CN111701493A - Multifunctional chondroitin sulfate powder mixing machine - Google Patents

Abstract

The invention provides a multifunctional chondroitin sulfate powder mixing machine which comprises a supporting seat, a placing hole, a supporting leg, a left vertical plate, a right vertical plate, a PLC (programmable logic controller), a driving switch, a rotatable mixing drum structure, a lower connecting drum, a first sealing cover, an upper connecting drum, a second sealing cover, a connecting pipe frame structure, an adjustable supporting plate frame structure and an air pump, wherein the placing hole is formed in the middle part inside the supporting seat; the supporting legs are respectively installed on the periphery of the lower surface of the supporting seat through screws; the left vertical plate is welded on the left side of the upper end of the supporting seat; the right vertical plate is welded on the right side of the upper end of the supporting seat. The invention has the beneficial effects that: through the setting of rotatable mixing drum structure, after driving this second motor, can cooperate second reduction gear and rotatory pipe to drive and mix the box board at a middle section of thick bamboo internal rotation, can make middle section of thick bamboo positive direction rotation like this, make and mix box board antiport, the messenger material that can be better mixes and processes.

Description

Multifunctional chondroitin sulfate powder mixing machine

Technical Field

The invention belongs to the technical field of chondroitin sulfate powder processing, and particularly relates to a multifunctional chondroitin sulfate powder mixing machine.

Background

The powder mixer is a mechanical device which uniformly mixes two or more kinds of powder (including different batches) by utilizing conditions such as mechanical force, gravity and the like. In the production and processing procedure of medicines, the indispensable step is to mix the same powder or different powder in different batches according to a certain proportion, and the powder mixing equipment is indispensable equipment in the technological process. Due to the particularity of the pharmaceutical industry, the mixing properties place more and more demands on the equipment: the mixing uniformity of the mixture is high, the mixing speed is high, the residue of the materials in the container is less, the equipment is simple, firm and durable, the operation is convenient, the inspection, the sampling and the cleaning are convenient, the mechanical equipment needs to be rust-proof and corrosion-resistant, the surface of the container is smooth, and the working parts can be detached and cleaned; the motor equipment and the electric control device can be explosion-proof, moisture-proof and dustproof, and meet the requirements of environmental protection and safe operation.

However, the existing chondroitin sulfate powder mixing machine has the problems of poor mixing effect and efficiency in the working process and inconvenience in height adjustment so as to be suitable for storage materials in containers of different sizes.

Therefore, the invention discloses a multifunctional chondroitin sulfate powder mixing machine which is very necessary.

Disclosure of Invention

In order to solve the technical problems, the invention provides a multifunctional chondroitin sulfate powder mixing machine, which aims to solve the problems that the existing chondroitin sulfate powder mixing machine is poor in mixing effect and efficiency in the working process and is inconvenient to adjust the height so as to be suitable for storing materials in containers with different sizes. The multifunctional chondroitin sulfate powder mixing machine comprises a supporting seat, a placing hole, a supporting leg, a left vertical plate, a right vertical plate, a PLC, a driving switch, a rotatable mixing drum structure, a lower connecting drum, a first sealing cover, an upper connecting drum, a second sealing cover, a connecting pipe frame structure, an adjustable supporting plate frame structure and an air pump, wherein the placing hole is formed in the middle of the inside of the supporting seat; the supporting legs are respectively installed on the periphery of the lower surface of the supporting seat through screws; the left vertical plate is welded on the left side of the upper end of the supporting seat; the right vertical plate is welded on the right side of the upper end of the supporting seat; the PLC bolt is installed on the left surface of the left vertical plate, and meanwhile, the front surface of the PLC is electrically connected with the driving switch; the rotatable mixing drum structure is arranged between the adjustable supporting plate frame structure and the adjustable supporting plate frame structure; the lower connecting cylinder and the upper connecting cylinder are respectively welded at the upper end and the lower end of the rotatable mixing cylinder structure; the first sealing cover is in threaded connection with the upper end of the lower connecting cylinder; the second sealing cover is in threaded connection with the lower end of the upper connecting cylinder; the connecting pipe frame structure is arranged on the left side of the front end of the rotatable mixing barrel structure; the adjustable supporting plate frame structure is arranged at the upper ends of the left vertical plate and the right vertical plate; the air pump is arranged at the lower end of the connecting pipe frame structure; the rotatable mixing barrel structure comprises a middle barrel, a right connector, a left connector, a first speed reducer, a first motor and a secondary stirring air outlet pipe frame structure, wherein an upper connecting barrel is welded at the upper end of the middle barrel, and a lower connecting barrel is welded at the lower end of the middle barrel; the right connector is welded in the middle of the right end of the middle cylinder; the left connector is welded in the middle of the left end of the middle cylinder; the first motor bolt is arranged at the lower end of the first speed reducer; and the secondary stirring air outlet pipe frame structure is arranged on the left side inside the middle barrel.

