CN117531394A - High molecular anti-aging material reinforcing agent production raw material stirring device - Google Patents

Abstract

The invention relates to the technical field of production stirring, in particular to a high-molecular anti-aging material reinforcing agent production raw material stirring device, which comprises a stirring module, wherein a lifting module is arranged at the top of the stirring module, the stirring module comprises a stirring cylinder, a plurality of feeding pipes are communicated with the top of the side surface of the stirring cylinder, a discharging pipe is communicated with the bottom of the side surface of the stirring cylinder, and a top plate is fixedly connected with the top of the inner side surface of the stirring cylinder. In the invention, the baffle plates are rotationally connected with the inner side surfaces of the open grooves, after corresponding raw materials are filled between two adjacent baffle plates, the baffle plates on the corresponding baffle plates can be rotated downwards, and the raw materials above and below the baffle plates can be contacted with each other through the open grooves, so that the two adjacent raw materials can be mixed with each other at the same time, and finally, the two mixed liquids are mixed with the rest raw materials, more stirring devices are not required, and the two groups of raw materials can be mixed with each other at the same time, thereby being convenient to use.

Description

High molecular anti-aging material reinforcing agent production raw material stirring device

Technical Field

The invention relates to the technical field of production stirring, in particular to a raw material stirring device for producing a high-molecular anti-aging material reinforcing agent.

Background

The polymer anti-aging material generally needs to be added with a reinforcing agent in the production process, so that the strength of a molded article is higher, and when the reinforcing agent is produced, a plurality of different raw materials are generally required to be mixed, and when the reinforcing agent is produced, the raw materials are generally stirred and mixed by using a stirring device, so that the raw materials are mixed more uniformly.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide the raw material stirring device for producing the polymer anti-aging material reinforcing agent, which is characterized in that the baffle plates are rotatably connected to the inner side surfaces of the opening grooves, the baffle plates on the corresponding baffle plates can be rotated downwards after corresponding raw materials are filled between the two adjacent baffle plates, and the raw materials above and below the baffle plates can be contacted with each other through the opening grooves, so that the two adjacent raw materials can be mixed with each other at the same time, finally, two mixed liquids and the rest raw materials are mixed without arranging more stirring devices, and the two groups of raw materials can be mixed with each other at the same time, thereby being convenient to use.

The aim of the invention can be achieved by the following technical scheme:

the utility model provides a macromolecular anti-aging material reinforcing agent production raw material stirring device, includes the stirring module, the stirring module top is provided with lifting module, the stirring module includes the churn, churn side top intercommunication has a plurality of inlet pipes, churn side bottom intercommunication has the discharging pipe, churn medial surface top fixedly connected with roof, churn medial surface sliding connection has a plurality of baffles, bottom surface sliding connection has the sliding plate in the churn, baffle medial surface rotates to be connected with the rotor plate, a plurality of open slots have been seted up to the rotor plate top surface, the open slot medial surface rotates to be connected with the baffle, lifting module includes two fixed cylinders, fixed cylinder bottom surface and roof top surface fixed connection, fixed cylinder medial surface rotates to be connected with the lift lead screw, lift lead screw side bottom rotate to be connected with baffle medial surface sliding connection's pulling rod, and two pulling rod bottom and sliding plate top surface fixed connection, pulling rod side top fixedly connected with extrusion ring, fixed cylinder medial surface is provided with a plurality of button pieces.

The lifting screw rod can be rotated, the pulling rod is fixedly arranged on the sliding plate, the pulling rod can be prevented from rotating through the sliding plate, when the lifting screw rod rotates, the pulling rod can be enabled to move upwards along the lifting screw rod, the pulling rod can drive the sliding plate to move upwards, when the sliding plate contacts with the partition plate, the partition plate can be enabled to move upwards, a plurality of partition plates are enabled to move to the top of the stirring cylinder, then the partition plates can be enabled to move downwards in sequence, corresponding raw materials are conveyed between the partition plates through the feeding pipe, after the corresponding raw materials are filled between two adjacent partition plates, the baffle plate on the corresponding partition plate can be enabled to rotate downwards, at the moment, the top of the partition plate is enabled to be in contact with the raw materials at the bottom through the opening groove, and when the baffle plate is driven to rotate, the raw materials can be mixed and stirred through the baffle plate, so that two adjacent raw materials can be simultaneously mixed with each other, finally, more stirring devices are not needed to be arranged, and the mutual mixing of two groups of raw materials can be started simultaneously.

The method is further characterized in that: the stirring barrel inner side corresponds to three fixing seats fixedly connected with the top of the feeding pipe, the inner side surface of each fixing seat is slidably connected with a limiting block, the side surface of each limiting block is fixedly connected with a first reset spring fixedly connected with the inner side surface of each fixing seat, the position of each limiting block can be limited under the action of the first reset spring, and after the partition plate moves to the top of the stirring barrel, the partition plate can be limited and supported through the limiting blocks.

The method is further characterized in that: the utility model provides a top plate top surface comes both sides equal fixedly connected with motor cabinet, the inside accommodate motor that is provided with of motor cabinet, accommodate motor output transmission is connected with the transmission shaft, and transmission shaft one end fixedly connected with stripper plate, the stripper plate side is provided with the ladder type recess, at the reverse rotation of lift lead screw, make the pulling rod drive the extrusion ring down move, the extrusion ring can be through the button piece that is located the top, the extrusion ring can extrude the cambered surface of button on the button piece, push down the button on the button piece, thereby trigger the button piece, at this moment, accessible inlet pipe carries a raw materials, and the stopper can support spacing to the baffle, thereby make a raw materials carry between the baffle of sliding plate rather than the top, the pulling rod drives the extrusion ring and continues to move downwards, when the extrusion ring triggers next button piece, can make accommodate motor drive the transmission shaft and rotate, make the stripper plate rotate a certain angle, at this moment under the extrusion of stripper plate ladder type recess, can make the baffle down move a certain distance, make the baffle of bottom break through the stopper, under reset spring's effect, can make from the baffle edge to inject between adjacent baffle, at this moment, can support down the baffle through two adjacent baffle plates, at this moment, can carry the baffle downwards through the baffle, and the adjacent baffle is convenient for carrying volume, then, two adjacent material can be carried down through the baffle downwards through the baffle, and then, the volume of the material can be controlled to be carried down by the baffle.

The method is further characterized in that: two fixed cylinder top surface fixedly connected with spacing frame, and spacing frame medial surface rotates with two lift lead screw side tops and is connected, two the lift lead screw side is located spacing frame inside fixed sleeve and has toothed belt wheel, and two toothed belt wheel pass through toothed belt transmission and connect, spacing frame top surface corresponds a lift lead screw and is provided with the motor three, and motor three output is connected with a lift lead screw top transmission, and the motor three can drive a lift lead screw rotation, and a lift lead screw accessible toothed belt wheel drives another lift lead screw rotation to make two lift lead screw synchronous rotation, rise or descend the pull rod.

