CN113561348B - Preparation and premixing device for automobile injection molding machining raw materials - Google Patents

Abstract

The invention discloses a device for preparing and premixing automobile injection molding processing raw materials, which comprises a discharge hopper, a discharge plate, a first connecting disc, a rotating motor, a sufficient mixing box, a fixing frame, a transmission shaft, a second connecting disc, a discharge hopper, a motor, a baffle plate and a precise preparation discharging mechanism, wherein a first mounting groove is formed in the right side below the inner part of the discharge hopper, the inner part of the first mounting groove is fixedly connected with the outer ring of a first bearing, the bottom of the discharge hopper penetrates through the bottom end of the inner part of a primary stirring box, the right side of a connecting rod group penetrates through the right side of the inner wall of the discharge hopper and extends to the outer wall of the right side of the discharge hopper, the device for preparing and premixing automobile injection molding processing raw materials is provided with the primary stirring box and the rotating motor, the first connecting disc is driven to rotate in the working process by the rotating motor, the rotating blades are driven to move in the same direction by the rotating movement of the first connecting disc, and the prepared raw materials conveyed into the primary stirring box are subjected to primary stirring treatment by the rotating blades in the rotating movement process.

Description

Preparation and premixing device for automobile injection molding machining raw materials

Technical Field

The invention relates to the technical field of automobile injection molding part processing, in particular to a device for preparing and premixing automobile injection molding part processing raw materials.

Background

Along with the progress of science and technology and the development of economic society, automobiles become one of more and more families of travel transportation tools gradually, automobiles are formed by assembling a plurality of parts, plastic parts are decoration parts commonly used by automobiles, raw materials required by injection molding parts can be prepared only by mutually preparing different raw materials in the manufacturing process of the plastic parts, and the prepared raw materials are conveyed into a mixing device to be fully mixed, so that matched injection molding materials required by the automobile injection molding parts are obtained.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides a device for preparing and premixing processing raw materials of automobile injection molding parts, which solves the problems that the quality and quality of injection molding parts are also certain due to the fact that the prepared raw materials are always subjected to certain flaws through manual experience and judgment in the preparation process of the prior automobile injection molding part raw materials proposed in the background technology, the prepared raw materials are directly placed in a mixing box in the prior raw material preparation process, and the mixing box cannot be subjected to continuous mixing treatment.

In order to achieve the purpose, the invention provides the following technical scheme: a device for preparing and premixing processing raw materials of automobile injection molding parts comprises a discharge hopper, a discharge plate, a first connecting disc, a rotating motor, a sufficient mixing box, a fixing frame, a transmission shaft, a second connecting disc, a discharge hopper, a motor, a baffle and a precise preparation discharging mechanism, wherein a first mounting groove is formed in the left side of the lower portion of the inner portion of the discharge hopper, the inner portion of the first mounting groove is fixedly connected with a first bearing outer ring, the bottom of the discharge hopper penetrates through the bottom end of the inner portion of the primary mixing box, the bottom of the discharge hopper extends to the bottom of the primary mixing box, the top end of the discharge hopper is fixedly connected with the two sides of the inner wall of the primary mixing box, connecting rod sets are fixed on the two sides of the discharge plate, the right side of each connecting rod set penetrates through the right side of the inner wall of the discharge hopper and extends to the outer wall of the right side of the discharge hopper, the left side of each connecting rod set is fixedly connected with the inner ring of the primary mixing box, the reciprocating motor is fixed below the right side of the discharge hopper through a hexagonal bolt, the reciprocating motor is electrically connected with a controller through a wire, rotary blade is fixed around the first connecting disc, the output end of the rotating motor penetrates through the outer wall of the primary mixing box, the first connecting rod set, the rear side of the first connecting disc and the first connecting plate is electrically connected with the rear end of the first connecting groove, and the second connecting groove, and the rear end of the first connecting groove are electrically connected with the rotating motor, and the first connecting groove, and electrically connected with the second connecting groove;

the top end of the fixing frame is provided with a through mounting hole in a penetrating manner, a second bearing is fixed inside the mounting hole, the bottom of the transmission shaft penetrates through a second bearing inner ring and extends below the fixing frame, a turbine is fixed at the top end of the transmission shaft, the bottom of the transmission shaft is fixedly connected with the top end of the connecting block, first stirring shafts are fixed on two sides of the connecting block, the bottom of the connecting block is fixedly connected with the top end of the transmission rod, second stirring shafts are fixed on the periphery of the second connecting disc, the top end of the second connecting disc is fixedly connected with the bottom of the transmission rod, the top end of the transmission shaft is fixedly connected with the third bearing inner ring, the right side of the discharge hopper is provided with a through groove in a penetrating manner, the bottom of the discharge hopper is fixedly connected with the top end of a third bearing outer ring through a mounting column, the output end of the motor is fixedly connected with the right side of the worm, the left side of the worm is connected with the turbine in a penetrating manner, the motor is fixed on the right side of the top end of the fixing frame through a hexagonal bolt and is electrically connected with the controller through an electric wire, two sides of the fixing frame are fixedly connected with two sides above the inner wall of the full mixing box, the bottom of the discharge hopper is fixedly connected with the top end of the full mixing box in a mosaic manner, and the baffle is mounted in the second mounting groove;

