CN115920737A

CN115920737A - Liquid chemical raw material mixing device

Info

Publication number: CN115920737A
Application number: CN202310243767.6A
Authority: CN
Inventors: 曹玉岗; 曹峻铭; 潘华强; 张国英; 赵海刚; 赵新亭
Original assignee: Qingzhou Jinhao New Material Co ltd
Current assignee: Qingzhou Jinhao New Material Co ltd
Priority date: 2023-03-15
Filing date: 2023-03-15
Publication date: 2023-04-07

Abstract

The invention discloses a liquid chemical raw material mixing device, relates to the field of chemical raw material mixing, and comprises a main mixing tank, wherein the top of a tank support is provided with a liquid inlet assembly connected with an I-shaped sleeve ring. According to the invention, the inflow liquid component is arranged, when the raw materials to be mixed are poured into the mixing sub-tank, one end of the external pipeline can be abutted against the top of the pipe supporting pin, then the pipe supporting pin can be pressed, the external pipeline is rotated in the process, so that the external pipeline and the threaded fixed pipe are connected and fixed through threads, then the raw materials to be mixed can enter the mixing sub-tank through the flow release sleeve position pipe, the connecting position pipe, the liquid blocking connecting bin and the drainage pipe, so that the stable injection of the liquid chemical raw materials is realized, the pipeline can be reversely rotated to take down the raw materials after the raw materials are injected, so that the shielding disc can shield the top of the threaded fixed pipe, the external dust and impurities are prevented from entering the mixing main tank through the threaded fixed pipe, and the sealing property of the top of the mixing main tank is improved.

Description

Liquid chemical raw material mixing device

Technical Field

The invention relates to the field of chemical raw material mixing, in particular to a liquid chemical raw material mixing device.

Background

Chemical industry, that is, chemical industry, all of which uses chemical methods to change the composition or structure of substances or synthesize new substances, belongs to chemical production technology, that is, chemical process, the obtained products are called chemicals or chemical products, in modern life, the chemical products can not be left at any time and any place, from substance life such as clothes, food, lives and rows to spiritual life such as culture, art and entertainment, the chemical products are needed to serve the purposes, some chemical products play epoch-making important roles in human development history, their production and application even represent a certain history stage of human civilization, the chemical industry includes many, in chemical production, different liquid chemical raw materials need to be mixed to prepare other raw materials, at this moment, mixing equipment is needed to mix the raw materials.

Need mix out a raw materials earlier when partly liquid chemical raw materials mixes, the raw materials after will mixing later pours out, later mix another kind of raw materials according to the demand again, later pour the raw materials after mixing earlier into and carry out the compounding and handle, present compounding equipment is single jar structure, just need the raw materials that the staff mixed the part to pour out when mixing the raw materials in batches this moment, later mix in pouring into another mixed raw materials with it and handle, this process operation is loaded down with trivial details, the compounding efficiency has also been influenced simultaneously.

Disclosure of Invention

The invention aims to: in order to solve the problem that the rapid batch mixing treatment of raw materials is inconvenient, a liquid chemical raw material mixing device is provided.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a liquid chemical raw material mixing device, includes mixed main tank, the outside of mixing main tank is installed and is propped the tank tower, the top of propping the tank tower is fixed with the positioning seat, the motor is installed through the bolt in the top of positioning seat, the output of motor is connected with and runs through to the stirring main rod that mixes main tank is inboard, the outside of stirring main rod rotates through the bearing and is connected with I shape cover position ring, the top of mixing main tank is connected with the I shape cover position ring that is located the stirring main rod outside through the spin lock position stopper, and the inboard of I shape cover position ring is connected through the bearing rotation with the outside of stirring main rod, the bottom of I shape cover position ring is provided with the branch even liquid mixing assembly that is located mixed main tank inboard, divide even liquid mixing assembly including a plurality of mixture branch jars, a plurality of mixture branch jars distribute along the central axis equidistance of I shape cover position ring, the top of propping the tank tower is provided with the influent stream liquid assembly that links to each other with I shape cover position ring.

As a still further scheme of the invention: divide even muddy liquid subassembly still including being fixed in I shape cover position ring bottom, and with mix the even jar frame that divides the jar to link to each other, the bottom that mixes the branch jar extends to the below of even jar frame, the inboard that mixes the branch jar is provided with the stirring auxiliary rod, the bottom of stirring auxiliary rod extends to the bottom that mixes the branch jar, the bottom of stirring auxiliary rod is provided with the tooth that is located the mixture and divides jar below even dish, the outside of stirring master rod is provided with and links the dish with the main tooth that meshes from the tooth, the outside that mixes the branch jar is provided with the fluid-discharge tube, one side of even jar frame is pegged graft and is had even the pole that moves, the bottom that moves the pole even is provided with the stopper pipe cover of cup jointing in the fluid-discharge tube bottom, the outside that moves the pole even is fixed with the spring board, the top of even spring board is provided with the aversion spring that links to each other jar frame, the top seal of I shape cover position ring is carved with mixed branch jar corresponding marker tablet, the top that moves the pole even is provided with the pressure card top unit that links to each other with the main jar top of mixing.

As a still further scheme of the invention: the pressure clamping jacking unit comprises a clamping sleeve fixed at the top of a mixed main tank, the inner side of the clamping sleeve is slidably connected with a jacking plate extending to the inner side of the mixed main tank, a clamping block is fixed at the bottom of the clamping block, a jacking plate is fixed at the top of the linkage rod, a rotation limiting slot matched with the clamping block is formed in the top of the jacking plate, a fixed spring connecting plate located on two sides of the clamping block is fixed at the top of the mixed main tank, a positioning rod is fixed at one end of the fixed spring connecting plate, inclined strut rotary plates are rotatably connected to two sides of the clamping block through rotating shafts, movable spring connecting plates sleeved on the outer sides of the positioning rods are arranged on two sides of the inclined strut rotary plates, a pushing spring connected with the fixed spring connecting plates is arranged at one end of each movable spring connecting plate, the pushing spring is sleeved on the outer sides of the positioning rods, a rotation sleeve is fixed at the top of the clamping block, a hanging ring extending to the upper side of the rotation clamping sleeve is arranged on the inner side of the rotation clamping sleeve, and a first rotation sleeve is arranged on the inner side of the rotation clamping ring.