The method is further characterized in that: the button block is fixed, the positioning screws can be unscrewed, the positions of the button block can be adjusted according to the needs, and accordingly the conveying amount of corresponding raw materials is adjusted.

The method is further characterized in that: the inside connecting rod that all is provided with of sliding plate and rotor plate medial surface, and two adjacent connecting rods rotate to be connected, the sliding plate medial surface rotate be connected with adjacent connecting rod side sliding connection's go-between, connecting rod side sliding connection has the sliding seat of being connected with rotor plate medial surface rotation, sliding seat side fixedly connected with and adjacent baffle bottom surface contact's limiting plate, and limiting plate top surface and rotor plate bottom surface contact, rotor plate bottom surface fixedly connected with dog, the limiting plate can block the baffle bottom, supports the baffle, and the connecting rod can drive the sliding seat and rotate, and the sliding seat can drive the limiting plate and rotate, makes limiting plate and baffle stagger, and then can make the baffle rotate downwards, makes two kinds of raw materials of baffle top and bottom pass through the open slot and be connected, and when the limiting plate continues to rotate with the dog contact, the accessible dog stirs the rotor plate to make the baffle rotate and stir the raw materials.

The method is further characterized in that: the baffle is characterized in that a fixed shaft connected with the inner side face of the baffle is fixedly connected to the inner side face of the open slot, a torsion spring is arranged between the side face of the fixed shaft and the inner side face of the baffle, a ratchet ring connected with the inner side face of the baffle in a rotating mode is fixedly connected to the side face of the rotating plate, a connecting slot is formed in the inner side face of the baffle, a ratchet block meshed with the ratchet ring is slidably connected to the inner side face of the connecting slot, a reset spring II fixedly connected with the side face of the ratchet block is fixedly connected to the inner side face of the connecting slot, after the limiting plate and the baffle are staggered, the baffle can be rotated downwards under the action of the torsion spring, when the baffle is driven to rotate by the rotating plate, the baffle can be stirred by the baffle through the torsion spring, and after stirring is completed, the connecting rod can be rotated reversely, the sliding seat drives the limiting plate to rotate reversely, and the baffle is prevented from rotating reversely by the pulling rod, and under the action of the reset spring II, the ratchet block is meshed with the ratchet ring, and when the baffle can rotate reversely through the ratchet block and the ratchet ring to prevent the rotating plate from rotating reversely, the baffle to rotate reversely, the baffle can rotate upwards, so that the baffle and the baffle can be stirred and the adjacent baffle to block the opening slot again.

The method is further characterized in that: the bottom surface of the stirring cylinder is fixedly connected with a supporting frame, the bottom surface of the stirring cylinder is fixedly connected with a first motor, the output end of the first motor is in transmission connection with the bottom end of a connecting rod positioned at the bottom, a plurality of rectangular grooves are formed in the top surfaces of the connecting rods, four adjusting screw rods are arranged on the inner side surfaces of the rectangular grooves, the bottom ends of the adjusting screw rods are in rotary connection with the bottom surface in the rectangular grooves positioned at the bottom, two rectangular rods are arranged at the top and the bottom of the inside of the stirring cylinder, the side surfaces of the rectangular rods are in sliding connection with the inner side surfaces of the adjacent rectangular grooves, four rectangular rods are respectively connected with the side faces of the four adjusting screw rods in a screwing mode, one adjusting screw rod and one rectangular rod are mutually screwed, and the other three adjusting screw rods penetrate through the inside of one rectangular rod, so that the positions of the four rectangular rods can be respectively controlled through the four adjusting screw rods, when the motor rotates, the connecting rod at the bottom can be driven to rotate through the adjusting screw rods, and the rectangular rod can be driven to drive the connecting rod to rotate through the rectangular groove.

The method is further characterized in that: the fixed frame is fixedly connected with the top plate, the connecting seat is connected with the inner side face of the fixed frame in a sliding manner, the positioning screw rod connected with the inner side face of the connecting seat in a rotating manner is connected with the connecting cylinder in a rotating manner, the inner side face of the connecting seat is correspondingly connected with the connecting cylinder in a rotating manner, the top face and the bottom face of the connecting cylinder are fixedly connected with a toothed ring I which is connected with the inner side face of the connecting seat in a rotating manner, a toothed ring II is fixedly connected with a toothed ring II at the top part, the motor II is in transmission connection with a rectangular block which extends to the inner side of the connecting seat, the inner side face of the connecting seat is rotationally connected with two rotating shafts, the rectangular block is in sliding connection with the inner side face of the rotating shaft which is far away from the toothed ring II, a connecting gear is fixedly sleeved on the side face of the rotating shaft, the toothed ring II is meshed with an adjacent connecting gear, the top face of the connecting seat is fixedly connected with a rectangular seat in a meshed manner, the four toothed rings I at the top of the connecting seat is sequentially increased in height, the side face of the rectangular seat is in sliding connection with a sleeve seat, the toothed ring II is fixedly connected with a transmission gear is fixedly connected with the toothed ring II at the side face of the top, the toothed ring II is positioned at the top part and is positioned at the bottom of the top of the connecting seat, two toothed ring II is in contact with the rotating seat, and is in contact with the bottom of the rotating seat of the two toothed ring I and is meshed with the two side faces of the connecting seat.

