CN116272542A - Mixing arrangement is used in film release agent production - Google Patents

Abstract

The utility model discloses a mixing device for producing a film release agent, which relates to the technical field of film release agent processing and comprises a support frame, wherein a stirring cylinder is fixedly arranged on the support frame, a control panel is fixedly arranged on the side surface of the top end of the support frame, a receiving tank is arranged right below the bottom end of the stirring cylinder, the mixing device also comprises a rotating mechanism, the rotating mechanism is fixedly arranged on the support frame and is positioned on the side surface of the stirring cylinder, an extruding machine is fixedly arranged on the rotating mechanism, the stirring mechanism is fixedly arranged on the extruding mechanism, a solid blanking mechanism is fixedly arranged on the support frame, a liquid blanking mechanism is fixedly arranged on the support frame, and a discharging mechanism is arranged at the bottom end of the stirring cylinder; the utility model can accurately and quantitatively discharge the solid raw materials and the emulsion raw materials, avoids manual measurement discharge, reduces the manual work load, can stir the raw materials in a targeted manner, and improves the sufficiency and stirring efficiency of raw material stirring.

Description

Mixing arrangement is used in film release agent production

Technical Field

The utility model relates to the technical field of film release agent processing, in particular to a mixing device for film release agent production.

Background

The isolating agent is an additive with isolating function, and is an operation auxiliary agent in rubber processing, and the isolating agent has the main function of preventing the surfaces of rubber sheets or semi-finished rubber materials from being mutually adhered, and is commonly used in the operations of plasticating, mixing, tabletting, forming and the like of raw rubber and rubber materials. The film isolating agent is used in rubber compound production, can improve the quick dispersion of carbon black and inorganic reinforcing filler in rubber compound, has excellent dispersion effect, and simultaneously has good anti-sticking and demoulding effects, and the internal lubricity reduces the shearing force required by mixing, so that the mixing efficiency can be improved, the fluidity of the rubber compound can be greatly improved, the technological properties of the rubber compound can be improved, the film isolating agent can be widely applied to various rubber ingredients, the adhesiveness of the rubber compound and the physical properties of finished products are not influenced, and the effect is remarkable. The general formula of the film isolating agent is generally terephthalic acid metal salt, stearic acid, silicone oil and an emulsifying agent, and when the film isolating agent is manufactured, firstly, the terephthalic acid metal salt and the stearic acid are mixed and stirred for a certain time, then the silicone oil and the emulsifying agent are added, and the mixture is continuously stirred to be emulsion, and then the emulsion is sealed and stored.

The utility model of China with the publication number of CN213761504U discloses a raw material mixing device of a film isolating agent, which comprises a stirring tank, a bracket, a stirring body, a driving motor, a temporary storage tank and a baffle plate, wherein the stirring tank is fixedly arranged on the bracket and consists of an upper bin, a stirring bin and a discharging bin which are integrally formed from top to bottom, the top of the upper bin is provided with a feeding hole, and the driving motor is fixedly arranged on a tank body of the stirring tank. According to actual ratio demand with different materials put into the material loading storehouse through the feed inlet in, then start driving motor and drive the stirring body and stir the operation, operating personnel drives the baffle through rotating the hand wheel and rotates the separation to the discharge hopper this moment, and this device can mix the back to mix different ratio raw materials and temporarily store, has the advantage of misce bene, has avoided appearing the situation of powdery material raise dust. However, the materials in the prior art are required to be manually proportioned and then are added and then stirred, so that the ingredients cannot be proportioned automatically, and the workload of workers is increased.

Disclosure of Invention

Aiming at the technical problems, the utility model discloses a mixing device for producing a film release agent, which comprises a support frame, wherein a stirring cylinder is fixedly arranged on the support frame, a control panel is fixedly arranged on the side surface of the top end of the support frame, a receiving tank is arranged right below the bottom end of the stirring cylinder, and the mixing device also comprises a rotating mechanism, wherein the rotating mechanism is fixedly arranged on the support frame and positioned on the side surface of the stirring cylinder and is used for fixing an extruding mechanism and driving the extruding mechanism and the stirring mechanism to rotate; the extruding mechanism is fixedly arranged on the rotating mechanism and used for connecting the stirring mechanism and extruding and discharging a finished product in the stirring barrel; the stirring mechanism is fixedly arranged on the extrusion mechanism and is used for stirring raw materials fed into the stirring barrel; the solid blanking mechanism is fixedly arranged on the support frame and used for feeding solid raw materials into the stirring barrel; and the liquid discharging mechanism is fixedly arranged on the supporting frame and is used for feeding the emulsion raw materials into the stirring barrel.

The stirring mechanism comprises a fixing seat III, a motor seat I is fixedly arranged in the bottom end of the fixing seat III, a motor I is fixedly arranged on the motor seat I, the top end of a stirring rod connecting frame is fixedly arranged at the output end of the motor I, hydraulic cylinders I are fixedly arranged on two side surfaces of the fixing seat III, a first end of a hydraulic rod I is arranged in the hydraulic cylinder I in a sliding mode, a clamping block is fixedly arranged at the second end of the hydraulic rod I, the clamping block is fixedly arranged on a lifting plate, the lifting plate is slidably arranged on a connecting column, a gear I is fixedly arranged on the connecting column, the gear I is meshed with a gear II, a gear III is fixedly arranged on the connecting column, the gear III is meshed with a gear IV, a stirring rod connecting frame is fixedly connected between the gear II and the gear IV through a rotating shaft II, the bottom end of the connecting column is rotatably provided with the stirring rod connecting frame, two ends of the stirring rod connecting frame are fixedly arranged with a rotating shaft II, the bottom end of the rotating shaft II is fixedly connected with the stirring rod II, and the gear I and the stirring rod II are respectively provided with two stirring rods.