As a still further scheme of the invention: the rotary lock clamping device comprises a connecting rod fixing seat fixed at the top of an I-shaped sleeve position ring, wherein one side of the connecting rod fixing seat is connected with a rotary connecting rod in a rotating mode through a bearing, one end of the rotary connecting rod extends to the other side of the connecting rod fixing seat, two ends of the rotary connecting rod are fixedly provided with bevel gear connecting discs, the bevel gear connecting discs at two ends of the rotary connecting rod are symmetrically arranged along the vertical central axis of the rotary connecting rod, an L-shaped attaching iron plate located on the outer side of the rotary connecting rod is fixed at the top of the I-shaped sleeve position ring, a magnetic suction block is arranged on the outer side of the rotary connecting rod and located on the inner side of the L-shaped attaching iron plate, a buckling clamping rotary pin located on the inner side of the connecting rod fixing seat is fixed on the outer side of the rotary connecting rod fixing seat, a rotary fixing ring located on the outer side of the I-shaped sleeve position ring is fixed at the top of a mixing main tank, a plurality of clamping rotary fixing grooves are formed in the outer side of the rotary fixing ring, and are matched with one end of the buckling rotary clamping rotary pin, and a supporting displacement component connected with a flow feeder liquid component is arranged at the top of the I-shaped sleeve position ring.

As a still further scheme of the invention: the liquid subassembly that flows in including setting up in the drainage tube that mixes main tank top, the bottom of drainage tube extends to the inboard that mixes the main tank, and is located the top that mixes the branch jar, the top of drainage tube is fixed with hinders liquid and links the storehouse, it is fixed with even position pipe to hinder liquid even the top in storehouse, the top of linking the position pipe is connected with the sleeve position pipe that flows, the top of sleeve position pipe that flows is provided with the screw setting pipe, the inner wall of sleeve position pipe that flows is connected with the roof spring, the top of roof spring is connected with hides the thing dish, the top that hides the thing dish is fixed with props the pipe pin, it is provided with the liquid blocking device that links to each other with the top prop the aversion to hinder liquid even the inboard in storehouse.

As a still further scheme of the invention: the top bracing shifter comprises a convex position wheel arranged on the outer side of the rotary joint rod, the convex position wheel is positioned between the magnetic suction block and the bevel gear connecting disc, a telescopic sleeve is fixed at the top of the I-shaped sleeve position ring, a sleeve spring is arranged on the inner side of the telescopic sleeve, a cross sleeve supporting plate is fixed at the top of the telescopic sleeve, a top position moving pin is arranged at the bottom of the cross sleeve supporting plate, the bottom of the top position moving pin is attached to the outer side of the convex position wheel, a labor-saving sleeve plate is fixed at the top of the cross sleeve supporting plate, a rotary connecting handle is arranged at the top of one end of the labor-saving sleeve plate, the outer side of the labor-saving sleeve plate is rotatably connected with a fixed rotary sleeve ring through a bearing, a bracing plate is fixed at the outer side of the rotary sleeve ring, a sliding position groove penetrating through the other side of the bracing plate is formed in one side of the bracing plate, a movable plate is arranged on the outer side of the fixed rotary sleeve ring, the movable plate is slidably connected to the inner side of the sliding groove, and one end of the movable plate is provided with a locking connector connected with a pressure position block.

As a still further scheme of the invention: the liquid blocking device comprises a liquid blocking plug which is connected with the inner side of the liquid blocking chamber in a sliding mode, one end of the liquid blocking plug is provided with a pull plug rod extending to the outer side of the liquid blocking chamber, and the two ends of the pull plug rod are sleeved with inclined guide connecting rails connected with the movable plates.

As a still further scheme of the invention: the locking connector comprises a connecting pipe fixed on a movable plate and far away from one end of an oblique guide connecting rail, the two ends of the connecting pipe are connected with single-displacement resistance plates located on two sides of a pressure block in a rotating mode through rotating shafts, one side of each single-displacement resistance plate is connected with a second torsion connecting spring located on the inner side of the connecting pipe through a clamping groove, a limiting frame is fixed at the top of each single-displacement resistance plate, and a rotating resistance frame located on one side of the limiting frame is fixed at the top of the movable plate.

As a still further scheme of the invention: the outer wall of the object covering disc is attached to the inner wall of the thread fixed pipe, and the diameter of the inner wall of the flow releasing sleeve position pipe is larger than that of the inner wall of the thread fixed pipe.

As a still further scheme of the invention: a plurality of rotary connecting rods are distributed at the top of the I-shaped registration ring along the circle center of the I-shaped registration ring and are connected with each other through a bevel gear connecting disc.

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

1. by arranging the inflow liquid component, when raw materials to be mixed are poured into the mixing sub-tank, one end of an external pipeline can be abutted to the top of the supporting pipe pin, then the supporting pipe pin can be pressed, the external pipeline is rotated in the process, so that the external pipeline and the threaded fixed pipe are connected and fixed through threads, then the raw materials to be mixed can enter the mixing sub-tank through the flow release sleeve position pipe, the connecting position pipe, the liquid blocking connecting bin and the drainage pipe, stable injection of liquid chemical raw materials is realized, the pipeline can be reversely rotated to take down the raw materials after the raw materials are injected, so that the top of the threaded fixed pipe can be shielded by the shielding disc, external dust impurities are prevented from passing through the threaded fixed pipe to enter the mixing main tank, and the sealing property of the top of the mixing main tank is improved;

