CN111841411A

CN111841411A - Medical orthopedics is with gypsum raw material mixing device

Info

Publication number: CN111841411A
Application number: CN202010727055.8A
Authority: CN
Inventors: 刘英秀
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-06-21
Filing date: 2018-06-21
Publication date: 2020-10-30
Also published as: CN111841412A; CN108704565A; CN108704565B

Abstract

The invention relates to the technical field of medical appliances, in particular to a gypsum raw material stirring device for medical orthopedics, wherein the left ends of two supporting rods are fixedly connected with a transverse plate, the left ends of the transverse plates are fixedly connected with a vertical plate, the left ends of a lower rod and an upper rod are fixedly connected with a motor base, and the lower rod is fixedly connected to the upper end of the vertical plate; the upper ends of the two supporting rods are fixedly connected with a disc seat, and the two U-shaped sliding seats are symmetrically and fixedly connected with the front part and the rear part of the disc seat. The invention can crush the gypsum raw material, can stir the crushed gypsum raw material, realizes the synchronous crushing and stirring, and has simple operation and high processing efficiency; the gypsum raw materials after smashing fall into agitating unit, and when the gypsum raw materials reached certain weight, the hinge rod made power device and breaker separation through power control spare to make breaker lose power automatically and stop the ejection of compact, thereby distribute the gypsum raw materials according to the equal weight.

Description

Medical orthopedics is with gypsum raw material mixing device

Technical Field

The invention relates to the technical field of medical appliances, in particular to a gypsum raw material stirring device for medical orthopedics.

Background

The high-efficient agitating unit of medical treatment orthopedics gypsum raw materials that has patent number CN201621243866.6, this utility model relates to a gypsum raw materials agitating unit especially relates to a high-efficient agitating unit of medical treatment orthopedics gypsum raw materials. The to-be-solved technical problem of the utility model is to provide a medical orthopedics is with high-efficient agitating unit of gypsum raw materials that stirring speed is fast, stirring, convenient operation. In order to solve the technical problem, the utility model provides a medical orthopedics gypsum raw material high-efficiency stirring device, which comprises a bottom plate, a left frame, a first baffle, a stirring box, a first electric push rod, a first rubber block, a right frame, a second electric push rod, a second rubber block, a stirring rod and the like; the bottom plate top is equipped with left side frame, first baffle, agitator tank and right side frame from a left side to the right side in proper order, and first baffle right side is equipped with first electric putter, and first electric putter right side is equipped with first block rubber, first block rubber right side and agitator tank outer wall left side contact. The utility model discloses a fast, the stirring of stirring speed, convenient operation's effect has been reached. However, the utility model has the disadvantage that the gypsum raw material can not be automatically distributed according to equal weight.

Disclosure of Invention

The invention aims to provide a gypsum raw material stirring device for medical orthopedics, which has the beneficial effects that the gypsum raw material can be crushed, meanwhile, the crushed gypsum raw material can be stirred, the crushing and the stirring are synchronously carried out, the operation is simple, and the processing efficiency is high; the gypsum raw materials after smashing fall into agitating unit, and when the gypsum raw materials reached certain weight, the hinge rod made power device and breaker separation through power control spare to make breaker lose power automatically and stop the ejection of compact, thereby distribute the gypsum raw materials according to the equal weight.

The purpose of the invention is realized by the following technical scheme:

a gypsum raw material stirring device for medical orthopedics comprises a support frame, a transmission device, a conveying belt, a linkage device, a power device, a linkage belt, a crushing device, a stirring device, a compression spring, a hinge rod and a power control piece, wherein the support frame comprises support rods, transverse plates, vertical plates, lower rods, a motor base, an upper rod, a disc base and a U-shaped sliding seat; the upper ends of the two support rods are fixedly connected with a disc seat, and the two U-shaped sliding seats are symmetrically and fixedly connected to the front end and the rear end of the disc seat;