Further, rotary mechanism includes fixing base I, fixing base I fixed mounting is on the support frame, the barrel cam is installed in the rotation on the fixing base I, be equipped with rotatory sliding tray on the barrel cam, rotatory sliding tray is tangent with the first end of slider, the second end fixed mounting of slider has the first end of spring II, the second end fixed mounting of spring II is in the slide bar, slider slidable mounting is in the slide bar, slide bar slidable mounting is in the slide, slide fixed mounting is on the support frame, the slide bar divide into head and pole portion, the first end of spring I is fixed with to the head lower extreme of slide bar, the second end fixed mounting of spring I is on spring I, the bottom of barrel cam is equipped with two symmetrical fixed slots.

Further, extrusion mechanism includes fixing base II, fixing base II bottom symmetry is equipped with two fixed blocks I, fixed block I fixed mounting is in the fixed slot, rotate on the fixing base II and install axis of rotation I, the first end fixed mounting of axis of rotation I has the handle, the second fixed mounting of axis of rotation I has bevel gear I, bevel gear I meshes with bevel gear II mutually, fixed mounting has the screw rod on the bevel gear II, threaded mounting has the nut cover on the screw rod, nut cover slidable mounting is in the link middle part, the first end of first end fixed mounting of link has the first end of bracing piece, the second end fixedly connected with stripper plate of bracing piece, the second end fixedly connected with fixing base III's of link bottom.

Further, solid unloading mechanism includes backup pad I, band pulley II, backup pad I downside is equipped with three support column I, support column I fixed mounting is on the support frame, two storage hopper of fixed mounting in the backup pad I, storage hopper's lateral wall below fixed mounting has motor cabinet II, fixed mounting has motor II on the motor cabinet II, motor cabinet II's output fixedly connected with motor shaft's first end, motor shaft's second end fixedly connected with band pulley I, band pulley I passes through the hold-in range with band pulley II and is connected, band pulley II fixed mounting is at the first end of axis of rotation III, fixed mounting has the belt sheave on the axis of rotation III, the circumference evenly distributed of belt sheave has four pan feeding grooves, belt sheave and fixing base IV phase-match, fixing base IV fixed mounting is inside the bottom of storage hopper.

Further, solid unloading mechanism still includes the cam, cam fixed mounting is at the second end of axis of rotation III, the cam meshes with the sheave mutually, sheave fixed mounting is at the first end of axis of rotation IV, the second end fixedly connected with counter of axis of rotation IV, counter fixed mounting is in the bottom lateral wall of hopper, the bottom fixed mounting of hopper has the first end of play hopper, the first end of second end fixedly connected with pan feeding pipe I of play hopper, the lateral wall at the churn is installed to the second end of pan feeding pipe I.

Further, liquid unloading mechanism includes backup pad II, fixed mounting has the supporting seat in the backup pad II, the inside fixed mounting of supporting seat bottom has the first end of supporting column II, the second end fixed mounting of supporting column II is on the support frame, fixed mounting has paired cylinder fixed plate on the supporting seat, two fixed mounting has cylinder I between the cylinder fixed plate, sliding mounting has the first end of cylinder pole I in the cylinder I, the second end slidable mounting of cylinder pole I is intraductal at the stroke, stroke pipe both ends fixed mounting is on stroke pipe fixed plate, stroke pipe fixed plate fixed mounting is on the supporting seat, one side fixed connection of stroke pipe and tee bend fixing base, the upside fixed mounting of tee bend fixing base has the feed cylinder, one side fixed connection that is relative with the stroke pipe on the tee bend fixing base has the ejection of compact jar, the inside slidable mounting of the cylinder pole II has the first end of cylinder pole, the second end slidable mounting of cylinder pole II is intraductal at cylinder II, the bottom and the fixed connection of ejection of compact jar of cylinder II.

Further, liquid unloading mechanism still includes the pneumatic cylinder fixing base, pneumatic cylinder fixing base fixed mounting is on the supporting seat, rotate on the pneumatic cylinder fixing base and install pneumatic cylinder II, the inside slidable mounting of pneumatic cylinder II has the first end of hydraulic stem II, the second end of hydraulic stem II rotates the first end that is connected with the dwang, the second end fixedly connected with tee bend connecting pipe of dwang, tee bend connecting pipe is inside to be the cavity and is equipped with three intercommunication mouth, the pan feeding pipe II is installed to the ejection of compact cylinder bottom, the first end fixed mounting of pan feeding pipe II is in backup pad II, the lateral wall at the churn is installed to the second end of pan feeding pipe II.

Further, still include discharge mechanism, discharge mechanism includes motor cabinet III, motor cabinet III fixed mounting is in the bottom of churn, fixed mounting has motor III on the motor cabinet III, motor cabinet's output fixedly connected with gear V, gear V meshes with rack I, rack II mutually, the one end fixed connection of rack I is on discharge plate I, the one end of rack II is passed through the connecting strip and is connected on discharge plate II, discharge plate I, the bottom of discharge plate II slidable mounting at the churn.