2. through the arrangement of the branch-connection liquid mixing component and the rotary lock clamping device, when raw materials to be mixed are poured into the mixing branch tank through the inflow liquid component, the stirring main rod can drive the main tooth connecting disc to rotate through the operation of the motor, the main tooth connecting disc can drive the auxiliary tooth connecting disc to rotate when rotating, so that the stirring auxiliary rod can rotate along with the rotation of the auxiliary tooth connecting disc, the liquid chemical raw materials in the mixing branch tank can be mixed, when another batch of raw materials are mixed, one buckling position clamping rotary pin is firstly stirred, when the buckling position clamping rotary pin rotates, all buckling position clamping rotary pins at the top of the I-shaped sleeve position ring can be driven to rotate through the rotary connecting rod and the conical tooth connecting disc, so that one end of the buckling position clamping rotary pin can be separated from the clamping rotary fixed groove, and one end of the buckling position clamping rotary pin are completely separated when the buckling position clamping rotary pin rotates ninety degrees, meanwhile, the magnetic suction block is adsorbed on the vertical surface of the L-shaped position pasting iron plate, so that the rotary connecting rod can be positioned, then the I-shaped sleeve ring can be rotated, when the I-shaped sleeve ring is rotated by ninety degrees, another mixing sub-tank can be rotated to the position below the inflow liquid component, then another batch of raw materials can be injected into the mixing sub-tank for mixing treatment, so that the effect of mixing multiple batches of raw materials can be realized, the mixing efficiency of the equipment on the raw materials can be improved, then the plug pipe sleeve can lose the shielding of the liquid discharge pipe, at the moment, the liquid in the mixing sub-tank flows to the inner side of the mixing main tank under the action of gravity, so that multiple mixed raw materials can be poured into the mixing main tank, and then the multiple mixed raw materials can be mixed again through the operation of the motor driving the stirring main rod, so that the labor intensity of workers can be reduced, meanwhile, the mixing efficiency of the equipment to the raw materials is increased;

3. the mixed sub-tank is firstly transferred to the lower part of the pressure block through the sub-connecting mixed liquid component by arranging the pressure clamp jacking unit, then the hanging ring is manually rotated to transfer the support block to the grooves on the two sides of the clamping sleeve, then the hanging ring is pressed to enable the support block to move downwards along the grooves on the two sides of the clamping sleeve, at the moment, the connection clamping block can be inserted into the rotation limiting slot to limit the mixed sub-tank, the mixed sub-tank is prevented from rotating when the pressure block is in a downward pressing state, so that the stability of the mixed sub-tank is improved, meanwhile, the pressure block can press the connecting and moving rod through the jacking plate, so that the plug pipe sleeve is not shielded, in the process, the inclined support rotary plate can pull the pushing spring through the movable spring connecting plate due to the downward movement of the pressure block, so that the pushing spring provides power for the restoration of the pressure block, and the drainage pipe is prevented from being mistakenly touched by a worker due to the fact that the pushing spring mistakenly shields the drainage pipe in the mixed sub-tank;

4. through the arrangement of the jacking shifter and the liquid stopper, when the buckling clamping rotary pin rotates relative to the I-shaped sleeve ring, the convex wheel rotates along with the rotation of the rotary connecting rod, so that the convex wheel can jack the jacking movable pin through the convex part of the convex wheel, the cross-shaped sleeve supporting plate can ascend relative to the supporting plate, the telescopic sleeve and the sleeve spring extend simultaneously, when the movable plate moves up along the sliding groove, the inclined guide connecting rail moves up along with the movable plate, one end of the pull plug rod is subjected to pulling force generated by the upward movement of the inclined guide connecting rail, so that the pull plug rod can drive the flow blocking plug to move, the flow blocking plug moves below the connecting pipe, the connecting pipe can be shielded, the flow blocking effect is realized, the synchronism of the rotation of the buckling clamping rotary pin and the flow blocking plug movement is realized, and the accuracy of the injection of raw materials into the mixing main tank is improved in the process that the I-shaped sleeve ring rotates;

5. through setting up the card stopping lock connector, the in-process that moves down is carried out at the pressure position piece, the both sides of pressure position piece can contact with the one end of single shift resistance board, the single shift resistance board just can be because of receiving the pressure of pressure position piece both sides and the relative company position takeover takes place the swing, when the both sides of pressure position piece move to the below of single shift resistance board, the single shift resistance board just can recover under the effect of second transposition even spring because of losing sheltering from, the commentaries on classics hinders the frame at this moment and just can carry out spacingly to the anticlockwise rotation direction of limit rotating rack, so alright make the single shift resistance board carry out the locking spacing to the pressure position piece, with this to prevent that the pressure position piece from recovering under the effect of pushing away the position spring, so alright increase the stability of jam pipe box, make the raw materials in the mixed branch jar last and stable outflow mix the branch jar, need not that the staff pressed the pressure position piece for a long time, staff's intensity of labour has been alleviateed.

Drawings

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

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

FIG. 3 is a partial cross-sectional view of the hybrid main tank of the present invention;

FIG. 4 is a schematic view of the connection between the I-shaped retainer ring and the mixing sub-tank according to the present invention;

FIG. 5 is a schematic view of the connection between the mixing canisters of the present invention;

FIG. 6 is a schematic view of the connection between the I-shaped positioning ring and the can connecting frame of the present invention;

FIG. 7 is a top view of the I-shaped registration ring of the present invention;

FIG. 8 is a partial cross-sectional view of a cross gusset of the present invention;

FIG. 9 is a schematic view of the attachment of the suspension loop of the present invention to the mixing sub-tank;

FIG. 10 is a partial cross-sectional view of a mixing sub-tank of the present invention;

figure 11 is a partial cross-sectional view of a vicinal tube of the invention.

