CN115138233B

CN115138233B - Sizing material mixing and stirring mechanism and method

Info

Publication number: CN115138233B
Application number: CN202210802689.4A
Authority: CN
Inventors: 侯树壮
Original assignee: Jiangxi Huaqi Synthetic Rubber Co ltd
Current assignee: Jiangxi Huaqi Synthetic Rubber Co ltd
Priority date: 2022-07-07
Filing date: 2022-07-07
Publication date: 2023-11-10
Anticipated expiration: 2042-07-07
Also published as: CN115138233A

Abstract

The invention relates to a stirring device, in particular to a sizing material mixing and stirring mechanism and a sizing material mixing and stirring method, comprising a mixing component, wherein a plurality of installation seats are fixedly connected to the mixing component, a circulating mechanism II is fixedly connected to each installation seat, the circulating mechanisms II are arranged in a staggered way, the circulating mechanisms II are communicated with the mixing component, a sliding bracket is fixedly connected to the mixing component, a screw rod is rotationally connected to the sliding bracket, a power mechanism for driving the screw rod to rotate is fixedly connected to the sliding bracket, the power mechanism is preferably a servo motor, a lifting bracket is connected to the screw rod through threads, and the lifting bracket is slidingly connected to the sliding bracket; the mixing device can ensure that the sizing material is fully stirred and simultaneously can fully discharge the sizing material in the mixing part to the outside of the device, so that the sizing material is prevented from remaining in the mixing part and influencing the subsequent use.

Description

Sizing material mixing and stirring mechanism and method

Technical Field

The invention relates to a stirring device, in particular to a sizing material mixing and stirring mechanism and a sizing material mixing and stirring method.

Background

In the prior art, stirring of the rubber compound is carried out by using a plurality of rotating modes and driving a rotating stirring component through a power mechanism, but the viscosity of the compound is large, the compound is easy to be stuck in the stirring component or the mixing component after stirring is finished, and is not easy to be treated.

Disclosure of Invention

The invention aims to provide a sizing material mixing and stirring mechanism and a sizing material mixing and stirring method, which can ensure that sizing materials are fully stirred and simultaneously can discharge all sizing materials in a mixing part outside a device, so that the sizing materials are prevented from remaining in the mixing part and influencing subsequent use.

The aim of the invention is achieved by the following technical scheme:

the utility model provides a sizing material mixing stirring mechanism, includes mixing element, fixedly connected with a plurality of mount pads on the mixing element, crisscross setting between a plurality of mount pads, fixedly connected with sliding support on the mixing element, rotationally be connected with the lead screw on the sliding support, fixedly connected with drive lead screw carries out pivoted power unit on the sliding support, power unit is preferably servo motor, has the lifting support through threaded connection on the lead screw, lifting support sliding connection is on the sliding support;

the lifting support is fixedly connected with an extrusion part, the extrusion part comprises an extrusion disc I, material injection pipelines, a sealing ring I and a one-way mechanism, the extrusion disc I is fixedly connected with a plurality of material injection pipelines, each material injection pipeline is internally provided with the one-way mechanism, the side edge of the extrusion disc I is provided with the sealing ring I, and the extrusion disc I can extend into the mixing part;

each mounting seat is fixedly connected with a circulating mechanism II, each circulating mechanism II comprises a circulating cylinder I, a first telescopic mechanism, a second telescopic mechanism, a sliding key, a sliding disc, an extrusion disc, a sliding seat, a spring steel arc piece and a cladding cavity, the first telescopic mechanism is fixedly connected to the circulating cylinder I, the second telescopic mechanism is fixedly connected to the telescopic end of the first telescopic mechanism, the sliding key is fixedly connected to the telescopic end of the second telescopic mechanism, the sliding disc is fixedly connected to the sliding key, the extrusion disc is fixedly connected to the telescopic end of the second telescopic mechanism, the plurality of sliding seats are slidably connected to the extrusion disc, the spring steel arc pieces are fixedly connected to each sliding seat, the spring steel arc pieces are staggered with each other, a spring is fixedly connected between the extrusion disc and the sliding seat, the cladding cavity is preferably made of elastic materials, the inside of the cladding cavity is contacted with the spring steel arc pieces, and the outside of the cladding cavity is contacted with the circulating cylinder I;

