CN106945174B - Up-down linkage type mortar stirrer - Google Patents

Up-down linkage type mortar stirrer Download PDF

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Publication number
CN106945174B
CN106945174B CN201710113932.0A CN201710113932A CN106945174B CN 106945174 B CN106945174 B CN 106945174B CN 201710113932 A CN201710113932 A CN 201710113932A CN 106945174 B CN106945174 B CN 106945174B
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China
Prior art keywords
transmission
shaft
stirring
revolution
plate
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Expired - Fee Related
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CN201710113932.0A
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Chinese (zh)
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CN106945174A (en
Inventor
王帅
雷学文
周疆豪
张长春
廖宜顺
廖明勇
徐亚飞
陈斌
龚屿
谢凌峰
苏键
许九保
李昇昊
周思成
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Wuhan University of Science and Engineering WUSE
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Wuhan University of Science and Engineering WUSE
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Priority to CN201710113932.0A priority Critical patent/CN106945174B/en
Publication of CN106945174A publication Critical patent/CN106945174A/en
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Publication of CN106945174B publication Critical patent/CN106945174B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28CPREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28C5/00Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions
    • B28C5/08Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions using driven mechanical means affecting the mixing
    • B28C5/10Mixing in containers not actuated to effect the mixing
    • B28C5/12Mixing in containers not actuated to effect the mixing with stirrers sweeping through the materials, e.g. with incorporated feeding or discharging means or with oscillating stirrers
    • B28C5/16Mixing in containers not actuated to effect the mixing with stirrers sweeping through the materials, e.g. with incorporated feeding or discharging means or with oscillating stirrers the stirrers having motion about a vertical or steeply inclined axis
    • B28C5/166Pan-type mixers
    • B28C5/168Pan-type mixers with stirrers having planetary motion
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28CPREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28C5/00Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions
    • B28C5/08Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions using driven mechanical means affecting the mixing
    • B28C5/0806Details; Accessories
    • B28C5/0831Drives or drive systems, e.g. toothed racks, winches
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28CPREPARING CLAY; PRODUCING MIXTURES CONTAINING CLAY OR CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28C5/00Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions
    • B28C5/08Apparatus or methods for producing mixtures of cement with other substances, e.g. slurries, mortars, porous or fibrous compositions using driven mechanical means affecting the mixing
    • B28C5/0806Details; Accessories
    • B28C5/0856Supporting frames or structures, e.g. supporting wheels

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Structural Engineering (AREA)
  • Mixers Of The Rotary Stirring Type (AREA)

Abstract

The invention discloses an up-down linkage type stirring device, which comprises a movable supporting part, wherein a self-transmission driving part with adjustable height relative to the supporting part is arranged at the upper part of the supporting part, and a revolution transmission part which can horizontally move with the supporting part is also arranged at the upper part of the supporting part; the revolution driving part comprises a stirring tank arranged below the stirring blades, and the stirring tank is driven by the motor through chain transmission. The whole device has the characteristics of high stirring efficiency, uniformity and sufficiency, and free movement. Is suitable for uniformly, efficiently and conveniently stirring mortar mixtures and other fine particle solid-liquid mixtures.

Description

Up-down linkage type mortar stirrer
Technical Field
The invention relates to the field of civil engineering, in particular to an up-and-down linkage type mortar stirrer.
Technical Field
Building mortar has played an important role in the civil engineering construction field of our country all the time, at present, domestic main mixer adopts the planetary gear structure mostly, the mode that utilizes two kinds of motions of rotation and revolution to combine together realizes high-efficient, even and abundant stirring, the mixer adopts ordinary motor drive usually, carry out the periodic type stirring of frequency fixation, and the mixer is all fixed, its stirring in-process, because the stirring interval of stirring leaf and stirring thing is limited, be not convenient for remove and go up and down, and the stirring range can not be adjusted, certain limitation has. The main existing technical problems are as follows:
1. the uniformity of mortar stirring is poor; because stirring leaf and agitator tank position can't remove and adjust to can only stir in fixed area, consequently the stirring scope is more single, thereby leads to traditional mortar mixer can only stir a small amount of material at every turn, and the shape of agitator tank can not change, when the materials increase or use the agitator tank of different shapes, traditional mixer just is difficult to stir, and stirs inhomogeneously.