As shown in the attached drawings, in the above embodiment, specifically, the secondary stirring vent pipe frame structure includes a mounting base, a second speed reducer, a second motor, a rotating pipe, an air inlet, a connecting shell, a mixing box plate, a first air outlet and a second air outlet, the second speed reducer is mounted at the left end of the mounting base through a bolt, the left end of the second speed reducer is connected with an output shaft key of the second motor, and the right end of the second speed reducer is connected with the rotating pipe key; the second motor bolt is arranged at the left end of the second speed reducer; the rotating pipe is inserted into the middle cylinder and the left connector; the air inlet is arranged on the left of the front side in the rotating pipe; the connecting shell is welded on the right side of the outer wall of the rotating pipe; the mixing box plates are respectively welded at the upper end and the lower end of the connecting shell; the first air outlet is formed in the right side of the inside of the rotary pipe; the second air outlet is arranged at the front side inside the mixing box plate.

As shown in the attached drawings, in the above embodiments, specifically, the connecting pipe frame structure includes a wrapping shell, a wrapping cavity, a supporting bearing, a sealing ring, an assembling head and a connecting hose, the wrapping shell is provided with the wrapping cavity therein, and the wrapping cavity is sleeved on the left side of the outer wall of the rotating pipe; the supporting bearings are respectively embedded in the left side and the right side of the inner wall of the wrapping cavity, and are respectively sleeved on the left side in the rotating pipe; the sealing rings are respectively embedded into the left end and the right end of the supporting bearing and the left side and the right side of the inner wall of the wrapping cavity; the assembling head is welded at the front end of the wrapping shell.

As shown in the attached drawings, in the above embodiments, specifically, the adjustable supporting plate frame structure includes a sleeving plate, an adjusting hole, a threaded lifting rod, a manual cross rod, an assembling plate, a limiting edge and a limiting groove, and the sleeving plate is welded to the upper ends of a right vertical plate and a left vertical plate respectively; the adjusting hole is formed in the middle of the inner part of the sleeving and connecting plate; the limiting edges are respectively welded on the left side and the right side of the front part and the rear part of the inner wall of the adjusting hole; the limiting grooves are respectively arranged at four corners of the outer wall of the assembling plate.

Preferably, the right connector and the left connector at the left end and the right end of the middle cylinder are respectively installed in the assembling plate through bearings.

Preferably, the left end of the first speed reducer is in key connection with the right connector, and the output shaft of the first motor is in key connection with the first speed reducer.

Preferably, the mixing box plates are respectively inserted into the middle barrel, and the mixing box plates are connected with a second motor on the second speed reducer through a rotating pipe.

Preferably, the rotating pipe is connected with the air pump through an air inlet hole and a connecting pipe frame structure.

Preferably, the second air outlet holes are provided with a plurality of air outlet holes, part of the second air outlet holes are communicated with the connecting shell, the connecting shell is communicated with the mixing box plate respectively, and the second air outlet holes in the front end of the mixing box plate are provided with a plurality of air outlet holes.

Preferably, the wrapping shell is mounted on the rotating pipe through two supporting bearings.