In the figure: 1. a mixing main tank; 2. a tank supporting frame; 3. positioning seats; 401. liquid blocking is connected with the bin; 402. a motor; 403. an I-shaped positioning ring; 404. rotating and fixing the ring; 405. a position guiding rod; 406. clamping a sleeve; 407. a fixed spring connecting plate; 408. hanging a ring; 409. a slide groove; 410. a brace plate; 411. a choke plug; 412. a roof spring; 413. a diagonal bracing rotating plate; 414. mixing and separating; 415. a link rod; 416. a stirring main rod; 417. the main gear is connected with the disc; 418. a liquid discharge pipe; 419. a first torsion connecting spring; 420. the driven gear is connected with the disc; 421. a plug pipe sleeve; 422. a displacement spring; 423. a cross-shaped supporting plate; 424. the grip is connected in a rotating way; 425. a stirring auxiliary rod; 426. connecting a tank frame; 427. a connecting spring plate; 428. a top plate; 429. a rotation limiting slot; 430. a cam wheel; 431. a connecting rod fixing seat; 432. buckling position clamping rotary pins; 433. a magnetic block; 434. a moving rod is rotationally connected; 435. the bevel gear is connected with the disc; 436. a position marking plate; 437. an L-shaped position pasting iron plate; 438. pushing the movable pin; 439. a telescopic sleeve; 440. labor-saving sheathing; 441. a fixed-rotation lantern ring; 442. connecting pipe joints; 443. a single shift resistance plate; 444. a rotation limiting frame; 445. clamping and rotating the fixed groove; 446. a moving plate; 447. guiding and connecting rails at an inclined position; 448. a plunger rod; 449. a drainage tube; 450. a connecting pipe; 451. a flow releasing sleeve; 452. fixing the pipe by screw threads; 453. a pipe supporting pin; 454. an object covering disc; 455. a casing spring; 456. a rotating resistance frame; 457. a second torsion connecting spring; 458. a bit pressing block; 459. a movable spring connecting plate; 460. a bracing block; 461. rotating the position sleeve; 462. connecting a clamping moving block; 463. a push spring.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention based on its overall structure.

Referring to fig. 1 to 11, in an embodiment of the present invention, a liquid chemical raw material mixing apparatus includes a mixing main tank 1, a tank supporting frame 2 is installed on an outer side of the mixing main tank 1, a positioning seat 3 is fixed on a top of the tank supporting frame 2, a motor 402 is installed on a top of the positioning seat 3 through a bolt, an output end of the motor 402 is connected to a stirring main rod 416 penetrating through an inner side of the mixing main tank 1, an outer side of the stirring main rod 416 is rotatably connected to an i-shaped jacket ring 403 through a bearing, a top of the mixing main tank 1 is connected to the i-shaped jacket ring 403 located on the outer side of the stirring main rod 416 through a twist lock clamp, an inner side of the i-shaped jacket ring 403 is rotatably connected to an outer side of the stirring main rod 416 through a bearing, a sub-mixing component located on the inner side of the mixing main tank 1 is disposed at a bottom of the i-shaped jacket ring 403, the sub-mixing component includes a plurality of mixing sub tanks 414, a plurality of mixing sub tanks 414 are distributed along a central axis of the i-shaped jacket ring 403, and a inflow component connected to the i-shaped jacket ring 403 is disposed on the top of the tank supporting frame 2.

In this embodiment, when the apparatus is used, the raw materials to be mixed can be injected into the mixing sub-tank 414 through the inflow component, then the main mixing rod 416 can be rotated by the operation of the motor 402, during this process, the liquid chemical materials in the mixing sub-tank 414 can be mixed by the sub-connecting mixing component, during this process, the mixing sub-tank 414 can be limited by the twist lock stopper, so as to increase the stability of the mixing sub-tank 414, during the mixing of another batch of chemical materials, the i-shaped collar ring can be lost by the twist lock stopper, then the i-shaped collar ring can be rotated, the position of the mixing sub-tank 414 can be adjusted by the rotation of the i-shaped collar ring, so as to move another mixing sub-tank 414 to the lower part of the inflow component, then the i-shaped collar ring 403 and the mixing sub-tank 414 can be limited by the twist lock stopper, then another batch of raw materials can be injected into the mixing sub-tank 403 by the inflow component 416 located therebelow, so as to reduce the mixing efficiency of the mixing sub-tanks, and thus, when the mixing sub-tank 414 is mixed by the main mixing rod 416, the mixing sub-tank 414 can be poured into different batches, so as to improve the efficiency of the mixing process, and the mixing sub-tank 414 can be poured into different batches of the mixing materials, and the mixing process can be performed by the mixing sub-tank, so as to improve the mixing sub-tank, and the mixing sub-tank, so that the mixing sub-tank 414 can be performed by the mixing sub-tank, and the mixing sub-batch operators can be performed by the mixing sub-tank, and the mixing sub-batch operators.

Please refer to fig. 1, 2, 3, 4, 5, 6, 7, 9, 10, the separating and mixing assembly further includes a tank connecting frame 426 fixed at the bottom of the i-shaped sleeve 403 and connected to the mixing tank 414, the bottom of the mixing tank 414 extends to the lower side of the tank connecting frame 426, the inner side of the mixing tank 414 is provided with a stirring sub-rod 425, the bottom of the stirring sub-rod 425 extends to the bottom of the mixing tank 414, the bottom of the stirring sub-rod 425 is provided with a sub-tooth connecting disc 420 positioned below the mixing tank 414, the outer side of the stirring main rod 416 is provided with a main tooth connecting disc 417 engaged with the sub-tooth connecting disc 420, the outer side of the mixing tank 414 is provided with a liquid discharge pipe 418, one side of the tank connecting frame 426 is inserted with a connecting rod 415, the bottom of the connecting rod 415 is provided with a plug pipe 421 sleeved on the bottom of the liquid discharge pipe 418, the outer side of the connecting rod 415 is fixed with a connecting spring plate 427, the top of the connecting plate 415 is provided with a top of a spring holder 426 connected to the mixing tank 403, and a top of the mixing tank 414 is provided with a top printing unit 436 corresponding to the mixing tank 414.