The second motor can drive the second rectangular block to rotate, the second motor can drive the adjacent rotating shafts to rotate, the rotating shafts can drive the first toothed ring to rotate through the connecting gears, the motor can drive the connecting rods at the bottom to rotate firstly, the connecting rods at the bottom can drive the corresponding connecting rods to rotate through the rectangular rods, the connecting rods can drive the sliding seats on the connecting rods to rotate, the limiting plates on the corresponding baffle plates are staggered with the baffle plates, the baffle plates rotate downwards, the two raw materials at the top and the bottom of the corresponding baffle plates are connected through the open slots, the first toothed ring is driven to rotate through the second motor, the two groups of raw materials are firstly mixed, the second motor is driven to start, the first toothed ring is driven to rotate relative to the adjusting screw, the first toothed ring can drive the two transmission gears at the top to rotate, the transmission gears at the middle part can drive the transmission gears at the bottom to rotate, the transmission gear can rotate the rectangular seat through the sleeve seat, the rectangular seat can drive the adjusting screw rod to rotate, so that the corresponding three adjusting screw rods rotate, the adjusting screw rods rotate to enable the rectangular rods on the adjusting screw rods to move, a group of two rectangular rods positioned at the top move back to back, the rectangular rods are inserted into the rectangular grooves at the bottom, the rectangular rods positioned at the top of the group of rectangular rods move upwards, the rectangular rods are inserted into the rectangular grooves at the top of the rectangular rods, the four connecting rods at the top can be connected with each other through the rectangular rods, at the moment, when the motor I drives the connecting rods at the bottom to rotate, the four connecting rods are driven to rotate through the rectangular rods, so that limiting plates at the bottoms of a plurality of baffle plates are staggered with adjacent baffle plates to enable the baffle plates to rotate downwards, the raw materials are finally mixed, and at the same time, the motor II can continuously drive the toothed ring I to rotate along with the adjusting screw rod, after mixing, the mixed liquid can be discharged through the discharging pipe, then the connecting rod is reversely rotated through the motor, the sliding seat drives the limiting plate to reversely rotate, and the baffle is prevented from rotating through the pulling rod, so that the baffle can reversely rotate through the ratchet block and the ratchet ring, and when the limiting plate reversely rotates, the adjacent baffle can be stirred to upwardly rotate, so that the baffle can plug the open slot again, and then the next raw material mixing can be carried out.

Then, the motor II can be started only, the first toothed ring is driven to rotate relative to the adjusting screw rod, the first toothed ring can drive the two transmission gears at the top to rotate, the transmission gears at the middle can drive the transmission gears at the bottom to rotate, the transmission gears can drive the rectangular seat to rotate through the sleeve seat, so that the corresponding three adjusting screw rods rotate, the adjusting screw rods can be rotated to enable the rectangular rods on the adjusting screw rods to move, the two rectangular rods at the top are enabled to move away from each other, the rectangular rods are enabled to be inserted into the rectangular grooves at the bottom, the rectangular rods at the top of a group of two rectangular rods are enabled to move upwards, the rectangular rods are inserted into the rectangular grooves at the top of the rectangular rods, so that the four connecting rods at the top are connected through the rectangular rods, and when the motor drives the connecting rods at the bottom to rotate, the four connecting rods are driven through the rectangular rods, limiting plates at the bottom of all baffle plates are staggered with adjacent baffle plates, the baffle plates are enabled to rotate downwards, the baffle plates are enabled not to block the open grooves, and all raw materials are enabled to be mixed through the open grooves.

The method is further characterized in that: four the adjusting screw tops are provided with the cover frame, the top surface rotates in the cover frame and is connected with the locating frame that slides and peg graft with adjacent adjusting screw top, and the top of adjusting screw is connected spacing through the locating frame to the cover frame accessible.

The invention has the beneficial effects that:

1. the baffle is rotationally connected with the inner side surface of the opening groove, the sliding plate can be moved upwards by pulling the rod, a plurality of baffle plates are moved to the top of the stirring cylinder, then the baffle plates can be sequentially moved downwards, corresponding raw materials are conveyed between the baffle plates through the feeding pipe, when the extrusion ring is contacted with the corresponding button block, the next baffle plate can be moved downwards and the next raw material is conveyed to the space between the next baffle plates when the button is pressed down, so that the conveying amount of the raw materials is controlled by the extrusion ring to trigger the button block, quantitative discharging is facilitated, after the corresponding raw materials are filled between the two adjacent baffle plates, the baffle plates on the corresponding baffle plates can be rotated downwards, at the moment, the raw materials above the baffle plates and below the baffle plates can be mutually contacted through the opening groove, when the baffle plates are driven to rotate, the raw materials can be mixed and stirred through the baffle plates, so that the two adjacent raw materials can be simultaneously mixed with each other, finally, more stirring devices are not required, and the two groups of raw materials can be simultaneously mixed with each other, so that the use is facilitated;

2. through four rectangular bars respectively with four accommodate the screw rod and close the connection soon, an accommodate the screw rod with correspond one rectangular bar and close soon, and an accommodate the screw rod and pass inside three other rectangular bars, the rotation of accessible four accommodate the screw rod is control four rectangular bars's position respectively like this, can make adjacent two rectangular bars be a set of, can make a set of rectangular bar remove in the connecting rod that corresponds, the bottom plate connecting rod accessible accommodate the screw rod with rectangular bar drive correspond the connecting rod rotate, thereby open the baffle on the baffle that corresponds, adjacent two kinds of raw materials mix, and after mixing, accessible accommodate the screw rod makes rectangular bar remove, make rectangular bar remove the junction of adjacent two connecting rods, thereby pass through rectangular bar connection, make the connecting rod synchronous rotation, thereby with the baffle all open, can remove rectangular bar to corresponding position as required, thereby select to mix adjacent two raw materials or mix three kinds of raw materials simultaneously, it is comparatively nimble to use, adapt to the production of multiple reinforcing agent.

Drawings

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

FIG. 1 is a schematic view of the overall structure of the device of the present invention;

FIG. 2 is a schematic view of the internal structure of the stirring module in the present invention;

FIG. 3 is a schematic view of a lifting module according to the present invention;

FIG. 4 is a schematic view of the front view of the inside of the stationary barrel of the present invention;

FIG. 5 is a schematic bottom view of the stationary drum of the present invention;

FIG. 6 is a schematic view of the top plate structure of the present invention;

FIG. 7 is a schematic top view of the interior of the mixing drum of the present invention;

FIG. 8 is a schematic diagram of the internal front view of the fixing base of the present invention;

FIG. 9 is a schematic view of the front view of the inside of the support frame of the present invention;

FIG. 10 is a schematic view of a separator structure in accordance with the present invention;

FIG. 11 is a schematic view of the bottom structure of the separator of the present invention;

FIG. 12 is a schematic view of the internal elevation of the separator of the present invention;

FIG. 13 is a schematic view of the internal structure of the connecting rod of the present invention;

FIG. 14 is a schematic view showing the internal structure of the connector base according to the present invention;

FIG. 15 is a schematic view showing the internal structure of the connecting cylinder according to the present invention;

fig. 16 is a schematic diagram showing the front view of the interior of the socket according to the present invention.