Preferably, one end of the connecting hose is sleeved at the front end of the assembling head, the other end of the connecting hose is sleeved at the upper end of the air pump, and the assembling head is communicated with the rotary pipe and the air inlet hole through the wrapping cavity.

Preferably, the threaded lifting rod is in threaded connection with the upper portion inside the socket plate, and the assembling plate is mounted at the lower end of the threaded lifting rod through a bearing, so that the assembling plate can be driven to lift conveniently.

Preferably, the limiting edge and the limiting groove are respectively provided with a plurality of limiting edges and are matched with each other.

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

1. in the invention, the right connector and the left connector at the left end and the right end of the middle cylinder are respectively arranged in the assembling plate through bearings, and the middle cylinder is conveniently matched with the lower connecting cylinder and the upper connecting cylinder at the upper end and the lower end to rotate in the using process, so that different materials are assisted to be mixed.

2. In the invention, the left end of the first speed reducer is in key connection with the right connector, the output shaft of the first motor is in key connection with the first speed reducer, and the first motor is reasonably matched with the first speed reducer to drive the middle cylinder to rotate and use.

3. According to the invention, the mixing box plates are respectively inserted into the middle barrel, and meanwhile, the mixing box plates are connected with the second motor on the second speed reducer through the rotating pipe, and after the second motor is driven, the mixing box plates can be driven to rotate in the middle barrel by matching with the second speed reducer and the rotating pipe, so that the middle barrel can rotate in the positive direction, the mixing box plates can rotate in the reverse direction, and materials can be better mixed and processed.

4. In the invention, the rotary pipe is connected with the air pump through the air inlet hole and the connecting pipe frame structure, so that the gas is injected into the rotary pipe through the connecting pipe frame structure to reach the middle cylinder for use.

5. In the invention, the plurality of second air outlets are arranged, part of the second air outlets are communicated with the connecting shell, the connecting shell is respectively communicated with the mixing box plate, the plurality of second air outlets are arranged at the front end of the mixing box plate, and the air is conveniently discharged and mixed again in the process of stirring and mixing materials driven by the mixing box plate, so that the effect of the gas mixing material and the efficiency in working are improved.

6. According to the invention, the two wrapping shells are arranged on the rotating pipe through the supporting bearings, so that the wrapping shells can be conveniently rotated and used through the supporting bearings in cooperation with the rotating pipe when being arranged, and gas transmission and working can be better carried out.

7. In the invention, a plurality of sealing rings are arranged, and the rubber rings are adopted as the sealing rings, so that the outer sides of the inner walls of the wrapping cavities are conveniently sealed, and the gas is better conveyed and utilized.

8. In the invention, one end of the connecting hose is sleeved at the front end of the assembling head, the other end of the connecting hose is sleeved at the upper end of the air pump, the assembling head is communicated with the rotary pipe and the air inlet hole through the wrapping cavity and is conveniently connected with the rotary pipe through the air pump, so that air is conveyed into the rotary pipe and the work of mixing materials is assisted.

9. According to the invention, the threaded lifting rod is in threaded connection with the upper part inside the socket plate, the assembling plate is arranged at the lower end of the threaded lifting rod through a bearing and is convenient to drive the assembling plate to lift, so that the assembling plate can be matched with the lower connecting cylinder, the upper connecting cylinder and the middle cylinder to reach different heights for use, and material containers with different sizes can be placed below the lower connecting cylinder, the upper connecting cylinder and the middle cylinder for storing materials.

10. In the invention, the limiting edges and the limiting grooves are respectively provided with a plurality of limiting edges and are matched with each other, so that the assembly plate is convenient to limit, and the assembly plate can be lifted and used better.

11. In the invention, the outer wall of the manual cross rod is provided with the straight anti-slip lines, and the manual cross rod is welded at the upper end of the threaded lifting rod, so that the manual cross rod can be held by a hand to drive the threaded lifting rod to rotate and be adjusted for use.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of a rotatable mixing drum configuration of the present invention.

Fig. 3 is a schematic structural diagram of a secondary stirring gas outlet pipe frame structure of the invention.