In this embodiment, when the raw materials to be mixed are poured into the mixing sub-tank 414 through the inflow component, the main stirring rod 416 can drive the main gear connecting disk 417 to rotate through the operation of the motor 402, the main gear connecting disk 417 can drive the auxiliary gear connecting disk 420 to rotate when rotating, so as to drive the auxiliary stirring rod 425 to rotate along with the rotation of the auxiliary gear connecting disk 420, so as to mix the liquid chemical raw materials in the mixing sub-tank 414, the i-shaped positioning ring 403 can be rotated when another batch of raw materials is mixed, at this time, the i-shaped positioning ring 403 can drive the mixing sub-tank 414 to rotate through the tank connecting frame 426, when the i-shaped positioning ring 403 is rotated ninety degrees, the other mixing sub-tank 414 can be rotated to the lower part of the inflow component, and then another batch of raw materials can be injected into the mixing sub-tank 414 to be mixed, therefore, the effect of mixing multiple batches of raw materials can be realized, the raw materials which are mixed before are not required to be poured out and poured into the main mixing tank 1 repeatedly in the process, the mixing efficiency of the equipment on the raw materials is improved, when the raw materials which are mixed in multiple batches are mixed totally, the connecting and moving rod 415 can move downwards relative to the sub mixing tank 414 by pressing the clamping and jacking unit, the moving spring 422 extends in the process, the plug pipe sleeve 421 can lose the shielding of the liquid discharge pipe 418, the liquid in the sub mixing tank 414 flows to the inner side of the main mixing tank 1 under the action of gravity, multiple mixed raw materials can be poured into the main mixing tank 1, then the motor 402 can drive the main mixing rod 416 to operate to mix the multiple mixed raw materials again, the labor intensity of workers is reduced, and the mixing efficiency of the equipment on the raw materials is improved.

Please refer to fig. 2, 9 and 10, the pressing and clamping jacking unit includes a clamping sleeve 406 fixed on the top of the mixing main tank 1, a pressing block 458 extending to the inner side of the mixing main tank 1 is slidably connected to the inner side of the clamping sleeve 406, a connecting and clamping block 462 is fixed to the bottom of the pressing block 458, a jacking plate 428 is fixed to the top of the connecting and shifting rod 415, a rotation limiting slot 429 engaged with the connecting and clamping block 462 is opened to the top of the jacking plate 428, a fixed spring connecting plate 407 located on both sides of the pressing block 458 is fixed to the top of the mixing main tank 1, a guiding rod 405 is fixed to one end of the fixed spring connecting plate 407, a diagonal bracing plate 413 is rotatably connected to both sides of the pressing block 458 through a rotating shaft, a movable spring 459 plate sleeved on the outer side of the guiding rod 405 is arranged on both sides of the diagonal bracing plate 413, a pushing spring 463 connected to the fixed spring connecting plate 407, a torsion ring 461 is arranged on the top of the pressing block 458, a hanging ring 461 is arranged on the inner side of the hanging ring 408 extended from the inner side of the clamping ring 408, and a hanging ring 461 is arranged on the inner side of the hanging ring 408.

In this embodiment, when discharging the mixed material in the mixing sub-tank 414, the mixing sub-tank 414 may be first moved to the lower side of the pressing block 458 through the sub-connecting mixing liquid assembly, then the hanging ring 408 is manually rotated to move the supporting block 460 to the grooves on both sides of the clamping sleeve 406, then the hanging ring 408 is pressed to move the supporting block 460 downward along the grooves on both sides of the clamping sleeve 406, at this time, the connecting and clamping block 462 is inserted into the rotation limiting slot 429 to limit the mixing sub-tank 414, so as to prevent the mixing sub-tank 414 from rotating when the pressing block 458 is in the downward pressing state, thereby increasing the stability of the mixing sub-tank 414, and at the same time, the pressing block 458 presses the connecting rod 415 through the top plate 428, thereby the plug sleeve 421 may be lost, during which the inclined supporting plate 413 may press the pushing spring 459 through the moving spring connecting plate 459 due to the downward movement of the pressing block 458, so as to draw the pushing spring 463 to provide the pushing spring for the pushing spring to prevent the rotating plug sleeve 418 from mistakenly pressing the plug tube 418, thereby increasing the stability of the mixing sub-tank 414, and thus increasing the stability of the plug 408.

Please refer to fig. 4, 6, and 7, the twist lock retainer includes a connecting rod fixing seat 431 fixed on the top of the i-shaped positioning ring 403, one side of the connecting rod fixing seat 431 is rotatably connected with a twist connecting rod 434 through a bearing, one end of the twist connecting rod 434 extends to the other side of the connecting rod fixing seat 431, two ends of the twist connecting rod 434 are fixed with a bevel gear connecting disc 435, the bevel gear connecting discs 435 at two ends of the twist connecting rod 434 are symmetrically arranged along the vertical central axis of the twist connecting rod 434, an L-shaped positioning iron plate 437 located outside the twist connecting rod 434 is fixed on the top of the i-shaped positioning ring 403, a magnetic suction block 433 is arranged outside the twist connecting rod 434, the magnetic suction block 433 is located inside the L-shaped positioning iron plate 437, a buckling position locking pin 432 located inside the connecting rod fixing seat 431 is fixed outside the twist connecting rod 434, a twist positioning ring 404 located outside the i-shaped positioning ring 403 is fixed on the top of the mixing tank 1, a plurality of locking grooves 445 are arranged outside the twisting positioning ring 404, and a top portion of a liquid pushing and supporting assembly 432 connected with the buckling pin of the twisting pin 403.

In this embodiment, before the i-shaped positioning ring 403 is rotated, one buckling and positioning pin 432 is shifted, when the buckling and positioning pin 432 is rotated, the buckling and positioning rod 434 and the bevel gear connecting disc 435 drive all the buckling and positioning pin 432 at the top of the i-shaped positioning ring 403 to rotate, so that one end of the buckling and positioning pin 432 is separated from the buckling and positioning groove 445, at this time, the i-shaped positioning ring 403 loses the limit of the buckling and positioning groove 445, in this process, one side of the magnetic attraction block 433 is separated from the horizontal plane of the L-shaped positioning iron plate 437, when the buckling and positioning pin 432 rotates ninety degrees, the buckling and positioning groove 445 is completely separated from one end of the buckling and positioning pin 432, and the magnetic attraction block 433 is attracted to the vertical plane of the L-shaped positioning block 437, so that the iron plate can position the buckling and positioning rod 434, then the i-shaped positioning ring 403 is rotated, and after the i-shaped positioning ring 403 is rotated, the worker can shift the buckling and positioning pin 433 to shift the buckling and positioning pin to increase the stability of the buckling and positioning pin 403, and the stability of the mixing and positioning ring 432 is increased, so that the can be connected to the can 414.

