CN109331675B - Instant-indication double-stroke reciprocating type stirring process - Google Patents

Instant-indication double-stroke reciprocating type stirring process Download PDF

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Publication number
CN109331675B
CN109331675B CN201811050091.4A CN201811050091A CN109331675B CN 109331675 B CN109331675 B CN 109331675B CN 201811050091 A CN201811050091 A CN 201811050091A CN 109331675 B CN109331675 B CN 109331675B
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China
Prior art keywords
transverse driving
piece
unit
rod
lifting
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CN201811050091.4A
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Chinese (zh)
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CN109331675A (en
Inventor
张智明
姬巧玲
徐巧
赖梓龙
陈博雅
段耀帅
梅顺齐
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Wuhan Textile University
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Wuhan Textile University
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Publication of CN109331675A publication Critical patent/CN109331675A/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/05Stirrers
    • B01F27/09Stirrers characterised by the mounting of the stirrers with respect to the receptacle
    • B01F27/092Stirrers characterised by the mounting of the stirrers with respect to the receptacle occupying substantially the whole interior space of the receptacle
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/80Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
    • B01F27/805Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis wherein the stirrers or the receptacles are moved in order to bring them into operative position; Means for fixing the receptacle
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F27/00Mixers with rotary stirring devices in fixed receptacles; Kneaders
    • B01F27/80Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis
    • B01F27/90Mixers with rotary stirring devices in fixed receptacles; Kneaders with stirrers rotating about a substantially vertical axis with paddles or arms 
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/30Driving arrangements; Transmissions; Couplings; Brakes
    • B01F35/31Couplings
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/30Driving arrangements; Transmissions; Couplings; Brakes
    • B01F35/32Driving arrangements
    • B01F35/32005Type of drive
    • B01F35/3204Motor driven, i.e. by means of an electric or IC motor
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F35/00Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
    • B01F35/30Driving arrangements; Transmissions; Couplings; Brakes
    • B01F35/32Driving arrangements
    • B01F35/321Disposition of the drive
    • B01F35/3211Disposition of the drive independent from the receptacle
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24DTOOLS FOR GRINDING, BUFFING OR SHARPENING
    • B24D18/00Manufacture of grinding tools or other grinding devices, e.g. wheels, not otherwise provided for
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B24GRINDING; POLISHING
    • B24DTOOLS FOR GRINDING, BUFFING OR SHARPENING
    • B24D18/00Manufacture of grinding tools or other grinding devices, e.g. wheels, not otherwise provided for
    • B24D18/0054Manufacture of grinding tools or other grinding devices, e.g. wheels, not otherwise provided for by impressing abrasive powder in a matrix
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B01PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
    • B01FMIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
    • B01F2101/00Mixing characterised by the nature of the mixed materials or by the application field
    • B01F2101/27Mixing ingredients for grinding, polishing or lapping materials

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  • Chemical & Material Sciences (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Mechanical Engineering (AREA)
  • Mixers Of The Rotary Stirring Type (AREA)

Abstract

A double-stroke reciprocating type stirring process with instant indication comprises a material adding step and a mixing step which are sequentially carried out, wherein the material adding step is to add particles into a stirring cavity through an external adding unit, the mixing step is to drive a stirring piece to descend through a lifting motor in a lifting unit by a lifting rod until the stirring piece falls into the particles accumulated in the stirring cavity, then a transverse driving platform sleeved on the middle part of the lifting rod is transversely driven by the middle part of a transverse driving unit to enable the lifting rod and the stirring piece to rotate together, then the particles in the stirring cavity are stirred by the rotary stirring piece, and the transverse driving operation comprises a forward/return step which is provided with corresponding switching pieces, and an electrifying groove is inserted and pulled out to light/close an indicator light to prompt the forward/return operation to be carried out and stopped. The invention has the advantages of high working efficiency, good product quality, strong operation prompting effect and high safety.

Description

Instant-indication double-stroke reciprocating type stirring process
Technical Field
The invention relates to a stirring process, in particular to an instant-indication double-stroke reciprocating type stirring process which is particularly suitable for improving the product quality and the working efficiency and enhancing the operation prompting effect.
Background
At present, with the increasing development of industry, the operation of manufacturing a granular layer on a lining plate or the product of arranging the granular layer on the lining plate is increasingly diversified and is applied to various fields, for example, a grinding wheel as a grinding tool can perform operations such as rough grinding, semi-finish grinding, grooving, cutting and the like on various profiles of metal or nonmetal workpieces through high-speed rotation during use, and is widely applied to various aspects of the grinding field.
The existing manufacturing equipment and manufacturing process are difficult to meet the requirements of work efficiency and product quality at the same time, are not beneficial to popularization and application, and in addition, the defect of poor indication effect exists in the prior art, so that the work efficiency is reduced again.
The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.
Disclosure of Invention
The invention aims to overcome the defects and problems of low working efficiency, poor product quality and poor operation prompting effect in the prior art, and provides an instant indication double-stroke reciprocating type stirring process with high working efficiency, good product quality and strong operation prompting effect.
In order to achieve the above purpose, the technical solution of the invention is as follows: an instant indication double-stroke reciprocating type stirring process comprises a material adding step and a mixing step which are sequentially carried out, wherein the material adding step is that particles are added into a stirring cavity by an external adding unit, and the mixing step is that a transverse driving unit drives a stirring piece to rotate so as to stir the added particles in the stirring cavity;
the mixing step is that a lifting motor in a lifting unit drives a stirring piece to descend through a lifting rod until the stirring piece falls into the particles accumulated in a stirring cavity, then a transverse driving table sleeved on the middle part of the lifting rod is transversely driven by the middle part of a transverse driving unit to enable the lifting rod and the stirring piece to rotate together, and then the particles in the stirring cavity are stirred by the rotating stirring piece;
the transverse driving operation comprises a forward step and a return step, wherein the forward step refers to that the transverse driving unit moves forwards along the transverse direction, in the operation process, the middle part of the transverse driving unit drives the transverse driving table, the lifting rod and the stirring piece to rotate clockwise through the side part of the transverse driving table, meanwhile, a right switching piece connected to the outer end part of the transverse driving unit moves forwards and is inserted into a forward power-on groove in the forward indicating unit to light a forward indicating lamp for operation prompt; the returning step is that the transverse driving unit moves backwards along the transverse direction, in the running process, the middle part of the transverse driving unit drives the transverse driving table, the lifting rod and the stirring piece to rotate anticlockwise together through the side part of the transverse driving table, meanwhile, a left switching piece connected to the outer end part of the transverse driving unit moves backwards and is inserted into a returning power-on groove in the returning indicating unit, and a returning indicating lamp is lightened to prompt the operation.