Fig. 4 is a schematic diagram of the structure of the jointed pipe frame of the present invention.

Fig. 5 is a schematic structural view of an adjustable support panel frame structure of the present invention.

Fig. 6 is a schematic electrical wiring diagram of the present invention.

In the figure:

1. a supporting seat; 2. placing holes; 3. supporting legs; 4. a left riser; 5. a right vertical plate; 6. a PLC; 7. a drive switch; 8. a rotatable mixing drum structure; 81. an intermediate barrel; 82. a right connector; 83. a left connector; 84. a first decelerator; 85. a first motor; 86. a secondary stirring air outlet pipe frame structure; 861. a mounting seat; 862. a second decelerator; 863. a second motor; 864. rotating the tube; 865. an air inlet; 866. a connecting shell; 867. a mixing box plate; 868. a first air outlet hole; 869. a second air outlet; 9. a lower connecting cylinder; 10. a first sealing cover; 11. an upper connecting cylinder; 12. a second sealing cover; 13. connecting a pipe frame structure; 131. wrapping the shell; 132. a packaging cavity; 133. a support bearing; 134. a seal ring; 135. assembling the head; 136. a connecting hose; 14. the structure of the supporting plate frame can be adjusted; 141. sleeving and connecting plates; 142. an adjustment hole; 143. a threaded lifting rod; 144. a manual cross bar; 145. assembling a plate; 146. a limiting edge; 147. a limiting groove; 15. an air pump.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in fig. 1 to 2, the multifunctional chondroitin sulfate powder mixing machine comprises a supporting seat 1, a placing hole 2, a supporting leg 3, a left vertical plate 4, a right vertical plate 5, a PLC6, a driving switch 7, a rotatable mixing drum structure 8, a lower connecting drum 9, a first sealing cover 10, an upper connecting drum 11, a second sealing cover 12, a connecting pipe frame structure 13, an adjustable supporting plate frame structure 14 and an air pump 15, wherein the placing hole 2 is formed in the middle of the supporting seat 1; the supporting legs 3 are respectively installed on the periphery of the lower surface of the supporting seat 1 through screws; the left vertical plate 4 is welded on the left side of the upper end of the supporting seat 1; the right vertical plate 5 is welded on the right side of the upper end of the supporting seat 1; the PLC6 bolt is installed on the left surface of the left vertical plate 4, and the front surface of the PLC6 is electrically connected with a driving switch 7; the rotatable mixing drum structure 8 is arranged between the adjustable supporting plate frame structure 14 and the adjustable supporting plate frame structure 14; the lower connecting cylinder 9 and the upper connecting cylinder 11 are respectively welded at the upper end and the lower end of the rotatable mixing cylinder structure 8; the first sealing cover 10 is in threaded connection with the upper end of the lower connecting cylinder 9; the second sealing cover 12 is in threaded connection with the lower end of the upper connecting cylinder 11; the connecting pipe frame structure 13 is arranged on the left side of the front end of the rotatable mixing barrel structure 8; the adjustable supporting plate frame structure 14 is arranged at the upper ends of the left vertical plate 4 and the right vertical plate 5; the air pump 15 is arranged at the lower end of the connecting pipe frame structure 13; the rotatable mixing barrel structure 8 comprises a middle barrel 81, a right connector 82, a left connector 83, a first speed reducer 84, a first motor 85 and a secondary stirring air outlet pipe frame structure 86, wherein the upper end of the middle barrel 81 is welded with an upper connecting barrel 11, and the lower end of the middle barrel 81 is welded with a lower connecting barrel 9; the right connector 82 is welded in the middle of the right end of the middle cylinder 81; the left connector 83 is welded in the middle of the left end of the middle cylinder 81; the first motor 85 is mounted at the lower end of the first speed reducer 84 through bolts; and the secondary stirring air outlet pipe frame structure 86 is arranged on the left side inside the middle barrel 81.