Compared with the prior art, the utility model has the beneficial effects that: (1) According to the utility model, the rotary mechanism is arranged, and the sliding block slides in the rotary sliding groove of the cylindrical cam to enable the cylindrical cam to rotate, so that the positions of the stirring mechanism and the extrusion mechanism are changed, and the stirring of raw materials and the extrusion of finished products can be carried out more quickly and efficiently; (2) According to the utility model, the stirring mechanism is arranged, the height of the lifting plate is controlled by the hydraulic cylinder, so that the position heights of the gear I and the gear III are controlled, the rotation of the stirring rod connecting frame is controlled by the cooperation of the gears, different stirring speeds are adopted for different raw materials, the raw materials can be stirred more pertinently, and the sufficiency and stirring efficiency of the raw material stirring are improved; (3) According to the utility model, by arranging the solid blanking mechanism and the liquid blanking mechanism, the solid blanking mechanism drives the belt grooved wheel to rotate by utilizing the synchronous belt transmission, and the quantity of the added raw materials is controlled by utilizing the fixed volume of the feeding groove on the belt grooved wheel and the counting times of the counter; the liquid discharging mechanism uses the displacement distance of the cylinder rod I in the stroke pipe to discharge the top, and uses the difference of the air pressure in the container to discharge the emulsion raw materials through the three-way connecting pipe; the accurate quantitative blanking can be carried out on the solid raw materials and the emulsion raw materials, so that inaccurate blanking caused by manual measurement is avoided, and the manual work load is reduced; (4) According to the utility model, the extrusion mechanism and the discharging mechanism are arranged, the extrusion mechanism changes the height position of the extrusion plate by utilizing the meshing of the bevel gear and the transmission of the screw rod, and extrusion discharging is carried out on the finished product in the stirring barrel, so that the discharging is smoother and the residue in the stirring barrel is reduced; the discharging mechanism utilizes the meshing between the gear and the rack to control the opening and closing of the discharging hole, thereby being beneficial to better discharging and improving the working efficiency.

Drawings

Fig. 1 is a top view of the present utility model.

FIG. 2 is a schematic diagram of the overall structure of the stirring mechanism of the present utility model in operation.

FIG. 3 is a schematic view of the whole structure of the pressing mechanism of the present utility model in operation.

Fig. 4 is a front view of the rotary mechanism of the present utility model.

Fig. 5 is a schematic view of the rotary mechanism of the present utility model with the slide bar removed.

Fig. 6 is a schematic structural view of the extrusion structure of the present utility model.

Fig. 7 is a schematic structural diagram of a pressing mechanism according to the present utility model.

Fig. 8 is a schematic structural view of the stirring mechanism of the present utility model.

FIG. 9 is a schematic view showing the structure of the stirring mechanism with the fixing base III removed.

Fig. 10 is a schematic structural diagram of a stirring mechanism according to the present utility model.

FIG. 11 is a schematic view of a solid blanking mechanism according to the present utility model with one of the hoppers removed.

FIG. 12 is a schematic diagram of a solid blanking mechanism of the present utility model with one of the hoppers removed.

Fig. 13 is a schematic structural view of a liquid discharging mechanism of the present utility model.

Fig. 14 is a schematic structural view of the discharging mechanism of the present utility model.

Reference numerals: 1-a supporting frame; 2-a stirring cylinder; 3-a rotation mechanism; 301-fixing seat I; 302-barrel cam; 303-a rotary slide slot; 304-a slider; 305-a sliding rod; 306-a slide; 307-spring I; 308-spring II; 309-a fixed slot; 4-an extrusion mechanism; 401-a fixed seat II; 402-handle; 403-rotating shaft I; 404-bevel gear I; 405-bevel gear II; 406-a screw; 407-nut sleeve; 408-a connecting frame; 409-supporting rods; 410-squeeze plate; 411-fixed block I; 5-a stirring mechanism; 501-a fixing seat III; 502-a motor I; 503-motor base I; 504-hydraulic cylinder I; 505-hydraulic lever i; 506-clamping blocks; 507-lifting plate; 508-connecting columns; 509-gear I; 510-gear II; 511-rotation axis II; 512-gear iii; 513-gear IV; 514-a stirring rod connecting frame; 515-stirring rod; 6-a solid blanking mechanism; 601-supporting plate I; 602-a storage hopper; 603-a motor base II; 604-motor II; 605-motor shaft; 606-pulley I; 607-a synchronous belt; 608-belt wheel II; 609-rotation axis III; 610-belt sheaves; 611-feeding groove; 612-fixing seat IV; 613-a cam; 614-sheave; 615-rotation axis iv; 616-a counter; 617-discharge hopper; 618-a feeding pipe I; 619-support column I; 7-a liquid blanking mechanism; 701-supporting plate II; 702-a support base; 703-a cylinder fixing plate; 704-a cylinder I; 705-cylinder rod I; 706—a stroke tube securing plate; 707—a travel tube; 708-a tee fixing seat; 709-stock cartridge; 710—a discharge cylinder; 711-cylinder rod II; 712-cylinder II; 713-hydraulic cylinder holders; 714-hydraulic cylinder II; 715-hydraulic lever ii; 716-rotating the lever; 717-three-way connecting pipe; 718-support column ii; 719-feeding pipe II; 8-a discharging mechanism; 801-motor base III; 802-motor III; 803-gear v; 804-rack I; 805-rack II; 806-a discharge plate I; 807-connecting bars; 808-a discharging plate II; 9, a material receiving tank; 10-control panel.

Detailed Description

The technical scheme of the utility model is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the utility model, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: the mixing device for producing the film release agent as shown in fig. 1-3 comprises a support frame 1, wherein a stirring cylinder 2 is fixedly arranged on the support frame 1, a control panel 10 is fixedly arranged on the side surface of the top end of the support frame 1, a receiving tank 9 is arranged right below the bottom end of the stirring cylinder 2, and the mixing device also comprises a rotating mechanism 3, wherein the rotating mechanism 3 is fixedly arranged on the support frame 1 and is positioned on the side surface of the stirring cylinder 2 and is used for fixing an extruding mechanism 4 and driving the extruding mechanism 4 and the stirring mechanism 5 to rotate; the extruding mechanism 4 is fixedly arranged on the rotating mechanism 3 and is used for connecting the stirring mechanism 5 and extruding and discharging the finished product in the stirring barrel 2; the stirring mechanism 5 is fixedly arranged on the extrusion mechanism 4 and is used for stirring the raw materials fed into the stirring cylinder 2; the solid blanking mechanism 6 is fixedly arranged on the support frame 1 and is used for feeding solid raw materials into the stirring barrel 2; the liquid discharging mechanism 7 is fixedly arranged on the support frame 1 and is used for feeding the emulsion raw materials into the stirring barrel 2; the discharging mechanism 8 is arranged at the bottom end of the stirring barrel 2 and is used for discharging the finished product stirred in the stirring barrel 2.

