CN113975989A - Running shaft for gyro type stirring device - Google Patents

Running shaft for gyro type stirring device Download PDF

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Publication number
CN113975989A
CN113975989A CN202111273245.8A CN202111273245A CN113975989A CN 113975989 A CN113975989 A CN 113975989A CN 202111273245 A CN202111273245 A CN 202111273245A CN 113975989 A CN113975989 A CN 113975989A
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CN
China
Prior art keywords
stirring
rod
gyro
cavity
stirring rod
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CN202111273245.8A
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Chinese (zh)
Inventor
张桂平
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Xuzhou Bangke Construction Machinery Co ltd
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Xuzhou Bangke Construction Machinery Co ltd
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Priority to CN202111273245.8A priority Critical patent/CN113975989A/en
Publication of CN113975989A publication Critical patent/CN113975989A/en
Withdrawn legal-status Critical Current

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Abstract

The invention discloses an operating shaft for a gyro-type stirring device, which relates to the technical field of gyro-type stirring devices and comprises a frame and a stirring mechanism, wherein an operating end is arranged on the front surface of the frame, the stirring mechanism for stirring driving is arranged in the frame, the stirring mechanism comprises a motor, a fixed gear, a crank, a stirring rod, a rotating rod and a surrounding gear, the fixed gear is fixedly arranged at the bottom of the motor, and the stirring rod is sleeved on the side surface of the crank. This operation axle that top formula agitating unit used, through the setting of a plurality of subassemblies, it is single fixed not only to solve existing equipment stirring mode, stirs insufficient problem, gives the ability of puddler multi-angle intensive mixing, still lets the puddler can carry out the purpose that reaches the intensive mixing from the dress when revolving around fixed gear, and the puddler of importance can carry out the automatically cleaning at the operation in-process and avoid the foreign matter to adhere to and pile up, and the different stirring heads of the quick replacement of person of facilitating the use reach different processing demands in addition, and the suitability is stronger.

Description

Running shaft for gyro type stirring device
Technical Field
The invention relates to the technical field of a gyro type stirring device, in particular to an operation shaft for the gyro type stirring device.
Background
In the production process, the chemical industry needs to use top formula agitator usually, and the effect of top formula agitator makes the liquid intensive mixing in the chemical production to satisfy going on of chemical reaction ability at utmost, can replace manual stirring to the poisonous industrial chemicals that has the injury to the human body or to skin to reduce the harm to the human body, drive the axle through the motor simultaneously and accelerate the stirring, productivity gain.
The common problems of the existing gyro type stirring equipment are as follows: most top formula agitator stirring mode is single fixed when carrying out the stirring operation, and the stirring is insufficient, and stirring effect is poor, and the stirring is unsatisfactory, consequently needs the time of extension stirring, reduces stirring efficiency.
Disclosure of Invention
The present invention is directed to a running shaft for a gyroscopic agitator device to solve the problems set forth in the background art.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an operation axle that top formula agitating unit used, includes frame and rabbling mechanism, the operation end is openly installed to the frame, frame internally mounted has the rabbling mechanism that is used for stirring drive, just rabbling mechanism includes motor, fixed gear, crank, puddler, bull stick and encircles the gear, motor bottom fixed mounting has fixed gear, and motor bottom output installs the crank, crank side cover is equipped with the puddler, and the motor constitutes the transmission through crank and puddler and is connected, puddler internal rotation installs the bull stick, and bull stick top end-face installs and encircles the gear, it is far less than fixed gear to encircle the gear diameter, and encircles the outer profile of tooth of gear and the meshing of fixed gear periphery profile of tooth mutually.
Preferably, the puddler mid-mounting has and is used for stabilizing pivoted gyro mechanism, just gyro mechanism includes cavity, supporting seat, ball axle, butterfly ring, the inside upper and lower both ends symmetry fixed mounting of cavity has the supporting seat, and cavity fixed mounting in frame bottom middle-end, the ball axle is installed to the clearance internal rotation about the supporting seat, and ball axle side end face adheres to and has the butterfly ring that is loop configuration.
Preferably, the gyro mechanism further comprises a swing pin and a swing rod, the swing pin is fixedly mounted on the outer portion of the left side of the cavity, the swing rod penetrates through the swing pin, and the output tail ends of the two sides of the swing rod are sleeved outside the stirring rod.
Preferably, the sliding sleeve is installed at the output tail end of the oscillating bar, the guide ends are symmetrically installed on two sides of the sliding sleeve, the guide ends are in a trapezoid shape with a small diameter attached to the stirring rod, the lubricating block is arranged inside the sliding sleeve, and the lubricating block is tightly attached to the outer portion of the stirring rod.