As shown in fig. 3, in the above embodiment, specifically, the secondary stirring exhaust pipe rack structure 86 includes a mounting base 861, a second speed reducer 862, a second motor 863, a rotating pipe 864, an air inlet 865, a connecting shell 866, a mixing box plate 867, a first air outlet 868 and a second air outlet 869, where the second speed reducer 862 is bolted to a left end of the mounting base 861, and meanwhile, a left end of the second speed reducer 862 is in key connection with an output shaft of the second motor 863 and a right end of the second speed reducer 862 is in key connection with the rotating pipe 864; the second motor 863 is mounted at the left end of the second reducer 862 through a bolt; the rotary tube 864 is inserted into the middle cylinder 81 and the left connector 83; the air inlet 865 is formed in the left side of the front side inside the rotary tube 864; the connecting shell 866 is welded on the right side of the outer wall of the rotary tube 864; the mixed box plates 867 are respectively welded at the upper end and the lower end of the connecting shell 866; the first air outlet hole 868 is formed on the right side inside the rotary tube 864; the second air outlet hole 869 is arranged at the front side inside the mixing box plate 867.

As shown in fig. 4, in the above embodiment, specifically, the connecting pipe frame structure 13 includes a wrapping shell 131, a wrapping cavity 132, a supporting bearing 133, a sealing ring 134, an assembling head 135 and a connecting hose 136, the wrapping cavity 132 is opened inside the wrapping shell 131, and the wrapping cavity 132 is sleeved on the left side of the outer wall of the rotating pipe 864; the supporting bearings 133 are respectively embedded in the left side and the right side of the inner wall of the wrapping cavity 132, and the supporting bearings 133 are respectively sleeved on the left side inside the rotating tube 864; the sealing rings 134 are respectively embedded at the left and right ends of the supporting bearing 133 and the left and right sides of the inner wall of the wrapping cavity 132; the assembling head 135 is welded to the front end of the wrapping case 131.

In the above embodiment, as shown in fig. 5, specifically, the adjustable supporting plate frame structure 14 includes a socket plate 141, an adjusting hole 142, a threaded lifting rod 143, a manual cross bar 144, an assembling plate 145, a limiting edge 146 and a limiting groove 147, wherein the socket plate 141 is welded to the upper ends of the right vertical plate 5 and the left vertical plate 4 respectively; the adjusting hole 142 is formed in the middle of the interior of the sheathing plate 141; the limiting edges 146 are respectively welded at the left side and the right side of the front part and the rear part of the inner wall of the adjusting hole 142; the limiting grooves 147 are respectively formed at four corners of the outer wall of the assembling plate 145; rotating the manual cross bar 144 rotates the screw-thread lifting bar 143 and, in turn, raises the assembly plate 145, thus driving the lower connecting cylinder 9, the middle cylinder 81 and the upper connecting cylinder 11 to a suitable height.

In the above embodiment, specifically, the right connector 82 and the left connector 83 at the left and right ends of the middle cylinder 81 are respectively installed in the assembling plate 145 through bearings, so that the middle cylinder 81 can be conveniently matched with the lower connecting cylinder 9 and the upper connecting cylinder 11 at the upper and lower ends to rotate in the using process, thereby assisting different materials to be mixed.

In the above embodiment, specifically, the left end of the first speed reducer 84 is connected with the right connector 82 in a key manner, the output shaft of the first motor 85 is connected with the first speed reducer 84 in a key manner, and the first motor 85 is reasonably matched with the first speed reducer 84 to drive the middle cylinder 81 to rotate and use.

In the above embodiment, specifically, the mixing box plates 867 are respectively inserted into the middle cylinder 81, and the mixing box plates 867 are connected to the second motor 863 of the second speed reducer 862 through the rotating tube 864, so that after the second motor 863 is driven, the mixing box plates 867 can be driven to rotate in the middle cylinder 81 by matching the second speed reducer 862 with the rotating tube 864, and thus the middle cylinder 81 can be rotated in a forward direction, the mixing box plates 867 can be rotated in a reverse direction, and materials can be better mixed and processed.

In the above embodiment, specifically, the rotary tube 864 is connected to the air pump 15 through the air inlet holes 865 and the connecting tube frame structure 13, so that the air is injected into the rotary tube 864 through the connecting tube frame structure 13 and then reaches the intermediate barrel 81 for use.