The return indicating unit comprises a return indicating lamp, a left power box, an upper left electrifying piece and a lower left electrifying piece, the upper left electrifying piece sequentially passes through the left power box and the return indicating lamp and then is in circuit connection with the lower left electrifying piece, the upper left electrifying piece and the lower left electrifying piece are clamped up and down to form a return electrifying groove, and the return electrifying groove is in insertion fit with the outer end of the left switching piece clamped between the upper left electrifying piece and the lower left electrifying piece; the forward indication unit further comprises a forward indication lamp, a right power box, a right upper energizing piece and a right lower energizing piece, the right upper energizing piece is sequentially connected with the right lower energizing piece through the right power box and the forward indication lamp in a circuit mode, the right upper energizing piece and the right lower energizing piece are clamped up and down to form a forward energizing groove, and the forward energizing groove is in insertion fit with the outer end of a right switching piece clamped between the forward energizing groove and the forward switching piece; the inner end of the left switching piece is connected with the inner end of the right switching piece through a middle indicating rod, the middle part of the middle indicating rod is connected with the top end of the upper switching rod, and the bottom end of the upper switching rod extends downwards to the outside of the operation indicating device to be connected with the outer end of the transverse driving unit;
when the right switching piece is inserted into the front-going energizing slot, the left switching piece and the return energizing slot are separated from each other; when the right switching piece is separated from the forward power-on groove, the left switching piece is inserted into the return power-on groove.
The light colors of the return indicator light and the forward indicator light are different.
The stirring cavity is arranged inside the second groove, the outer part of the second groove is embedded into the disc surface of the rotating flat disc, a fixed flat disc parallel to the rotating flat disc is arranged above the rotating flat disc, a lifting unit and a transverse driving unit are arranged on the disc surface of the fixed flat disc, the lifting unit, the transverse driving unit and the external adding unit form a particle adding device, the lifting unit comprises a lifting motor, a lifting rod and a stirring piece, the lifting motor is arranged higher than the fixed flat disc, the output end of the lifting motor is connected with the top end of the lifting rod, the bottom end of the lifting rod penetrates through the fixed flat disc and then is connected with the stirring piece, the stirring piece is positioned right above the stirring cavity, a transverse driving platform is sleeved outside the lifting rod at a position between the lifting motor and the fixed flat disc, the transverse driving platform is in reciprocating driving fit with the middle part of the transverse driving unit in the transverse direction, and the outer end part of the transverse driving unit is connected with the inner ends of the front switching, the outer end of preceding switch lever is connected with the outer end of back switch lever through well switch lever, the middle part of well switch lever is connected with the bottom of last switch lever is perpendicular, the top of going up the switch lever is connected with left switch plate, the one end of right switch plate, the other end of left switch plate inserts the cooperation with returning the circular telegram groove that leads to in returning the instruction unit, the other end of right switch plate inserts the cooperation with the circular telegram groove that leads to that moves ahead in the instruction unit that moves ahead, and left switch plate, return and instruct the unit, right switch plate, the instruction unit that moves ahead all is located the inside of operation indicating device.
The horizontal drive unit comprises a drive rack, the horizontal drive platform is of an annular gear structure, the middle of the horizontal drive platform is connected with the outer side of a lifting rod sleeved in the horizontal drive platform, and gear teeth arranged on the outer periphery of the horizontal drive platform are meshed with the drive rack.
The transverse driving unit also comprises a transverse driving plate, a front transverse driving sliding strip and a rear transverse driving sliding strip, two ends of the outer side part of the transverse driving plate are respectively connected with the inner ends of the front transverse driving sliding strip and the rear transverse driving sliding strip, the outer ends of the front transverse driving sliding strip and the rear transverse driving sliding strip extend outwards in the transverse direction, the inner side surface of the rear transverse driving sliding strip is provided with a driving rack to be meshed with the outer periphery of the transverse driving platform, the front transverse driving sliding strip, the transverse driving plate and the rear transverse driving sliding strip enclose a sliding cavity with a one-way opening, the middle part of a left support rod arranged in the sliding cavity is connected with the middle part of a right support rod through a middle support plate, the front side part and the rear side part of the middle support plate are respectively provided with an upper front roller and an upper rear roller, a lower front roller is arranged below the upper front roller, a lower rear roller is arranged below the upper rear roller, the upper front roller and the lower front roller are in sliding fit with the outer end of the front transverse driving, the upper rear roller and the lower rear roller are in sliding fit with the outer end of a rear transverse driving slide bar clamped between the upper rear roller and the lower rear roller, the top end of the left supporting rod is connected with the top end of the right supporting rod through a top supporting plate, a lifting motor is arranged on the top surface of the top supporting plate, and the bottom end of a lifting rod connected with the output end of the lifting motor sequentially penetrates through the top supporting plate, the middle supporting plate and the fixed flat disc and then is connected with the stirring part.
The middle part of the middle supporting plate is provided with a middle lifting hole for the lifting rod to penetrate through, the disc surface of the fixed flat disc is provided with a disc lifting hole for the lifting rod to penetrate through, and the diameters of the middle lifting hole and the disc lifting hole are larger than the diameter of the lifting rod.
The bottom of lower preceding roller bearing is connected with the top of lower preceding backup pad, and the bottom of lower back roller bearing is connected with the top of backup pad after down, and lower preceding backup pad, back backup pad are parallel to each other down, just press from both sides between lower preceding backup pad, back backup pad and be equipped with the under bracing clearance down.
The bottom surface of the inner side portion of the transverse driving plate is connected with the top surface of the driving sliding table, the bottom surface of the driving sliding table transversely slides back and forth along the top of the driving sliding rail, the bottom of the driving sliding rail is connected with the disc surface of the fixed flat disc, and the inner side surface of the driving sliding table is connected with the output end of a transverse driving motor through a back and forth driving rod.
The drive slip table is type structure of a Chinese character 'tu', includes last pedestal and gliding pedestal, the bottom surface of going up the pedestal is connected with the top surface of gliding pedestal is perpendicular, and horizontal sliding fit is made with the top of drive slide rail to the bottom surface of gliding pedestal, and the width of going up the pedestal is less than the width of gliding pedestal.