As shown in fig. 4 and 5, the rotating mechanism 3 includes a fixed base i 301, the fixed base i 301 is fixedly mounted on the support frame 1, a barrel cam 302 is rotatably mounted on the fixed base i 301, a rotating sliding groove 303 is provided on the barrel cam 302, the rotating sliding groove 303 is tangential to a first end of a sliding block 304, a second end of the sliding block 304 is fixedly provided with a first end of a spring ii 308, a second end of the spring ii 308 is fixedly mounted in a sliding rod 305, the sliding block 304 is slidably mounted in the sliding rod 305, the sliding rod 305 is slidably mounted in a sliding seat 306, the sliding seat 306 is fixedly mounted on the support frame 1, the sliding rod 305 is divided into a head and a rod portion, a first end of the spring i 307 is fixedly mounted at a lower end of the head of the sliding rod 305, a second end of the spring i 307 is fixedly mounted on the spring i 307, and two symmetrical fixing grooves 309 are provided at a bottom end of the barrel cam 302; when the rotary stirring mechanism works, the sliding rod 305 is pulled downwards, the sliding rod 305 moves downwards to drive the sliding block 304 to move downwards, the sliding block 304 moves along the rotary sliding groove 303 to enable the barrel cam 302 to rotate, and after one hundred eighty degrees of rotation, the sliding rod 305 is reset under the action of the spring I307, and at the moment, the position of the pressing mechanism 4 and the position of the stirring mechanism 5 are switched.

As shown in fig. 6 and 7, the extruding mechanism 4 includes a fixing base ii 401, two fixing blocks i 411 are symmetrically arranged at the bottom end of the fixing base ii 401, the fixing blocks i 411 are fixedly installed in a fixing groove 309, a rotating shaft i 403 is rotatably installed on the fixing base ii 401, a handle 402 is fixedly installed at a first end of the rotating shaft i 403, a bevel gear i 404 is fixedly installed at a second end of the rotating shaft i 403, the bevel gear i 404 is meshed with the bevel gear ii 405, a screw 406 is fixedly installed on the bevel gear ii 405, a nut sleeve 407 is installed on the screw 406 in a threaded manner, the nut sleeve 407 is slidably installed in the middle of a connecting frame 408, a first end of a supporting rod 409 is fixedly installed at a first end of the connecting frame 408, a extruding plate 410 is fixedly connected to a second end of the supporting rod 409, and a second end of the connecting frame 408 is fixedly connected to the bottom end of a fixing base iii 501; when the extrusion mechanism 4 works, the extrusion plate 410 is positioned in the mixing drum 2, the handle 402 is rotated, the bevel gear I404 is driven to rotate and then the bevel gear II 405 is driven to rotate, the bevel gear II 405 drives the screw 406 to rotate, so that the nut sleeve 407 moves downwards, the connecting frame 408 drives the support rod 409 to move downwards, and the extrusion plate 410 extrudes the isolating agent in the mixing drum 2 downwards to enable the isolating agent to flow out.

As shown in fig. 8-10, the stirring mechanism 5 comprises a fixing seat iii 501, a motor seat i 503 is fixedly mounted in the bottom end of the fixing seat iii 501, a motor i 502 is fixedly mounted on the motor seat i 503, the output end of the motor i 502 is fixedly mounted on the top end of a stirring rod connecting frame 514, two side surfaces of the fixing seat iii 501 are fixedly provided with a hydraulic cylinder i 504, a first end of a hydraulic rod i 505 is slidably mounted in the hydraulic cylinder i 504, a clamping block 506 is fixedly mounted at the second end of the hydraulic rod i 505, the clamping block 506 is fixedly mounted on a lifting plate 507, the lifting plate 507 is slidably mounted on a connecting column 508, a gear i 509 is fixedly mounted on the connecting column 508, the gear i 509 is meshed with a gear ii 510, a gear iii 512 is fixedly mounted on the lower side of the gear i 509, the gear iii 512 is fixedly mounted on the connecting column 508, the gear iii 512 is meshed with a gear iv 513, the bottom end of the connecting column 508 is rotatably mounted with the stirring rod connecting frame 514 through a rotation shaft ii 511, two ends of the stirring rod connecting frame 514 are fixedly mounted with a rotation shaft ii 511, the bottom end of the rotation shaft ii is fixedly connected with a rotation shaft ii, and two stirring rods 509, and two stirring rods i and iii, i and iii are respectively 512 are provided with a rotation shaft ii; when the stirring rod 515 is in operation, the motor I502 is started to drive the stirring rod connecting frame 514 to rotate so as to drive the gear I509 and the gear III 512 to rotate, the gear I509 is meshed with the gear II 510, and the gear III 512 is meshed with the gear IV 513, so that the gear II 510 and the gear IV 513 rotate and revolve, and the stirring rod 515 is driven to rotate to stir raw materials during rotation; when the hydraulic rod I505 is not lifted, the stirring rod 515 stirs the solid raw material, and after the hydraulic rod I505 drives the lifting plate 507 to lift, the stirring rod 515 stirs the solid-liquid mixed raw material.