2. The stirring speed is single;
3. the whole machine is heavy and difficult to carry and move, and the stirring tank is inconvenient to take out due to the fact that the stirring blades extend into the stirring tank;
4. the stirring range is small, and the stirring area cannot be adjusted.
All the problems lead to low working efficiency and are not in accordance with the concept of high efficiency and energy conservation.
Disclosure of Invention
The invention aims to overcome the defects and provide the up-and-down linkage type mortar stirrer which is high in stirring efficiency, uniform and sufficient and can move freely.
In order to achieve the purpose, the invention designs an up-down linkage type stirring device, which is characterized in that: the device comprises a movable supporting part, wherein a self-transmission driving part with adjustable height relative to the supporting part is arranged at the upper part of the supporting part, and a revolution transmission part which can horizontally move with the supporting part is also arranged at the upper part of the supporting part;
the rotation driving part comprises a stirring blade driven by a motor to rotate and stir, the revolution driving part comprises a stirring tank arranged below the stirring blade, and the stirring tank is driven by the motor through chain transmission.
Furthermore, the supporting part comprises a bottom plate, universal wheels, a lifting supporting unit and a supporting plate, the universal wheels are arranged at the bottom of the bottom plate, the driving part is connected to the supporting plate, and the supporting plate is connected with the bottom plate through the lifting supporting unit. Compared with the prior art, the structure has the advantages that the four universal wheels are arranged at the bottom, free movement in any direction can be achieved, convenience and rapidness are improved in the actual application process, the working efficiency is improved, manpower and material resources are saved in the moving and carrying process, and the problem that the traditional mortar stirrer cannot move conveniently and freely can be solved. The use is more efficient, convenient and flexible.
Furthermore, the lifting support unit comprises a first-stage lifting column and a second-stage lifting column which are connected through a lifting adjusting wheel, the first-stage lifting column is connected with the lower end bottom plate, and the second-stage lifting column is connected with the upper end support plate. The lift supporting unit can freely rise and fall under the regulation of lift adjustment wheel, compares with traditional mortar machine, and traditional mortar machine can't go up and down, and during the stirring in the stirring leaf stretched into the agitator tank, therefore stirred the back inconvenient with the agitator tank and put aside, and this structure can freely go up and down, has solved the inconvenient problem of puting aside of agitator tank after having stirred. Still further, a boss for installing a motor is arranged on the supporting plate. With motor and reduction gear setting on the boss with the balanced gravity in the left side, make the structure more stable, the effect of boss is the thickening backup pad, makes the backup pad satisfy the strength requirement.
Still further, the rotation driving part further comprises a speed reducer, a driving shaft, a first conical gear set, a driving bearing support and a stirring shaft, the driving shaft is connected with the motor through the speed reducer, the driving shaft is further provided with the driving bearing support, the driving bearing support is fixed on the supporting plate, the revolution driving part is connected with the driving shaft, the stirring blades are connected onto the stirring shaft, the stirring shaft is connected with the driving shaft through the first conical gear set, and the revolution driving part is connected onto the driving shaft through chain transmission. The rotation function of stirring can be realized to this structure, makes the stirring leaf at fixed position autogyration, can realize linkage from top to bottom simultaneously, has reduced the quantity of motor, has saved the material. In the traditional technology, the planetary gear is adopted to realize rotation and revolution movement of mortar stirring, and up-and-down linkage is not realized. The traditional planetary gear has the characteristics of compact structure and stable operation, but the structure and the size of the traditional planetary gear cannot be changed after production and manufacture, so that the stirring range and the stirring area cannot be adjusted and changed. The invention adopts the up-and-down linkage of the gears to separate the rotation motion from the revolution motion, but the rotation motion and the revolution motion are mutually matched and coordinated in speed, thereby realizing the effect that the structure of the up-and-down gears does not interfere with each other in structure and size, and further realizing the change of the stirring range and the stirring area by the following structure under the regulation of the revolution regulation unit.