Compared with the prior art, the invention has the beneficial effects that:
1. in the instant indication double-stroke reciprocating type stirring process, when the instant indication double-stroke reciprocating type stirring process is applied, the external adding unit firstly adds particles into the stirring cavity, then the lifting unit drops the stirring piece into the stirring cavity, and then the transverse driving unit and the transverse driving platform on the lifting rod perform reciprocating transverse motion to drive the stirring piece to rotate, so that a uniform particle layer is formed in the stirring cavity, and the instant indication double-stroke reciprocating type stirring process has the advantages that: firstly, the uniformity of a granular layer is improved, and the product quality is enhanced; secondly, the lifting efficiency and the rotating efficiency are higher, so that the integral working efficiency is improved; secondly, when the horizontal movement that violently drives the unit, go on coming and going between the horizontal drive platform, left side switch plate inserts the cooperation with returning the circular telegram groove and in order to switch on the indicating circuit who returns in the indicating unit, thereby the suggestion of returning the operation, and on the same hand, right side switch plate inserts the cooperation with the circular telegram groove that moves ahead and in order to switch on the indicating circuit who moves ahead in the indicating unit, thereby the suggestion of the operation that moves ahead carries out, the prompt effect is very strong, do benefit to the operation to whole equipment and monitor, ensure safe operation, and the work efficiency can also be improved. Therefore, the invention has the advantages of high working efficiency, good product quality, strong operation prompting effect and high safety.
2. In the double-stroke reciprocating stirring process with instant indication, a return indication unit and a forward indication unit respectively comprise indication circuits consisting of indication lamps, a power box, an upper electrifying piece and a lower electrifying piece, the conduction of the indication circuits depends on the insertion and the matching between the switching pieces and corresponding electrifying slots, simultaneously, the inner end of a left switching piece is connected with the inner end of a right switching piece through a middle indication rod, the middle part of the middle indication rod is connected with the top end of the upper switching rod, the design enables the insertion and the matching between the left switching piece and the right switching piece and the corresponding electrifying slots to be an alternative design, when the left switching piece is inserted, the right switching piece is pulled out, when the left switching piece is pulled out, the right switching piece is inserted, the two switching pieces are inserted in turn, the two indication circuits are activated in turn, the two indication lamps are turned on in turn to carry out instant differential indication on return and forward operations, is beneficial to enhancing the prompting effect. Therefore, the operation prompting effect of the invention is stronger.
3. In the double-stroke reciprocating type stirring process with instant indication, the transverse driving unit comprises a driving rack, the transverse driving platform is of an annular gear structure, the middle part of the transverse driving platform is connected with the outer side periphery of the lifting rod sleeved in the transverse driving platform, gear teeth arranged on the outer periphery of the transverse driving platform are meshed with the driving rack, and the design drives the stirring piece to rotate through the meshing of the gear and the rack, so that the rotating efficiency is high, the meshing accuracy is high, the control of the stirring accuracy is facilitated, and the stirring uniformity is improved. Therefore, the invention has high precision and good stirring effect.
4. In the double-stroke reciprocating type stirring process with instant indication, a transverse driving unit comprises a transverse driving plate, a front transverse driving slide bar, a rear transverse driving slide bar, an upper front roller, a lower front roller, an upper rear roller and a lower rear roller. Therefore, the invention not only can improve the uniformity of the product, but also has higher stability.
5. In the double-stroke reciprocating type stirring process with instant indication, the bottom surface of the inner side part of the transverse driving plate is connected with the top surface of the driving sliding table, the bottom surface of the driving sliding table transversely slides back and forth along the top of the driving sliding rail, the bottom of the driving sliding rail is connected with the disc surface of the fixed flat disc, and the inner side surface of the driving sliding table is connected with the output end of a transverse driving motor through a back and forth driving rod. Therefore, the stability of the invention is stronger.
6. In the double-stroke reciprocating type stirring process with instant indication, the lifting unit and the transverse driving unit are arranged on the fixed flat disc, and the second grooves are arranged on the rotating flat disc. Therefore, the invention can realize rotary assembly line work and has high working efficiency.
Drawings
Fig. 1 is a schematic structural diagram of a device supporting the present invention.
Fig. 2 is a schematic structural view of the operation indicating apparatus of fig. 1.
FIG. 3 is a schematic view of the combination of the rear cross drive slider, the upper rear roller, and the lower rear roller of the present invention.
FIG. 4 is a schematic view of the front cross drive slide, upper front roller, lower front roller of the present invention.
Fig. 5 is a schematic perspective view of fig. 4 viewed from below.
Fig. 6 is a schematic perspective view of the cross drive plate, the front cross drive slide and the rear cross drive slide of fig. 5.
FIG. 7 is a top view of the rear cross drive slide and cross drive table of the present invention engaged.
Fig. 8 is a top view of a rotating flat disk of the present invention.
In the figure: a fixed flat plate 1, a rotating flat plate 2, a rotating hole 21, a driving cylinder 22, a particle adding device 3, an external adding unit 31, a lifting unit 32, a lifting motor 321, a lifting rod 322, a stirring member 323, a traverse driving table 324, a middle lifting hole 325, a disc lifting hole 326, a traverse driving unit 33, a traverse driving plate 34, a front traverse driving slide bar 35, an upper front roller 351, a lower front roller 352, a lower front supporting plate 353, a rear traverse driving slide bar 36, an upper rear roller 361, a lower rear roller 362, a lower rear supporting plate 363, a driving rack 364, a sliding cavity 37, a left supporting rod 371, a middle supporting plate 372, a right supporting rod 373, a top supporting plate 374, a driving slide table 38, a driving slide rail 381, a traverse driving rod 382, a traverse driving motor 383, an upper sliding rail 384, a lower sliding table 385, a supporting table 386, a supporting table leg 387, a lower supporting gap 39, a running indicating device 4, a return indicating unit 41, a return energization groove 411, a left upper sheet 412, a, The left downward-conducting piece 413, the return indicator light 414, the left power supply box 415, the left switching piece 42, the forward-moving indicating unit 43, the forward-moving conducting groove 431, the right upward-conducting piece 432, the right downward-conducting piece 433, the forward-moving indicator light 434, the right power supply box 435, the right switching piece 44, the middle indicating rod 45, the upper switching rod 5, the middle switching rod 51, the front switching rod 52, the rear switching rod 53, the main manufacturing area 8, the auxiliary manufacturing area 80, the first groove 81, the second groove 82, the stirring cavity 821, the third groove 83, the fourth groove 84 and the fifth groove 85.