the transmission device comprises a transmission shaft, a transmission wheel and a transmission belt wheel, the middle end and the upper end of the transmission shaft are respectively and fixedly connected with the transmission wheel and the transmission belt wheel, and the lower end of the transmission shaft is rotatably connected to the right end of the transverse plate through a belt seat bearing;

the conveying device comprises a conveying shaft, a conveying belt wheel and a conveying bevel gear, the middle end and the upper end of the conveying shaft are respectively and fixedly connected with the conveying belt wheel and the conveying bevel gear, the lower end of the conveying shaft is rotatably connected to the left end of the transverse plate through a belt seat bearing, and a conveying belt is connected between the conveying belt wheel and the transmission wheel;

the linkage device comprises a linkage shaft, a linkage bevel gear and a linkage belt wheel, the linkage belt wheel and the linkage bevel gear are respectively and fixedly connected to the left end and the right end of the linkage shaft, the linkage shaft is rotatably connected to the vertical plate through a belt seat bearing, and the linkage bevel gear is meshed with the conveying bevel gear;

the power device comprises a motor, a power shaft, a power belt wheel, a spring seat, a convex strip groove, a grooved wheel, a convex strip, a telescopic spring, a hollow stop circle and a power transmission wheel I, wherein an output shaft of the motor is connected with the power shaft through a coupler, the left end of the power shaft is fixedly connected with the power belt wheel, the middle end of the power shaft is fixedly connected with the spring seat, the right end of the power shaft is uniformly provided with four convex strip grooves along the circumferential direction, an inner ring of the grooved wheel is fixedly connected with four convex strips, the grooved wheel is connected to the right end of the convex strip groove through the convex strip in a sliding manner, the power shaft between the grooved wheel and the spring seat is sleeved with the telescopic spring, the right end of the power shaft is fixedly connected with the hollow stop circle, the right end face of the grooved wheel is attached to the; the motor is fixedly connected to the motor base, and a linkage belt is connected between the power belt wheel and the linkage belt wheel;

the crushing device comprises a crushing barrel, a charging barrel, a crushing disc, a crushing shaft, a power transmission wheel II and a spiral conveying blade, wherein the upper end of the crushing barrel is fixedly connected and communicated with the charging barrel; the left end of the crushing barrel is fixedly connected to the lower rod and the upper rod, and the power transmission wheel II is in clearance fit with the power transmission wheel I;

the stirring device comprises a stirring barrel, vertical rods, a discharge barrel, an end cover, a stirring shaft, a plurality of stirring blades and a long gear, wherein the vertical rods are fixedly connected to the front end and the rear end of the stirring barrel, the stirring barrel is connected into two U-shaped sliding seats in a sliding manner through the two vertical rods, the lower end of the right end of the stirring barrel is connected with and communicated with the discharge barrel, the end cover is connected to the right end of the discharge barrel in a sliding manner, the middle end of the stirring shaft is rotatably connected to the stirring barrel, the plurality of stirring blades are fixedly connected to the upper end of the stirring shaft, the plurality of stirring blades are positioned in the stirring barrel, the long gear is; the stirring barrel is positioned below the right end of the crushing barrel, the lower end of the stirring shaft is connected to the disc seat in a sliding mode, the long gear is positioned below the disc seat, the compression spring is positioned between the stirring barrel and the disc seat, and the lower end of the long gear is meshed with the driving wheel.

The support frame still include U type slide bar, rack I, pinion stand and control gear, U type slide bar fixed connection is at the left end of disc seat, I sliding connection of rack is on U type slide bar, two pinion stands of right-hand member fixedly connected with of U type slide bar, control gear rotates and connects on two pinion stands, control gear and I meshing of rack.