Still further, the revolution transmission part comprises a transmission gear, a transmission chain, a transmission shaft, a revolution adjusting unit and an electromagnetic control knob, the revolution adjusting unit comprises an adjusting sliding plate controlled by a first electromagnetic control knob, the adjusting sliding plate is connected with a revolution disc through a connecting shaft, the stirring tank is fixed on the revolution disc, the connecting shaft is connected with the driving shaft through the matching of the transmission gear and the transmission chain, and a first limit stop and a second limit stop for limiting the front and rear positions of the adjusting sliding plate are further arranged on the bottom plate. The adjusting sliding plate can be limited in front, back, left and right, and the front and back directions are limited under the action of the first limit stop and the second limit stop and cannot move. The left and right direction can slide or be fixed, when the first electromagnetic control knob switch is closed, the magnetism of the electromagnets embedded in the first limit stop and the second limit stop disappears, no action force is applied to the adjusting slide plate, and therefore the adjusting slide plate can move left and right; when the first electromagnetic control knob switch is turned on, the electromagnets embedded in the first limit stop and the second limit stop are magnetically generated, the magnetism is controlled by the switch knob, and the adjusting slide plate is fixed by enough attraction due to the magnetism. The improved structure can solve the technical problem that the stirring range and the stirring area of the traditional mortar stirrer cannot be freely changed, achieves the variable effect of the stirring range and the stirring area of mortar in the stirring tank, and can ensure that the stirring is more sufficient and uniform, thereby stirring out high-quality finished products.
Still further, the transmission gears comprise a first transmission gear, a second transmission gear, a third transmission gear and a fifth transmission gear; the transmission chain comprises a first transmission chain and a second transmission chain; the transmission shaft comprises a first transmission shaft and a second transmission shaft, wherein the first transmission shaft is connected to the floor through a transmission bearing support, the second transmission shaft is directly connected to the bottom plate, and the first transmission gear and the second transmission gear are matched with the first transmission chain and are respectively arranged on the driving shaft and the first transmission shaft; and the third transmission gear and the fifth transmission gear are matched with the second transmission chain and are respectively arranged on the second transmission shaft and the connecting shaft. The improved structure makes the upper part rotate and the lower part realize revolution through an up-and-down linkage mode. The problem of inconvenient regulation of traditional mortar mixer transmission is solved, the beneficial effect that upper and lower joint transmission does not influence respective function and connection yet has been reached.
Still further, the revolution adjusting unit further comprises a tensioning slider for tensioning the second transmission chain and a second electromagnetic control knob for controlling the tensioning slider, a fourth transmission gear matched with the second transmission chain is arranged on the tensioning slider, a limiting sliding groove is arranged on the bottom plate, and the tensioning slider is arranged in the limiting sliding groove. This structure can make the tensioning of second drive chain to suitable position through adjusting the tensioning slider, and it is fixed and slidable that the tensioning slider passes through second electromagnetism knob control simultaneously, makes transmission structure more stable, and the operation is more smooth.
Compared with the prior art, the invention has the following advantages:
1. the movable supporting part is arranged, so that the whole device can be freely moved, and the problem that the traditional mortar mixer cannot be conveniently and freely moved is solved. The use is more efficient, convenient and flexible.
2. The revolution transmission part which can move horizontally relative to the supporting part is arranged, the stirring range and the stirring area can be changed freely, the effect that the stirring range and the stirring area of mortar in the stirring tank are changeable is achieved, stirring can be more sufficient and uniform, and therefore high-quality finished products can be stirred.
3. The self-transmission driving part and the revolution driving part of the mortar mixer are driven by the same motor through chain transmission, so that the vertical linkage is realized, the problem that the transmission of the traditional mortar mixer cannot be conveniently adjusted is solved, and the beneficial effects that the vertical joint transmission is realized, and the respective functions and connection are not influenced mutually are achieved.
Drawings
FIG. 1 is the whole structure of the up-down linkage mortar stirrer of the device.
Fig. 2 is a whole sectional structure diagram of the device.
Fig. 3 is a schematic structural view of a supporting part of the device.
Fig. 4 is a schematic view of the bottom plate of the support part and its connection structure.
Fig. 5 is a schematic view of a support plate structure of the support part.
Fig. 6 is a schematic structural view of a rotation driving part of the present apparatus.
Fig. 7 is a schematic structural view of the revolution transmission part of the device.
Fig. 8 is a structural schematic diagram of the revolution adjusting structure of the device.