Preferably, the dismouting mechanism that is used for the quick change stirring head is installed to the puddler bottom, just dismouting mechanism includes bush, screw thread end and swing handle, the screw thread end has been seted up to bush top inboard, and bush fixed mounting in the puddler middle part, bush open-top end rotates installs the swing handle, and the protruding shape of swing handle bottom spiral meshes with the screw thread end.
Preferably, dismouting mechanism still includes slotted hole and inflation cover, the slotted hole unanimous with the puddler appearance is seted up at the swing handle middle part, and the slotted hole is linked together with the bush inner chamber, the inflation cover is installed to the bush bottom, and top diameter is unanimous with swing handle bottom opening end when the inflation cover is extended naturally, the inflation cover adopts anti-skidding elasticity rubber material, and the swing handle passes through the screw thread end and constitutes the transmission with the inflation cover to be connected.
Preferably, the sealing washer is installed to the bush bottom, and the sealing washer is the annular and attaches to the puddler outside, the sealing washer both sides are provided with the exchange liquid chamber, and exchange liquid intracavity portion packs has the cold heat exchange liquid that specific heat capacity is big.
Preferably, the mixing mechanism that is used for the stirring to mix is installed to the bull stick bottom, just mixing mechanism includes semicircle rail, pressurization chamber and shower nozzle, the pressurization chamber is installed to the inboard bottom of semicircle rail, and pressurizes the chamber top and install the shower nozzle, the shower nozzle passes through sticky tape and frame in the water pump and communicates mutually.
Preferably, the mixing mechanism further comprises a rotating handle, a rocker arm and a sliding block, the bottom of the semicircular track is rotatably provided with the rotating handle, the rotating handle is sleeved at the output end of the bottom of the rotating rod, the side face of the rotating handle is rotatably provided with the rocker arm, the rotating rod is in transmission connection with the rocker arm through the rotating handle, the sliding block is arranged on the inner side of the top of the rocker arm, and the sliding block is slidably arranged inside the semicircular track.
Preferably, the inboard fixed mounting of slider has mixed the shovel, and mixes shovel middle part fixed mounting and be trapezoidal bellied direction platform, the direction platform bilateral symmetry is seted up and is the sunken mixed millet of arc, and mixes millet opening direction face towards shower nozzle output direction.
The invention provides an operation shaft for a gyro type stirring device, which has the following beneficial effects: the operation shaft for the gyro type stirring device solves the problems of single fixing and insufficient stirring of the stirring mode of the existing equipment by arranging a plurality of components, endows the stirring rod with multi-angle full stirring capability, also enables the stirring rod to be self-assembled to achieve the purpose of full mixing while revolving around the fixed gear, and is important that the stirring rod can be self-cleaned in the operation process to avoid foreign matter from being attached and accumulated, and is convenient for a user to quickly replace different stirring heads to achieve different processing requirements, so that the operation shaft has stronger applicability;
1. according to the invention, through the arrangement of the stirring mechanism, a user penetrates through the top of the frame through the output end of the motor to be connected with the crank, the motor serving as a power source is arranged outside the frame to be beneficial to heat dissipation in a high-strength stirring process, the crank is driven by the stirring rod sleeved at the output end under the driving of the motor, the rotating rod is rotatably arranged inside the stirring rod, the input end of the top of the rotating rod is sleeved with the surrounding gear, the external tooth profile of the surrounding gear is meshed with the circumferential surface tooth profile of the fixed gear fixedly arranged on the inner side of the top of the frame, so that the stirring rod can rotate under the meshing action of the external tooth profile of the fixed gear and the circumferential surface tooth profile of the fixed gear while revolving around the circumferential surface of the fixed gear, and the stirring rod can rotate to achieve the purpose of full mixing while revolving around the fixed gear.
2. The invention is characterized in that through the arrangement of the gyro mechanism, in order to make the revolution stroke of the stirring rod more stable, the middle part of the stirring rod is provided with the gyro mechanism for stable rotation, a cavity is fixedly arranged at the middle part of the bottom side of the frame, the upper end and the lower end of the interior of the cavity are symmetrically provided with the supporting seats, the ball shaft and the side butterfly ring thereof are rotatably arranged in the structural clearance of the supporting seats at the two sides, the stirring rod penetrates through the supporting seats at the two sides and the ball shaft at the middle part, the ball shaft and the side butterfly ring thereof are positioned in the cavity to rotate in a reciprocating way in the revolution stroke of the stirring rod, the swing rod penetrates through the swing pin fixedly arranged at the outer part of the left side of the cavity, the swing rod is arc-shaped, the output ends at the two sides are sleeved on the stirring rod, the swing rod swings in a reciprocating way in the swing pin because the position of the cavity is kept unchanged in the rotation stroke of the stirring rod, the sliding sleeve symmetrically arranged at the output end of the swing rod is positioned at the outer part of the stirring rod to slide sleeve and is attached to the outer part of the stirring rod through the lubricating block, and the guide ends are symmetrically arranged at the two sides, the attached trapezoidal in puddler of direction end cross-section for the path, impurity such as puddler surface adnexed silt can in time be eradicateed at the stirring in-process under the effect of direction end, it is unfavorable for clearance in the future to avoid impurity to adhere to pile up, the sliding that the sliding sleeve is located the puddler outside is more smooth and easy for the built-in lubricating block of sliding sleeve, the difficult operation that produces the card and pause and influence the stirring process, when setting up through gyro mechanism plays the outrigger to the revolution stroke of puddler, impurity such as timely clearance puddler surface adnexed silt, make the puddler no matter daily use or maintain in the future all become very simple and direct.