A medical treatment orthopedics is with gypsum raw material agitating unit, still include articulated arm and power control spare, its characterized in that: the lower end of the power control piece is connected to the lower rod in a sliding mode, the upper end of the power control piece is in clearance fit with the grooved wheel, the upper end of the hinged rod is hinged to the lower end of the power control piece, the lower end of the hinged rod is hinged to the upper end of the rack I, and the left end of the hinged rod inclines upwards.

The power control part comprises a rectangular frame and two shifting forks, the two shifting forks are symmetrically and fixedly connected to the front end and the rear end of the rectangular frame, the two shifting forks are in clearance fit with the grooved wheel, the rectangular frame is connected to the lower rod in a sliding mode, and the upper end of the hinged rod is hinged to the lower end of the rectangular frame.

The front end of the discharge barrel is symmetrically provided with two L-shaped chutes, and the end cover is connected in the two L-shaped chutes in a sliding manner.

The end cover on be provided with L type slider and pull rod, two L type slider symmetry fixed connection are in the rear end of end cover, the left end fixedly connected with pull rod of end cover, two L type sliders are sliding connection respectively in two L type spouts.

The power driving wheel I is provided with two convex edges with the height gradually reduced along the clockwise direction, and the power driving wheel I and the power driving wheel II are identical in structure.

The crushing disc is provided with a plurality of circular through holes.

The stirring device further comprises a rack II, the left end of the stirring barrel is fixedly connected with the rack II, and the rack II is meshed with the control gear.

The gypsum raw material stirring device for medical orthopedics has the beneficial effects that:

according to the gypsum raw material stirring device for medical orthopedics, provided by the invention, gypsum raw materials can be crushed, and meanwhile, the crushed gypsum raw materials can be stirred, so that the crushing and stirring are synchronously carried out, the operation is simple, and the processing efficiency is high; the gypsum raw materials after smashing fall into agitating unit, and when the gypsum raw materials reached certain weight, the hinge rod made power device and breaker separation through power control spare to make breaker lose power automatically and stop the ejection of compact, thereby distribute the gypsum raw materials according to the equal weight.

Drawings

FIG. 1 is a schematic structural diagram of a gypsum raw material stirring device for medical orthopedics according to the present invention;

FIG. 2 is a schematic structural view of the supporting frame;

FIG. 3 is a schematic view of a portion of the enlarged structure of FIG. 2;

FIG. 4 is a schematic view of the transmission;

FIG. 5 is a schematic structural view of a conveying device;

FIG. 6 is a schematic view of the linkage arrangement;

FIG. 7 is a schematic structural diagram of a power plant;

FIG. 8 is a schematic structural view of a power shaft;

FIG. 9 is a schematic structural diagram of a power transmission wheel I and a sheave;

FIG. 10 is a schematic structural view of a crushing device of the stirring device;

FIG. 11 is a schematic view of the construction of the crushing shaft;

FIG. 12 is a schematic structural view of the mixing tank;

FIG. 13 is a schematic structural view of a discharge cylinder;

FIG. 14 is a schematic structural view of an end cap;

fig. 15 is a schematic structural view of the power control member.

In the figure: a support frame 1; 1-1 of a support rod; a transverse plate 1-2; a vertical plate 1-3; 1-4 parts of a lower rod; 1-5 of a motor base; 1-6 of upper rod; disc bases 1-7; 1-8 of a U-shaped sliding seat; 1-9 parts of a U-shaped sliding rod; 1-10 racks; 1-11 parts of a gear seat; control gears 1-12; a transmission 2; a transmission shaft 2-1; a transmission wheel 2-2; 2-3 of a transmission belt wheel; a conveying device 3; a conveying shaft 3-1; a conveying belt wheel 3-2; conveying bevel gears 3-3; a conveyor belt 4; a linkage 5; 5-1 of a linkage shaft; 5-2 of a linkage bevel gear; 5-3 of a linkage belt wheel; a power plant 6; a motor 6-1; a power shaft 6-2; 6-3 of a power belt wheel; spring seats 6-4; 6-5 of a convex strip groove; 6-6 grooved wheels; 6-7 of convex strips; 6-8 parts of a telescopic spring; 6-9 parts of a hollow baffle circle; 6-10 parts of a power transmission wheel; a linkage belt 7; a crushing device 8; 8-1 of a crushing cylinder; feeding into a charging barrel 8-2; 8-3 parts of a crushing disc; 8-4 parts of a crushing shaft; 8-5 of a power transmission wheel; 8-6 parts of spiral conveying blades; a stirring device 9; 9-1 of a stirring barrel; 9-2 parts of a vertical rod; 9-4 of a discharging barrel; 9-5 parts of an end cover; 9-5-1 of an L-shaped sliding block; 9-5-2 of a pull rod; 9-6 of a stirring shaft; a plurality of stirring blades 9-7; 9-8 parts of long gear; a compression spring 10; a hinge lever 11; a power control member 12; a rectangular frame 12-1; a shift fork 12-2.