Detailed Description
The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.
Referring to fig. 1 to 8, an instantly indicated two-stroke reciprocating stirring process includes a material adding step of adding particles into a stirring cavity 821 by an external adding unit 31 and a mixing step of driving a stirring member 323 to rotate by a transverse driving unit 33 to stir the added particles in the stirring cavity 821, which are sequentially performed;
the mixing step is that the lifting motor 321 in the lifting unit 32 drives the stirring part 323 to descend through the lifting rod 322 until the stirring part 323 falls into the particles accumulated in the stirring cavity 821, then the middle part of the transverse driving unit 33 performs transverse driving operation on the transverse driving platform 324 sleeved on the middle part of the lifting rod 322 so as to enable the lifting rod 322 and the stirring part 323 to rotate together, and then the rotating stirring part 323 stirs the particles in the stirring cavity 821;
the transverse driving operation comprises a forward step and a return step, wherein the forward step refers to that the transverse driving unit 33 moves forwards along the transverse direction, in the operation process, the middle part of the transverse driving unit 33 drives the transverse driving table 324, the lifting rod 322 and the stirring piece 323 to rotate clockwise through the side part of the transverse driving table 324, and meanwhile, the right switching piece 44 connected to the outer end part of the transverse driving unit 33 moves forwards and is inserted into the forward electrifying groove 431 in the forward indicating unit 43 to light the forward indicating lamp 434 for operation prompt; the returning step is that the transverse driving unit 33 moves backwards along the transverse direction, during the operation, the middle part of the transverse driving unit 33 drives the transverse driving table 324, the lifting rod 322 and the stirring piece 323 to rotate anticlockwise together through the side part of the transverse driving table 324, meanwhile, the left switching piece 42 connected to the outer end part of the transverse driving unit 33 moves backwards, and is inserted into the return power-on groove 411 in the return indicating unit 41, so as to light the return indicating lamp 414 for operation and prompt.
The return indicating unit 41 comprises a return indicating lamp 414, a left power box 415, an upper left conducting piece 412 and a lower left conducting piece 413, the upper left conducting piece 412 is sequentially connected with the lower left conducting piece 413 through the left power box 415 and the return indicating lamp 414 in a circuit mode, the upper left conducting piece 412 and the lower left conducting piece 413 are vertically clamped to form a return conducting groove 411, and the return conducting groove 411 is in insertion fit with the outer end of the left switching piece 42 clamped between the upper left conducting piece 412 and the lower left conducting piece 411; the forward indication unit 43 further comprises a forward indication lamp 434, a right power box 435, a right upper conducting piece 432 and a right lower conducting piece 433, the right upper conducting piece 432 sequentially passes through the right power box 435 and the forward indication lamp 434 and then is in circuit connection with the right lower conducting piece 433, the right upper conducting piece 432 and the right lower conducting piece 433 are vertically clamped to form a forward conducting groove 431, and the forward conducting groove 431 is in insertion fit with the outer end of the right switching piece 42 clamped between the forward conducting groove 431 and the forward switching piece 433; the inner end of the left switch plate 42 is connected with the inner end of the right switch plate 42 through a middle indication rod 45, the middle part of the middle indication rod 45 is connected with the top end of the upper switch rod 5, and the bottom end of the upper switch rod 5 extends downwards to the outside of the operation indication device 4 to be connected with the outer end part of the transverse driving unit 33;
when the right switch piece 44 is inserted into the forward energizing slot 431, the left switch piece 42 and the return energizing slot 411 are disengaged from each other; when the right switch piece 44 and the forward conducting groove 431 are disengaged from each other, the left switch piece 42 is inserted into the return conducting groove 411.
The return indicator light 414 and the forward indicator light 434 have different colors.
The stirring cavity 821 is arranged in the second groove 82, the outer part of the second groove 82 is embedded into the disc surface of the rotating flat disc 2, the fixed flat disc 1 parallel to the second groove is arranged above the rotating flat disc 2, the disc surface of the fixed flat disc 1 is provided with a lifting unit 32 and a transverse driving unit 33, the lifting unit 32, the transverse driving unit 33 and the external adding unit 31 form a particle adding device 3, the lifting unit 32 comprises a lifting motor 321, a lifting rod 322 and a stirring piece 323, the lifting motor 321 is arranged higher than the fixed flat disc 1, the output end of the lifting motor 321 is connected with the top end of the lifting rod 322, the bottom end of the lifting rod 322 passes through the fixed flat disc 1 and is connected with the stirring piece 323, the stirring piece 323 is arranged right above the stirring cavity 821, the transverse platform 324 is sleeved outside the lifting rod 322 at the position between the lifting motor 321 and the fixed flat disc 1, and the transverse platform 324 is in transverse reciprocating driving fit with the middle part of the transverse driving unit 33, the outer end of the transverse driving unit 33 is connected to the inner ends of the front switch lever 52 and the rear switch lever 53, the outer end of the front switch lever 52 is connected to the outer end of the rear switch lever 53 through the middle switch lever 51, the middle of the middle switch lever 51 is vertically connected to the bottom end of the upper switch lever 5, the top end of the upper switch lever 5 is connected to one end of the left switch plate 42 and one end of the right switch plate 44, the other end of the left switch plate 42 is in insertion fit with the return energization slot 411 in the return indication unit 41, the other end of the right switch plate 44 is in insertion fit with the forward energization slot 431 in the forward indication unit 43, and the left switch plate 42, the return indication unit 41, the right switch plate 44 and the forward indication unit 43 are all located inside the operation indication device 4.
The transverse driving unit 33 includes a driving rack 364, the transverse driving platform 324 is a ring-shaped gear structure, the middle of the transverse driving platform 324 is connected with the outer periphery of the lifting rod 322 sleeved inside the transverse driving platform 324, and gear teeth arranged on the outer periphery of the transverse driving platform 324 are meshed with the driving rack 364.