As shown in fig. 11 and 12, the solid blanking mechanism 6 comprises a supporting plate i 601, a belt pulley ii 608 and a cam 613, wherein three supporting columns i 619 are arranged on the lower side of the supporting plate i 601, the supporting columns i 619 are fixedly arranged on the supporting frame 1, two storage hoppers 602 are fixedly arranged on the supporting plate i 601, a motor base ii 603 is fixedly arranged below the side wall of the storage hoppers 602, a motor ii 604 is fixedly arranged on the motor base ii 603, the output end of the motor ii 604 is fixedly connected with the first end of a motor shaft 605, the second end of the motor shaft 605 is fixedly connected with the belt pulley i 606, the belt pulley i 606 is connected with the belt pulley ii 608 through a synchronous belt 607, the belt pulley ii 608 is fixedly arranged at the first end of a rotating shaft iii 609, a belt pulley iii 609 is fixedly provided with a grooved wheel 610, four inlet grooves 611 are uniformly distributed on the circumference of the belt pulley iii 609, the belt pulley 610 is matched with a fixed seat iv 612, the fixed seat iv 612 is fixedly arranged in the bottom end of the storage hoppers 602, the cam 613 is fixedly arranged at the second end of the rotating shaft 609, the cam 613 is meshed with the grooved pulley 614, the grooved pulley 614 is fixedly arranged at the first end of the rotating shaft iv 615, the output end of the motor ii 604 is fixedly connected with the first end of the motor shaft 605, the second end of the motor shaft 608 is fixedly connected with the motor shaft 608, the second end of the rotating shaft iv is fixedly connected with the first end of the counter 616, the first end of the hopper 616 is fixedly connected with the first end of the hopper 618, the first end of the hopper 616 is fixedly arranged at the end of the hopper 617, and the end of the counter material inlet pipe is fixedly arranged at the end of the charging hopper is 616 is fixedly connected with the charging hopper is 618, and is fixedly connected with the charging material inlet is connected with the charging tube is arranged; during operation, the counter 616 is firstly set for times according to the number of raw materials required to be fed in, then the motor II 604 is started, the motor II 604 drives the belt pulley I606 to rotate, the belt pulley 610 is driven to rotate through the transmission of the synchronous belt 607, each ninety degrees of rotation of the belt pulley 610 is carried out, the raw materials are fed into the discharge hopper 617 once, meanwhile, the counter 616 counts once under the action of the cam 613 and the belt pulley 614, and when the counter 616 reaches the set times, the motor II 604 stops rotating.

As shown in FIG. 13, the liquid discharging mechanism 7 comprises a support plate II 701 and a hydraulic cylinder fixing base 713, wherein a support base 702 is fixedly installed on the support plate II 701, a first end of a support column II 718 is fixedly installed inside the bottom end of the support base 702, a second end of the support column II 718 is fixedly installed on the support frame 1, a pair of cylinder fixing plates 703 are fixedly installed on the support base 702, a cylinder I704 is fixedly installed between the two cylinder fixing plates 703, a first end of a cylinder rod I705 is installed inside the cylinder II 704 in a sliding manner, a second end of the cylinder rod I705 is installed inside a travel tube 707, both ends of the travel tube 707 are fixedly installed on the travel tube fixing plates 706, the travel tube fixing plates 706 are fixedly installed on the support base 702, the travel tube 707 is fixedly connected with one side of a three-way fixing base 708, a cylinder storage cylinder 709 is fixedly installed on the side opposite to the three-way fixing base 708, a first end of the cylinder rod II is fixedly installed inside the cylinder fixing base 719, a second end of the cylinder II 711 is installed inside the cylinder II 712 in a sliding manner, the bottom end of the cylinder II 712 is fixedly connected with a first end of the support plate fixing base 713, the bottom end of the hydraulic cylinder fixing base 710 is fixedly connected with a second end of the hydraulic cylinder fixing base 713, a third end of the hydraulic cylinder fixing base 713 is fixedly connected with a cavity II, a hydraulic rod is fixedly connected with a second end of a hydraulic rod compression rod is fixedly installed on the hollow cylinder fixing base, the bottom end of the hydraulic rod is fixedly connected with a hollow cylinder fixing base, and a hollow cylinder fixing base is fixedly connected with a cylinder fixing base, and a hollow cylinder fixing base is mounted on the hollow cylinder fixing base, and a cylinder is mounted on the hollow cylinder fixing material is mounted on the hollow cylinder, and a cylinder material is mounted. The second end of the feeding pipe II 719 is arranged on the side wall of the mixing drum 2; when the device works, firstly the hydraulic cylinder II 714 is driven, the hydraulic rod II 715 drives the rotating rod 716 to rotate, two communication ports of the three-way connecting pipe 717 are respectively aligned with the stock cylinder 709 and the travel pipe 707, the air cylinder I704 is started, the emulsion raw material needing to be put in is determined according to the moving distance of the air cylinder rod I705 in the travel pipe 707, after the air cylinder rod I705 moves to a required position, the hydraulic cylinder II 714 is started, the two communication ports of the three-way connecting pipe 717 are respectively corresponding to the travel pipe 707 and the discharge cylinder 710, the rest communication port is opposite to the lower side and is not communicated with the stock cylinder 709, and the air cylinder I705 is pushed, so that the raw material is extruded out through the lower end of the discharge cylinder 710. If there is still a residue in the discharge cylinder 710, the cylinder II 712 is activated, and the residual raw material is pushed out by the cylinder rod II 711.

The mixing device for producing film release agent shown in fig. 14 further comprises a discharging mechanism 8, wherein the discharging mechanism 8 comprises a motor base III 801, the motor base III 801 is fixedly arranged at the bottom end of the stirring cylinder 2, a motor III 802 is fixedly arranged on the motor base III 801, the output end of the motor III 802 is fixedly connected with a gear V803, the gear V803 is meshed with a rack I804 and a rack II 805, one end of the rack I804 is fixedly connected to a discharging plate I806, one end of the rack II 805 is connected to a discharging plate II 808 through a connecting strip 807, and the discharging plate I806 and the discharging plate II 808 are slidably arranged at the bottom end of the stirring cylinder 2; during operation, motor III 802 is started, motor III 802 drives gear V803 to rotate, and then drives rack I804 and rack II 805 relative movement to drive discharge plate I806 and discharge plate II 808 to remove, open the discharge gate of churn 2 below.