Detailed Description

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

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-15, and a medical orthopaedic gypsum raw material stirring device comprises a support frame 1, a transmission device 2, a conveying device 3, a conveying belt 4, a linkage device 5, a power device 6, a linkage belt 7, a crushing device 8, a stirring device 9, a compression spring 10, a hinge rod 11 and a power control piece 12, wherein the support frame 1 comprises support rods 1-1, transverse plates 1-2, vertical plates 1-3, lower rods 1-4, motor bases 1-5, upper rods 1-6, disc bases 1-7 and U-shaped sliding bases 1-8, the transverse plates 1-2 are fixedly connected to the left ends of the two support rods 1-1, the vertical plates 1-3 are fixedly connected to the left ends of the transverse plates 1-2, the motor bases 1-5 are fixedly connected to the left ends of the lower rods 1-4 and the upper rods 1-6, the lower rods 1-4 are fixedly connected to the upper ends of the vertical plates 1-3; the upper ends of the two support rods 1-1 are fixedly connected with disc seats 1-7, and the two U-shaped sliding seats 1-8 are symmetrically and fixedly connected to the front and rear ends of the disc seats 1-7;

the transmission device 2 comprises a transmission shaft 2-1, a transmission wheel 2-2 and a transmission belt wheel 2-3, the middle end and the upper end of the transmission shaft 2-1 are respectively and fixedly connected with the transmission wheel 2-2 and the transmission belt wheel 2-3, and the lower end of the transmission shaft 2-1 is rotatably connected to the right end of the transverse plate 1-2 through a belt seat bearing; the driving belt wheel 2-3 rotates to drive the driving wheel 2-2 to rotate.

The conveying device 3 comprises a conveying shaft 3-1, a conveying belt wheel 3-2 and a conveying bevel gear 3-3, the middle end and the upper end of the conveying shaft 3-1 are respectively and fixedly connected with the conveying belt wheel 3-2 and the conveying bevel gear 3-3, the lower end of the conveying shaft 3-1 is rotatably connected to the left end of the transverse plate 1-2 through a belt seat bearing, and a conveying belt 4 is connected between the conveying belt wheel 3-2 and the transmission wheel 2-2; the conveying bevel gear 3-3 rotates to drive the conveying belt wheel 3-2 to rotate, and the conveying belt wheel 3-2 drives the transmission belt wheel 2-3 to rotate through the conveying belt 4.

The linkage device 5 comprises a linkage shaft 5-1, a linkage bevel gear 5-2 and a linkage belt wheel 5-3, wherein the linkage belt wheel 5-3 and the linkage bevel gear 5-2 are respectively and fixedly connected to the left end and the right end of the linkage shaft 5-1, the linkage shaft 5-1 is rotatably connected to a vertical plate 1-3 through a belt seat bearing, and the linkage bevel gear 5-2 is meshed with a conveying bevel gear 3-3; the linkage belt wheel 5-3 rotates to drive the linkage bevel gear 5-2 to rotate, and the linkage bevel gear 5-2 drives the conveying bevel gear 3-3 to rotate.