The transverse driving unit 33 further includes a transverse driving plate 34, a front transverse driving slide bar 35 and a rear transverse driving slide bar 36, two ends of an outer side portion of the transverse driving plate 34 are respectively connected with inner ends of the front transverse driving slide bar 35 and the rear transverse driving slide bar 36, outer ends of the front transverse driving slide bar 35 and the rear transverse driving slide bar 36 extend outwards in a transverse direction, a driving rack 364 is arranged on an inner side surface of the rear transverse driving slide bar 36 to be meshed with an outer periphery of the transverse driving table 324, the front transverse driving slide bar 35, the transverse driving plate 34 and the rear transverse driving slide bar 36 together form a one-way open sliding cavity 37, a middle portion of a left supporting rod 371 arranged in the sliding cavity 37 is connected with a middle portion of a right supporting rod 373 through a middle supporting plate 372, front and rear side portions of the middle supporting plate 372 are respectively provided with an upper front roller 351 and an upper rear roller, a lower front roller 352 is arranged below the upper front roller 351, a lower rear roller 362 is arranged below the upper rear roller 361, The lower front roller 352 is in sliding fit with the outer end of the front transverse driving slide bar 35 clamped between the lower front roller and the lower rear roller, the upper rear roller 361 and the lower rear roller 362 are in sliding fit with the outer end of the rear transverse driving slide bar 36 clamped between the upper rear roller and the lower rear roller, the top end of the left support rod 371 is connected with the top end of the right support rod 373 through the top support plate 374, the top surface of the top support plate 374 is provided with the lifting motor 321, and the bottom end of the lifting rod 322 connected with the output end of the lifting motor 321 sequentially passes through the top support plate 374, the middle support plate 372 and the fixed flat disc 1 and then is connected with the stirring part 323.
The middle support plate 372 is provided with a middle lifting hole 325 at the middle part for the lifting rod 322 to pass through, the fixed flat disc 1 is provided with a disc lifting hole 326 on the disc surface for the lifting rod 322 to pass through, and the diameters of the middle lifting hole 325 and the disc lifting hole 326 are both larger than the diameter of the lifting rod 322.
The bottom of the lower front roller 352 is connected with the top end of the lower front support plate 353, the bottom of the lower rear roller 362 is connected with the top end of the lower rear support plate 363, the lower front support plate 353 and the lower rear support plate 363 are parallel to each other, and a lower support gap 39 is clamped between the lower front support plate 353 and the lower rear support plate 363.
The bottom surface of the inner side of the transverse driving plate 34 is connected with the top surface of the driving sliding table 38, the bottom surface of the driving sliding table 38 slides back and forth along the top of the driving sliding rail 381, the bottom of the driving sliding rail 381 is connected with the disc surface of the fixed flat disc 1, and the inner side surface of the driving sliding table 38 is connected with the output end of a transverse driving motor 383 through a back and forth driving rod 382.
The driving sliding table 38 is of a convex structure and comprises an upper sliding table seat 384 and a lower sliding table seat 385, wherein the bottom surface of the upper sliding table seat 384 is vertically connected with the top surface of the lower sliding table seat 385, the bottom surface of the lower sliding table seat 385 is in transverse sliding fit with the top of the driving sliding rail 381, and the width of the upper sliding table seat 384 is smaller than that of the lower sliding table seat 385. The bottom surfaces of the transverse driving motor 383 and the driving slide rail 381 are connected with the top surface of the supporting desktop 386, and the bottom surface of the supporting desktop 386 is connected with the disk surface of the fixed flat disk 1 through the supporting desk legs 387.
The principle of the invention is illustrated as follows:
referring to fig. 8, the center of the rotating flat disk 2 of the present invention is provided with a rotating hole 21, the rotating hole 21 is connected with the outer periphery of the driving cylinder 22, the disk surface of the rotating flat disk 2 is provided with a plurality of grooves, and the structure and function of each groove are the same as those of the second groove 82. The grooves can be distinguished according to different functions, if five grooves are taken as a group, all the grooves can be divided into a main manufacturing area 8 and an auxiliary manufacturing area 80, the number and the arrangement design of the grooves in the main manufacturing area and the auxiliary manufacturing area are completely consistent, the main manufacturing area 8 comprises a first groove 81, a second groove 82, a third groove 83, a fourth groove 84 and a fifth groove 85 which are sequentially arranged along the disk surface, and the auxiliary manufacturing area 80 and the main manufacturing area 8 are sequentially arranged along the disk surface.
During the application, drive cylinder 22 rotates through rotatory hole 21 drive rotation flat disc 2 and rotates the central point that rotates flat disc 2 and be provided with rotatory hole 21, this rotatory hole 21 encloses with drive cylinder 22's the outside and is connected, drive cylinder 22 wears to pass through in proper order and rotates flat disc 2, the central point of fixed flat disc 1 passes, drive cylinder 22's bottom is located and rotates flat disc 2 under, drive cylinder 22's top is located fixed flat disc 1 directly over, rotatory rotation flat disc 2 drives the recess and experiences in proper order in each processingequipment in order to carry out the operation that corresponds, add device 3 like the granule in this design. The number of the grooves in each manufacturing area is equal to the number of the working procedures, and as mentioned above, the number of the corresponding working procedures and the number of the processing devices are five in the design that five grooves are in a group, at this time, one groove is subjected to five working procedures in sequence to complete all processing to obtain a product, and simultaneously, other grooves in the same group are simultaneously processed to continuously generate the product, so that the working efficiency is high, and particularly, when the auxiliary manufacturing areas 80 are matched, the efficiency is higher.
Example 1:
referring to fig. 1 to 8, an immediate indication two-stroke reciprocating stirring process includes a material adding step and a mixing step, which are sequentially performed, wherein the material adding step is to add particles into a stirring cavity 821 by an external adding unit 31, the mixing step is to drive a stirring member 323 to descend by a lifting motor 321 in a lifting unit 32 through a lifting rod 322 until the stirring member 323 falls into the particles accumulated in the stirring cavity 821, then a transverse driving table 324 sleeved on the middle of the lifting rod 322 is transversely driven by the middle of a transverse driving unit 33 to rotate the lifting rod 322 and the stirring member 323 together, and then the particles in the stirring cavity 821 are stirred by the rotating stirring member 323; the transverse driving operation comprises a forward step and a return step, wherein the forward step refers to that the transverse driving unit 33 moves forwards along the transverse direction, in the operation process, the middle part of the transverse driving unit 33 drives the transverse driving table 324, the lifting rod 322 and the stirring piece 323 to rotate clockwise through the side part of the transverse driving table 324, and meanwhile, the right switching piece 44 connected to the outer end part of the transverse driving unit 33 moves forwards and is inserted into the forward electrifying groove 431 in the forward indicating unit 43 to light the forward indicating lamp 434 for operation prompt; the returning step is that the transverse driving unit 33 moves backwards along the transverse direction, during the operation, the middle part of the transverse driving unit 33 drives the transverse driving table 324, the lifting rod 322 and the stirring piece 323 to rotate anticlockwise together through the side part of the transverse driving table 324, meanwhile, the left switching piece 42 connected to the outer end part of the transverse driving unit 33 moves backwards, and is inserted into the return power-on groove 411 in the return indicating unit 41, so as to light the return indicating lamp 414 for operation and prompt.