a accurate unloading mechanism of preparing installs on elementary agitator tank top for accurate preparation of car injection molding raw materials.

Preferably, accurate preparation unloading mechanism including mounting panel, slider, spring, prepare fill, scale, discharging pipe, accuse flitch, third mounting groove, fourth bearing, spliced pole, connecting rod, output motor, slide rail, logical frame and reciprocating cylinder, the mounting panel both sides are fixed with the slider, and mounting panel right side and spring left side fixed connection, it has the scale to prepare to fight surface mosaic, and prepares fill bottom and inlay fixed connection on the discharging pipe top, the discharging pipe bottom runs through mounting panel top mounting panel bottom, it is fixed in the mounting panel top through the mounting column to prepare the fill, the third mounting groove has been seted up on accuse flitch top right side, the inside fourth bearing that is fixed with of third mounting groove, spliced pole bottom and fourth bearing inner ring fixed connection, and spliced pole top and mounting panel bottom fixed connection, the connecting rod left side runs through accuse flitch top right side and extends in accuse flitch right side below, and connecting rod left side and accuse flitch right side swing joint, connecting rod right side and output motor output end fixed connection, output motor passes through hexagonal bolt fastening in the mounting panel bottom, the slide rail runs through the slider, and lead to the inside fixed connection of both sides of the frame of the right side and lead to the cylinder, the cylinder inner wall and lead to the cylinder output end through the cylinder and lead to the cylinder bottom and the cylinder and lead to the cylinder.

Preferably, the first mounting groove, the first bearing, the discharging plate, the connecting rod group and the reciprocating motor form a rotary tilting mechanism, and the rotary tilting mechanism has a rotation angle ranging from 0 to 180 °.

Preferably, the number of the rotating blades is 6, and the rotating blades are uniformly distributed on the surface of the first connecting disc.

Preferably, the number of the clamping grooves is 2, and the clamping grooves are symmetrically arranged relative to the central line of the sufficient mixing box.

Preferably, the discharge hopper is shaped like an equilateral triangle.

Preferably, the connection distance between the bottom of the second connecting disc and the bottom end of the interior of the intensive mixing box ranges from 0.5 cm to 1.5cm.

Preferably, the material control plate, the third mounting groove, the fourth bearing, the connecting column, the connecting rod and the output motor form a rotary discharging mechanism, and the rotary discharging mechanism has a rotation angle range of 0-90 degrees.

Preferably, the mounting plate, the slider, the spring and the reciprocating cylinder form a moving reciprocating mechanism, and the moving distance range of the moving reciprocating mechanism is 0-15cm.

Compared with the prior art, the invention has the beneficial effects that: the device for preparing and premixing the processing raw materials of the automobile injection molding part,

(1) The automatic feeding device is provided with a precise preparation blanking mechanism, raw materials to be prepared are placed inside a preparation hopper manually, a reciprocating cylinder is started to work through a controller, a mounting plate is driven to reciprocate in the working process of the reciprocating cylinder, the preparation hopper is driven to move in the same direction in the reciprocating process of the mounting plate, and the raw materials placed inside the preparation hopper are positioned on the same horizontal line of a scale in the same direction in the process of the equidirectional movement of the preparation hopper, so that the raw materials are prevented from being prepared through manual experience and judgment in the raw material preparation process, the raw material proportion is not consistent in the raw material preparation process, the prepared raw materials do not accord with the injection molding raw material standard of an automobile injection molding part, a connecting rod is driven to rotate in the working process of an output motor, the control plate and the bottom of a discharging pipe are driven to move relatively in the rotating process of the connecting rod, the control plate and the bottom of the discharging pipe are separated in the rotating process of the control plate, and the raw materials inside the preparation hopper are sequentially and conveniently conveyed inside a primary stirring tank to be subjected to primary stirring treatment;