The power device 6 comprises a motor 6-1, a power shaft 6-2, a power belt wheel 6-3, a spring seat 6-4, a convex strip groove 6-5, a grooved pulley 6-6, a convex strip 6-7, a telescopic spring 6-8, a hollow stop circle 6-9 and a power transmission wheel I6-10, an output shaft of the motor 6-1 is connected with the power shaft 6-2 through a coupler, the left end of the power shaft 6-2 is fixedly connected with the power belt wheel 6-3, the middle end of the power shaft 6-2 is fixedly connected with the spring seat 6-4, the right end of the power shaft 6-2 is uniformly provided with four convex strip grooves 6-5 along the circumferential direction, the inner ring of the grooved pulley 6-6 is fixedly connected with the four convex strips 6-7, the grooved pulley 6-6 is slidably connected with the right end of the convex strip grooves 6-5 through the, a power shaft 6-2 between the grooved wheels 6-6 and the spring seats 6-4 is sleeved with a telescopic spring 6-8, the right end of the power shaft 6-2 is fixedly connected with a hollow stopping circle 6-9, the right end face of the grooved wheel 6-6 is attached to the stopping circle 6-9, the right end of the grooved wheel 6-6 is fixedly connected with a hollow power transmission wheel I6-10, and the stopping circle 6-9 is in clearance fit with the hollow power transmission wheel I6-10; the motor 6-1 is fixedly connected to the motor base 1-5, and a linkage belt 7 is connected between the power belt wheel 6-3 and the linkage belt wheel 5-3; the motor 6-1 is communicated with a power supply and started, the motor 6-1 drives the power shaft 6-2 to rotate, the power shaft 6-2 drives the power belt wheel 6-3, the grooved wheel 6-6 and the power transmission wheel I6-10 to rotate, and the power belt wheel 6-3 drives the linkage belt wheel 5-3 to rotate through the linkage belt 7; the stop circle 6-9 prevents the sheave 6-6 from separating from the power shaft 6-2, and the extension spring 6-8 is in a stretched state in a normal state.

The crushing device 8 comprises a crushing barrel 8-1, a feeding barrel 8-2, a crushing disc 8-3, a crushing shaft 8-4, a power transmission wheel II 8-5 and spiral conveying blades 8-6, the upper end of the crushing barrel 8-1 is fixedly connected and communicated with the feeding barrel 8-2, the right end of the crushing barrel 8-1 is fixedly connected with the crushing disc 8-3, the right end of the crushing shaft 8-4 is rotatably connected to the crushing disc 8-3 through a bearing with a seat, the left end of the crushing shaft 8-4 is rotatably connected to the left end of the crushing barrel 8-1 through a bearing with a seat, the left end of the crushing shaft 8-4 is fixedly connected with the power transmission wheel II 8-5, the power transmission wheel II 8-5 is positioned at the outer end of the crushing barrel 8-1, and the right end of the crushing shaft 8-4 is fixedly connected with the spiral conveying blades 8-6, the spiral conveying blade 8-6 is positioned inside the crushing cylinder 8-1; the left end of the crushing barrel 8-1 is fixedly connected to the lower rod 1-4 and the upper rod 1-6, and the power transmission wheel II 8-5 is in clearance fit with the power transmission wheel I6-10; pouring gypsum raw materials into a charging barrel 8-2, enabling the gypsum raw materials to fall into a crushing barrel 8-1, driving a power driving wheel I6-10 to drive a power driving wheel II 8-5 to rotate, driving a crushing shaft 8-4 and a spiral conveying blade 8-6 to rotate by the power driving wheel II 8-5, enabling the spiral conveying blade 8-6 to rotate to crush the gypsum raw materials in the crushing barrel 8-1, conveying the crushed gypsum raw materials to the right, and further crushing the gypsum raw materials through a crushing disc 8-3.