Please refer to fig. 1, 7, 8, and 11, the liquid inlet assembly includes a drainage tube 449 disposed on the top of the main mixing tank 1, the bottom of the drainage tube 449 extends to the inner side of the main mixing tank 1 and is disposed above the sub-mixing tank 414, a liquid blocking connection chamber 401 is fixed on the top of the drainage tube 449, a connection tube 450 is fixed on the top of the liquid blocking connection chamber 401, a flow releasing sleeve 451 is connected on the top of the connection tube 450, a threaded fixing tube 452 is disposed on the top of the flow releasing sleeve 451, a top plate spring 412 is connected on the inner wall of the flow releasing sleeve 451, a covering plate 454 is connected on the top of the top plate spring 412, a bracing tube 453 is fixed on the top of the covering plate 454, and a liquid blocking device connected to the top bracing shifter is disposed on the inner side of the liquid blocking connection chamber 401.

In this embodiment, when the raw materials to be mixed are poured into the mixing sub-tank 414, one end of the external pipe is abutted against the top of the supporting pin 453, then the supporting pin 453 is pressed, the external pipe is rotated in the process, so that the external pipe and the threaded fixing pipe 452 are connected and fixed through threads, the shielding plate 454 is pressed by the pipe and is retracted into the flow release sleeve barrel 451, then the raw materials to be mixed are injected into the flow release sleeve barrel 451 through the external pipe, then the position pipe 450, the liquid blocking connecting chamber 401 and the drainage pipe 449 enter the mixing sub-tank 414 through the flow release sleeve barrel 451, so that the liquid raw materials are stably injected, the pipe can be rotated reversely after the chemical raw materials are injected, at this time, the top of the shielding plate 454 is restored under the action of the top plate 412 due to the loss of shielding, so that the shielding plate 454 shields the top of the threaded fixing pipe 452, so that the sealability of the threaded fixing pipe 452 is increased, and the impurities are prevented from passing through the threaded fixing pipe 452 and entering the mixing sub-tank 414, thereby increasing the sealability of the main mixing sub-tank 1.

Please refer to fig. 6 and 7, the top support shifter includes a convex wheel 430 disposed outside the rotary connection rod 434, the convex wheel 430 is located between the magnetic block 433 and the bevel gear connecting disc 435, a telescopic sleeve 439 is fixed on the top of the i-shaped sleeve ring 403, a sleeve spring 455 is disposed inside the telescopic sleeve 439, a cross-shaped sleeve plate 423 is fixed on the top of the telescopic sleeve 439, a top moving pin 438 is disposed at the bottom of the cross-shaped sleeve plate 423, the bottom of the top moving pin 438 is attached to the outside of the convex wheel 430, a labor-saving sleeve plate 440 is fixed on the top of the cross-shaped sleeve plate 423, a rotary connection handle 424 is disposed on the top of one end of the labor-saving sleeve plate 440, a fixed rotary sleeve ring 441 is rotatably connected to the outside of the labor-saving sleeve plate 440 through a bearing, a bracket plate 410 is fixed on the outside of the fixed rotary ring 404, a slide slot 409 is disposed on one side of the bracket plate 410, a movable moving plate 446 is slidably connected to the inside of the slide slot 409, and a lock connector 458 is disposed on one end of the movable plate 446.

In this embodiment, when the fastening rotation pin 432 rotates relative to the i-shaped positioning ring 403, the cam 430 rotates along with the rotation of the rotation connection rod 434, so that the cam 430 can lift the top positioning moving pin 438 through the protrusion thereof, the cross supporting plate 423 rises relative to the supporting plate 410, and the telescopic sleeve 439 and the sleeve spring 455 extend to provide operation power for the liquid blocking device, and then the labor-saving sleeve plate 440 and the telescopic sleeve 439 can drive the i-shaped positioning ring 403 to rotate by manually rotating the rotation connection handle 424, so that the labor-saving sleeve plate 440 can rotate relative to the rotation fixing ring 441, and thus the rotation of the i-shaped positioning ring 403 by the rotation fixing ring 441 can be prevented from being blocked, thereby increasing the stability of the rotation of the i-shaped positioning ring 403.

Please refer to fig. 7, 8 and 11, the liquid blocking device includes a flow blocking plug 411 slidably connected to the inner side of the liquid blocking connecting chamber 401, one end of the flow blocking plug 411 is provided with a pull plug rod 448 extending to the outer side of the liquid blocking connecting chamber 401, and two ends of the pull plug rod 448 are sleeved with inclined guide connecting rails 447 connected to the movable plate 446.

In this embodiment, when the moving plate 446 moves upward along the sliding groove 409, the inclined guide rail 447 moves upward along with the moving plate 446, and at this time, one end of the plug rod 448 is pulled by the inclined guide rail 447 to move upward, so that the plug rod 448 drives the choke plug 411 to move, and the choke plug 411 moves below the connecting pipe 450, so that the connecting pipe 450 is shielded, thereby achieving a choke effect, and thus achieving synchronization between rotation of the catching pin 432 and movement of the choke plug 411, preventing the raw material from directly entering the mixing main tank 1 through the connecting pipe 450 and the draft tube 449 during rotation of the i-shaped sleeve ring 403, and improving accuracy of the raw material injection position.

Referring to fig. 1, 2, 7 and 8, the locking connector includes a connecting tube 442 fixed to one end of the movable plate 446 far from the slant guide rail 447, two ends of the connecting tube 442 are rotatably connected to single-displacement blocking plates 443 located at two sides of the pressure block 458 through a rotating shaft, one side of the single-displacement blocking plate 443 is connected to a second torsion connecting spring 457 located at the inner side of the connecting tube 442 through a locking slot, a limiting frame 444 is fixed to the top of the single-displacement blocking plate 443, and a rotation blocking frame 456 located at one side of the limiting frame 444 is fixed to the top of the movable plate 446.