Fig. 9 is a schematic view of the revolution transmission of the device and the connection structure thereof.
Wherein: a supporting part 100 (wherein, the bottom plate 110, the first limit stopper 111, the second limit stopper 112, the limit chute 113, the universal wheel 120, the first universal wheel 121, the second universal wheel 122, the third universal wheel 123, the fourth universal wheel 124, the lifting supporting unit 130, the first lifting column 131, the second lifting column 132, the lifting adjusting wheel 133, the supporting plate 140, the boss 141, the second limit hole 142, the first through hole 143 and the second through hole 144, the limit bearing 150, the first limit bearing 151 and the second limit bearing 152);
a self-driven driving part 200 (wherein: a motor 210, a reducer 220, a driving shaft 230, a first conical gear set 240, a first conical gear 241 and a second conical gear 242, a driving bearing support 250, a stirring shaft 260, a stirring blade 270);
revolution transmission part 300 (wherein: transmission gear 310, first transmission gear 311, second transmission gear 312, third transmission gear 313, fourth transmission gear 314, fifth transmission gear 315, transmission chain 320, first transmission chain 321, second transmission chain 322, transmission shaft 330, first transmission shaft 331, second transmission shaft 332, transmission bearing support 340, first transmission bearing support 341, second transmission bearing support 342, second conical gear set 350, third conical gear 351, fourth conical gear 352, revolution adjustment unit 360, adjustment slide 361, connection bearing 362, connection shaft 363, revolution disk 364, tensioning slider 365, electromagnetic control knob 370, first electromagnetic knob 371, second electromagnetic knob 372, stirring tank 380).
Detailed Description
The invention is described in further detail below with reference to the following figures and specific examples:
as shown in fig. 1, the present invention includes: a support part 100, a self-driving part 200, and a revolution transmission part 300. The position and connection relation is as follows:
the supporting part 100 is a supporting part of the whole apparatus, the rotation driving part 200 is a part for realizing rotation movement of stirring, and the revolution transmission part is a part for realizing revolution movement of stirring; the bottom of the supporting part 100 is connected with a universal wheel 120 thereof, the middle part is provided with a revolution transmission part 300, and the upper part is provided with a rotation driving part 200; the rotation driving part 200 and the revolution driving part 300 are connected by a driving chain 320.
The specific structures of the support part 100, the self-transmission driving part 200 and the revolution transmission part 300 are as follows:
1) support part 100
As shown in fig. 2, the supporting portion 100 is a supporting body of the present apparatus, and the integral supporting portion 100 is composed of a steel plate and a lifting supporting unit 130. The support part 100 includes a base plate 110, a universal wheel 120, a lifting support unit 130, a support plate 140, and a limit bearing 150.
The base plate 110 is a rectangular steel plate, and the universal wheels 120 are disposed on the bottom surface of the base plate 110. A first limit stopper 111 and a second limit stopper 112 for limiting the sliding of the adjustment slide 361 of the revolution transmission part 300 are provided on both sides of one end of the upper surface of the base plate 110; a first limit hole 114 is formed in the middle of the upper surface of the base plate 110 and used for being sleeved with a first limit bearing 151; the other end of the upper surface of the base plate 110 is connected to the elevation support unit 130.
The universal wheels 120 comprise a first universal wheel 121, a second universal wheel 122, a third universal wheel 123 and a fourth universal wheel 124, which are universal parts and are used for enabling the device to move freely and uniformly distributed on the bottom surface of the bottom plate 110.
The elevating support unit 130 includes a primary elevating column 131, a secondary elevating column 132, and an elevating adjustment wheel 133. The first-stage lifting column 131 is a hollow cylinder, the lower end of the first-stage lifting column is connected with the bottom plate 110, the upper end of the first-stage lifting column is sleeved with the second-stage lifting column 132, and a lifting adjusting wheel 133 is arranged at the sleeved position and used for adjusting the lifting range of the first-stage lifting column 131 and the second-stage lifting column 132. The second elevating column 132 is a solid cylinder having an outer diameter equal to the inner diameter of the first elevating column 131, and has a coarse thread on its surface and is engaged with the elevating adjustment wheel 133 through the thread, and the upper end of the second elevating column 132 is connected to the support plate 140. The lifting adjustment wheel 133 is a universal member, and functions to achieve the ascending and descending of the second-stage lifting column 132 by means of threaded connection and rotation, so as to drive the height adjustment of the support plate 140 up and down, and connect with the connection part of the first-stage lifting column 131 and the second-stage lifting column 132.