The stirring device 9 comprises a stirring barrel 9-1, a vertical rod 9-2, a discharge barrel 9-4, an end cover 9-5, a stirring shaft 9-6, a plurality of stirring blades 9-7 and a long gear 9-8, wherein the front end and the rear end of the stirring barrel 9-1 are fixedly connected with the vertical rod 9-2, the stirring barrel 9-1 is connected in two U-shaped sliding seats 1-8 through the two vertical rods 9-2 in a sliding manner, the lower end of the right end of the stirring barrel 9-1 is connected and communicated with the discharge barrel 9-4, the end cover 9-5 is connected at the right end of the discharge barrel 9-4 in a sliding manner, the middle end of the stirring shaft 9-6 is rotatably connected on the stirring barrel 9-1, the upper end of the stirring shaft 9-6 is fixedly connected with the plurality of stirring blades 9-7, and the plurality of stirring blades 9-7, the lower end of the stirring shaft 9-6 is fixedly connected with a long gear 9-8, and a compression spring 10 is sleeved on the stirring shaft 9-6; the stirring barrel 9-1 is positioned below the right end of the crushing barrel 8-1, the lower end of the stirring shaft 9-6 is connected to the disc seat 1-7 in a sliding mode, the long gear 9-8 is positioned below the disc seat 1-7, the compression spring 10 is positioned between the stirring barrel 9-1 and the disc seat 1-7, and the lower end of the long gear 9-8 is meshed with the transmission wheel 2-2. The broken gypsum raw materials fall into a stirring barrel 9-1, a driving wheel 2-2 drives a long gear 9-8 to rotate, the long gear 9-8 drives a stirring shaft 9-6 and a plurality of stirring blades 9-7 to rotate, the stirring blades 9-7 rotate to stir the gypsum raw materials in the stirring barrel 9-1, after stirring is completed, an end cover 9-5 is pulled forwards, and the gypsum raw materials in the stirring barrel 9-1 are discharged through a discharging barrel 9-4.

The supporting frame 1 further comprises U-shaped sliding rods 1-9, racks I1-10, gear seats 1-11 and control gears 1-12, the U-shaped sliding rods 1-9 are fixedly connected to the left ends of the disc seats 1-7, the racks I1-10 are slidably connected to the U-shaped sliding rods 1-9, the right ends of the U-shaped sliding rods 1-9 are fixedly connected with two gear seats 1-11, the control gears 1-12 are rotatably connected to the two gear seats 1-11, and the control gears 1-12 are meshed with the racks I1-10.

The gypsum raw material stirring device for the medical orthopedics department further comprises a hinged rod 11 and a power control piece 12, the lower end of the power control piece 12 is connected to the lower rod 1-4 in a sliding mode, the upper end of the power control piece 12 is in clearance fit with the grooved wheels 6-6, the upper end of the hinged rod 11 is hinged to the lower end of the power control piece 12, the lower end of the hinged rod 11 is hinged to the upper end of the rack I1-10, and the left end of the hinged rod 11 inclines upwards.

The power control part 12 comprises a rectangular frame 12-1 and two shifting forks 12-2, the two shifting forks 12-2 are symmetrically and fixedly connected to the front end and the rear end of the rectangular frame 12-1, the two shifting forks 12-2 are in clearance fit with grooved wheels 6-6, the rectangular frame 12-1 is slidably connected to a lower rod 1-4, and the upper end of a hinge rod 11 is hinged to the lower end of the rectangular frame 12-1.

The front end of the discharging barrel 9-4 is symmetrically provided with two L-shaped chutes 9-4-1, and the end cover 9-5 is connected in the two L-shaped chutes 9-4-1 in a sliding manner.