In the figure: 100. a stirring module; 110. a stirring cylinder; 111. a support frame; 112. a feed pipe; 113. a discharge pipe; 114. a sliding plate; 115. a fixing seat; 116. a limiting block; 117. a first reset spring; 118. a first motor; 120. a top plate; 130. a connecting rod; 131. a rectangular groove; 140. a partition plate; 141. a rotating plate; 1411. a stop block; 142. an open slot; 143. a baffle; 144. a fixed shaft; 145. a torsion spring; 146. a connecting groove; 147. a ratchet ring; 148. a ratchet block; 149. a second reset spring; 150. a sliding seat; 151. a limiting plate; 160. adjusting a screw rod; 161. a rectangular seat; 162. screwing the ring; 163. a limiting ring; 170. a rectangular rod; 180. a fixed frame; 181. a connecting seat; 182. positioning a screw rod; 183. a second motor; 184. a rectangular block; 185. a rotating shaft; 186. a connecting gear; 187. a connecting cylinder; 188. a first toothed ring; 189. a second toothed ring; 190. a cover frame; 191. a positioning frame; 200. a lifting module; 210. a fixed cylinder; 220. pulling the rod; 221. a pressing ring; 230. lifting the screw rod; 240. a button block; 241. a positioning block; 242. a set screw; 250. a third motor; 260. a limit frame; 300. a motor base; 310. an extrusion plate; 400. a socket is sleeved; 410. a transmission gear.

Detailed Description

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

Referring to fig. 1-16, a stirring device for producing raw materials for a polymer anti-aging material reinforcing agent includes a stirring module 100, a lifting module 200 is disposed at the top of the stirring module 100, the stirring module 100 includes a stirring cylinder 110, a plurality of feeding pipes 112 are connected to the top of the side surface of the stirring cylinder 110, a discharging pipe 113 is connected to the bottom of the side surface of the stirring cylinder 110, a top plate 120 is fixedly connected to the top of the inner side surface of the stirring cylinder 110, a plurality of partition plates 140 are slidably connected to the inner bottom surface of the stirring cylinder 110, a sliding plate 114 is slidably connected to the inner side surface of the partition plates 140, a rotating plate 141 is rotatably connected to the inner side surface of the partition plates 140, a plurality of open grooves 142 are formed in the top surface of the rotating plate 141, a baffle 143 is rotatably connected to the inner side surface of the open grooves 142, the lifting module 200 includes two fixing cylinders 210, a lifting screw 230 is fixedly connected to the bottom surface of the fixing cylinder 210, a pulling rod 220 is slidably connected to the inner side surface of the partition plates 140, the bottom ends of the two pulling rods 220 are fixedly connected to the top surfaces of the sliding plate 114, an extruding ring 221 is fixedly connected to the side surface of the pulling rod 220, and a plurality of button blocks 240 are disposed on the inner side surface of the fixing cylinder 210.

The lifting screw 230 can be rotated, since the pulling rod 220 is fixedly arranged on the sliding plate 114, the pulling rod 220 can be prevented from rotating through the sliding plate 114, when the lifting screw 230 rotates, the pulling rod 220 can be moved upwards along the lifting screw 230, the pulling rod 220 can drive the sliding plate 114 to move upwards, when the sliding plate 114 contacts with the partition plate 140, the partition plate 140 can be moved upwards, so that a plurality of partition plates 140 can be moved to the top of the stirring cylinder 110, then the partition plates 140 can be sequentially moved downwards, corresponding raw materials are conveyed between the partition plates 140 through the feeding pipe 112, after the corresponding raw materials are filled between two adjacent partition plates 140, the baffle 143 on the corresponding partition plates 140 can be rotated downwards, at the moment, the raw materials at the top and the bottom of the partition plates 140 can be mutually contacted through the opening grooves 142, and when the baffle 143 is driven to rotate by the rotating plate 141, the raw materials can be mixed and stirred through the baffle 143, so that two adjacent raw materials can be simultaneously mixed with each other, and finally, two mixed liquids and other raw materials do not need to be provided with more stirring devices, and the mutual mixing of the two groups of raw materials can be simultaneously started.

The stirring barrel 110 inner side is fixedly connected with three fixing seats 115 corresponding to the top of the feeding pipe 112, the inner side surface of each fixing seat 115 is slidably connected with a limiting block 116, the side surface of each limiting block 116 is fixedly connected with a first reset spring 117 fixedly connected with the inner side surface of each fixing seat 115, the position of each limiting block 116 can be limited under the action of the corresponding first reset spring 117, and after the partition 140 is moved to the top of the stirring barrel 110, the partition 140 can be limited and supported through the corresponding limiting block 116.

The motor base 300 is fixedly connected to the two sides of the top surface of the top plate 120, an adjusting motor is arranged in the motor base 300, the output end of the adjusting motor is in transmission connection with a transmission shaft, one end of the transmission shaft is fixedly connected with the extrusion plate 310, a stepped groove is arranged on the side surface of the extrusion plate 310, when the lifting screw 230 reversely rotates to enable the pulling rod 220 to drive the extrusion ring 221 to move downwards, the extrusion ring 221 can pass through the button block 240 positioned at the top, the extrusion ring 221 can extrude the cambered surface of a button on the button block 240 to press the button on the button block 240, thereby triggering the button block 240, at the moment, a raw material can be conveyed through one feeding pipe 112, the limiting block 116 can support and limit the partition plate 140, thus a raw material is conveyed between the sliding plate 114 and the partition plate 140 at the top thereof, the pulling rod 220 drives the extrusion ring 221 to move downwards continuously, when the extrusion ring 221 triggers the next button block 240, the adjusting motor can drive the transmission shaft to rotate, the transmission shaft can drive the extrusion plate 310 to rotate, the extrusion plate 310 rotates by a certain angle, at this time, under the extrusion of the stepped groove of the extrusion plate 310, the partition plate 140 can move downwards by a certain distance, the partition plate 140 at the bottom breaks through the limiting block 116, at this time, under the action of the first reset spring 117, the limiting block 116 can be inserted between two adjacent partition plates 140 from the arc-shaped edge of the partition plate 140, at this time, the bottom partition plate 140 continues to move downwards, and the limiting block 116 will support the partition plate 140 at the top again, then the next raw material can be conveyed through the next feeding pipe 112, so that the raw material is conveyed between the two adjacent partition plates 140, and the conveying quantity of the raw material can be controlled by triggering the button block 240 through the extrusion ring 221, so that quantitative blanking is facilitated.

The top surface of the two fixing barrels 210 is fixedly connected with a limit frame 260, the inner side surface of the limit frame 260 is rotationally connected with the tops of the side surfaces of the two lifting screw rods 230, the side surfaces of the two lifting screw rods 230 are fixedly sleeved with toothed belt wheels inside the limit frame 260, the two toothed belt wheels are in transmission connection through toothed belts, the top surface of the limit frame 260 is provided with a motor III 250 corresponding to one lifting screw rod 230, the output end of the motor III 250 is in transmission connection with the top end of one lifting screw rod 230, the motor III 250 can drive one lifting screw rod 230 to rotate, and one lifting screw rod 230 can drive the other lifting screw rod 230 to rotate through the toothed belt wheels, so that the two lifting screw rods 230 synchronously rotate to lift or lower the pulling rod 220.