(2) The device is provided with a reciprocating motor, a connecting rod group is driven to move in the working process of the reciprocating motor, a discharge plate is driven to rotate and tilt to perform treatment in the movement process of the connecting rod group, the raw materials after primary stirring are conveyed into a full mixing box to be fully mixed in the rotation and tilt process of the discharge plate, and the primary stirring box and a discharge hopper are isolated and communicated with the full mixing box through the discharge plate, so that the situation that the mixing box cannot continuously perform mixing treatment due to the fact that the prepared raw materials are directly placed into the mixing box in the existing raw material preparation process is avoided;

(3) The device is provided with a primary stirring box and a rotating motor, a first connecting disc is driven to rotate in the working process of the rotating motor, rotating blades are driven to move in the same direction in the rotating process of the first connecting disc, and the preparation raw materials conveyed into the primary stirring box and the discharge hopper are subjected to primary stirring treatment in the rotating process of the rotating blades;

(4) The second connecting disc is arranged, the second connecting disc is driven to rotate in the rotating motion process of the transmission rod, the second stirring shaft is driven to rotate in the rotating motion process of the second connecting disc, and meanwhile, raw materials conveyed to the bottom end inside the full mixing box are mixed and stirred in the rotating motion process of the second stirring shaft, so that the situation that the raw materials at the bottom end inside the full mixing box cannot be fully driven to be mixed and mixed in the rotating motion process of the first stirring shaft when the raw materials are conveyed into the full mixing box is avoided, the raw materials at the bottom end inside the full mixing box can be driven to be mixed for a long time in the rotating work process of the first stirring shaft, and the situation that the raw materials at the bottom of the full mixing box cannot be fully mixed is caused due to the fact that the mixing efficiency is reduced;

(5) Be provided with through-hole and baffle, install inside the second mounting groove through the baffle, and shelter from and keep apart the processing through the baffle to the through-hole, thereby avoid getting into and fall in abundant mixing box outside through the through-hole with abundant mixing box inside raw materials, thereby cause the waste of raw materials, and avoid abundant mixing box bottom portion installation unloading pipe through-hole and baffle, cause a small amount of raw materials to fall in the unloading intraduct in proper order, thereby cause to get into and can't mix the stirring in the inside raw materials of unloading and handle.

Drawings

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

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure at B in FIG. 1 according to the present invention;

FIG. 4 is a schematic top view of the fixing frame of the present invention;

FIG. 5 is a schematic view of the right side of the discharge hopper according to the present invention;

FIG. 6 is a schematic view of a cross-sectional structure of a through frame in front view according to the present invention;

FIG. 7 is a schematic top view of the mounting plate of the present invention;

FIG. 8 is an enlarged view of the structure of FIG. 6 at C according to the present invention;

FIG. 9 is a schematic top view of the frame of the present invention.