3. The invention adopts the arrangement of the dismounting mechanism, so that a producer can replace the stirring head at the output end of the stirring rod according to the actual use requirement, the stirring rod penetrates through the sealing ring at the bottom of the bushing and is led into the inner cavity of the bushing through the expansion sleeve, when the user wants to replace the stirring head, the rotating handle is rotated and lifted under the engagement action of the rotating handle and the thread end at the inner side of the top of the bushing, so that the opening end at the bottom of the rotating handle is separated from the side surface of the expansion sleeve, the expansion sleeve is made of anti-skid rubber and is originally attached to and tightly wrapped at the bottom of the stirring rod, after the opening end at the bottom of the rotating handle is separated from the expansion sleeve and is free from the constraint on the expansion sleeve, the expansion sleeve is naturally unfolded, the input end of the original stirring head arranged in the expansion sleeve can be separated from the dismounting mechanism through the slotted hole arranged at the middle part of the rotating handle, and then the user only needs to insert the new stirring head to be replaced into the slotted hole and rotate and tighten the rotating handle to realize the replacement of the stirring head, the stirring head can be conveniently and quickly replaced by a manufacturer to adapt to different processing requirements through the arrangement of the assembling and disassembling mechanism, the operation is simple and convenient, and the overall working efficiency is improved.
4. According to the invention, through the arrangement of the exchange liquid cavity outside the sealing ring, the bottom of the stirring rod is sleeved at the bottom of the bushing through the sealing ring, and the arrangement of the exchange liquid cavity outside the sealing ring is beneficial to keeping the temperature of the sealing ring always the same as that of the stirring rod under the heat conduction action of the exchange liquid with large specific heat capacity filled in the exchange liquid cavity according to the change of the temperature of a use environment, so that the sealing ring is prevented from being sealed untight due to severe working temperature change of the stirring rod and poor heat conduction performance of the sealing ring in the stirring process, and the substances in mixed stirring enter the disassembling and assembling mechanism through the sealing ring to damage the disassembling and assembling mechanism.
5. The invention is characterized in that a mixing mechanism is arranged, in the practical application scene of a gyro type stirring device, a solvent is often added and mixed with materials while the materials are stirred, a spray head is often used for directly spraying sand solution into a stirring tank, the manner is easy to cause insufficient mixing of the materials and the solvent, long-time stirring is needed to be repeated, the processing efficiency is low, the mixing mechanism is arranged, a stirring rod drives a semicircular track to revolve in the stirring tank to realize the stirring function, the inner side of the bottom of the semicircular track is provided with the spray head which is sprayed by pressurization through a pressurization cavity, the spray head is communicated with a water pump in a frame through an adhesive tape, the solvent is sprayed in the materials in the semicircular track stirring stroke by pressurization, in addition, the inner part of the stirring rod is internally expanded and rotatably arranged, the bottom of the rotating rod is sleeved with a rotating handle, the rotating handle is driven to rotate in the rotation process of the rotating rod, and the rotating handle drives a rocker arm to swing in a reciprocating manner, make the inboard slider in rocking arm top be located the semicircular track reciprocal sliding, slider internally mounted has mixed shovel, and in the slider was located the reciprocal sliding stroke in the semicircular track, mixed shovel middle part bellied direction platform mixed the millet diffusion with material jack-up and through both sides, was favorable to shower nozzle spun solvent at the stirring in-process with the material intensive mixing that flows.
Drawings
FIG. 1 is a schematic view of the overall structure of an operating shaft for a gyroscopic stirring device according to the invention;
FIG. 2 is a schematic cross-sectional view of a stirring mechanism of an operating shaft for a gyro-type stirring apparatus according to the present invention;
FIG. 3 is a schematic cross-sectional view of a gyro mechanism of an operation shaft for a gyro-type stirring apparatus according to the present invention;
FIG. 4 is an enlarged view of the operating shaft of the gyro-type stirring apparatus of FIG. 3 at A;
FIG. 5 is a schematic sectional view of a mechanism for mounting and dismounting an operating shaft of a gyro-type stirring apparatus according to the present invention;
FIG. 6 is an enlarged view of the operating shaft B of the gyro-type stirring apparatus of the present invention shown in FIG. 5;
FIG. 7 is a schematic front view of a mixing mechanism of an operating shaft for a gyroscopic agitator according to the invention;
fig. 8 is a schematic front view of a mixing shovel having an operating shaft for a gyroscopic agitator according to the present invention.