Example 2:
the basic contents are the same as example 1, except that:
the return indicating unit 41 comprises a return indicating lamp 414, a left power box 415, an upper left conducting piece 412 and a lower left conducting piece 413, the upper left conducting piece 412 is sequentially connected with the lower left conducting piece 413 through the left power box 415 and the return indicating lamp 414 in a circuit mode, the upper left conducting piece 412 and the lower left conducting piece 413 are vertically clamped to form a return conducting groove 411, and the return conducting groove 411 is in insertion fit with the outer end of the left switching piece 42 clamped between the upper left conducting piece 412 and the lower left conducting piece 411; the forward indication unit 43 further comprises a forward indication lamp 434, a right power box 435, a right upper conducting piece 432 and a right lower conducting piece 433, the right upper conducting piece 432 sequentially passes through the right power box 435 and the forward indication lamp 434 and then is in circuit connection with the right lower conducting piece 433, the right upper conducting piece 432 and the right lower conducting piece 433 are vertically clamped to form a forward conducting groove 431, and the forward conducting groove 431 is in insertion fit with the outer end of the right switching piece 42 clamped between the forward conducting groove 431 and the forward switching piece 433; the inner end of the left switch plate 42 is connected to the inner end of the right switch plate 42 through a middle indication rod 45, the middle part of the middle indication rod 45 is connected to the top end of the upper switch rod 5, and the bottom end of the upper switch rod 5 extends to the outside of the operation indication device 4 to be connected to the outer end of the cross drive unit 33.
In the operation: when the right switch piece 44 is inserted into the forward energizing slot 431, the left switch piece 42 and the return energizing slot 411 are disengaged from each other; when the right switch piece 44 and the forward conducting groove 431 are disengaged from each other, the left switch piece 42 is inserted into the return conducting groove 411. Preferably, the return indicator light 414 and the forward indicator light 434 have different colors.
Example 3:
the basic contents are the same as example 1, except that:
the stirring cavity 821 is arranged in the second groove 82, the outer part of the second groove 82 is embedded into the disc surface of the rotating flat disc 2, the fixed flat disc 1 parallel to the second groove is arranged above the rotating flat disc 2, the disc surface of the fixed flat disc 1 is provided with a lifting unit 32 and a transverse driving unit 33, the lifting unit 32, the transverse driving unit 33 and the external adding unit 31 form a particle adding device 3, the lifting unit 32 comprises a lifting motor 321, a lifting rod 322 and a stirring piece 323, the lifting motor 321 is arranged higher than the fixed flat disc 1, the output end of the lifting motor 321 is connected with the top end of the lifting rod 322, the bottom end of the lifting rod 322 passes through the fixed flat disc 1 and is connected with the stirring piece 323, the stirring piece 323 is arranged right above the stirring cavity 821, the transverse platform 324 is sleeved outside the lifting rod 322 at the position between the lifting motor 321 and the fixed flat disc 1, and the transverse platform 324 is in transverse reciprocating driving fit with the middle part of the transverse driving unit 33, the outer end of the transverse driving unit 33 is connected to the inner ends of the front switch lever 52 and the rear switch lever 53, the outer end of the front switch lever 52 is connected to the outer end of the rear switch lever 53 through the middle switch lever 51, the middle of the middle switch lever 51 is vertically connected to the bottom end of the upper switch lever 5, the top end of the upper switch lever 5 is connected to one end of the left switch plate 42 and one end of the right switch plate 44, the other end of the left switch plate 42 is in insertion fit with the return energization slot 411 in the return indication unit 41, the other end of the right switch plate 44 is in insertion fit with the forward energization slot 431 in the forward indication unit 43, and the left switch plate 42, the return indication unit 41, the right switch plate 44 and the forward indication unit 43 are all located inside the operation indication device 4. Preferably, the transverse driving unit 33 includes a driving rack 364, the transverse driving platform 324 is a ring-shaped gear structure, the middle portion of the transverse driving platform 324 is connected to the outer periphery of the lifting rod 322 sleeved therein, and gear teeth arranged on the outer periphery of the transverse driving platform 324 are engaged with the driving rack 364.
Example 4:
the basic contents are the same as example 3, except that:
the transverse driving unit 33 further includes a transverse driving plate 34, a front transverse driving slide bar 35 and a rear transverse driving slide bar 36, two ends of an outer side portion of the transverse driving plate 34 are respectively connected with inner ends of the front transverse driving slide bar 35 and the rear transverse driving slide bar 36, outer ends of the front transverse driving slide bar 35 and the rear transverse driving slide bar 36 extend outwards in a transverse direction, a driving rack 364 is arranged on an inner side surface of the rear transverse driving slide bar 36 to be meshed with an outer periphery of the transverse driving table 324, the front transverse driving slide bar 35, the transverse driving plate 34 and the rear transverse driving slide bar 36 together form a one-way open sliding cavity 37, a middle portion of a left supporting rod 371 arranged in the sliding cavity 37 is connected with a middle portion of a right supporting rod 373 through a middle supporting plate 372, front and rear side portions of the middle supporting plate 372 are respectively provided with an upper front roller 351 and an upper rear roller, a lower front roller 352 is arranged below the upper front roller 351, a lower rear roller 362 is arranged below the upper rear roller 361, The lower front roller 352 is in sliding fit with the outer end of the front transverse driving slide bar 35 clamped between the lower front roller and the lower rear roller, the upper rear roller 361 and the lower rear roller 362 are in sliding fit with the outer end of the rear transverse driving slide bar 36 clamped between the upper rear roller and the lower rear roller, the top end of the left support rod 371 is connected with the top end of the right support rod 373 through the top support plate 374, the top surface of the top support plate 374 is provided with the lifting motor 321, and the bottom end of the lifting rod 322 connected with the output end of the lifting motor 321 sequentially passes through the top support plate 374, the middle support plate 372 and the fixed flat disc 1 and then is connected with the stirring part 323.