the bottom of the mixing component is fixedly connected with a discharge pipeline, the lower end of the discharge pipeline is connected with a circulating mechanism I, and a valve is arranged on the discharge pipeline;

the circulating mechanism I comprises a circulating cylinder II, a third telescopic mechanism, an extrusion disc II and a sealing ring II, wherein the third telescopic mechanism is fixedly connected to the circulating cylinder II, the extrusion disc II is fixedly connected to the telescopic end of the third telescopic mechanism, the sealing ring II is arranged on the side edge of the extrusion disc II, and the extrusion disc II is slidably connected in the circulating cylinder II;

a method for mixing and stirring rubber materials, comprising the following steps: step one: introducing the sizing material into the mixing component; step two: a plurality of circulating mechanisms II are used for sucking and discharging materials in a reciprocating manner; step three: so that the compound circulates in the mixing member.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic flow chart of a method for mixing and stirring rubber materials according to the invention;

FIG. 2 is a schematic diagram of the overall structure of the rubber compound stirring device of the invention;

FIG. 3 is a schematic diagram of the hybrid component configuration of the present invention;

FIG. 4 is a schematic diagram of the hybrid component configuration of the present invention;

FIG. 5 is a schematic view of the connection structure of the screw, lifting bracket and extrusion part of the present invention;

FIG. 6 is a schematic view of the connection structure of the screw, lifting bracket and extrusion part of the present invention;

FIG. 7 is a schematic view of the connection structure of the circulation mechanism I and the discharge pipeline of the present invention;

FIG. 8 is a schematic view of the connection structure of the circulation mechanism I and the discharge pipeline of the present invention;

FIG. 9 is a schematic view of the circulation mechanism II of the present invention;

FIG. 10 is a schematic view of the circulation mechanism II of the present invention;

FIG. 11 is a schematic view of the circulation mechanism II of the present invention;

FIG. 12 is a schematic view of the circulation mechanism II of the present invention.

In the figure: a mixing part 10; a mounting base 11; a sliding bracket 12; a screw 20; a lifting bracket 30; a pressing member 40; an extrusion plate I41; a filler pipe 42; seal ring I43; a unidirectional mechanism 44; a circulation mechanism II 50; a circulation cylinder I51; a first telescopic mechanism 52; a second telescopic mechanism 53; a slide key 54; a slide plate 55; a squeeze plate 56; a slide seat 57; spring steel arc piece 58; a cladding cavity 59; a discharge conduit 60; a circulation mechanism I70; a circulation cylinder II 71; a third telescopic mechanism 72; an extrusion plate II 73; seal ring ii 74.

Detailed Description

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

As shown in fig. 1 to 12, the structure and function of a glue mixing and stirring mechanism and method are described in detail below;

a method of a sizing mixing and stirring mechanism, the method comprising the steps of:

step one: passing the stock into the mixing section 10; step two: a plurality of circulating mechanisms II 50 are used for sucking and discharging materials in a reciprocating manner; step three: such that the gum material is circulated within the mixing member 10.

The sizing material mixing and stirring mechanism comprises a mixing component 10, wherein a plurality of installation seats 11 are fixedly connected to the mixing component 10, the installation seats 11 are arranged in a staggered mode, a circulating mechanism II 50 is fixedly connected to each installation seat 11, the circulating mechanisms II 50 are arranged in a staggered mode, and the circulating mechanisms II 50 are communicated with the mixing component 10;

when the device is used, the rubber material to be treated is placed in the mixing component 10, the rubber material in the mixing component 10 is repeatedly sucked and discharged through the plurality of circulating mechanisms II 50, so that the rubber material in the mixing component 10 continuously flows, and meanwhile, the plurality of circulating mechanisms II 50 are arranged in a staggered manner, namely, as shown in figures 1, 2 and 3, the plurality of circulating mechanisms II 50 push the rubber material in the mixing component 10 to circulate in a certain rotation direction, so that the flow of the rubber material in the mixing component 10 is accelerated, and the full mixing of the rubber material is ensured;

each circulation mechanism II 50 can discharge all the rubber materials in the circulation mechanisms II, further, the screw rod 20 drives the extrusion part 40 to move by driving the screw rod 20 to rotate, the extrusion part 40 moves in the mixing part 10, and the extrusion part 40 can discharge all the rubber materials in the mixing part 10, so that no residual rubber materials exist in the circulation mechanisms II 50 and the mixing part 10;