In the figure: 1. a frame; 2. an operation end; 3. a stirring mechanism; 301. a motor; 302. fixing a gear; 303. a crank; 304. a stirring rod; 305. a rotating rod; 306. a surrounding gear; 4. a gyro mechanism; 401. a cavity; 402. a supporting seat; 403. a ball shaft; 404. a butterfly ring; 405. a swing pin; 406. a swing rod; 5. a sliding sleeve; 6. a guide end; 7. a lubricating block; 8. a disassembly and assembly mechanism; 801. a bushing; 802. a threaded end; 803. turning a handle; 804. a slot; 805. an expansion sleeve; 9. a seal ring; 10. a fluid exchange chamber; 11. a mixing mechanism; 1101. a semicircular track; 1102. a pressurization cavity; 1103. a spray head; 1104. a handle is rotated; 1105. a rocker arm; 1106. a slider; 12. mixing and shoveling; 13. a guide table; 14. and (4) mixing the grains.
Detailed Description
In a first embodiment, referring to fig. 1 to 8, the present invention provides a technical solution: an operation shaft for a gyro type stirring device comprises a frame 1 and a stirring mechanism 3, and is characterized in that an operation end 2 is installed on the front face of the frame 1, the stirring mechanism 3 for stirring driving is installed in the frame 1, the stirring mechanism 3 comprises a motor 301, a fixed gear 302, a crank 303, a stirring rod 304, a rotating rod 305 and a surrounding gear 306, the fixed gear 302 is fixedly installed at the bottom of the motor 301, the crank 303 is installed at the output end of the bottom of the motor 301, the stirring rod 304 is sleeved on the side face of the crank 303, the motor 301 is in transmission connection with the stirring rod 304 through the crank 303, the rotating rod 305 is rotatably installed in the stirring rod 304, the surrounding gear 306 is installed on the end face of the top of the rotating rod 305, the diameter of the surrounding gear 306 is far smaller than that of the fixed gear 302, and the surrounding gear 306 is externally meshed with the tooth-shaped circumferential face of the fixed gear 302;
in the second embodiment, referring to fig. 3-4, a gyro mechanism 4 for stable rotation is installed in the middle of a stirring rod 304, the gyro mechanism 4 includes a cavity 401, a support base 402, a ball 403 and a butterfly ring 404, the support base 402 is symmetrically and fixedly installed at the upper and lower ends inside the cavity 401, the cavity 401 is fixedly installed at the middle end of the bottom of the frame 1, the ball 403 is rotatably installed in the upper and lower gaps of the support base 402, the butterfly ring 404 having a ring structure is attached to the side end surface of the ball 403, the gyro mechanism 4 further includes a swing pin 405 and a swing rod 406, the swing pin 405 is fixedly installed outside the left side of the cavity 401, a swing rod 406 penetrates through the swing pin 405, the output ends at both sides of the swing rod 406 are sleeved outside the stirring rod 304, the output end of the swing rod 406 is installed with a sliding sleeve 5, the guide ends 6 are symmetrically installed at both sides of the sliding sleeve 5, the guide ends 6 have a trapezoid shape that a small diameter surface is attached to the stirring rod 304, a lubricating block 7 is installed inside the sliding sleeve 5, and the lubricating block 7 is tightly adhered to the outside of the stirring rod 304;
the concrete operation is as follows, the stirring rod 304 passes through the two-side supporting seat 402 and the middle ball shaft 403, the ball shaft 403 and the side butterfly ring 404 thereof are positioned in the cavity 401 to rotate in a reciprocating manner in the revolution process of the stirring rod 304, the swing rod 406 penetrates through the swing pin 405 fixedly installed outside the left side of the cavity 401, the position of the cavity 401 is kept unchanged in the rotation process of the stirring rod 304, so the swing rod 406 swings in the swing pin 405 in a reciprocating manner, the sliding sleeve 5 symmetrically installed at the output end of the swing rod 406 is positioned outside the stirring rod 304 to slide in a reciprocating manner, the sliding sleeve 5 is attached outside the stirring rod 304 through the lubricating block 7 and is provided with the guide ends 6 symmetrically at two sides, impurities such as silt and the like attached on the surface of the stirring rod 304 can be timely removed in the stirring process under the action of the guide ends 6, the lubricating block 7 arranged in the sliding sleeve 5 enables the sliding of the sliding sleeve 5 positioned outside the stirring rod 304 to slide more smoothly, and blocking is not easy to affect the operation of the stirring process, the arrangement of the gyro mechanism 4 stably supports the revolution stroke of the stirring rod 304, and simultaneously, impurities such as silt and the like attached to the surface of the stirring rod 304 are cleaned in time, so that the stirring rod 304 is extremely simple and convenient in daily use and future maintenance;