In the embodiment, during the downward movement of the pressure block 458, both sides of the pressure block 458 will contact with one end of the single-movement blocking plate 443, at this time, the single-movement blocking plate 443 will swing relative to the linking connection pipe 442 due to the pressing of both sides of the pressure block 458, when both sides of the pressure block 458 move to the lower side of the single-movement blocking plate 443, the single-movement blocking plate 443 will recover under the action of the second torsion connection spring 457 due to the loss of shielding, at this time, the rotation blocking frame 456 will limit the counterclockwise rotation direction of the rotation limiting frame 444, so that the single-movement blocking plate 443 can lock and limit the pressure block 458, thereby preventing the pressure block 458 from recovering under the action of the push spring 463, so as to increase the stability of the blocking pipe sleeve 421, so that the raw materials in the mixing branch tank 414 can continuously and stably flow out of the mixing branch tank 414, the pressure block 458 does not need to be pressed by the operator for a long time, and the labor intensity of the operator is reduced.

Referring again to fig. 11, the outer wall of the cover plate 454 is attached to the inner wall of the threaded locking tube 452, and the diameter of the inner wall of the flow-releasing sleeve 451 is greater than the diameter of the inner wall of the threaded locking tube 452.

In this embodiment, the shielding plate 454 shields the top of the screw fixing tube 452 by the structure, so as to prevent external dust and impurities from entering the screw fixing tube 452, and when the shielding plate 454 is retracted into the flow releasing sleeve positioning tube 451 by screwing the external water pipe, the shielding plate 452 loses shielding, thereby increasing the continuity of the external water pipe for injecting raw materials into the mixing and dispensing tank 414.

Please refer to fig. 6 and 7, a plurality of rotary connecting rods 434 are distributed on the top of the i-shaped positioning ring 403 along the center of the i-shaped positioning ring 403, and the rotary connecting rods 434 are connected with each other through a bevel gear connecting disc 435.

In this embodiment, when one of the fastening rotation pins 432 rotates relative to the i-shaped positioning ring 403, the rotation connecting rods 434 drive the fastening rotation pins 432 to rotate synchronously, so as to improve the rotation synchronization of the fastening rotation pins 432.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims

1. The utility model provides a liquid chemical raw material mixing device, includes mixed major tank (1), the outside of mixed major tank (1) is installed and is propped tank tower (2), a serial communication port, the top of propping tank tower (2) is fixed with positioning seat (3), motor (402) are installed through the bolt in the top of positioning seat (3), the output of motor (402) is connected with and runs through to mixed major tank (1) inboard stirring rod (416), the outside of stirring rod (416) is connected with I shape cover position ring (403) through the bearing rotation, the top of mixed major tank (1) is connected with the I shape cover position ring (403) that is located stirring rod (416) outside through the twist lock screens ware, and the inboard outside and the stirring rod (416) of I shape cover position ring (403) are connected through the bearing rotation, the bottom of I shape cover position ring (403) is provided with the branch even mixing liquid subassembly that is located mixed major tank (1) inboard, if divide even mixing liquid subassembly including mixing partial tank (414), a plurality of mixing partial tank (403) along the I shape cover position ring (403) the central axis of dry mixing ring (403) and the top is provided with the I shape ring (403) and flow and links to each other.

2. The liquid chemical raw material mixing device as claimed in claim 1, wherein the sub-mixing assembly further comprises a tank connecting frame (426) fixed at the bottom of the i-shaped jacket ring (403) and connected with the mixing sub-tank (414), the bottom of the mixing sub-tank (414) extends to the lower part of the tank connecting frame (426), an auxiliary stirring rod (425) is arranged at the inner side of the mixing sub-tank (414), the bottom of the auxiliary stirring rod (425) extends to the bottom of the mixing sub-tank (414), a secondary toothed connecting disc (420) positioned below the mixing sub-tank (414) is arranged at the bottom of the auxiliary stirring rod (425), a main toothed connecting disc (417) meshed with the secondary toothed connecting disc (420) is arranged at the outer side of the main stirring rod (416), a liquid discharge pipe (418) is arranged at the outer side of the mixing sub-tank (414), a connecting rod (415) is inserted at one side of the tank connecting frame (426), a moving rod (415) is arranged at the bottom of the connecting rod (415), a pressure spring plate (418) is arranged at the top of the mixing sub-tank (414) and a top of the mixing sub-tank (414), a spring clamp plate (426) is arranged at the top of the mixing sub-tank (426), a pressure spring plate (415) connected with a top of the mixing sub-tank (422) and a top of the mixing sub-tank (414), a pressure spring clamp plate (422) corresponding to the mixing sub-tank (414), and a top of the mixing sub-pressure spring plate (426), and a top of the mixing sub-pressure spring plate (415), the mixing sub-pressure spring plate (422), and a top of the mixing sub-pressure spring plate (422) is arranged on the top of the mixing sub-pressure plate (426), and a top of the mixing sub-pressure spring plate (415), and a mixing sub-pressure plate (422), the top of the mixing sub-pressure plate (414), the mixing sub-pressure plate (415), and a top of the mixing sub-pressure plate (422) is arranged on the mixing sub-pressure plate (415), and a top of the mixing sub-pressure plate (422), and a top of the mixing sub-pressure plate (414), and a top of the mixing sub-pressure plate (422) is arranged on the mixing sub-pressure plate, and a top of the mixing sub-pressure plate And (4) units.

3. The liquid chemical raw material mixing device according to claim 2, wherein the pressing and clamping jacking unit comprises a clamping sleeve (406) fixed on the top of the main mixing tank (1), a pressing block (458) extending to the inner side of the main mixing tank (1) is slidably connected to the inner side of the clamping sleeve (406), a connecting and clamping block (462) is fixed to the bottom of the pressing block (458), a jacking plate (428) is fixed to the top of the connecting and shifting rod (415), a rotation limiting slot (429) matched with the connecting and clamping block (462) is formed in the top of the jacking plate (428), positioning spring connecting plates (407) positioned on two sides of the pressing block (458) are fixed to the top of the main mixing tank (1), an indexing rod (405) is fixed to one end of the positioning spring connecting plate (407), inclined support rotating plates (413) are rotatably connected to two sides of the pressing block (458) through rotating shafts, a rotating spring rotating plate (413) is arranged on two sides of the inclined support rotating plates (413) and is provided with a rotating plate (463) sleeved on the outer side of the indexing rod (405), a rotating plate (461) is arranged on two sides of the rotating plate (413), a rotating plate (461) is provided with a pushing spring connecting plate (408) extending to the inner side of the positioning spring connecting plate (463) and a pushing ring (408), the outside of link (408) is provided with the bracketing piece (460) that is located clamping sleeve (406) top, the inboard of position cover (461) is rotated and is provided with first torsion connecting spring (419) that links to each other with link (408) bottom through the draw-in groove.