The supporting plate 140 is a rectangular steel plate, the front end of the supporting plate 140 is provided with a second limiting hole 142 for being sleeved and connected with a second limiting bearing 152, the rear end of the supporting plate 140 is provided with a boss 141 for supporting a power source, the middle part of the supporting plate 140 is provided with a first through hole 143 and a second through hole 144, and the first through hole 143 and the second through hole 144 are mainly used for enabling the first transmission chain 321 to pass through the supporting plate 140;
the limit bearing 150 comprises a first limit bearing 151 and a second limit bearing 152, which are common parts and are used for limiting the position of the transmission shaft; the first position-limiting bearing 151 is installed in the first position-limiting hole 114, and the second position-limiting bearing 152 is installed in the second position-limiting hole 142.
2) Rotation driving part 200
As shown in fig. 3, the rotation driving part 200 is a rotation movement structure of the present apparatus, and the rotation driving part 200 is composed of a power source and a transmission shaft.
The rotation driving part 200 includes a motor 210, a reducer 220, a driving shaft 230, a first conical gear set 240, a driving bearing support 250, a stirring shaft 260, and a stirring blade 270.
The motor 210 is a common component, and is a power source, and functions to provide power. The reducer 220 is a common member for speed reduction, and has an input end connected to the output end of the motor 210 and an output end connected to the input end of the drive shaft 230.
The driving shaft 230 is a solid cylinder and is used for driving the stirring blade 270 to rotate, the input end of the driving shaft is connected with the output end of the speed reducer 220 through a key, the middle part of the driving shaft is respectively connected with the first transmission gear 311 and the driving bearing support 250, and the output end of the driving shaft is connected with the first conical gear 241. The first conical gear set 240 includes a first conical gear 241 and a second conical gear 242, which are common parts and are used for realizing steering transmission and are connected perpendicularly to each other. The drive bearing support 250 is a common piece that functions to fix the drive shaft 230. The stirring shaft 260 is a solid cylinder, and the input end is connected with the second conical gear 242, and the output end is connected with the stirring blade 270. The stirring blade 270 is a common member for stirring.
3) Revolution driving part 300
As shown in fig. 4, the revolution transmission part 300 is a revolution motion structure of the present apparatus, and the revolution transmission part 300 is composed of a transmission gear, a transmission chain, and the like.
The revolution driving part 300 includes a driving gear 310, a driving chain 320, a driving shaft 330, a driving bearing support 340, a second bevel gear set 350, a revolution adjusting unit 360, an electromagnetic control knob 370, and a stirring tank 380.
The transmission gear 310 comprises a first transmission gear 311, a second transmission gear 312, a third transmission gear 313, a fourth transmission gear 314 and a fifth transmission gear 315, which are all universal parts and are used for realizing transmission. Wherein, the first transmission gear 311 is connected with the driving shaft 230; the second transmission gear 312 is connected with the first transmission shaft 331; the third transmission gear 313 is connected with the second transmission shaft 322; the fourth transmission gear 314 is connected with the tensioning slider 365; the fifth transmission gear 315 is connected with the connecting shaft 363;
the transmission chain 320 includes a first transmission chain 321 and a second transmission chain 322, which are common parts and are used for realizing transmission. Wherein, the first transmission chain 321 connects the first transmission gear 311 and the second transmission gear 312; the second transmission chain 322 connects the third transmission gear 313, the fourth transmission gear 314 and the fifth transmission gear 315. The transmission shaft 330 includes a first transmission shaft 331 and a second transmission shaft 332, both of which are solid cylinders. The output end of the first transmission shaft 331 is connected to the third bevel gear 351. The upper end of the second transmission shaft 332 is connected with the fourth conical gear 352, and the lower end is sleeved and connected with the first limit bearing 151.