Example 5:
the basic contents are the same as example 4, except that:
the bottom surface of the inner side of the transverse driving plate 34 is connected with the top surface of the driving sliding table 38, the bottom surface of the driving sliding table 38 slides back and forth along the top of the driving sliding rail 381, the bottom of the driving sliding rail 381 is connected with the disc surface of the fixed flat disc 1, and the inner side surface of the driving sliding table 38 is connected with the output end of a transverse driving motor 383 through a back and forth driving rod 382. The driving sliding table 38 is of a convex structure and comprises an upper sliding table seat 384 and a lower sliding table seat 385, wherein the bottom surface of the upper sliding table seat 384 is vertically connected with the top surface of the lower sliding table seat 385, the bottom surface of the lower sliding table seat 385 is in transverse sliding fit with the top of the driving sliding rail 381, and the width of the upper sliding table seat 384 is smaller than that of the lower sliding table seat 385. The bottom surfaces of the transverse driving motor 383 and the driving slide rail 381 are connected with the top surface of the supporting desktop 386, and the bottom surface of the supporting desktop 386 is connected with the disk surface of the fixed flat disk 1 through the supporting desk legs 387.
The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims (7)

1. An instant indication double-stroke reciprocating type stirring process, which comprises a material adding step and a mixing step which are sequentially carried out, wherein the material adding step is to add particles into a stirring cavity (821) by an external adding unit (31), the mixing step is to drive a stirring piece (323) to rotate by a transverse driving unit (33) so as to stir the added particles in the stirring cavity (821), and the instant indication double-stroke reciprocating type stirring process is characterized in that:
the mixing step is that a lifting motor (321) in a lifting unit (32) drives a stirring piece (323) to descend through a lifting rod (322) until the stirring piece (323) falls into the particles accumulated in a stirring cavity (821), then a transverse driving table (324) sleeved on the middle part of the lifting rod (322) is transversely driven by the middle part of a transverse driving unit (33) to enable the lifting rod (322) and the stirring piece (323) to rotate together, and then the particles in the stirring cavity (821) are stirred by the rotating stirring piece (323);
the transverse driving operation comprises a forward step and a return step, wherein the forward step refers to that the transverse driving unit (33) moves forwards along the transverse direction, in the operation process, the middle part of the transverse driving unit (33) drives the transverse driving table (324), the lifting rod (322) and the stirring piece (323) to rotate clockwise through the side part of the transverse driving table (324), and meanwhile, a right switching piece (44) connected to the outer end part of the transverse driving unit (33) moves forwards and is inserted into a forward power-on groove (431) in the forward indicating unit (43) to light a forward indicating lamp (434) for operation prompt; the returning step refers to that the transverse driving unit (33) runs backwards along the transverse direction, in the running process, the middle part of the transverse driving unit (33) drives the transverse driving table (324), the lifting rod (322) and the stirring piece (323) to rotate anticlockwise together through the side part of the transverse driving table (324), meanwhile, a left switching piece (42) connected to the outer end part of the transverse driving unit (33) runs backwards and is inserted into a returning power-on groove (411) in a returning indicating unit (41) to light a returning indicating lamp (414) for operation prompt;
the stirring cavity (821) is arranged in the second groove (82), the outer part of the second groove (82) is embedded into the disc surface of the rotating flat disc (2), the fixed flat disc (1) parallel to the rotating flat disc is arranged above the rotating flat disc (2), the disc surface of the fixed flat disc (1) is provided with a lifting unit (32) and a transverse driving unit (33), the lifting unit (32), the transverse driving unit (33) and the external adding unit (31) form a particle adding device (3), the lifting unit (32) comprises a lifting motor (321), a lifting rod (322) and a stirring piece (323), the lifting motor (321) is higher than the fixed flat disc (1), the output end of the lifting motor (321) is connected with the top end of the lifting rod (322), the bottom end of the lifting rod (322) penetrates through the fixed flat disc (1) and then is connected with the stirring piece (323), and the stirring piece (323) is positioned right above the stirring cavity (821), a transverse driving platform (324) is sleeved outside a part of the lifting rod (322) between the lifting motor (321) and the fixed flat disc (1), the transverse driving platform (324) is in reciprocating driving fit with the middle part of the transverse driving unit (33) in the transverse direction, the outer end part of the transverse driving unit (33) is connected with the inner ends of the front switching rod (52) and the rear switching rod (53), the outer end of the front switching rod (52) is connected with the outer end of the rear switching rod (53) through the middle switching rod (51), the middle part of the middle switching rod (51) is vertically connected with the bottom end of the upper switching rod (5), the top end of the upper switching rod (5) is connected with one end of the left switching piece (42) and the right switching piece (44), the other end of the left switching piece (42) is in insertion fit with the return electricity-conducting groove (411) in the return indicating unit (41), the other end of the right switching piece (44) is in insertion fit with the front electricity-conducting groove (431) in the forward indicating unit (43), the left switching piece (42), the return indication unit (41), the right switching piece (44) and the forward indication unit (43) are all positioned in the operation indication device (4);
the return indicating unit (41) comprises a return indicating lamp (414), a left power box (415), an upper left power piece (412) and a lower left power piece (413), the upper left power piece (412) sequentially passes through the left power box (415) and the return indicating lamp (414) and then is in circuit connection with the lower left power piece (413), the upper left power piece (412) and the lower left power piece (413) are vertically clamped to form a return power groove (411), and the return power groove (411) is in insertion fit with the outer end of the left switching piece (42) clamped between the upper left power piece and the lower left power piece; the forward indication unit (43) further comprises a forward indication lamp (434), a right power box (435), an upper right conducting piece (432) and a lower right conducting piece (433), the upper right conducting piece (432) is in circuit connection with the lower right conducting piece (433) after sequentially passing through the right power box (435) and the forward indication lamp (434), the upper right conducting piece (432) and the lower right conducting piece (433) are vertically clamped to form a forward conducting groove (431), and the forward conducting groove (431) is in insertion fit with the outer end of a right switching piece (44) clamped between the forward conducting groove (431) and the forward switching piece; the inner end of the left switching piece (42) is connected with the inner end of the right switching piece (44) through an intermediate indication rod (45), the middle part of the intermediate indication rod (45) is connected with the top end of the upper switching rod (5), and the bottom end of the upper switching rod (5) extends downwards to the outside of the operation indicating device (4) to be connected with the outer end of the transverse driving unit (33);
when the right switching piece (44) is inserted into the forward conducting groove (431), the left switching piece (42) and the return conducting groove (411) are mutually separated; when the right switching piece (44) is separated from the forward conduction groove (431), the left switching piece (42) is inserted into the return conduction groove (411);
the light colors of the return indicator light (414) and the forward indicator light (434) are different.