The two sides of the button block 240 are fixedly connected with the positioning block 241 which is in sliding connection with the side of the fixed cylinder 210, the side of the positioning block 241 is fixedly connected with the positioning screw 242 which is abutted with the side of the fixed cylinder 210, the positioning screw 242 can be abutted on the fixed cylinder 210, so that the position of the positioning block 241 is limited, the button block 240 is fixed, the positioning screw 242 can be unscrewed, the position of the button block 240 is adjusted according to the requirement, the conveying amount of corresponding raw materials is adjusted, a plurality of inserting grooves can be formed in the fixed cylinder 210 corresponding to the positioning screw 242, the positioning screw 242 is inserted into the inserting grooves, and the fixing stability of the button block 240 is improved.

The inside and the rotor plate 141 medial surface of sliding plate 114 all are provided with connecting rod 130, and two adjacent connecting rods 130 rotate to be connected, sliding plate 114 medial surface rotates to be connected with the go-between of being connected with adjacent connecting rod 130 side sliding connection, connecting rod 130 side sliding connection has the sliding seat 150 of being connected with rotor plate 141 medial surface rotation, sliding seat 150 side fixedly connected with and adjacent baffle 143 bottom surface contact limiting plate 151, and limiting plate 151 top surface and rotor plate 141 bottom surface contact, rotor plate 141 bottom surface fixedly connected with dog 1411, limiting plate 151 can block the baffle 143 bottom, support baffle 143, connecting rod 130 can drive sliding seat 150 rotation, sliding seat 150 can drive limiting plate 151 rotation, make limiting plate 151 and baffle 143 stagger, at this moment can make baffle 143 rotate downwards, make two kinds of raw materials of baffle 140 top and bottom pass through open slot 142 connection, and when limiting plate 151 continues to rotate and contact with dog 1411, accessible dog 1411 stirs rotor plate 141 and rotates, thereby make baffle 143 rotate and stir the raw materials.

The inner side of the opening groove 142 is fixedly connected with a fixed shaft 144 which is rotationally connected with the inner side of the baffle 143, a torsion spring 145 is arranged between the side of the fixed shaft 144 and the inner side of the baffle 143, the side of the rotating plate 141 is fixedly connected with a ratchet ring 147 which is rotationally connected with the inner side of the baffle 140, the inner side of the baffle 140 is provided with a connecting groove 146, the inner side of the connecting groove 146 is slidingly connected with a ratchet block 148 which is meshed with the ratchet ring 147, the inner side of the connecting groove 146 is fixedly connected with a return spring II 149 which is fixedly connected with the side of the ratchet block 148, after the limiting plate 151 is staggered with the baffle 143, the baffle 143 can be rotated downwards under the action of the torsion spring 145, and when the baffle 143 is driven to rotate by the rotating plate 141, the baffle 143 can be kept at the position of the baffle 143 approximately through the torsion spring 145, after the stirring is completed, the connecting rod 130 can be rotated reversely, the sliding seat 150 can drive the limiting plate 151 to rotate reversely, and the baffle 140 can be prevented from rotating reversely by the pulling rod 220, and under the action of the return spring II 149, the ratchet block 148 is meshed with the ratchet ring 147, thus the baffle 140 can be prevented from rotating reversely, and the baffle 142 can be rotated reversely, and the baffle 142 can be blocked and rotated upwards.

The bottom surface fixedly connected with braced frame 111 of churn 110, churn 110 bottom surface fixedly connected with motor one 118, motor one 118 output and the connecting rod 130 bottom transmission that is located the bottom are connected, rectangular groove 131 has all been seted up to a plurality of connecting rod 130 top surfaces, a plurality of rectangular groove 131 medial surface is provided with four accommodate screw 160, accommodate screw 160 bottom and the rectangular groove 131 internal bottom rotation that is located the bottom are connected, churn 110 inside top and bottom all are provided with two rectangular bars 170, and rectangular bar 170 side and adjacent rectangular groove 131 medial surface sliding connection, four rectangular bars 170 are connected with four accommodate screw 160 side screwing respectively, one accommodate screw 160 and one rectangular bar 170 mutually screw, and three other accommodate screw 160 pass inside one rectangular bar 170, the position of four rectangular bars 170 is controlled respectively to four accommodate screw 160 like this, when motor one 118 rotates, the connecting rod 130 that can drive the bottom rotates, the connecting rod 130 that can drive rectangular bar 170 rotation through accommodate screw 160, rectangular bar 170 can drive rectangular bar 170 through accommodate rectangular groove 131 and drive rectangular bar 170 through rectangular bar 170.

The top surface of the top plate 120 is fixedly connected with a fixed frame 180, the inner side surface of the fixed frame 180 is slidingly connected with a connecting seat 181, the top surface of the fixed frame 180 is rotationally connected with a positioning screw rod 182 rotationally connected with the inner side surface of the connecting seat 181, the inner side surface of the connecting seat 181 corresponds to the adjusting screw rod 160 and is rotationally connected with a connecting cylinder 187, the top surface and the bottom surface of the connecting cylinder 187 are fixedly connected with a toothed ring I188 rotationally connected with the inner side surface of the connecting seat 181, the side surface of the toothed ring I188 positioned at the top is fixedly connected with a toothed ring II 189, the top surface of the fixed frame 180 is fixedly connected with a motor II 183, the output end of the motor II 183 is in transmission connection with a rectangular block 184 extending into the connecting seat 181, the inner side surface of the connecting seat 181 is rotationally connected with two rotating shafts 185, the rectangular block 184 is slidably connected with the inner side surface of the rotating shaft 185 far away from the second toothed ring 189, the side surface of the rotating shaft 185 is fixedly sleeved with a connecting gear 186, the second toothed ring 189 is meshed and driven with the adjacent connecting gear 186, the top of the side surface of the adjusting screw 160 is fixedly connected with a rectangular seat 161, the heights of the four rectangular seats 161 are sequentially increased, the side surface of the rectangular seat 161 is slidably connected with a sleeved seat 400, the side surface of the sleeved seat 400 is fixedly connected with a transmission gear 410, the first toothed ring 188 positioned at the top is meshed and driven with the two transmission gears 410 positioned at the top, the two transmission gears 410 positioned at opposite angles are meshed with each other, the bottom of the side surface of the rectangular seat 161 is fixedly connected with a limiting ring 163 contacted with the bottom surface of the sleeved seat 400, and the top of the side surface of the adjusting screw 160 is rotatably connected with a screwing ring 162 contacted with the top surface of the sleeved seat 400.