In the figure: 1. discharge hopper, 2, first mounting groove, 3, first bearing, 4, primary agitator tank, 5, discharge plate, 6, connecting rod group, 7, reciprocating motor, 8, first connecting disc, 9, rotating vane, 10, rotating motor, 11, intensive mixing box, 12, second mounting groove, 13, clamping groove, 14, through hole, 15, fixing frame, 16, mounting hole, 17, second bearing, 18, transmission shaft, 19, turbine, 20, connecting block, 21, first stirring shaft, 22, transmission rod, 23, second connecting disc, 24, second stirring shaft, 25, third bearing, 26, discharge hopper, 27, through groove, 28, motor, 29, worm, 30, baffle, 31, accurate preparation blanking mechanism, 3101, mounting plate, 3102, slider, 3103, spring, 3104, preparation hopper, 3105, scale, 3106, discharge pipe, 3107, control plate, 3108, third mounting groove, 3103119, fourth bearing, connecting rod, 3110, 3111, connecting rod, 3104, connecting rod frame, output cylinder, 3115, reciprocating motor, 3114, reciprocating cylinder, and 3115.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-9, the present invention provides a technical solution: a raw material preparing and premixing device for automobile injection molding parts, as shown in figures 1, 2 and 3, a first mounting groove 2 is arranged on the left side of the lower part inside a discharge hopper 1, the inside of the first mounting groove 2 is fixedly connected with the outer ring of a first bearing 3, the bottom of the discharge hopper 1 penetrates through the bottom end inside a primary stirring box 4, the bottom of the discharge hopper 1 extends to the bottom of the primary stirring box 4, meanwhile, the top end of the discharge hopper 1 is fixedly connected with the two sides of the inner wall of the primary stirring box 4, connecting rod groups 6 are fixed on the two sides of a discharge plate 5, the right side of the connecting rod group 6 penetrates through the right side of the inner wall of the discharge hopper 1 and extends to the outer wall of the right side of the discharge hopper 1, the left side of the connecting rod group 6 is fixedly connected with the inner ring of the first bearing 3, the right side of the connecting rod group 6 is fixedly connected with the output end of a reciprocating motor 7, the reciprocating motor 7 is fixed below the right side of the discharge hopper 1 through a hexagonal bolt, the reciprocating motor 7 is electrically connected with a controller through an electric wire, the first mounting groove 2, the first bearing 3, the discharge plate 5, the connecting rod group 6 and the reciprocating motor 7 form a rotary tilting mechanism, the rotary tilting mechanism has a rotation angle range of 0-180 degrees, the connecting rod group 6 is driven to move in the working process of the reciprocating motor 7, the discharge plate 5 is driven to rotate and tilt in the movement process of the connecting rod group 6, the raw materials in the primary stirring box 4 and the discharge hopper 1 are conveyed to the inside of the sufficient mixing box 11 to be sufficiently mixed in the rotary tilting process of the discharge plate 5, the rotation angle range of the integral rotary tilting mechanism is 180 degrees, when the integral rotary tilting mechanism reaches the maximum rotary tilting angle, the discharge plate 5 is vertically erected inside the discharge hopper 1, the raw materials rapidly enter the inside of the sufficient mixing box 11 through the discharge hopper 1, and rotary blades 9 are fixed around the first connecting disc 8, the rotary blades 9 are provided with 6 rotary blades 9, the rotary blades 9 are uniformly distributed on the surface of the first connecting disc 8, the rotary motor 10 drives the first connecting disc 8 to rotate during operation, the rotary blades 9 are driven to move in the same direction during rotation of the first connecting disc 8, the raw materials conveyed inside the primary stirring box 4 and the discharge hopper 1 are subjected to primary stirring treatment during rotation of the rotary blades 9, the rotary blades 9 are provided with 6 rotary blades 9 which are in tangential contact with the topmost end of the discharge plate 5 through the bottommost end of the rotary blades 9, the raw materials falling on the top end of the discharge plate 5 are conveniently driven to undergo primary stirring treatment sequentially, the rotary blades 9 are provided with 6 rotary blades 9 so as to embody practicability, symmetry and beauty of the rotary blades 9, the output end of the rotary motor 10 extends inside the primary stirring box 4 through the outer wall of the rear side of the primary stirring box 4, the output end of the rotary motor 10 is fixedly connected with the back of the first connecting disc 8, the rotary motor 10 is fixed to the rear side of the primary stirring box 4 through a hexagonal bolt, the rotary motor 10 is electrically connected with a controller through a wire, the mounting groove 11, a second mounting groove 12 is formed in the bottom of the secondary mixing box 11, the secondary mixing box 12, the baffle 12 is arranged in front of the secondary mixing box 30, and a baffle 13, the secondary baffle 13 is arranged in the secondary mixing groove 13, and a baffle 13, so as to prevent the secondary mixing baffle 12 from being in the secondary mixing groove 12, and to ensure that the secondary mixing baffle 12, the secondary mixing baffle 13 is arranged in the secondary mixing baffle 13, the secondary mixing box, and the secondary mixing box, the secondary mixing baffle 13 is arranged in the secondary mixing box, the secondary mixing groove 13, the secondary mixing baffle 13, the bottom end inside the sufficient mixing box 11 is provided with a through hole 14 in a penetrating way.