Working principle: when the device does not work, the stirring mechanism 5 is positioned inside the stirring cylinder 2; when the device is ready to work, raw materials are put into a storage hopper 602, the raw materials fall into a feed trough 611, the number of times is set for a counter 616 according to the amount of solid raw materials to be added, after setting, a motor II 604 is started through a control panel, the motor II 604 drives a motor shaft 605 to rotate, the motor shaft 605 drives a belt wheel I606 to rotate, the belt wheel I606 drives a belt wheel II 608 to rotate through a synchronous belt 607, the belt wheel II 608 drives a rotating shaft III 609 to rotate so as to drive a belt wheel 610 to rotate, each ninety degrees of rotation of the belt wheel 610, the raw materials in the feed trough 611 are poured into a discharge hopper 617 once, the raw materials enter the stirring barrel 2 through the feed trough I618, meanwhile, the rotating shaft III 609 drives a cam 613 to rotate, the cam 613 drives the belt wheel 614 to rotate so as to drive a rotating shaft IV 615 to rotate, the rotation of the belt wheel 610 is ninety degrees every time, the rotating shaft IV 615 rotates once, after the number of times recorded by the counter reaches the set number of times, the motor II 604 is closed, and the belt wheel 610 stops rotating; after the raw materials in the two hoppers 602 are all put into the mixing drum 2 in the set amount, the solid raw materials are discharged.

When the stirring mechanism 5 is not in operation, the gear III 512 is meshed with the gear IV 513; when solid raw materials fall into the stirring barrel 2, the motor I502 is started, the motor I502 drives the stirring rod connecting frame 514 to rotate, and in the rotating process of the stirring rod connecting frame 514, the stirring rod connecting frame is fixedly connected with the gear IV 513 through the rotating shaft II 511, so that the two gears IV 513 are driven to rotate around the gear III 512, and the gear III 512 is meshed with the gear IV 513, so that the gear IV 513 rotates around the gear III 512, so that the stirring rod 515 is driven to rotate, and the stirring rod 515 is used for stirring the raw materials in the stirring barrel 2; after the solid raw materials are uniformly stirred, a hydraulic cylinder II 714 is started, a rotating rod 716 is driven by a hydraulic rod II 715 to rotate, a three-way connecting pipe 717 is driven to rotate, two communication ports of the three-way connecting pipe 717 correspond to a travel pipe 707 and a storage cylinder 709 respectively, a cylinder I704 is started, the second end of the cylinder rod I705 slides backwards in the travel pipe 707, under the action of air pressure, the emulsion raw materials in the storage cylinder 709 are sucked downwards to flow out, the inner diameter of the travel pipe 707 is consistent, the moving travel of the cylinder rod I705 in the travel pipe 707 can control the quantity of the emulsion raw materials, after the cylinder rod I705 moves to a required position, the movement is notified, the hydraulic cylinder II 714 is started, the hydraulic rod II 715 drives the rotating rod 716 to rotate, and then the three-way connecting pipe 717 is driven to rotate, the two communication ports of the three-way connecting pipe 717 correspond to the travel pipe 707 and the discharge cylinder 710 respectively, the rest communication ports of the three-way connecting pipe 707 are opposite to the lower side, and are not communicated with the storage cylinder 709, and after that, the cylinder I704 is started, the cylinder I705 pushes the emulsion raw materials in the travel pipe and the three-way connecting pipe 717 to move towards the position of the discharge cylinder 710 and flow out through the bottom end of the discharge cylinder 710; if the cylinder rod I705 is moved to end and the residual emulsion raw material is left in the discharge cylinder 710, the cylinder II 712 is started, the cylinder rod II 711 is moved downwards to push the residual emulsion raw material in the discharge cylinder 710 downwards, the emulsion raw material flows into the stirring cylinder 2 through the feeding pipe II 719, and after the raw materials in the two storage cylinders 709 are all dropped into the stirring cylinder 2 according to the set quantity, the discharging of the emulsion raw material is ended.

At this time, the hydraulic cylinder i 504 is started, the hydraulic rod i 505 drives the fixture block 506 to lift upwards, the fixture block 506 drives the lifting plate 507 to lift upwards and then drives the gear i 509 and the gear iii 512 to lift upwards, until the gear i 509 is meshed with the gear ii 510 and then stops, the motor i 502 is started, the motor i 502 drives the stirring rod connecting frame 514 to rotate, and the stirring rod connecting frame 514 is fixedly connected with the gear ii 510 through the rotating shaft ii 511 in the rotating process, so that the two gears ii 510 are driven to rotate around the gear i 509, and the gear ii 510 rotates when rotating around the gear i 509 due to the meshing of the gear i 509 and the gear ii 510, so that the stirring rod 515 rotates, and then the stirring rod 515 stirs the solid and the emulsion raw materials in the stirring cylinder 2; after stirring evenly, motor I502 is turned off.

Subsequently, the handle 402 is rotated, the handle 402 drives the rotation shaft I403 to rotate, the rotation shaft I403 drives the bevel gear I404 to rotate, the bevel gear I404 drives the bevel gear II 405 to rotate and then drives the screw 406 to rotate, the nut sleeve 407 moves upwards to enable the connecting frame 408 to move upwards when the screw 406 rotates, the pressing plate 410 and the bottom end of the stirring rod 515 are all located on the top end of the stirring barrel 2 and then stop, the sliding rod 305 is pulled downwards, the sliding rod 305 drives the sliding block 304 to move downwards when moving downwards, the sliding block 304 moves along the rotating sliding groove 303 when moving downwards, the barrel cam 302 rotates, the sliding rod 305 is reset under the action of the spring I307 after rotating for one hundred eighty degrees, and the fixing seat II 401 also rotates for one eighty degrees after the fixing block I411 at the bottom end of the fixing seat II is fixedly connected with the fixing groove 309 after the barrel cam 302 rotates for one hundred eighty degrees, and at this time, the pressing plate 410 and the stirring mechanism 5 are switched positions.