in the third embodiment, referring to fig. 5-6, the bottom of the stirring rod 304 is installed with a disassembling and assembling mechanism 8 for quickly replacing the stirring head, and the disassembling and assembling mechanism 8 includes a bushing 801, a threaded end 802 and a knob 803, the inner side of the top of the bushing 801 is installed with the threaded end 802, the bushing 801 is fixedly installed at the middle part of the stirring rod 304, the opening end of the top of the bushing 801 is rotatably installed with the knob 803, and the bottom of the knob 803 is spirally protruded to be engaged with the threaded end 802, the disassembling and assembling mechanism 8 further includes a slot hole 804 and an expansion sleeve 805, the middle part of the knob 803 is installed with the slot hole 804 which is consistent with the shape of the stirring rod 304, the slot hole 804 is communicated with the inner cavity of the bushing 801, the bottom of the bushing 801 is installed with the expansion sleeve 805, and the top diameter of the expansion sleeve 805 is consistent with the opening end of the bottom of the knob 803 when the expansion sleeve 805 naturally stretches out, the expansion sleeve is made of anti-slip elastic rubber material, and the knob 803 is in transmission connection with the expansion sleeve 805 through the threaded end 802, the bottom of the bushing 801 is provided with a sealing ring 9, the sealing ring 9 is annularly attached to the outer part of the stirring rod 304, two sides of the sealing ring 9 are provided with exchange liquid cavities 10, and cold-heat exchange liquid with large specific heat capacity is filled in the exchange liquid cavities 10;
in order to replace the stirring head at the output end of the stirring rod 304 according to the actual use requirement, the stirring rod 304 penetrates through the bottom sealing ring 9 of the bushing 801 and is led into the inner cavity of the bushing 801 through the expansion sleeve 805, when a user wants to replace the stirring head, the rotating handle 803 is rotated to lift under the meshing action of the rotating handle 803 and the threaded end 802 on the inner side of the top of the bushing 801, so that the open end at the bottom of the rotating handle 803 is separated from the side surface of the expansion sleeve 805, the expansion sleeve 805 is made of an anti-skid rubber material and is originally attached to and tightly wrapped at the bottom of the stirring rod 304, after the open end at the bottom of the rotating handle 803 is separated from the expansion sleeve 805 to release the constraint on the expansion sleeve 805, the expansion sleeve 805 naturally expands, the input end of the original stirring head arranged in the expansion sleeve 805 can be separated from the disassembly and assembly mechanism 8 through the slotted hole 804 formed in the middle part of the rotating handle 803, and assembly and disassembly mechanism 8 are convenient for the manufacturer to quickly replace the stirring head to adapt to different processing requirements, the operation is simple and convenient, and the overall working efficiency is improved;
in the fourth embodiment, referring to fig. 7-8, a mixing mechanism 11 for stirring and mixing is installed at the bottom of a rotating rod 305, the mixing mechanism 11 includes a semicircular track 1101, a pressurizing chamber 1102 and a nozzle 1103, the pressurizing chamber 1102 is installed at the bottom of the inner side of the semicircular track 1101, the nozzle 1103 is installed at the top of the pressurizing chamber 1102, the nozzle 1103 is communicated with the water pump in the frame 1 through an adhesive tape, the mixing mechanism 11 further includes a rotating handle 1104, a rocker 1105 and a slider 1106, the rotating handle 1104 is rotatably installed at the bottom of the semicircular track 1101, the rotating handle 1104 is sleeved at the output end of the bottom of the rotating rod 305, the rocker 1105 is rotatably installed at the side of the rotating handle 1104, the rotating rod 305 is in transmission connection with the rocker 1105 through the rotating handle 1104, the slider 1106 is installed at the inner side of the top of the rocker 1105, the slider is slidably installed inside the semicircular track 1101, a mixing blade 12 is fixedly installed at the inner side of the slider 1106, and a guide platform 13 with a trapezoidal protrusion is fixedly installed at the middle of the mixing blade 12, the guide table 13 is symmetrically provided with arc-shaped concave mixed valleys 14 at two sides, and the opening direction of the mixed valleys 14 faces the output direction of the spray head 1103;
the concrete operation is as follows, the rotating rod 305 rotatably mounted in the stirring rod 304, the rotating handle 1104 is sleeved at the bottom of the rotating rod, the rotating handle 1104 is driven to rotate in the rotation process of the rotating rod 305, the rotating handle 1104 drives the rocker arm 1105 to swing in a reciprocating manner, so that the sliding block 1106 on the inner side of the top of the rocker arm 1105 slides in the semicircular track 1101 in a reciprocating manner, the mixing shovel 12 is mounted inside the sliding block 1106, the sliding block 1106 is located in the semicircular track 1101 in a reciprocating sliding process, the guide table 13 protruding in the middle of the mixing shovel 12 jacks up the material and diffuses the material through the mixing valleys 14 on two sides, meanwhile, the spray head 1103 sprayed through the pressurizing cavity 1102 is mounted on the inner side of the bottom of the semicircular track 1101, the spray head 1103 is communicated with the water pump in the frame 1 through an adhesive tape, the solvent is sprayed in the stirring process of the semicircular track 1101 through pressurization, and the material and the solution can be fully mixed in the stirring process of the stirring rod 304.