As shown in fig. 4 and 5, a mounting hole 16 is formed through the top end of the fixing frame 15, a second bearing 17 is fixed inside the mounting hole 16, the bottom of the transmission shaft 18 extends below the fixing frame 15 through the inner ring of the second bearing 17, a turbine 19 is fixed at the top end of the transmission shaft 18, the bottom of the transmission shaft 18 is fixedly connected with the top end of the connecting block 20, first stirring shafts 21 are fixed at two sides of the connecting block 20, the bottom of the connecting block 20 is fixedly connected with the top end of the transmission rod 22, a second stirring shaft 24 is fixed around the second connecting disc 23, the top end of the second connecting disc 23 is fixedly connected with the bottom end of the transmission rod 22, the connection distance between the bottom of the second connecting disc 23 and the inner bottom end of the intensive mixing box 11 ranges from 0.5 cm to 1.5cm, if the connection distance between the bottom of the second connecting disc 23 and the inner bottom end of the intensive mixing box 11 is too high, the second connecting disc 23 drives the second stirring shaft 24 to rotate, so that the raw materials falling at the inner bottom end of the intensive mixing box 11 cannot be sufficiently mixed, thereby not only increasing the mixing and stirring time of the raw materials but also reducing the mixing and stirring efficiency of the raw materials, so as to avoid the situation that the connecting distance between the bottom of the second connecting disc 23 and the bottom inside the intensive mixing box 11 is set to be 1.5cm, the top end of the transmission shaft 18 is fixedly connected with the inner ring of the third bearing 25, the right side of the discharging hopper 26 is penetrated and provided with a through groove 27, the bottom of the discharging hopper 26 is fixedly connected with the top end of the outer ring of the third bearing 25 through a mounting column, the discharging hopper 26 is in an equilateral triangle shape, the friction and the adhesive force of the raw materials falling on the surface of the discharging hopper 26 through the discharging hopper 1 and the primary mixing box 4 are reduced through the equilateral triangle shape of the discharging hopper 26, so that the raw materials directly fall inside the intensive mixing box 11 through the two sides of the discharging hopper 26 and the fixing frame 15, and simultaneously the raw materials enter the intensive mixing box 11 for intensive mixing treatment, the shape of the discharging hopper 26 is equilateral triangle in turn, thereby embodying the symmetry and practicability of the whole appearance of the discharging hopper 26, the output end of the motor 28 is fixedly connected with the right side of the worm 29, the left side of the worm 29 runs through the through groove 27 to be meshed with the turbine 19, the motor 28 is fixed on the right side of the top of the fixing frame 15 through the hexagonal bolt, and the motor 28 passes through the electric wire and is electrically connected with the controller, both sides of the fixing frame 15 are fixedly connected with both sides of the upper part of the inner wall of the sufficient mixing box 11, the fixed connection is embedded at the bottom of the discharging hopper 1 and the top of the sufficient mixing box 11, the baffle 30 is installed inside the second mounting groove 12 through the clamping groove 13, and is installed inside the second mounting groove 12 through the baffle 30, and the through-hole 14 is shielded and isolated by the baffle 30, thereby avoiding the raw materials entering and inside the sufficient mixing box 11 from falling outside the sufficient mixing box 11 through the through-hole 14, thereby causing the waste of the raw materials, and avoiding the bottom of the sufficient mixing box 11 from being installed with the baffle 30, and causing a small amount of the raw materials to fall inside of the discharging pipe in turn, thereby causing the raw materials entering the inside of the discharging pipe to be unable to be mixed and stirred and processed.

As shown in fig. 6, 7, 8 and 9, a precise preparation blanking mechanism 31 for precisely preparing raw materials of an automobile injection molding part is mounted at the top end of a primary stirring tank 4, and the precise preparation blanking mechanism 31 comprises a mounting plate 3101, a slider 3102, a spring 3103, a preparation bucket 3104, scales 3105, a discharge pipe 3106, a material control plate 3107, a third mounting groove 3108, a fourth bearing 3109, a connecting column 3110, a connecting rod 3111, an output motor 3112, a sliding rail 3113, a through frame 3114 and a reciprocating cylinder 3115, the slider 3102 is fixed on both sides of the mounting plate 3101, the right side of the mounting plate 3101 is fixedly connected with the left side of the spring 3103, the scales 3105 are embedded on the surface of the preparation bucket 3104, the bottom of the preparation bucket 3104 is fixedly connected with the top end of the discharge pipe 3106 in an embedded manner, the bottom of the discharge pipe 3106 extends to the bottom of the mounting plate 3101 at the top end of the mounting plate 3101, the preparation bucket 3104 is fixed to the top end of the mounting plate 3101 by the mounting column, the top end of the preparation bucket 3107 is provided with the third mounting groove 3108 on the right side of the top end of the material control plate 3107, a fourth bearing 3109 is fixed in the third mounting groove 3108, the bottom of the connecting column 3110 is fixedly connected with the inner ring of the fourth bearing 3109, the top end of the connecting column 3110 is fixedly connected with the bottom of the mounting plate 3101, the left side of the connecting rod 3111 penetrates through the right side of the top end of the material control plate 3107 and extends below the right side of the material control plate 3107, the left side of the connecting rod 3111 is movably connected with the right side of the material control plate 3107, the right side of the connecting rod 3111 is fixedly connected with the output end of an output motor 3112, an output motor 3112 is fixed at the bottom of the mounting plate 3101 through a hexagon bolt, a slide rail 3113 penetrates through the slide block 3102, two sides of the slide rail 3113 are fixedly connected with two sides inside the through frame 3114, the right side of the spring 3103 is fixedly connected with the right side of the inner wall of the through frame 3114, the output end of a reciprocating cylinder 3115 penetrates through the outer wall of the right side of the through frame 3114 and extends inside the through frame 3114, the output end of the reciprocating cylinder 3115 is fixedly connected with the left side of the mounting plate 3101, meanwhile, the reciprocating cylinder 3115 is fixed at the left side of the through frame 3114 through a hexagon bolt, the mounting plate 3101, the slider 3102, the spring 3103 and the reciprocating cylinder 3115 constitute a moving reciprocating mechanism, the moving distance range of the moving reciprocating mechanism is 0-15cm, the reciprocating cylinder 3115 is started to work by the controller, the reciprocating cylinder 3115 drives the mounting plate 3101 to reciprocate during the work, the mounting plate 3101 drives the dispensing hopper 3104 to move in the same direction during the reciprocating motion, the dispensing hopper 3104 is simultaneously driven to move in the same direction by the controller such that the raw material placed inside the dispensing hopper 3104 is on the same horizontal line of the scale 3105 during the same direction of the dispensing hopper 3104, thereby facilitating the precise dispensing of the raw material, the moving distance range of the integral moving reciprocating mechanism is 10cm, the discharging pipe 3103 is squeezed by the right side of the mounting plate 3101 when the integral moving reciprocating mechanism reaches the maximum moving reciprocating distance, thereby placing the discharging pipe spring 3103 in the maximum elastic recovery state, the bottom of the through frame 3114 is fixedly connected with the top end of the primary stirring tank 4, the output motor 3112 and the reciprocating cylinder 3115 are electrically connected with the controller by wires, the discharging motor 3117, the discharging plate 3107, the discharging pipe 3118, the third mounting groove 3118, the fourth bearing 3119, the connecting post 3110, the connecting rod 3111 and the discharging rod 3112 and the discharging mechanism 3117 are electrically connected with the rotating control rod 3117, the rotating mechanism 3117, the discharging pipe 3117, the rotating mechanism is driven by the rotating mechanism, the rotating mechanism 3117 when the rotating mechanism 3117, the rotating mechanism is in the dispensing mechanism 3117 when the dispensing mechanism 3116 when the dispensing range of the dispensing mechanism 3116 when the dispensing mechanism is in the maximum rotating mechanism 3117, the materials are conveniently and rapidly discharged and processed in sequence.