At this time, the handle 402 is reversed, the handle 402 drives the rotation shaft I403 to rotate, the rotation shaft I403 drives the bevel gear I404 to rotate, the bevel gear I404 drives the bevel gear II 405 to rotate, the bevel gear II 405 drives the screw 406 to rotate and further drives the nut sleeve 407 to move downwards, the nut sleeve 407 drives the connecting frame 408 to move downwards, the connecting frame 408 drives the supporting rod 409 to move downwards and further drives the extrusion plate 410 to move downwards along the inner wall of the stirring barrel 2, and therefore the well-stirred isolating agent in the stirring barrel 2 is extruded downwards; simultaneously, start motor III 802, motor III 802 drives gear V803 and rotates, and gear V803 drives rack I804 and rack II 805 and do the motion that deviates from mutually, and rack I804 drives flitch I806 motion, and rack II 805 drives flitch II 808 motion for flitch I806 and flitch II 808 do the motion that deviates from mutually, and the discharge gate of churn 2 bottom is opened, and when stripper plate 410 extrudees downwards, inside isolating agent flows to in the material receiving tank 9 through the discharge gate.

The present utility model is not limited to the above-described embodiments, and various modifications are possible within the scope of the present utility model without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (8)

1. The utility model provides a mixing arrangement is used in film release agent production, includes support frame (1), fixedly mounted has churn (2) on support frame (1), and the top side fixed mounting of support frame (1) has control panel (10), is provided with under the bottom of churn (2) and connects material jar (9), its characterized in that:

the stirring device also comprises a rotating mechanism (3), wherein the rotating mechanism (3) is fixedly arranged on the supporting frame (1) and positioned on the side surface of the stirring cylinder (2) and is used for fixing the extruding mechanism (4) and driving the extruding mechanism (4) and the stirring mechanism (5) to rotate;

the extruding mechanism (4) is fixedly arranged on the rotating mechanism (3) and is used for connecting the stirring mechanism (5) and extruding and discharging a finished product in the stirring barrel (2);

the stirring mechanism (5), the stirring mechanism (5) is fixedly arranged on the extrusion mechanism (4) and is used for stirring the raw materials fed into the stirring cylinder (2);

the solid blanking mechanism (6), the solid blanking mechanism (6) is fixedly arranged on the supporting frame (1) and is used for feeding solid raw materials into the stirring barrel (2);

the liquid discharging mechanism (7), the liquid discharging mechanism (7) is fixedly arranged on the supporting frame (1) and is used for feeding the emulsion raw materials into the stirring barrel (2);

the stirring mechanism (5) comprises a fixed seat III (501), a motor seat I (503) is fixedly arranged at the bottom end of the fixed seat III (501), a motor I (502) is fixedly arranged on the motor seat I (503), the top end of a stirring rod connecting frame (514) is fixedly arranged at the output end of the motor I (502), a hydraulic cylinder I (504) is fixedly arranged at the two side surfaces of the fixed seat III (501), a first end of a hydraulic rod I (505) is slidably arranged in the hydraulic cylinder I (504), a clamping block (506) is fixedly arranged at the second end of the hydraulic rod I (505), the clamping block (506) is fixedly arranged on a lifting plate (507), the lifting plate (507) is slidably arranged on a connecting column (508), a gear I (509) is fixedly arranged on the connecting column (508), the gear I (509) is meshed with a gear II (510), a gear III (512) is fixedly arranged at the lower side of the gear I (509), a gear III (508) is fixedly arranged on the connecting column (508), the gear II (508) is fixedly meshed with the gear II (513), the bottom end of the connecting column (513) through the connecting column (513) and the rotating shaft (510), two ends of the stirring rod connecting frame (514) are fixedly provided with a rotating shaft II (511), the bottom end of the rotating shaft II (511) is fixedly connected with the top end of the stirring rod (515), and two gears I (509), two rotating shafts II (511), two gears III (512) and two stirring rods (515) are arranged.

2. The mixing device for producing a film release agent according to claim 1, wherein: the rotary mechanism (3) comprises a fixed seat I (301), the fixed seat I (301) is fixedly arranged on a supporting frame (1), a barrel cam (302) is rotatably arranged on the fixed seat I (301), a rotary sliding groove (303) is formed in the barrel cam (302), the rotary sliding groove (303) is tangent to a first end of a sliding block (304), a first end of a spring II (308) is fixedly arranged at a second end of the sliding block (304), the second end of the spring II (308) is fixedly arranged in a sliding rod (305), the sliding block (304) is slidably arranged in the sliding rod (305), the sliding rod (305) is slidably arranged in a sliding seat (306), the sliding seat (306) is fixedly arranged on the supporting frame (1), the sliding rod (305) is divided into a head part and a rod part, the first end of the spring I (307) is fixedly arranged at the lower end of the head part of the sliding rod (305), the second end of the spring I (307) is fixedly arranged on the spring I (307), and two symmetrical fixed grooves (309) are formed at the bottom ends of the barrel cam (302).