The screwing ring 162 and the limiting ring 163 can limit the position of the sleeve base 400, the height of the rectangular base 161 is increased in sequence, so that two adjacent transmission gears 410 can be staggered with each other by a certain distance, the situation that the first toothed ring 188 is meshed with two mutually meshed diagonal transmission gears 410 and blocked with each other is avoided, the second motor 183 can drive the rectangular block 184 to rotate, the second rectangular block 184 can drive the adjacent rotating shaft 185 to rotate, the rotating shaft 185 can drive the second toothed ring 189 to rotate through the connecting gear 186, thereby rotating the first toothed ring 188, the first motor 118 can drive the connecting rod 130 at the bottom to rotate, the bottom connecting rod 130 can drive the corresponding connecting rod 130 to rotate through the rectangular rod 170, the connecting rod 130 can drive the sliding base 150 on the connecting rod to rotate, the limiting plate 151 on the corresponding baffle 140 is staggered with the baffle 143, the baffle 143 rotates downwards, the two raw materials at the top and the bottom of the corresponding baffle 140 are connected through the open groove 142, simultaneously, the first toothed ring 188 is enabled to rotate along with the adjusting screw 160 through the second motor 183, so that two groups of raw materials are firstly mixed, the second motor 183 is enabled to drive the first toothed ring 188 to rotate relative to the adjusting screw 160, the first toothed ring 188 can stir the two transmission gears 410 positioned at the top to rotate, the transmission gears 410 positioned at the middle can stir the transmission gears 410 positioned at the bottom to rotate, the transmission gears 410 can rotate the rectangular seat 161 through the sleeve seat 400, the rectangular seat 161 can drive the adjusting screw 160 to rotate, thereby enabling the corresponding three adjusting screws 160 to rotate, the adjusting screw 160 can rotate to enable the rectangular rods 170 on the rectangular seat to move, a group of two rectangular rods 170 positioned at the top to move back to back, thereby enabling the rectangular rods 170 to be inserted into the rectangular grooves 131 at the bottom, enabling the rectangular rods 170 positioned at the top to move upwards, thereby enabling the rectangular rods 170 to be inserted into the rectangular grooves 131 at the top, thus, the top four connecting rods 130 can be connected with each other through the rectangular rod 170, when the motor one 118 drives the bottom connecting rod 130 to rotate, the four connecting rods 130 are driven to rotate through the rectangular rod 170, so that the limiting plates 151 at the bottoms of the plurality of baffle plates 140 are staggered from the adjacent baffle plates 143, the baffle plates 143 rotate downwards, raw materials are finally mixed, the motor two 183 can continuously drive the toothed ring one 188 to rotate along with the adjusting screw 160, after mixing, mixed liquid can be discharged through the discharging pipe 113, then the connecting rod 130 is reversely rotated through the motor one 118, the sliding seat 150 drives the limiting plates 151 to reversely rotate, and the baffle plates 140 can reversely rotate through the ratchet blocks 148 and the ratchet rings 147 because the pulling rod 220 prevents the baffle plates 140 from rotating through the ratchet rings 147, and when the limiting plates 151 reversely rotate, the adjacent baffle plates 143 can be stirred to upwards, so that the baffle plates 143 can be plugged up the open grooves 142 again, and then the next raw material mixing can be carried out.

Then, only the motor two 183 is started, the first toothed ring 188 is driven to rotate relative to the adjusting screw 160, the first toothed ring 188 can drive the two transmission gears 410 at the top to rotate, the transmission gears 410 at the middle can drive the transmission gears 410 at the bottom to rotate, the transmission gears 410 can drive the rectangular seat 161 to rotate through the sleeve seat 400, so that the corresponding three adjusting screw 160 rotate, the adjusting screw 160 can enable the rectangular rods 170 on the adjusting screw to move, the two rectangular rods 170 at the top are enabled to move oppositely, the rectangular rods 170 are enabled to be inserted into the rectangular grooves 131 at the bottom, the rectangular rods 170 at the top of the group of two rectangular rods 170 are enabled to move upwards, the rectangular rods 170 are enabled to be inserted into the rectangular grooves 131 at the top of the group of two rectangular rods 170, and therefore the four connecting rods 130 at the top are connected through the rectangular rods 170, when the motor one 118 drives the connecting rods 130 at the bottom to rotate, the four connecting rods 130 are driven through the rectangular rods 170, the limiting plates 151 at the bottom of all the baffle plates 140 are staggered with the adjacent baffle plates 143, the baffle plates 143 are enabled to rotate downwards, and all the baffle plates 143 are enabled not to block the opening grooves 142, and all raw materials are enabled to pass through the opening grooves 142.

The screwing ring 162 can be unscrewed, the sleeving seat 400 is taken down from the rectangular seat 161, the adjusting screw rod 160 is rotated according to the requirement, the rectangular rod 170 is moved into the corresponding connecting rod 130, the baffle 143 on which baffle 140 is opened when the initial mixing is carried out according to the requirement, the top and the bottom of the baffle are mixed, or the baffles 143 on two adjacent baffles 140 are opened, the three raw materials are mixed first, the sleeving seat 400 is arranged on the corresponding adjusting screw rod 160 again, the positioning screw rod 182 is rotated, the height of the connecting seat 181 is adjusted, the height of the toothed ring one 188 is adjusted, the toothed ring one 188 at the bottom is meshed with the two transmission gears 410 at the bottom according to the requirement, when the motor two 183 drives the toothed ring one 188 to rotate relative to the adjusting screw rod 160, the corresponding rectangular rod 170 is moved into the corresponding rectangular groove 131, and the connecting rods 130 are smoothly connected through the rectangular rod 170, so that the use is flexible.

The top of four adjusting screw 160 is provided with lid frame 190, and the top surface rotates in the lid frame 190 is connected with the locating frame 191 that slides the grafting with adjacent adjusting screw 160 top, and the top of adjusting screw 160 is connected spacing through locating frame 191 to lid frame 190.