furthermore, the bottom of the mixing component 10 is also connected with a circulation mechanism I70 through a discharge pipeline 60, and continuous circulation flow of sizing materials can be formed between the circulation mechanism I70 and the mixing component 10, so that the mixing effect of the sizing materials is further improved, and meanwhile, the circulation mechanism I70 can discharge all the sizing materials in the mixing component, so that no residual sizing materials exist in the circulation mechanism I70;

as shown in fig. 1 to 12, the structure and function of the mixing part 10, the screw 20, the elevating bracket 30, the pressing part 40, the circulation mechanism ii 50, the discharge pipe 60, and the circulation mechanism i 70 will be described in detail;

the mixing component 10 is fixedly connected with a sliding support 12, the sliding support 12 is rotationally connected with a screw rod 20, the sliding support 12 is fixedly connected with a power mechanism for driving the screw rod 20 to rotate, the power mechanism is preferably a servo motor, the screw rod 20 is connected with a lifting support 30 through threads, and the lifting support 30 is slidingly connected with the sliding support 12;

the lifting support 30 is fixedly connected with an extrusion part 40, the extrusion part 40 comprises an extrusion disc I41, injection pipelines 42, a sealing ring I43 and a one-way mechanism 44, the extrusion disc I41 is fixedly connected with a plurality of injection pipelines 42, each injection pipeline 42 is internally provided with the one-way mechanism 44, the side edge of the extrusion disc I41 is provided with the sealing ring I43, and the extrusion disc I41 can extend into the mixing part 10;

the circulating mechanism II 50 comprises a circulating cylinder I51, a first telescopic mechanism 52, a second telescopic mechanism 53, a sliding key 54, a sliding disc 55, an extrusion disc 56, sliding seats 57, spring steel arc sheets 58 and a coating cavity 59, wherein the first telescopic mechanism 52 is fixedly connected to the circulating cylinder I51, the second telescopic mechanism 53 is fixedly connected to the telescopic end of the first telescopic mechanism 52, the sliding key 54 is fixedly connected to the telescopic end of the second telescopic mechanism 53, the sliding disc 55 is slidingly connected to the sliding key 54, the extrusion disc 56 is fixedly connected to the telescopic end of the second telescopic mechanism 53, the plurality of sliding seats 57 are slidingly connected to the extrusion disc 56, the spring steel arc sheets 58 are fixedly connected to each sliding seat 57, the plurality of spring steel arc sheets 58 are arranged in a staggered mode, a spring is fixedly connected between the extrusion disc 56 and the sliding seats 57, the coating cavity 59 is fixedly connected to the sliding disc 55, the coating cavity 59 is preferably made of elastic materials, the inside of the coating cavity 59 is contacted with the plurality of spring steel arc sheets 58, the outside of the coating cavity 59 is contacted with the circulating cylinder I, the air pump is connected to the air pump cavity 59, and the inside of the air pump is connected to the air pump cavity 59;

the bottom of the mixing component 10 is fixedly connected with a discharge pipeline 60, the lower end of the discharge pipeline 60 is connected with a circulating mechanism I70, and a valve is arranged on the discharge pipeline 60;

the circulating mechanism I70 comprises a circulating cylinder II 71, a third telescopic mechanism 72, an extrusion plate II 73 and a sealing ring II 74, the third telescopic mechanism 72 is fixedly connected to the circulating cylinder II 71, the extrusion plate II 73 is fixedly connected to the telescopic end of the third telescopic mechanism 72, the sealing ring II 74 is arranged on the side edge of the extrusion plate II 73, and the extrusion plate II 73 is slidably connected in the circulating cylinder II 71;

in use, the pipes of the sizing material are respectively connected to the plurality of injection pipes 42, as shown in fig. 5, a one-way mechanism 44 is arranged in each injection pipe 42, and the one-way mechanism 44 ensures that the sizing material can only be injected into the mixing part 10 from the outside of the mixing part 10 and cannot flow out of the mixing part 10;

when raw materials are injected, a power mechanism is started, an output shaft of the power mechanism starts to rotate, the output shaft of the power mechanism drives a screw rod 20 to rotate, the screw rod 20 drives a lifting support 30 to move through threads when rotating, the height of the lifting support 30 is adjusted, the lifting support 30 drives an extrusion part 40 to move, the extrusion part 40 moves in a mixing part 10, the height of the extrusion part 40 is adjusted, and as shown in fig. 1, the extrusion part 40 moves to the top of the mixing part 10;