4. A liquid chemical feed mixing apparatus as claimed in claim 3, the rotary lock position limiter comprises a connecting rod fixed seat (431) fixed at the top of the I-shaped sleeve ring (403), one side of the connecting rod fixed seat (431) is rotatably connected with a rotary connecting rod (434) through a bearing, one end of the rotary connecting rod (434) extends to the other side of the connecting rod fixed seat (431), the two ends of the rotary connecting rod (434) are fixed with conical tooth connecting discs (435), the conical tooth connecting discs (435) at the two ends of the rotary connecting rod (434) are symmetrically arranged along the vertical central axis of the rotary connecting rod (434), an L-shaped position-attaching iron plate (437) positioned at the outer side of the rotary joint rod (434) is fixed at the top of the I-shaped position-sleeving ring (403), the outer side of the rotary connecting rod (434) is provided with a magnetic suction block (433), the magnetic block (433) is positioned at the inner side of the L-shaped position-pasting iron plate (437), a buckling and clamping rotary pin (432) positioned at the inner side of the connecting rod fixed seat (431) is fixed at the outer side of the rotary connecting rod (434), a rotary fixing ring (404) positioned at the outer side of the I-shaped positioning ring (403) is fixed at the top of the mixing main tank (1), a plurality of clamping and rotating grooves (445) are arranged on the outer side of the rotating and fixing ring (404), the clamping and rotating groove (445) is matched with one end of the buckling and rotating pin (432), and a top support shifter connected with the inflow liquid assembly is arranged at the top of the I-shaped positioning ring (403).

5. The liquid chemical raw material mixing device according to claim 4, wherein the liquid inlet assembly comprises a draft tube (449) arranged at the top of the main mixing tank (1), the bottom of the draft tube (449) extends to the inner side of the main mixing tank (1) and is positioned above the sub mixing tank (414), a liquid blocking connecting bin (401) is fixed at the top of the draft tube (449), a connecting tube (450) is fixed at the top of the liquid blocking connecting bin (401), a flow releasing sleeve (451) is connected at the top of the connecting tube (450), a threaded fixing tube (452) is arranged at the top of the flow releasing sleeve (451), a top plate spring (412) is connected to the inner wall of the flow releasing sleeve (451), a blocking disk (454) is connected at the top of the top plate spring (412), a supporting pin (453) is fixed at the top of the blocking disk (454), and a liquid blocking device connected with a top supporting shifter is arranged at the inner side of the liquid blocking connecting bin (401).

6. The liquid chemical raw material mixing device as claimed in claim 5, wherein the top support displacer includes a convex wheel (430) disposed outside the rotary connecting rod (434), the convex wheel (430) is located between the magnetic block (433) and the bevel gear connecting disc (435), the top of the i-shaped positioning ring (403) is fixed with a telescopic sleeve (439), the inner side of the telescopic sleeve (439) is provided with a sleeve spring (455), the top of the telescopic sleeve (439) is fixed with a cross-shaped supporting plate (423), the bottom of the cross-shaped supporting plate (423) is provided with a top positioning moving pin (438), the bottom of the top positioning moving pin (438) is attached to the outer side of the convex wheel (430), the top of the cross-shaped supporting plate (423) is fixed with a labor-saving sleeve plate (440), the top of one end of the labor-saving sleeve plate (440) is provided with a rotary handle connecting grip (424), the outer side of the labor-saving sleeve plate (440) is rotatably connected with a fixed rotary sleeve ring (441) through a bearing, the outer side of the fixing ring (404) is fixed with a support plate (410), the sliding block (409) is connected to the sliding block (409) at one side of the sliding plate (446), and the sliding block (409) is provided with a sliding block groove (409) at the other side of the sliding sleeve plate (409), and a sliding block (409) is provided with a stop frame plate (409).

7. The liquid chemical raw material mixing device according to claim 6, wherein the liquid blocking device comprises a liquid blocking plug (411) slidably connected to the inner side of the liquid blocking connecting bin (401), one end of the liquid blocking plug (411) is provided with a pull plug rod (448) extending to the outer side of the liquid blocking connecting bin (401), and two ends of the pull plug rod (448) are sleeved with inclined guide connecting rails (447) connected with the movable plate (446).

8. The liquid chemical raw material mixing device of claim 7, wherein the locking connector comprises a connecting connection pipe (442) fixed at one end of the movable plate (446) far away from the inclined guide connection rail (447), two ends of the connecting connection pipe (442) are rotatably connected with single-movement resistance plates (443) positioned at two sides of the pressure block (458) through rotating shafts, one side of each single-movement resistance plate (443) is connected with a second torsion connection spring (457) positioned at the inner side of the connecting connection pipe (442) through a clamping groove, a limited rotation frame (444) is fixed at the top of each single-movement resistance plate (443), and a rotation resistance frame (456) positioned at one side of the limited rotation frame (444) is fixed at the top of the movable plate (446).

9. The liquid chemical material mixing device as claimed in claim 5, wherein the outer wall of the shielding plate (454) is attached to the inner wall of the threaded fixed pipe (452), and the diameter of the inner wall of the flow-releasing sleeve (451) is larger than that of the inner wall of the threaded fixed pipe (452).

10. The liquid chemical material mixing device as claimed in claim 4, wherein a plurality of rotating and connecting rods (434) are distributed on the top of the I-shaped sleeve ring (403) along the center of the I-shaped sleeve ring (403), and the rotating and connecting rods (434) are connected with each other through a bevel gear connecting disc (435).