3. The mixing device for producing a film release agent according to claim 1, wherein: the extrusion mechanism (4) comprises a fixed seat II (401), two fixed blocks I (411) are symmetrically arranged at the bottom end of the fixed seat II (401), the fixed blocks I (411) are fixedly installed in a fixed groove (309), a rotating shaft I (403) is rotatably installed on the fixed seat II (401), a handle (402) is fixedly installed at the first end of the rotating shaft I (403), a bevel gear I (404) is fixedly installed at the second end of the rotating shaft I (403), the bevel gear I (404) is meshed with the bevel gear II (405), a screw (406) is fixedly installed on the bevel gear II (405), a nut sleeve (407) is installed on the screw (406) in a threaded mode, the nut sleeve (407) is slidably installed in the middle of a connecting frame (408), a first end of a supporting rod (409) is fixedly installed at the first end of the connecting frame (408), a extruding plate (410) is fixedly connected with the second end of the supporting rod (409), and the bottom end of the fixed seat III (501) is fixedly connected with the second end of the connecting frame (408).

4. The mixing device for producing a film release agent according to claim 1, wherein: the solid unloading mechanism (6) comprises a supporting plate I (601) and a belt pulley II (608), three supporting columns I (619) are arranged on the lower side of the supporting plate I (601), the supporting columns I (619) are fixedly arranged on a supporting frame (1), two storage hoppers (602) are fixedly arranged on the supporting plate I (601), motor bases II (603) are fixedly arranged below the side walls of the storage hoppers (602), motors II (604) are fixedly arranged on the motor bases II (603), the output ends of the motors II (604) are fixedly connected with the first ends of motor shafts (605), the second ends of the motor shafts (605) are fixedly connected with belt pulleys I (606), the belt pulleys I (606) are connected with the belt pulleys II (608) through synchronous belts (607), the belt pulleys II (608) are fixedly arranged at the first ends of the rotating shafts III (609), four feeding grooves (611) are uniformly distributed on the circumferential surfaces of the belt grooved wheels (610), and the bottom ends of the belt grooved wheels (610) are fixedly arranged in the belt grooved wheels (609) and are fixedly matched with the inner parts (612) of the belt hoppers (612).

5. The mixing device for producing a film release agent according to claim 4, wherein: the solid discharging mechanism (6) further comprises a cam (613), the cam (613) is fixedly arranged at the second end of the rotating shaft III (609), the cam (613) is meshed with the grooved wheel (614), the grooved wheel (614) is fixedly arranged at the first end of the rotating shaft IV (615), the second end of the rotating shaft IV (615) is fixedly connected with a counter (616), the counter (616) is fixedly arranged on the bottom side wall of the storage hopper (602), the bottom end of the storage hopper (602) is fixedly provided with the first end of the discharge hopper (617), the second end of the discharge hopper (617) is fixedly connected with the first end of the feeding pipe I (618), and the second end of the feeding pipe I (618) is arranged on the side wall of the stirring cylinder (2).

6. The mixing device for producing a film release agent according to claim 1, wherein: the liquid discharging mechanism (7) comprises a supporting plate II (701), a supporting seat (702) is fixedly arranged on the supporting plate II (701), a first end of a supporting column II (718) is fixedly arranged at the inner part of the bottom end of the supporting seat (702), a second end of the supporting column II (718) is fixedly arranged on a supporting frame (1), a pair of cylinder fixing plates (703) are fixedly arranged on the supporting seat (702), a cylinder I (704) is fixedly arranged between the two cylinder fixing plates (703), a first end of a cylinder rod I (705) is slidably arranged in the cylinder I (704), a second end of the cylinder rod I (705) is slidably arranged in a stroke pipe (707), two ends of the stroke pipe (707) are fixedly arranged on a stroke pipe fixing plate (706), the stroke pipe (706) is fixedly arranged on the supporting seat (702), a material storage cylinder (709) is fixedly arranged on the upper side of the three-way fixing seat (708), a material storage cylinder (709) is fixedly arranged on one side of the three-way fixing seat (708), a material storage cylinder (708) is fixedly connected with one side of the three-way fixing seat (708), a material storage cylinder (710) is fixedly arranged on the other side of the three-way fixing seat (708), and the material storage cylinder (710) is fixedly arranged on the other side (710), and the material discharge cylinder (710) is fixedly arranged on one side (710) opposite side, the discharge end, and the discharge end (710) of the material, the bottom of cylinder II (712) is fixedly connected with the bottom of ejection of compact jar (710).

7. The mixing device for producing a film release agent according to claim 6, wherein: the liquid unloading mechanism (7) still includes pneumatic cylinder fixing base (713), pneumatic cylinder fixing base (713) fixed mounting is on supporting seat (702), rotate on pneumatic cylinder fixing base (713) and install pneumatic cylinder II (714), the inside slidable mounting of pneumatic cylinder II (714) has the first end of hydraulic stem II (715), the second end of hydraulic stem II (715) rotates the first end that is connected with dwang (716), the second end fixedly connected with tee bend connecting pipe (717) of dwang (716), tee bend connecting pipe (717) inside is the cavity and is equipped with three intercommunication mouth, pan feeding pipe II (719) are installed to ejection of compact jar (710) bottom, the first end fixed mounting of pan feeding pipe II (719) is on backup pad II (701), the lateral wall in churn (2) is installed to the second end of pan feeding pipe II (719).

8. The mixing device for producing a film release agent according to claim 1, wherein: still include discharge mechanism (8), discharge mechanism (8) include motor cabinet III (801), motor cabinet III (801) fixed mounting is in the bottom of churn (2), fixed mounting has motor III (802) on motor cabinet III (801), the output fixedly connected with gear V (803) of motor III (802), gear V (803) meshes with rack I (804), rack II (805) mutually, the one end fixed connection of rack I (804) is on discharge plate I (806), the one end of rack II (805) is passed through connecting strip (807) and is connected on discharge plate II (808), discharge plate I (806), discharge plate II (808) slidable mounting are in the bottom of churn (2).

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