2. An instant indicating two-stroke reciprocating mixing process as claimed in claim 1, wherein: the transverse driving unit (33) comprises a driving rack (364), the transverse driving platform (324) is of an annular gear structure, the middle of the transverse driving platform (324) is connected with the outer side periphery of the lifting rod (322) sleeved in the transverse driving platform, and gear teeth arranged on the outer periphery of the transverse driving platform (324) are meshed with the driving rack (364).
3. An instant indicating two-stroke reciprocating mixing process as claimed in claim 1, wherein: the transverse driving unit (33) further comprises a transverse driving plate (34), a front transverse driving sliding strip (35) and a rear transverse driving sliding strip (36), two ends of the outer side portion of the transverse driving plate (34) are respectively connected with the inner ends of the front transverse driving sliding strip (35) and the inner end of the rear transverse driving sliding strip (36), the outer ends of the front transverse driving sliding strip (35) and the outer end of the rear transverse driving sliding strip (36) extend outwards in the transverse direction, a driving rack (364) is arranged on the inner side surface of the rear transverse driving sliding strip (36) to be meshed with the outer periphery of the transverse driving table (324), the front transverse driving sliding strip (35), the transverse driving plate (34) and the rear transverse driving sliding strip (36) form a one-way open sliding cavity (37) in a surrounding mode, the middle portion of a left supporting rod (371) arranged in the sliding cavity (37) is connected with the middle portion of a right supporting rod (rolling shaft) through a middle supporting plate (372), and the front side portion and the rear side portion of the middle supporting plate (372), The stirring device comprises an upper rear roller (361), a lower front roller (352) is arranged below the upper front roller (351), a lower rear roller (362) is arranged below the upper rear roller (361), the upper front roller (351) and the lower front roller (352) are in sliding fit with the outer end of a front transverse driving sliding strip (35) clamped between the upper front roller and the lower rear roller, the upper rear roller (361) and the lower rear roller (362) are in sliding fit with the outer end of a rear transverse driving sliding strip (36) clamped between the upper front roller and the lower front roller, the top end of a left support rod (371) is connected with the top end of a right support rod (373) through a top support plate (374), a lifting motor (321) is arranged on the top surface of the top support plate (374), and the bottom end of a lifting rod (322) connected with the output end of the lifting motor (321) sequentially penetrates through the top support plate (374), a middle support plate (372) and a fixed flat disc (1).
4. An instant indicating two-stroke reciprocating mixing process as claimed in claim 3, wherein: the middle of the middle support plate (372) is provided with a middle lifting hole (325) for the lifting rod (322) to penetrate through, the disc surface of the fixed flat disc (1) is provided with a disc lifting hole (326) for the lifting rod (322) to penetrate through, and the diameters of the middle lifting hole (325) and the disc lifting hole (326) are larger than the diameter of the lifting rod (322).
5. An instant indicating two-stroke reciprocating mixing process as claimed in claim 3, wherein: the bottom of the lower front roller (352) is connected with the top end of the lower front supporting plate (353), the bottom of the lower rear roller (362) is connected with the top end of the lower rear supporting plate (363), the lower front supporting plate (353) and the lower rear supporting plate (363) are parallel to each other, and a lower supporting gap (39) is clamped between the lower front supporting plate (353) and the lower rear supporting plate (363).
6. An instant indicating two-stroke reciprocating mixing process as claimed in claim 3, wherein: the bottom surface of the inner side portion of the transverse driving plate (34) is connected with the top surface of the driving sliding table (38), the bottom surface of the driving sliding table (38) transversely slides back and forth along the top of the driving sliding rail (381), the bottom of the driving sliding rail (381) is connected with the disc surface of the fixed flat disc (1), and the inner side surface of the driving sliding table (38) is connected with the output end of a transverse driving motor (383) through a back and forth driving rod (382).
7. An instant indicating two-stroke reciprocating mixing process as defined in claim 6 wherein: the driving sliding table (38) is of a convex structure and comprises an upper sliding table seat (384) and a lower sliding table seat (385), the bottom surface of the upper sliding table seat (384) is vertically connected with the top surface of the lower sliding table seat (385), the bottom surface of the lower sliding table seat (385) is in transverse sliding fit with the top of the driving sliding rail (381), and the width of the upper sliding table seat (384) is smaller than that of the lower sliding table seat (385).
CN201811050091.4A 2018-09-10 2018-09-10 Instant-indication double-stroke reciprocating type stirring process Active CN109331675B (en)

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NL1009059C2 (en) * 1998-05-04 1999-11-05 Pelleting Technology Nederland Mixer for e.g. homogenizing granular or powdered products
CN204891762U (en) * 2015-07-09 2015-12-23 安徽省光明粮油工业有限公司 Vegetable seed stirring is with cabinet body
CN106179069A (en) * 2016-08-30 2016-12-07 吴晓新 A kind of agitating device
CN206343111U (en) * 2016-12-15 2017-07-21 李润凤 A kind of corrugated board starch glue mixer
CN206566800U (en) * 2017-02-23 2017-10-20 蚌埠医学院 A kind of medical powdered drug agitating device
CN207769611U (en) * 2017-12-25 2018-08-28 山东金盛水产股份有限公司 A kind of Multifunctional mixer

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IT1100864B (en) * 1978-12-28 1985-09-28 Midel Srl APPARATUS FOR THE STORAGE AND AGITATION OF VISCOUS LIQUIDS CONTAINING IN JARS

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
NL1009059C2 (en) * 1998-05-04 1999-11-05 Pelleting Technology Nederland Mixer for e.g. homogenizing granular or powdered products
CN204891762U (en) * 2015-07-09 2015-12-23 安徽省光明粮油工业有限公司 Vegetable seed stirring is with cabinet body
CN106179069A (en) * 2016-08-30 2016-12-07 吴晓新 A kind of agitating device
CN206343111U (en) * 2016-12-15 2017-07-21 李润凤 A kind of corrugated board starch glue mixer
CN206566800U (en) * 2017-02-23 2017-10-20 蚌埠医学院 A kind of medical powdered drug agitating device
CN207769611U (en) * 2017-12-25 2018-08-28 山东金盛水产股份有限公司 A kind of Multifunctional mixer

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