Working principle: when the lifting device is used, the motor III 250 is started, one lifting screw rod 230 is driven to rotate by the motor III 250, two lifting screw rods 230 can synchronously rotate through the toothed belt wheels, the pulling rod 220 is fixedly arranged on the sliding plate 114, so that the pulling rod 220 can be prevented from rotating, when the lifting screw rod 230 rotates, the pulling rod 220 can move upwards along the lifting screw rod 230, the pulling rod 220 can drive the sliding plate 114 to move upwards, when the sliding plate 114 contacts with the baffle plate 140, the baffle plate 140 can move upwards, so that the baffle plate 140 moves to the top of the limiting block 116, then the lifting screw rod 230 can be reversely rotated, so that the sliding plate 114 moves downwards, after the sliding plate 114 passes through the feeding pipe 112, the pressing ring 221 can press the cambered surface of a button on the button block 240, at the moment, one raw material can be conveyed through one feeding pipe 112, and the limiting block 116 can support and limit the baffle plate 140, so that one raw material is conveyed between the sliding plate 114 and the baffle plate 140 at the top of the baffle plate 114;

When the push ring 221 is triggered by the push ring 221 to continuously move downwards, the push plate 310 is driven by the adjusting motor to rotate a certain angle through the transmission shaft by the push rod 220, at the moment, the partition plate 140 can be moved downwards under the extrusion of the stepped groove of the push plate 310, the partition plate 140 at the bottom breaks through the limiting block 116, after the partition plate 140 breaks through, the limiting block 116 can be inserted between two adjacent partition plates 140 from the arc edge of the partition plate 140 under the action of the first reset spring 117, the bottom partition plate 140 is moved downwards, the limiting block 116 can support the partition plate 140 at the top again, then the next raw material can be conveyed through the next feed pipe 112, the raw material enters the top of the partition plate 140, and the raw material is conveyed between the two adjacent partition plates 140;

after the stirring cylinder 110 is divided into a plurality of spaces by the partition plate 140 to respectively convey corresponding raw materials, the motor one 118 can drive the connecting rod 130 at the bottom to rotate, the connecting rod 130 can drive the rectangular rod 170 to rotate through the adjusting screw rod 160, the rectangular rod 170 can drive the adjacent connecting rod 130 to rotate, the connecting rod 130 can drive the sliding seat 150 on the connecting rod 130 to rotate, the sliding seat 150 can drive the limiting plate 151 to rotate, the limiting plate 151 is far away from the adjacent baffle 143 to rotate, after the limiting plate 151 is staggered with the adjacent baffle 143, under the action of the torsion spring 145, the baffle 143 can be downwards rotated, two raw materials at the top and the bottom of the corresponding partition plate 140 are connected through the opening groove 142, and when the limiting plate 151 is continuously rotated to be contacted with the stop block 1411, the stop block 1411 can stir the rotating plate 141 to rotate, at this time, the two groups of raw materials can be mixed two by two, the motor two 183 can be started simultaneously, the motor two 183 can drive the rectangular block 184 to rotate, the adjacent rotating shaft 185 can be driven by the rotating shaft 185 to rotate, the connecting gear wheel 186 can drive the toothed ring two to rotate, and the toothed ring 188 can rotate the adjusting screw ring 188;

After the mixing is completed, the motor II 183 is started to drive the toothed ring I188 to rotate relative to the adjusting screw 160, the toothed ring I188 can stir the two transmission gears 410 positioned at the top to rotate, the transmission gears 410 positioned at the middle can stir the transmission gears 410 positioned at the bottom to rotate, the transmission gears 410 can drive the rectangular seat 161 to rotate through the sleeve seat 400, the rectangular seat 161 can drive the adjusting screw 160 to rotate, so that the corresponding three adjusting screws 160 rotate, the adjusting screw 160 rotates to move the rectangular rods 170 on the adjusting screw 160, a group of two rectangular rods 170 positioned at the top move back to each other, so that the rectangular rods 170 are inserted into the rectangular grooves 131 at the bottom, a group of rectangular rods 170 positioned at the top are upwards moved, so that the rectangular rods 170 are inserted into the rectangular grooves 131 at the top, and thus the four connecting rods 130 at the top can be mutually connected through the rectangular rods 170, when the motor one 118 drives the bottom connecting rod 130 to rotate, the four connecting rods 130 are driven to rotate through the rectangular rods 170, so that the limiting plates 151 at the bottoms of the plurality of clapboards 140 are staggered from the adjacent baffle plates 143, the baffle plates 143 rotate downwards to mix the raw materials finally, the motor two 183 can continuously drive the toothed ring one 188 to rotate along with the adjusting screw rod 160, after the mixing is finished, the mixed liquid can be discharged through the discharging pipe 113, then the connecting rod 130 rotates reversely through the motor one 118, the sliding seat 150 drives the limiting plates 151 to rotate reversely, and the baffle plates 140 rotate reversely due to the fact that the pulling rods 220 prevent the baffle plates 140 from rotating reversely through the ratchet blocks 148 and the ratchet rings 147, when the limiting plates 151 rotate reversely, the adjacent baffle plates 143 can be stirred to rotate upwards, so that the baffle plates 143 block the open grooves 142 again, and then the next raw material mixing can be carried out;

The cover frame 190 can be opened, the screwing ring 162 is unscrewed from the adjusting screw 160, at this time, the sleeving seat 400 can be removed from the rectangular seat 161, then the adjusting screw 160 can be rotated according to the requirement, the position of the rectangular rod 170 is adjusted, the rectangular rod 170 is moved into the corresponding connecting rod 130, the top and bottom raw materials of the corresponding partition 140 are mixed firstly according to the requirement, the sleeving seat 400 is arranged on the corresponding adjusting screw 160 again according to the requirement, and when the motor II 183 drives the toothed ring I188 to rotate relative to the adjusting screw 160, the corresponding rectangular rod 170 can be moved, and the connecting rods 130 are connected smoothly through the rectangular rod 170.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is merely illustrative and explanatory of the invention, as various modifications and additions may be made to the particular embodiments described, or in a similar manner, by those skilled in the art, without departing from the scope of the invention or exceeding the scope of the invention as defined in the claims.

Claims (10)

1. The utility model provides a macromolecule anti-aging material reinforcing agent production raw material stirring device, its characterized in that, including stirring module (100), stirring module (100) top is provided with elevating module (200), stirring module (100) are including churn (110), churn (110) side top intercommunication has a plurality of inlet pipes (112), churn (110) side bottom intercommunication has discharging pipe (113), churn (110) medial surface top fixedly connected with roof (120), churn (110) medial surface sliding connection has a plurality of baffles (140), bottom sliding connection has sliding plate (114) in churn (110), baffle (140) medial surface rotation is connected with rotating plate (141), a plurality of open slot (142) have been seted up to rotating plate (141) top surface, open slot (142) medial surface rotation is connected with baffle (143), elevating module (200) are including two fixed cylinders (210), fixed cylinder (210) bottom surface and roof (120) top surface fixedly connected with, lead screw fixed cylinder (210) medial surface rotation is connected with elevating plate (230), elevating plate (220) bottom surface (220) and two sliding connection of lead screw (220) sliding connection with sliding plate (114), the top of the side surface of the pulling rod (220) is fixedly connected with an extrusion ring (221), and the inner side surface of the fixed barrel (210) is provided with a plurality of button blocks (240).

2. The stirring device for the production raw materials of the high-molecular anti-aging material reinforcing agent according to claim 1, wherein three fixing seats (115) are fixedly connected to the top of a feeding pipe (112) corresponding to the inner side face of the stirring cylinder (110), limiting blocks (116) are slidably connected to the inner side faces of the fixing seats (115), and reset springs (117) fixedly connected to the inner side faces of the fixing seats (115) are fixedly connected to the side faces of the limiting blocks (116).