after the glue stock is injected into the mixing component 10, a plurality of circulation mechanisms II 50 are started, as shown in fig. 1, four circulation mechanisms II 50 are arranged, the working process of the device is illustrated by the distribution of the four circulation mechanisms II 50, two circulation mechanisms II 50 are arranged on the upper side of the mixing component 10, two circulation mechanisms II 50 are arranged on the lower side of the mixing component 10, the two circulation mechanisms II 50 on the upper side are arranged in a staggered manner, the two circulation mechanisms II 50 on the lower side are arranged in a staggered manner, one of the two circulation mechanisms II 50 on the upper side absorbs the material, one of the other circulation mechanisms II 50 discharges the material, and one of the two circulation mechanisms II 50 on the lower side absorbs the material, and the other circulation mechanism II 50 discharges the material, so that the glue stock in the mixing component 10 circulates, meanwhile, the ring mechanism II 50 on the left side absorbs the material, and the ring mechanism II 50 on the left side of the lower side discharges the material, so as to form up-down circulation;

describing the material sucking and process of the ring mechanism II 50 in detail below, starting the first telescopic mechanism 52 and the second telescopic mechanism 53, wherein the first telescopic mechanism 52 and the second telescopic mechanism 53 can be hydraulic cylinders or electric push rods, the telescopic end of the first telescopic mechanism 52 drives the second telescopic mechanism 53 to move, the second telescopic mechanism 53 drives the extrusion plate 56 to move, the extrusion plate 56 drives the sliding seats 57 to move, the sliding seats 57 drive the spring steel arc plates 58 to move, as shown in fig. 11, the spring steel arc plates 58 expand the inner wall of the coating cavity 59, the coating cavity 59 is ensured to be always in contact with the inner wall of the circulating cylinder I51, sealing between the coating cavity 59 and the circulating cylinder I51 is further ensured, meanwhile, in order to ensure sealing between the coating cavity 59 and the circulating cylinder I51, an air pump is connected to the coating cavity 59, and the air pump is connected to keep the pressure inside the coating cavity 59 to be tightly attached to the inner wall of the circulating cylinder I51, and the spring steel arc plates 58 serve as a framework to support the coating cavity 59, and then the raw material can be sucked into the circulating cylinder I and the circulating cylinder I51 when the circulating cylinder I is mixed with the circulating cylinder I51;

in the following description of the discharging and process of the ring mechanism II 50, as shown in fig. 9, the front end of the circulation barrel I51 is conical, so that the flow of the sizing material can be enhanced, in order to ensure the whole discharging of the sizing material in the circulation barrel I51, when the coating cavity 59 moves to the front end of the circulation barrel I51, the sliding seats 57 slide on the extrusion plate 56, the spring steel arc plates 58 generate certain deformation, the support of the coating cavity 59 is ensured, the coating cavity 59 is tightly attached to the inner wall of the circulation barrel I51 under the action of air pressure, meanwhile, the air pressure in the circulation barrel I51 pushes the sliding plate 55 to slide on the sliding key 54 due to the reduction of the front end of the circulation barrel I51, the deformation of the coating cavity 59 is accommodated, and the whole discharging of the sizing material in the circulation mechanism II 50 can be ensured;

further, as shown in fig. 6 and 7, the third telescopic mechanism 72 is started, the third telescopic mechanism 72 may be a hydraulic cylinder or an electric push rod, the telescopic end of the third telescopic mechanism 72 drives the extrusion plate ii 73 to move, the extrusion plate ii 73 slides in the circulation cylinder ii 71, the glue stock in the mixing component 10 can be absorbed and discharged through the discharge pipeline 60, meanwhile, the power mechanism is started, the extrusion component 40 moves in the mixing component 10, and further, the circulation of the glue stock between the mixing component 10 and the circulation mechanism i 70 is increased, and the glue stock flow is increased;

as shown in fig. 7, the discharging pipeline 60 is provided with a valve for discharging, the valve on the discharging pipeline 60 is opened, and the third telescopic mechanism 72 and the power mechanism are started at the same time, so that the rubber material can be completely discharged.