In summary, when the operating shaft for the gyro-type stirring device is used, a user penetrates through the top of the frame 1 through the output end of the motor 301 to be connected with the crank 303, the motor 301 serving as a power source is arranged outside the frame 1 to be beneficial to heat dissipation in a high-strength stirring process, the crank 303 is driven by the motor 301 to transmit to the stirring rod 304 sleeved on the output end, the rotating rod 305 is rotatably installed inside the stirring rod 304, the input end of the top of the rotating rod 305 is sleeved with the surrounding gear 306, the external tooth form of the surrounding gear 306 is meshed with the tooth form of the circumferential surface of the fixed gear 302 fixedly installed on the inner side of the top of the frame 1, so that the rotating rod 305 rotates under the meshing action of the tooth forms of the rotating rod and the fixed gear 302 while the stirring rod 304 revolves around the circumferential surface of the fixed gear 302, in order to enable the revolution stroke of the stirring rod 304 to be more stable, the gyro mechanism 4 for stable rotation is installed in the middle of the stirring rod 304, the cavity 401 is fixedly installed on the bottom side of the frame 1, the upper end and the lower end of the interior of the cavity 401 are symmetrically provided with the supporting seats 402, the ball shafts 403 and the side butterfly rings 404 are rotatably arranged in the structural gaps of the supporting seats 402 at the two sides, the stirring rod 304 penetrates through the supporting seats 402 at the two sides and the middle ball shaft 403, the ball shafts 403 and the side butterfly rings 404 are positioned in the cavity 401 to rotate in a reciprocating manner in the revolution process of the stirring rod 304, the swing rod 406 penetrates through the swing pin 405 fixedly arranged at the outer part of the left side of the cavity 401, the swing rod 406 is arc-shaped, the output ends at the two sides are sleeved on the stirring rod 304, the position of the cavity 401 is unchanged in the rotation process of the stirring rod 304, the swing rod 406 swings in the swing pin 405 in a reciprocating manner, the sliding sleeves 5 symmetrically arranged at the output ends of the swing rod 406 are positioned outside the stirring rod 304 to slide in a reciprocating manner, the sliding sleeves 5 are attached to the outer part of the stirring rod 304 through the lubricating blocks 7, the guide ends 6 are symmetrically arranged at the two sides, the section of the guide ends 6 is a trapezoidal structure attached to the stirring rod 304, under the action of the guide end 6, impurities such as silt and the like attached to the surface of the stirring rod 304 can be removed in time in the stirring process, the impurities are prevented from being attached and accumulated and are not beneficial to cleaning in the future, the sliding sleeve 5 is internally provided with the lubricating block 7, so that the sliding of the sliding sleeve 5 positioned outside the stirring rod 304 is smoother, blocking is not easy to generate and influences the operation of the stirring process, in order to facilitate a producer to replace a stirring head at the output end of the stirring rod 304 according to the actual use requirement, the stirring rod 304 penetrates through a sealing ring 9 at the bottom of the bushing 801 and is led into an inner cavity of the bushing 801 through an expansion sleeve 805, when the user wants to replace the stirring head, the rotary handle 803 is rotated and lifted under the meshing action of the rotary handle 803 and an inner side thread end 802 at the top of the bushing 801, so that the open end at the bottom of the rotary handle 803 is separated from the side face of the expansion sleeve 805, the expansion sleeve 805 is made of an anti-skid rubber material and is originally attached to and tightly wrapped at the bottom of the stirring rod 304, after the open end of the rotary handle 803 is separated from the expansion sleeve 805 to remove the constraint thereof, the expansion sleeve 805 is naturally unfolded, the input end of an original stirring head arranged in the expansion sleeve 805 can be separated from the expansion sleeve 805 and separated from the dismounting mechanism 8 through a slotted hole 804 formed in the middle of a rotating handle 803, then a user only needs to insert a new stirring head to be replaced into the slotted hole 804 and rotate and screw the rotating handle 803 tightly to replace the stirring head, the bottom of the stirring rod 304 is sleeved at the bottom of the lining 801 through a sealing ring 9, a liquid exchange cavity 10 outside the sealing ring 9 is arranged to be beneficial to keeping the sealing ring 9 at the same