3. The stirring device for the production raw materials of the high-molecular anti-aging material reinforcing agent according to claim 1, wherein motor bases (300) are fixedly connected to two sides of the top surface of the top plate (120), an adjusting motor is arranged in the motor bases (300), a transmission shaft is connected to the output end of the adjusting motor in a transmission mode, an extrusion plate (310) is fixedly connected to one end of the transmission shaft, and stepped grooves are formed in the side faces of the extrusion plate (310).

4. The stirring device for the production raw materials of the high-molecular anti-aging material reinforcing agent according to claim 1, wherein the top surfaces of the two fixed cylinders (210) are fixedly connected with a limit frame (260), the inner side surfaces of the limit frame (260) are rotationally connected with the top surfaces of the side surfaces of the two lifting screw rods (230), the side surfaces of the two lifting screw rods (230) are positioned in the limit frame (260) and fixedly sleeved with toothed belt wheels, the two toothed belt wheels are in transmission connection through toothed belts, the top surface of the limit frame (260) is provided with a motor III (250) corresponding to one lifting screw rod (230), and the output end of the motor III (250) is in transmission connection with the top end of one lifting screw rod (230).

5. The stirring device for the production raw materials of the high-molecular anti-aging material reinforcing agent according to claim 1, wherein two side surfaces of the button block (240) are fixedly connected with a positioning block (241) which is in sliding connection with the side surface of the fixed cylinder (210), and the side surface of the positioning block (241) is fixedly connected with a positioning screw (242) which is abutted with the side surface of the fixed cylinder (210).

6. The high-molecular anti-aging material reinforcing agent production raw material stirring device according to claim 1, wherein connecting rods (130) are arranged inside the sliding plate (114) and on the inner side surface of the rotating plate (141), two adjacent connecting rods (130) are connected in a rotating mode, a connecting ring which is connected with the side surface of the adjacent connecting rod (130) in a sliding mode is connected with the inner side surface of the sliding plate (114), a sliding seat (150) which is connected with the inner side surface of the rotating plate (141) in a sliding mode is connected with the side surface of the sliding seat (150) in a sliding mode, a limiting plate (151) which is in contact with the bottom surface of the adjacent baffle (143) is fixedly connected with the top surface of the limiting plate (151) and the bottom surface of the rotating plate (141), and a stop block (1411) is fixedly connected with the bottom surface of the rotating plate (141).

7. The device for stirring production raw materials of high-molecular anti-aging material reinforcing agents according to claim 6, wherein the inner side surface of the opening groove (142) is fixedly connected with a fixed shaft (144) rotationally connected with the inner side surface of the baffle plate (143), a torsion spring (145) is arranged between the side surface of the fixed shaft (144) and the inner side surface of the baffle plate (143), a ratchet ring (147) rotationally connected with the inner side surface of the baffle plate (140) is fixedly connected with the side surface of the rotating plate (141), a connecting groove (146) is formed in the inner side surface of the baffle plate (140), a ratchet block (148) meshed with the ratchet ring (147) is slidingly connected with the inner side surface of the connecting groove (146), and a reset spring II (149) fixedly connected with the side surface of the ratchet block (148) is fixedly connected with the inner side surface of the connecting groove (146).

8. The device for stirring production raw materials of high-molecular anti-aging material reinforcing agents according to claim 6, wherein a supporting frame (111) is fixedly connected to the bottom surface of the stirring barrel (110), a motor one (118) is fixedly connected to the bottom surface of the stirring barrel (110), the output end of the motor one (118) is in transmission connection with the bottom end of a connecting rod (130) positioned at the bottom, a plurality of rectangular grooves (131) are formed in the top surfaces of the connecting rods (130), four adjusting screw rods (160) are arranged on the inner side surfaces of the rectangular grooves (131), the bottom ends of the adjusting screw rods (160) are rotatably connected with the inner bottom surfaces of the rectangular grooves (131) positioned at the bottom, two rectangular rods (170) are respectively arranged at the top and the bottom inside of the stirring barrel (110), the side surfaces of the rectangular rods (170) are in sliding connection with the inner side surfaces of adjacent rectangular grooves (131), and the four rectangular rods (170) are respectively in rotary joint with the side surfaces of the four adjusting screw rods (160).

9. The device for stirring raw materials for producing a polymer anti-aging material according to claim 8, wherein the top surface of the top plate (120) is fixedly connected with a fixed frame (180), the inner side surface of the fixed frame (180) is slidably connected with a connecting seat (181), the top surface of the fixed frame (180) is rotatably connected with a positioning screw (182) rotatably connected with the inner side surface of the connecting seat (181), the inner side surface of the connecting seat (181) is rotatably connected with a connecting cylinder (187) corresponding to the adjusting screw (160), the top surface and the bottom surface of the connecting cylinder (187) are fixedly connected with a toothed ring I (188) rotatably connected with the inner side surface of the connecting seat (181), the side surface of the toothed ring I (188) at the top is fixedly connected with a toothed ring II (189), the top surface of the fixed frame (180) is fixedly connected with a motor II (183), the output end of the motor II (183) is in transmission connection with a rectangular block (184) extending to the inner side surface of the connecting seat (181), the inner side surface of the connecting seat (181) is rotatably connected with two rotating shafts (185), the rectangular block (184) is in transmission connection with two rotating shafts (186), the rectangular block (185) is in transmission connection with the side surfaces (186) far from the rotating shafts (185), the rotating shafts (185) and the inner side surfaces of the rotating shafts (185) are in a transmission ring II (186), the utility model discloses a screw-type adjusting device, including adjusting screw (160) side top fixedly connected with rectangular seat (161), four rectangular seat (161) highly increase in proper order, rectangular seat (161) side sliding connection has cup joints seat (400), cup joints seat (400) side fixedly connected with drive gear (410), tooth ring one (188) that are located the top and two drive gear (410) meshing transmission that are located the top, and be located two drive gear (410) intermeshing of diagonal angle, rectangular seat (161) side bottom fixedly connected with and cup joint seat (400) bottom surface contact spacing ring (163), adjusting screw (160) side top spin be connected with cup joint seat (400) top surface contact spin ring (162).

10. The stirring device for the production raw materials of the high-molecular anti-aging material reinforcing agent according to claim 8, wherein cover frames (190) are arranged at the tops of the four adjusting screw rods (160), and positioning frames (191) which are in sliding connection with the tops of the adjacent adjusting screw rods (160) are rotatably connected to the inner top surfaces of the cover frames (190).