The transmission bearing support 340 including the first transmission bearing support 341 and the second transmission bearing support 342 are common parts and function to realize transmission. The first and second transmission bearing holders 341 and 342 are connected to the first transmission shaft 331. The second bevel gear set 350 includes a third bevel gear 351 and a fourth bevel gear 352, which are common parts and are used for realizing steering transmission and are connected perpendicularly to each other.
The revolution adjusting unit 360 includes an adjusting slide plate 361, a connecting bearing 362, a connecting shaft 363, a revolution disc 364, and a tension slider 365. The function of the stirring device is to realize the adjustment of the stirring range.
The adjusting sliding plate 361 is a rectangular steel plate, a round hole is formed in the middle of the adjusting sliding plate 361, the adjusting sliding plate 361 is used for moving the revolving disc 364, and the round hole in the middle of the adjusting sliding plate is used for being sleeved with the bearing 362. The connecting bearing 362 is a universal component and is used for fixing the connecting shaft 363, the outer end of the connecting bearing is connected with the central hole of the adjusting sliding plate 361, and the inner end of the connecting bearing is connected with the connecting shaft 363. The connecting shaft 363 is a solid cylinder, and has a lower end connected to the connecting bearing 362, a middle portion connected to the fifth transmission gear 315, and an upper end connected to the revolving disk 364. The revolution disk 364 is a common member for carrying the agitator tank 380, and a threaded circular hole is provided in the middle thereof for connecting the agitator tank 380. The upper part of the tensioning sliding block 365 is a solid cylinder, the lower part is a cuboid sliding block and is used for tensioning the second transmission chain 322, the upper part is connected with the fourth transmission gear 314, and the lower part is connected with the limiting sliding groove 113 of the bottom plate 110 in a matching way and can move freely.
The solenoid control button 370 includes a first solenoid knob 371 and a second solenoid knob 372. The first electromagnetic knob 371 is disposed at a side of the base plate 110 for controlling the tightening and loosening of the adjustment slide 361 and the base plate 110. When the suction is tight, the adjusting slide plate 361 is fixed and can work normally; when released, the adjustment slide 361 can slide back and forth to an adjusted position under the restriction of the first and second limit stoppers 111 and 112. The second electromagnetic knob 372 is disposed at a side of the base plate 110 for controlling the tightening and loosening between the tightening slider 365 and the limit chute 113 of the base plate 110. When the suction is tight, the tensioning slide block 365 is fixed and can work normally; when loosened, the tensioning slide 365 can slide back and forth within the limits of the limiting runner 113 to adjust position to achieve tensioning.
The working mechanism of the invention is as follows: the supporting part 100 is a basic bearing frame of the whole device, the universal wheel 120 is arranged at the lower part, the revolution transmission part 200 is arranged at the middle part, the rotation driving part 200 is arranged at the upper part, and the rotation driving part 200 and the revolution transmission part 300 realize the up-and-down linkage through the transmission gear 310 and the transmission chain 320; the revolution transmission part 300 realizes the adjustment of the stirring range by sliding the adjustment slide plate 361 in the revolution adjustment unit 360 between the first limit stopper 111 and the second limit stopper 112; the free movement of the device is achieved at the bottom of the support part 100 by means of a castor 120.

Claims (7)

1. The utility model provides a coordinated type agitating unit from top to bottom which characterized in that: the device comprises a movable supporting part (100), wherein a rotation driving part (200) with adjustable height relative to the supporting part (100) is arranged at the upper part of the supporting part (100), and a revolution transmission part (300) which can horizontally move with the supporting part (100) is also arranged at the upper part of the supporting part (100);
the rotation driving part (200) comprises a stirring blade (270) driven by a motor (210) to rotate and stir, the revolution driving part (300) comprises a stirring tank (380) arranged below the stirring blade (270), and the stirring tank (380) is driven by the motor (210) through chain transmission;
the revolution transmission part (300) comprises a transmission gear (310), a transmission chain (320), a transmission shaft (330), a revolution adjusting unit (360) and a first electromagnetic knob (371), wherein the revolution adjusting unit (360) comprises an adjusting sliding plate (361) controlled by the first electromagnetic knob (371), the adjusting sliding plate (361) is a rectangular steel plate, a round hole is formed in the middle of the adjusting sliding plate, the round hole in the middle of the adjusting sliding plate is used for being sleeved with a connecting bearing (362), the connecting bearing (362) is a universal part and used for fixing a connecting shaft (363), and the outer end of the connecting sliding plate (361) is connected with a center hole of the adjusting sliding plate (361); the adjustable sliding plate (361) is connected with a revolving disc (364) through a connecting shaft (363), the stirring tank (380) is fixed on the revolving disc (364), the connecting shaft (363) is connected with a motor driving shaft (230) through the matching of a transmission gear (310) and a transmission chain (320), and a first limit stop (111) and a second limit stop (112) used for limiting the front and back positions of the adjustable sliding plate (361) are arranged on a bottom plate (110) of the supporting part (100).