In the above embodiment, it is concrete, second venthole 869 be provided with a plurality ofly, partial second venthole 869 and the shell 866 intercommunication of connecting simultaneously, the shell 866 of connecting communicate with mixed boxboard 867 respectively, the second venthole 869 of mixed boxboard 867 front end be provided with a plurality ofly, drive the material stirring mixing process at mixed boxboard 867, be convenient for give vent to anger and mix once more to the effect and the efficiency of during operation of gaseous mixed material have been increased.

In the above embodiment, specifically, the wrapping shell 131 is mounted on the rotating tube 864 through the supporting bearing 133, and two supporting bearings 133 are provided, so that the wrapping shell 131 can be mounted and simultaneously rotated and used through the supporting bearing 133 in cooperation with the rotating tube 864, thereby better performing gas transmission and working.

In the above embodiment, specifically, the sealing rings 134 are provided in multiple numbers, and the rubber rings are used as the sealing rings 134 to seal the outer side of the inner wall of the wrapping cavity 132, so that the gas can be better delivered and utilized.

In the above embodiment, specifically, one end of the connection hose 136 is sleeved on the front end of the assembly head 135, the other end is sleeved on the upper end of the air pump 15, and the assembly head 135 is communicated with the rotary tube 864 and the air inlet 865 through the wrapping cavity 132, so as to be connected with the rotary tube 864 through the air pump 15, thereby conveying air into the rotary tube 864 and assisting in the work of mixing materials.

In the above embodiment, specifically, the threaded lifting rod 143 is in threaded connection with the upper portion inside the socket plate 141, and the assembling plate 145 is installed at the lower end of the threaded lifting rod 143 through a bearing, so as to drive the assembling plate 145 to lift, and thus the lower connecting cylinder 9, the upper connecting cylinder 11 and the middle cylinder 81 reach different heights to be used in cooperation, and further material containers with different sizes are placed below the lower connecting cylinder 9, the upper connecting cylinder 11 and the middle cylinder 81 to store materials.

In the above embodiment, specifically, the limiting edge 146 and the limiting groove 147 are respectively provided in a plurality and are adapted to each other, so that the assembling plate 145 is limited, and therefore the lifting and the use can be better performed.

In the above embodiment, specifically, the outer wall of the manual cross bar 144 is provided with a straight anti-slip thread, and the manual cross bar 144 is welded at the upper end of the threaded lifting rod 143, so that the manual cross bar 144 can be held by a hand to drive the threaded lifting rod 143 to rotate and adjust for use.

In the above embodiment, specifically, the mounting seat 861 is bolted to the left surface of the assembly plate 145 at the upper end of the left vertical plate 4.

In the above embodiment, specifically, the PLC6 is a PLC of model FX 2N-48.

In the above embodiment, specifically, the air pump 15 is an air pump of SHXKYJ01 type.

In the above embodiment, specifically, the first motor 85 is a motor with a model number GH 28-750W-15S.

In the above embodiment, specifically, the second motor 863 is a motor with a model number GH 28-750W-15S.

In the above embodiment, specifically, the driving switch 7 is electrically connected to an input terminal of the PLC6, the air pump 15 is electrically connected to an output terminal of the PLC6, the first motor 85 is electrically connected to an output terminal of the PLC6, and the second motor 863 is electrically connected to an output terminal of the PLC 6.