The working principle is as follows: in the device for preparing and premixing the processing raw materials of the automobile injection molding parts, the raw materials to be prepared are manually placed inside a preparing hopper 3104, when the raw materials entering the preparing hopper 3104 fall inside a discharge pipe 3106 and the raw materials falling inside the discharge pipe 3106 fall on a material control plate 3107, simultaneously, after the raw materials are completely placed, a controller starts a reciprocating cylinder 3115 to work, the reciprocating cylinder 3115 drives an installation plate 3101 to move at the right side of a through frame 3114 in the working process, the installation plate 3101 drives a sliding block 3102 and a sliding rail 3113 to move relatively in the moving process, the installation plate 3101 extrudes a spring 3103 in the moving process at the right side, when the reciprocating cylinder 3115 works reversely, the devices are also processed in the reverse motion process, and the raw materials inside the preparing hopper 3104 are in a flat state inside the preparing hopper 3104 under the influence of traction force and tensile force in the reciprocating process of the preparing hopper 3104, and the scales 3105 are observed through eyes, when the prepared raw materials and the scale 3105 are in the same horizontal line, the reciprocating cylinder 3115 stops working through the controller, then the output motor 3112 is started through the controller, the output motor 3112 drives the connecting rod 3111 to rotate in the working process, the connecting rod 3111 drives the control plate 3107 to move outside the bottom of the discharge pipe 3106 in the rotating process, the third mounting groove 3108 is driven to move in the same direction in the moving process of the outer side of the control plate 3107, the third mounting groove 3108 drives the fourth bearing 3109 to move relative to the connecting column 3110, when the control plate 3107 is separated from the discharge pipe 3106, the prepared raw materials fall into the discharge hopper 1 and the primary stirring box 4 through the discharge pipe 3106, when all the prepared raw materials are completely discharged, the output motor 3112 is controlled to work in the reverse direction through the controller, when the control plate 3107 is contacted with the bottom of the discharge pipe 3106, the output motor 3112 stops working through the controller sequentially, and the rotary motor 10 is started through the controller, the rotary motor 10 drives the first connecting disc 8 to rotate in the working process, the rotary blade 9 is driven to move in the same direction in the rotary motion process of the first connecting disc 8, the prepared raw materials in the discharge hopper 1 and the primary stirring box 4 are subjected to primary stirring treatment in the rotary motion process of the rotary blade 9, the rotary motor 10 is stopped to work again through the controller after the prepared raw materials are primarily stirred for a certain time, the reciprocating motor 7 is sequentially started through the controller, the connecting rod group 6 is driven to rotate in the working process of the reciprocating motor 7, the inner ring of the first bearing 3 and the first mounting groove 2 are driven to move relatively in the rotary motion process of the connecting rod group 6, the discharge plate 5 is driven to move in the same direction in the rotary motion process of the discharge plate 5, and the primarily stirred raw materials fall into the full mixing box 11 through the discharge hopper 1 in the rotary motion process of the discharge plate 5, and the raw material entering the inside of the sufficient mixing box 11 falls on the bottom end of the inside of the sufficient mixing box 11 through the discharging hopper 26, after the raw material is completely conveyed, the reciprocating motor 7 is controlled to work reversely through the controller again, when the discharging plate 5 is in a horizontal state, the reciprocating motor 7 is stopped to work through the controller, the motor 28 is started through the controller in sequence, the motor 28 drives the worm 29 to move in the working process, the worm 29 moves relative to the through groove 27 in the moving process, the worm 29 drives the worm wheel 19 to move rotationally in the moving process, the worm wheel 19 drives the transmission shaft 18 to move rotationally in the rotating process, the transmission shaft 18 drives the second bearing 17 and the inner ring of the third bearing 25 to move rotationally in the rotating process, the inner ring of the second bearing 17 moves relative to the mounting hole 16 in the rotating process, meanwhile, the transmission shaft 18 moves relative to the fixing frame 15 in the moving process, and drives the connecting block 20 to move in the same direction in the moving process of the transmission shaft 18 in sequence, the connecting block 20 drives the first stirring shaft 21 and the transmission rod 22 to rotate in the rotating process, the transmission rod 22 drives the second connecting disc 23 to rotate in the rotating process, the second connecting disc 23 drives the second stirring shaft 24 to move in the same direction in the rotating process, the raw materials are fully mixed by the second stirring shaft 24 and the first stirring shaft 21 in the rotating process, after the raw materials are fully mixed, the baffle 30 is manually held to apply certain pulling force, the baffle 30 moves relative to the clamping groove 13 at the moment, the baffle 30 is separated from the second mounting groove 12 in the moving process, the raw materials fall into the collecting box through the through hole 14 under the rotating drive of the second stirring shaft 24, after all the raw materials are collected, the baffle 30 is manually mounted in the second mounting groove 12 through the clamping groove 13 again, the motor 28 is stopped to work through the controller, and when the raw materials need to be mixed, the steps are repeated, so that the whole operation is completed, and the content which is not described in detail in the specification belongs to the prior art which is well known by the professional skilled in the art.

The terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like refer to orientations or positional relationships that are illustrated in the figures, and are used merely to simplify the description of the present disclosure, rather than to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the scope of the present disclosure.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (1)

1. The utility model provides a car injection molding processing raw materials prepares and mixing arrangement in advance, includes out hopper (1), goes out flitch (5), first connection pad (8), rotating electrical machines (10), abundant mixing box (11), mount (15), transmission shaft (18), second connection pad (23), blowdown hopper (26), motor (28), baffle (30) and accurate unloading mechanism (31) of preparing, its characterized in that:

the left side of the inner lower part of the discharge hopper (1) is provided with a first mounting groove (2), the inner part of the first mounting groove (2) is fixedly connected with the outer ring of a first bearing (3), the bottom of the discharge hopper (1) penetrates through the inner bottom of a primary stirring box (4), the bottom of the discharge hopper (1) extends to the bottom of the primary stirring box (4), the top end of the discharge hopper (1) is fixedly connected with the inner wall of the primary stirring box (4) at two sides, the two sides of the discharge plate (5) are fixedly provided with connecting rod sets (6), the right side of the connecting rod sets (6) penetrates through the inner wall of the discharge hopper (1) and extends to the outer wall of the right side of the discharge hopper (1), the left side of the connecting rod sets (6) is fixedly connected with the inner ring of the first bearing (3), the right side of the connecting rod sets (6) is fixedly connected with the output end of a reciprocating motor (7), the reciprocating motor (7) is fixed to the lower part of the right side of the discharge hopper (1) through a hexagon bolt, the reciprocating motor (7) is electrically connected with a controller through an electric wire, the rotary vane (9) is fixed around the first connecting disc (8), the outer end of the rotary stirring box (10) extends to the inner side of the primary stirring box (4) and the rear side of the primary stirring box (4) and extends to the rear rotary stirring box (10) and extends to the rear end of the primary stirring box (10), the rotating motor (10) is electrically connected with the controller through an electric wire, a second mounting groove (12) is formed right in front of the bottom of the sufficient mixing box (11), clamping grooves (13) are formed in two sides of the second mounting groove (12), and a through hole (14) is formed in the bottom end of the interior of the sufficient mixing box (11) in a penetrating mode;