temperature as the stirring rod 304 under the heat conduction action of exchange liquid with large specific heat capacity filled in the liquid exchange cavity 10 according to the change of the using environment temperature, the phenomenon that the sealing ring 9 is not sealed due to the fact that the stirring rod 304 continuously applies work temperature to change violently and the heat conduction performance of the sealing ring 9 is poor in the stirring process is avoided, so that substances in mixed stirring enter the dismounting mechanism 8 through the sealing ring 9 to be damaged, the stirring rod 304 drives the semi-circular track 1101 to revolve in the stirring pool to realize the stirring function, a spray head 1103 which sprays under pressure through a pressurizing cavity 1102 is arranged on the inner side of the bottom of the semicircular track 1101, the spray head 1103 is communicated with a water pump in the frame 1 through an adhesive tape, solvent is sprayed in the material in the stirring stroke of the semicircular track 1101 under pressure, in addition, a rotating rod 305 which is rotatably arranged in the stirring rod 304, the bottom of the rotary handle 1104 is sleeved with the rotary handle 1104, the rotary handle 1104 is driven to rotate in the self-rotating process of the rotary rod 305, the rotary handle 1104 drives the rocker arm 1105 to swing back and forth, so that the sliding block 1106 on the inner side of the top of the rocker arm 1105 slides back and forth in the semicircular track 1101, the mixing shovel 12 is installed inside the sliding block 1106, in the reciprocating sliding stroke of the sliding block 1106 in the semicircular track 1101, the material is jacked up by the guide table 13 protruding from the middle of the mixing shovel 12 and is diffused through the mixing valleys 14 on the two sides, so that the solvent sprayed by the spray head 1103 can be fully mixed with the flowing material in the stirring process.

Claims (10)

1. The utility model provides an operation axle that top formula agitating unit used, includes frame (1) and rabbling mechanism (3), its characterized in that, operation end (2) are installed to frame (1) front, frame (1) internally mounted has and is used for stirring driven rabbling mechanism (3), just rabbling mechanism (3) include motor (301), fixed gear (302), crank (303), puddler (304), bull stick (305) and encircle gear (306), motor (301) bottom fixed mounting has fixed gear (302), and motor (301) bottom output installs crank (303), crank (303) side cover is equipped with puddler (304), and motor (301) constitute the transmission through crank (303) and puddler (304) and be connected, puddler (304) internal rotation installs bull stick (305), and bull stick (305) top terminal surface installs and encircles gear (306), the diameter of the surrounding gear (306) is far smaller than that of the fixed gear (302), and the external tooth profile of the surrounding gear (306) is meshed with the tooth profile of the circumferential surface of the fixed gear (302).
2. The running shaft for the gyro type stirring device according to claim 1, wherein a gyro mechanism (4) for stable rotation is installed in the middle of the stirring rod (304), the gyro mechanism (4) comprises a cavity (401), a supporting seat (402), a ball shaft (403) and a butterfly ring (404), the supporting seat (402) is symmetrically and fixedly installed at the upper end and the lower end inside the cavity (401), the cavity (401) is fixedly installed at the middle end of the bottom of the frame (1), the ball shaft (403) is rotatably installed in the upper gap and the lower gap of the supporting seat (402), and the butterfly ring (404) in an annular structure is attached to the end surface of the side of the ball shaft (403).
3. The running shaft for the gyro-type stirring device according to claim 2, wherein the gyro mechanism (4) further comprises a swing pin (405) and a swing rod (406), the swing pin (405) is fixedly installed on the outer portion of the left side of the cavity (401), the swing rod (406) penetrates through the inner portion of the swing pin (405), and the output ends of the two sides of the swing rod (406) are sleeved on the outer portion of the stirring rod (304).
4. The running shaft for the gyroscope type stirring device as claimed in claim 3, wherein the output end of the oscillating bar (406) is provided with a sliding sleeve (5), the two sides of the sliding sleeve (5) are symmetrically provided with guide ends (6), the guide ends (6) are trapezoidal, the small diameter of each guide end is attached to the stirring rod (304), the inside of the sliding sleeve (5) is provided with a lubricating block (7), and the lubricating block (7) is tightly attached to the outside of the stirring rod (304).