Principle of operation

The working principle of the invention is as follows: when the material mixing device is used, the second sealing cover 12 or the first sealing cover 10 is opened, proportioned materials are poured into the lower connecting cylinder 9, the upper connecting cylinder 11 and the middle cylinder 81, then the second sealing cover 12 and the first sealing cover 10 are closed, when the material mixing device is used, the first motor 85 and the second motor 863 are respectively driven, so that the first motor 85 is matched with the first speed reducer 84 to drive the first motor 85, the middle cylinder 81, the left connector 83, the upper connecting cylinder 11 and the lower connecting cylinder 9 to rotate, the second motor 863 is driven to drive the rotary pipe 864 and the mixing box plate 867 to rotate, so that the materials can be mixed and stirred, in the working process, the air pump 15 is driven to enable air to enter the packaging cavity 132 through the connecting hose 136 and the assembling head 135, then enter the rotary pipe 864 and the mixing box plate 867 through the air inlet 865, and finally reach the lower connecting cylinder 9 through the first air outlet hole 868 and the second air outlet hole 869, Go up in connecting cylinder 11 and middle section of thick bamboo 81 to the work of supplementary stirring mixture, better mix and process the material like this, when the material is got rid of to needs, rotatory manual horizontal pole 144 drives screw thread lifter 143 rotatory, and make the equipment board 145 rise along with it, can drive connecting cylinder 9 down like this, middle section of thick bamboo 81 and last connecting cylinder 11 reach suitable height, place the container at last and place in placing hole 2, and be in the below of middle section of thick bamboo 81, open the sealed lid 12 of second or first sealed lid 10 at last and can pour down connecting cylinder 9, go up the material in connecting cylinder 11 and the middle section of thick bamboo 81, thereby accomplish work.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.

Claims (10)

1. The multifunctional chondroitin sulfate powder mixing machine is characterized by comprising a supporting seat (1), a placing hole (2), supporting legs (3), a left vertical plate (4), a right vertical plate (5), a PLC (6), a driving switch (7), a rotatable mixing drum structure (8), a lower connecting drum (9), a first sealing cover (10), an upper connecting drum (11), a second sealing cover (12), a connecting pipe frame structure (13), an adjustable supporting plate frame structure (14) and an air pump (15), wherein the placing hole (2) is formed in the middle of the inside of the supporting seat (1); the supporting legs (3) are respectively installed on the periphery of the lower surface of the supporting seat (1) through screws; the left vertical plate (4) is welded on the left side of the upper end of the supporting seat (1); the right vertical plate (5) is welded on the right side of the upper end of the supporting seat (1); the PLC (6) is installed on the left surface of the left vertical plate (4) through a bolt, and meanwhile, the front surface of the PLC (6) is electrically connected with a driving switch (7); the rotatable mixing drum structure (8) is arranged between the adjustable supporting plate frame structure (14) and the adjustable supporting plate frame structure (14); the lower connecting cylinder (9) and the upper connecting cylinder (11) are respectively welded at the upper end and the lower end of the rotatable mixing cylinder structure (8); the first sealing cover (10) is in threaded connection with the upper end of the lower connecting cylinder (9); the second sealing cover (12) is in threaded connection with the lower end of the upper connecting cylinder (11); the connecting pipe frame structure (13) is arranged on the left side of the front end of the rotatable mixing barrel structure (8); the adjustable supporting plate frame structure (14) is arranged at the upper ends of the left vertical plate (4) and the right vertical plate (5); the air pump (15) is arranged at the lower end of the connecting pipe frame structure (13); the rotatable mixing barrel structure (8) comprises a middle barrel (81), a right connector (82), a left connector (83), a first speed reducer (84), a first motor (85) and a secondary stirring exhaust pipe frame structure (86), wherein an upper connecting barrel (11) is welded at the upper end of the middle barrel (81), and a lower connecting barrel (9) is welded at the lower end of the middle barrel (81); the right connector (82) is welded in the middle of the right end of the middle cylinder (81); the left connector (83) is welded in the middle of the left end of the middle cylinder (81); the first motor (85) is mounted at the lower end of the first speed reducer (84) through bolts; the secondary stirring air outlet pipe frame structure (86) is arranged on the left side inside the middle barrel (81); the secondary stirring air outlet pipe frame structure (86) comprises a mounting seat (861), a second speed reducer (862), a second motor (863), a rotating pipe (864), air inlet holes (865), a connecting shell (866), a mixing box plate (867), a first air outlet hole (868) and a second air outlet hole (869), wherein the second speed reducer (862) is arranged at the left end of the mounting seat (861) through bolts, meanwhile, the left end of the second speed reducer (862) is in key connection with an output shaft of the second motor (863), and the right end of the second speed reducer is in key connection with the rotating pipe (864); the second motor (863) is arranged at the left end of the second reducer (862) through a bolt; the rotary tube (864) is inserted into the middle cylinder (81) and the left connector (83); the air inlet hole (865) is formed in the left side of the front side in the rotating pipe (864); the connecting shell (866) is welded on the right side of the outer wall of the rotating tube (864); the mixed box plates (867) are respectively welded at the upper end and the lower end of the connecting shell (866); the first air outlet hole (868) is formed in the right side inside the rotary tube (864); the second air outlet hole (869) is formed in the front side of the interior of the mixing box plate (867).