2. The up-and-down linkage type stirring device as claimed in claim 1, wherein: the supporting part (100) comprises a bottom plate (110), universal wheels (120), a lifting supporting unit (130) and a supporting plate (140), the universal wheels (120) are arranged at the bottom of the bottom plate (110), the self-rotation driving part (200) is connected to the supporting plate (140), and the supporting plate (140) is connected with the bottom plate (110) through the lifting supporting unit (130).
3. The up-down linkage type stirring device as claimed in claim 2, wherein: the lifting support unit (130) comprises a first-stage lifting column (131) and a second-stage lifting column (132) which are connected through a lifting adjusting wheel (133), the first-stage lifting column (131) is connected with the lower end bottom plate (110), and the second-stage lifting column (132) is connected with the upper end support plate (140).
4. The up-down linkage type stirring device as claimed in claim 3, wherein: and a boss (141) for mounting a motor is arranged on the support plate (140).
5. The up-down linkage type stirring device as claimed in claim 4, wherein: the rotation driving part (200) further comprises a speed reducer (220), a driving shaft (230), a first conical gear set (240), a driving bearing support (250) and a stirring shaft (260), the driving shaft (230) is connected with the motor (210) through the speed reducer (220), the driving shaft (230) is further provided with the driving bearing support (250), the driving bearing support (250) is fixed on the supporting plate (140), the revolution driving part (300) is connected with the driving shaft (230), the stirring blades (270) are connected onto the stirring shaft (260), the stirring shaft (260) is connected with the driving shaft (230) through the first conical gear set (240), and the revolution driving part (300) is connected onto the driving shaft (230) through chain transmission.
6. The up-down linkage type stirring device as claimed in claim 5, wherein: the transmission gear (310) comprises a first transmission gear (311), a second transmission gear (312), a third transmission gear (313) and a fifth transmission gear (315); the transmission chain (320) comprises a first transmission chain (321) and a second transmission chain (322); the transmission shaft (330) comprises a first transmission shaft (331) and a second transmission shaft (332), wherein the first transmission shaft (331) is connected to the bottom plate (110) through a transmission bearing support (340), the second transmission shaft (332) is directly connected to the bottom plate (110), and the first transmission gear (311) and the second transmission gear (312) are matched with the first transmission chain (321) and are respectively arranged on the driving shaft (230) and the first transmission shaft (331); the third transmission gear (313) and the fifth transmission gear (315) are matched with the second transmission chain (322) and are respectively arranged on the second transmission shaft (332) and the connecting shaft (363).
7. The up-down linkage type stirring device as claimed in claim 6, wherein: the revolution adjusting unit (360) further comprises a tensioning sliding block (365) used for tensioning the second transmission chain (322) and a second electromagnetic knob (372) used for controlling the tensioning sliding block (365), a fourth transmission gear (314) matched with the second transmission chain (322) is arranged on the tensioning sliding block (365), a limiting sliding groove (113) is arranged on the bottom plate (110), and the tensioning sliding block (365) is installed in the limiting sliding groove (113).
CN201710113932.0A 2017-02-28 2017-02-28 Up-down linkage type mortar stirrer Expired - Fee Related CN106945174B (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201710113932.0A CN106945174B (en) 2017-02-28 2017-02-28 Up-down linkage type mortar stirrer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201710113932.0A CN106945174B (en) 2017-02-28 2017-02-28 Up-down linkage type mortar stirrer

Publications (2)

Publication Number Publication Date
CN106945174A CN106945174A (en) 2017-07-14
CN106945174B true CN106945174B (en) 2022-08-05

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