5. An operation shaft for a gyro type stirring apparatus as claimed in claim 1, characterized in that the bottom of the stirring rod (304) is mounted with a dismounting mechanism (8) for quickly changing the stirring head, and the dismounting mechanism (8) comprises a bushing (801), a threaded end (802) and a rotary handle (803), the threaded end (802) is opened on the inner side of the top of the bushing (801), the bushing (801) is fixedly mounted in the middle of the stirring rod (304), the top opening end of the bushing (801) is rotatably mounted with the rotary handle (803), and the spiral protrusion shape at the bottom of the rotary handle (803) is meshed with the threaded end (802).
6. The running shaft for the top stirring device according to claim 5, wherein the disassembling and assembling mechanism (8) further comprises a slotted hole (804) and an expansion sleeve (805), the slotted hole (804) with the shape consistent with that of the stirring rod (304) is formed in the middle of the rotating handle (803), the slotted hole (804) is communicated with the inner cavity of the bushing (801), the expansion sleeve (805) is installed at the bottom of the bushing (801), the top diameter of the expansion sleeve (805) is consistent with that of the bottom opening end of the rotating handle (803) when the expansion sleeve (805) naturally expands, the expansion sleeve (805) is made of anti-skid elastic rubber, and the rotating handle (803) is in transmission connection with the expansion sleeve (805) through a threaded end (802).
7. An operation shaft for a gyro type stirring apparatus as claimed in claim 6, wherein the bottom of the bushing (801) is installed with a sealing ring (9), the sealing ring (9) is attached to the outside of the stirring rod (304) in a ring shape, the two sides of the sealing ring (9) are provided with a heat exchange liquid cavity (10), and the inside of the heat exchange liquid cavity (10) is filled with a cold heat exchange liquid with a larger specific heat capacity.
8. The running shaft for the gyro type stirring device according to claim 1, wherein a mixing mechanism (11) for stirring and mixing is installed at the bottom of the rotating rod (305), the mixing mechanism (11) comprises a semicircular track (1101), a pressurizing cavity (1102) and a spray head (1103), the pressurizing cavity (1102) is installed at the bottom of the inner side of the semicircular track (1101), the spray head (1103) is installed at the top of the pressurizing cavity (1102), and the spray head (1103) is communicated with the water pump in the frame (1) through an adhesive tape.
9. The running shaft for the gyro-type stirring apparatus according to claim 8, wherein the mixing mechanism (11) further comprises a rotating handle (1104), a rocker (1105) and a sliding block (1106), the rotating handle (1104) is rotatably mounted at the bottom of the semicircular track (1101), the rotating handle (1104) is sleeved at the output end of the bottom of the rotating rod (305), the rocker (1105) is rotatably mounted at the side surface of the rotating handle (1104), the rotating rod (305) is in transmission connection with the rocker (1105) through the rotating handle (1104), the sliding block (1106) is mounted at the inner side of the top of the rocker (1105), and the sliding block (1106) is slidably mounted inside the semicircular track (1101).
10. The operating shaft for the gyro-type stirring apparatus as claimed in claim 9, wherein a mixing blade (12) is fixedly mounted inside the sliding block (1106), a guide platform (13) with a trapezoidal protrusion is fixedly mounted in the middle of the mixing blade (12), mixing valleys (14) with an arc-shaped recess are symmetrically formed on both sides of the guide platform (13), and the opening direction of the mixing valleys (14) faces the output direction of the nozzle (1103).
CN202111273245.8A 2021-10-29 2021-10-29 Running shaft for gyro type stirring device Withdrawn CN113975989A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202111273245.8A CN113975989A (en) 2021-10-29 2021-10-29 Running shaft for gyro type stirring device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202111273245.8A CN113975989A (en) 2021-10-29 2021-10-29 Running shaft for gyro type stirring device

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Publication Number Publication Date
CN113975989A true CN113975989A (en) 2022-01-28

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CN202111273245.8A Withdrawn CN113975989A (en) 2021-10-29 2021-10-29 Running shaft for gyro type stirring device

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Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115584467A (en) * 2022-10-28 2023-01-10 广州聚镁材料科技有限公司 Method for cleaning salt explosion in inner cavity of casting
CN115779707A (en) * 2022-11-29 2023-03-14 山东财源和信节能工程有限公司 Flocculating agent configuration device for sewage treatment
CN117023189A (en) * 2023-10-08 2023-11-10 四川省江油市蜀玉实业有限公司 Powder conveyor in stone dust processing

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115584467A (en) * 2022-10-28 2023-01-10 广州聚镁材料科技有限公司 Method for cleaning salt explosion in inner cavity of casting
CN115779707A (en) * 2022-11-29 2023-03-14 山东财源和信节能工程有限公司 Flocculating agent configuration device for sewage treatment
CN117023189A (en) * 2023-10-08 2023-11-10 四川省江油市蜀玉实业有限公司 Powder conveyor in stone dust processing
CN117023189B (en) * 2023-10-08 2023-12-26 四川省江油市蜀玉实业有限公司 Powder conveyor in stone dust processing

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