2. The multifunctional chondroitin sulfate powder mixer according to claim 1, wherein the connecting tube frame structure (13) comprises a wrapping shell (131), a wrapping cavity (132), a supporting bearing (133), a sealing ring (134), an assembling head (135) and a connecting hose (136), the wrapping cavity (132) is formed in the wrapping shell (131), and the wrapping cavity (132) is sleeved on the left side of the outer wall of the rotating tube (864); the supporting bearings (133) are respectively embedded into the left side and the right side of the inner wall of the wrapping cavity (132), and the supporting bearings (133) are respectively sleeved on the left side inside the rotating tube (864); the sealing rings (134) are respectively embedded at the left end and the right end of the supporting bearing (133) and the left side and the right side of the inner wall of the wrapping cavity (132); the assembling head (135) is welded at the front end of the wrapping shell (131).

3. The multifunctional chondroitin sulfate powder mixing machine according to claim 1, wherein the adjustable supporting plate frame structure (14) comprises a sleeving connection plate (141), an adjusting hole (142), a threaded lifting rod (143), a manual cross rod (144), an assembling plate (145), a limiting edge (146) and a limiting groove (147), wherein the sleeving connection plate (141) is welded at the upper ends of a right vertical plate (5) and a left vertical plate (4) respectively; the adjusting hole (142) is formed in the middle of the inner part of the sleeving connection plate (141); the limiting edges (146) are respectively welded on the left side and the right side of the front part and the rear part of the inner wall of the adjusting hole (142); the limiting grooves (147) are respectively arranged at four corners of the outer wall of the assembling plate (145).

4. The multifunctional chondroitin sulfate powder mixer according to claim 1, wherein the right connector (82) and the left connector (83) at the left and right ends of the middle cylinder (81) are respectively mounted in the assembly plate (145) through bearings.

5. The multifunctional chondroitin sulfate powder mixer according to claim 1, wherein the left end of the first speed reducer (84) is connected with the right connector (82) in a key way, and the output shaft of the first motor (85) is connected with the first speed reducer (84) in a key way.

6. The multifunctional chondroitin sulfate mill of claim 1, wherein the mixing cage plates (867) are inserted into the middle cylinder (81), respectively, and the mixing cage plates (867) are connected to the second motor (863) of the second reducer (862) through a rotating tube (864).

7. The multifunctional chondroitin sulfate powder mixer of claim 1, wherein the rotating tube (864) is connected to the air pump (15) through an air inlet hole (865) and a connecting tube frame structure (13).

8. The multifunctional chondroitin sulfate mill of claim 2, wherein the wrapping shell (131) is mounted on the rotating tube (864) through two supporting bearings (133), and the number of the supporting bearings (133) is two.

9. The multifunctional chondroitin sulfate powder mixer according to claim 2, wherein one end of the connection hose (136) is sleeved on the front end of the assembly head (135), the other end is sleeved on the upper end of the air pump (15), and the assembly head (135) is communicated with the rotary tube (864) and the air inlet hole (865) through the wrapping cavity (132).

10. The multifunctional chondroitin sulfate powder mixer according to claim 3, wherein the threaded lifting rod (143) is screwed above the inside of the socket plate (141), and the assembling plate (145) is mounted at the lower end of the threaded lifting rod (143) through a bearing, so as to drive the assembling plate (145) to lift.

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