side is fixedly connected, and the planetary gear and the rotating stirring rod located on the lower side of the planetary gear are fixedly connected, and the rotating stirring rod and the fixed stirring rod are fixedly connected. The bottom end is fixedly connected to the brush, an outlet groove opened forward is formed on the front wall of the mixing space, and an outlet door is installed on the front wall of the outlet groove. The new process apparatus for mixing the liquid mixing ratio according to claim 1. The centrifugal separation mechanism includes a third gear arranged symmetrically, the third gear is fixedly connected to the bottom wall of the second gear shaft, and the left and right third gears are both in the second gear space. The third gear and the fourth gear located on the front side of the third gear are engaged with each other, and the fourth gear and the bottom end of the third gear shaft are fixedly connected to each other. , The upper end of the third gear shaft is fixedly connected to the fifth pulley, the fifth pulley is located in the third belt space, and the sixth pulley is installed in the third belt space. The sixth pulley is located in the fifth pulley in a direction away from the motor, the sixth pulley and the fourth pulley are connected by a third belt, and the sixth pulley is powered by a centrifuge device. It is fixedly connected to the shaft, the upper end of the centrifuge power shaft is connected so as to be transmitted to the centrifuge, and the upper end of the centrifuge is fixedly connected to the bottom end of the lower liquid passage tube. In the centrifuge device, the side close to the motor and the mixing space are connected by a purification liquid pipe, and a waste liquid pipe is installed on the side away from the motor in the centrifuge device. The new process apparatus for mixing liquid mixing ratios according to claim 1, wherein a wall away from the motor and a liquid storage box are fixedly connected. The new process apparatus for mixing a liquid mixing ratio according to claim 3, wherein the on / off of the liquid passage tube can be controlled by rotating the knob in the forward and reverse directions.

Images