Claims

1. Sizing material mixing stirring mechanism, including mixing element (10), its characterized in that: a plurality of mounting seats (11) are fixedly connected to the mixing component (10), a circulating mechanism II (50) is fixedly connected to each mounting seat (11), the circulating mechanisms II (50) are arranged in a staggered mode, and the circulating mechanisms II (50) are communicated with the mixing component (10);

the upper side of the mixing component (10) is provided with two circulating mechanisms II (50), the lower side of the mixing component (10) is provided with two circulating mechanisms II (50), the two circulating mechanisms II (50) positioned at the upper side are arranged in a staggered mode, the two circulating mechanisms II (50) positioned at the lower side are arranged in a staggered mode, one of the two circulating mechanisms II (50) positioned at the upper side absorbs materials, the other circulating mechanism II (50) discharges materials, one of the two circulating mechanisms II (50) positioned at the lower side absorbs materials, and the other circulating mechanism II (50) discharges materials, so that rubber materials in the mixing component (10) form circulation, meanwhile, the ring mechanism II (50) positioned at the left side on the upper side absorbs materials, and the ring mechanism II (50) positioned at the left side on the lower side discharges materials to form up-down circulation;

the mixing component (10) is fixedly connected with a sliding support (12), the sliding support (12) is rotationally connected with a screw rod (20), the screw rod (20) is connected with a lifting support (30) through threads, and the lifting support (30) is slidingly connected to the sliding support (12);

the lifting support (30) is fixedly connected with an extrusion part (40), the extrusion part (40) comprises an extrusion disc I (41), a plurality of material injection pipelines (42) are fixedly connected to the extrusion disc I (41), a one-way mechanism (44) is arranged in each material injection pipeline (42), the extrusion disc I (41) can extend into the mixing part (10), and a sealing ring I (43) is arranged on the side edge of the extrusion disc I (41);

the circulating mechanism II (50) comprises a circulating cylinder I (51), a first telescopic mechanism (52) is fixedly connected to the circulating cylinder I (51), a second telescopic mechanism (53) is fixedly connected to a telescopic end of the first telescopic mechanism (52), an extrusion disc (56) is fixedly connected to a telescopic end of the second telescopic mechanism (53), a plurality of sliding seats (57) are slidably connected to the extrusion disc (56), spring steel arc sheets (58) are fixedly connected to each sliding seat (57), the spring steel arc sheets (58) are arranged in a staggered mode, and springs are fixedly connected between the extrusion disc (56) and the sliding seats (57);

the front end of the circulating cylinder I (51) is conical;

a sliding key (54) is fixedly connected to the telescopic end of the second telescopic mechanism (53), a sliding disc (55) is connected to the sliding key (54) in a sliding mode, and the extrusion disc (56), the sliding seat (57), the spring steel arc piece (58) and the sliding disc (55) are coated in the coating cavity (59);

the cladding cavity (59) is elastic material, the inside of cladding cavity (59) and a plurality of spring steel arc piece (58) contact, the outside and the circulation section of thick bamboo I (51) contact of cladding cavity (59), are connected with gas piping on cladding cavity I (59), are connected with the air pump on the gas piping, keep the inside pressure of cladding cavity I (59).

2. A gum material mixing and stirring mechanism as claimed in claim 1, wherein: the bottom of the mixing component (10) is fixedly connected with a discharge pipeline (60), the lower end of the discharge pipeline (60) is connected with a circulating mechanism I (70), and a valve is arranged on the discharge pipeline (60).

3. A gum mixing and stirring mechanism as claimed in claim 2, wherein: the circulating mechanism I (70) comprises a circulating cylinder II (71), a third telescopic mechanism (72) is fixedly connected to the circulating cylinder II (71), an extrusion disc II (73) is fixedly connected to the telescopic end of the third telescopic mechanism (72), and the extrusion disc II (73) is slidably connected to the circulating cylinder II (71).

4. A gum material mixing and stirring mechanism according to claim 3, wherein: a sealing ring II (74) is arranged on the side edge of the extrusion disc II (73).

5. A method of stirring using a gum material mixing and stirring mechanism as defined in claim 1, characterized by: the method comprises the following steps:

step one: passing the stock into a mixing member (10);

step two: a plurality of circulating mechanisms II (50) are used for sucking and discharging materials in a reciprocating mode;

step three: so that the gum material circulates in the mixing member (10).