the utility model discloses a motor, including mount (15), transmission shaft (18), connecting disc (23), second connecting disc (23), transmission shaft (18) top, transmission shaft (15) top run through and seted up mounting hole (16), mounting hole (16) inside is fixed with second bearing (17), transmission shaft (18) bottom runs through the second bearing (17) inner ring and extends in mount (15) below, transmission shaft (18) top is fixed with turbine (19), and transmission shaft (18) bottom and connecting block (20) top fixed connection, connecting block (20) both sides are fixed with first (mixing) shaft (21), connecting block (20) bottom and transmission pole (22) top fixed connection, second connecting disc (23) all around is fixed with second (mixing) shaft (24), and second connecting disc (23) top and transmission pole (22) bottom fixed connection, transmission shaft (18) top and third bearing (25) inner ring fixed connection, discharge hopper (26) right side runs through and has seted up logical groove (27), and discharge hopper (26) bottom passes through the erection column and third bearing (25) top fixed connection, motor (28) output and worm (29) right side fixed connection through hexagonal through the electric wire control ware (19), electric wire control ware top and electric wire control ware (15), two sides of the fixing frame (15) are fixedly connected with two sides above the inner wall of the sufficient mixing box (11), the bottom of the discharge hopper (1) is fixedly connected with the top end of the sufficient mixing box (11) in an embedded mode, and the baffle (30) is installed in the second installation groove (12) in a clamping mode through the clamping groove (13);

a accurately prepare unloading mechanism (31) for automobile injection molding raw materials is installed on primary agitator tank (4) top, and accurately prepare unloading mechanism (31) including mounting panel (3101), slider (3102), spring (3103), prepare fill (3104), scale (3105), discharging pipe (3106), accuse flitch (3107), third mounting groove (3108), fourth bearing (3109), spliced pole (3110), connecting rod (3111), output motor (3112), slide rail (3113), logical frame (3114) and reciprocating cylinder (3115), mounting panel (3101) both sides are fixed with slider (3102), and mounting panel (3101) right side and spring (3103) left side fixed connection, it has scale (3105) to prepare fill (3104) surface inlay fixed, and prepares fill (3104) bottom and inlays fixed connection with discharging pipe (3106) top, discharging pipe (3106) bottom runs through mounting panel (3101) top fixed connection bottom, and extends to mounting panel (3101) top, prepare fill (3104) through mounting panel (3101) bottom, the mounting panel (3108) bottom and install the fixed connection of fourth bearing flitch (3109), fourth bearing (3109) top is fixed connection to the inner ring (3109), the inner ring (3109) side fixed connection of the fourth bearing (3108), the top end of the connecting column (3110) is fixedly connected with the bottom of the mounting plate (3101), the left side of the connecting rod (3111) penetrates through the right side of the top end of the material control plate (3107) and extends below the right side of the material control plate (3107), the left side of the connecting rod (3111) is movably connected with the right side of the material control plate (3107), the right side of the connecting rod (3111) is fixedly connected with the output end of the output motor (3112), the output motor (3112) is fixed at the bottom of the mounting plate (3101) through a hexagonal bolt, the sliding rail (3113) penetrates through the sliding block (3102), two sides of the sliding rail (3113) are fixedly connected with two inner sides of the through frame (3114), the right side of the spring (3103) is fixedly connected with the right side of the inner wall of the through frame (3114), the output end of the reciprocating cylinder (3115) penetrates through the outer wall of the right side of the through frame (3114) and extends inside of the through frame (3104), the output end of the reciprocating cylinder (3115) is fixedly connected with the left side of the mounting plate (3101), and the reciprocating cylinder (3115) is fixedly connected with the top end of the primary wire control box (3114) and electrically connected with the output motor (3112) and the electric wire;

the first mounting groove (2), the first bearing (3), the discharging plate (5), the connecting rod group (6) and the reciprocating motor (7) form a rotary tilting mechanism, and the rotary tilting mechanism has a rotation angle range of 0-180 degrees;

the number of the rotating blades (9) is 6, and the rotating blades (9) are uniformly distributed on the surface of the first connecting disc (8);

2 clamping grooves (13) are formed, and the clamping grooves (13) are symmetrically arranged relative to the central line of the sufficient mixing box (11);

the discharge hopper (26) is in an equilateral triangle shape;

the connection distance between the bottom of the second connecting disc (23) and the bottom end inside the sufficient mixing box (11) ranges from 0.5 cm to 1.5cm;

the material control plate (3107), the third mounting groove (3108), the fourth bearing (3109), the connecting column (3110), the connecting rod (3111) and the output motor (3112) form a rotary discharging mechanism, and the rotary discharging mechanism has a rotation angle range of 0-90 degrees;

the mounting plate (3101), the sliding block (3102), the spring (3103) and the reciprocating cylinder (3115) form a moving reciprocating mechanism, and the moving distance of the moving reciprocating mechanism ranges from 0cm to 15cm.

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