The end cover 9-5 is provided with L-shaped sliding blocks 9-5-1 and a pull rod 9-5-2, the two L-shaped sliding blocks 9-5-1 are symmetrically and fixedly connected to the rear end of the end cover 9-5, the pull rod 9-5-2 is fixedly connected to the left end of the end cover 9-5, and the two L-shaped sliding blocks 9-5-1 are respectively connected in the two L-shaped sliding grooves 9-4-1 in a sliding mode. The pull rod 9-5-2 is pulled forwards, and the pull rod 9-5-2 drives the end cover 9-5 to slide forwards until the two L-shaped sliding blocks 9-5-1 are separated from the two L-shaped sliding grooves 9-4-1.

Two convex edges with gradually reduced height along the clockwise direction are arranged on the power transmission wheel I6-10, and the power transmission wheel I6-10 and the power transmission wheel II 8-5 are identical in structure.

The crushing disc 8-3 is provided with a plurality of circular through holes. The gypsum raw material is further crushed after passing through a plurality of circular through holes on the crushing disc 8-3.

The stirring device 9 further comprises a rack II 9-3, the rack II 9-3 is fixedly connected to the left end of the stirring barrel 9-1, and the rack II 9-3 is meshed with the control gear 1-12. The weight of the gypsum raw material in the stirring barrel 9-1 is gradually increased, when the gypsum raw material in the stirring barrel 9-1 reaches a certain weight, the stirring barrel 9-1 gradually moves downwards in the two U-shaped sliding seats 1-8, the compression spring 10 is compressed, the rack II 9-3 drives the control gears 1-12 to rotate clockwise, the control gears 1-12 drive the racks I1-10 to move upwards, the racks I1-10 drive the right end of the hinge rod 11 to move upwards, the left end of the hinge rod 11 moves leftwards, the hinge rod 11 drives the rectangular frame 12-1 to move leftwards, the two shifting forks 12-2 drive the grooved wheels 6-6 to slide leftwards, at the moment, the power transmission wheel I6-10 is separated from the power transmission wheel II 8-5, the power transmission wheel I6-10 cannot drive the power transmission wheel II 8-5 to rotate, the spiral conveying blade 8-6 stops conveying the gypsum to the right, the crushing cylinder 8-1 stops conveying the gypsum, and meanwhile, the power belt wheel 6-3 drives the stirring blades 9-7 to rotate and stir all the time; after the gypsum in the stirring barrel 9-1 is discharged, the stirring barrel 9-1 is driven to reset under the elastic resetting action of the compression spring 10, the power transmission wheel I6-10 and the power transmission wheel II 8-5 are meshed again, and the work is repeated; the long gear 9-8 has the function that when the stirring barrel 9-1 moves downwards to drive the long gear 9-8 to move downwards, the long gear 9-8 is always meshed with the transmission wheel 2-2.

The working principle of the gypsum raw material stirring device for medical orthopedics is as follows: when the device is used, the driving belt wheel 2-3 rotates to drive the driving wheel 2-2 to rotate; the conveying bevel gear 3-3 rotates to drive the conveying belt wheel 3-2 to rotate, and the conveying belt wheel 3-2 drives the transmission belt wheel 2-3 to rotate through the conveying belt 4; the linkage belt wheel 5-3 rotates to drive the linkage bevel gear 5-2 to rotate, and the linkage bevel gear 5-2 drives the conveying bevel gear 3-3 to rotate; the motor 6-1 is communicated with a power supply and started, the motor 6-1 drives the power shaft 6-2 to rotate, the power shaft 6-2 drives the power belt wheel 6-3, the grooved wheel 6-6 and the power transmission wheel I6-10 to rotate, and the power belt wheel 6-3 drives the linkage belt wheel 5-3 to rotate through the linkage belt 7; the stop circle 6-9 prevents the grooved wheel 6-6 from separating from the power shaft 6-2; pouring gypsum raw materials into a charging barrel 8-2, wherein the gypsum raw materials fall into a crushing barrel 8-1, a power transmission wheel I6-10 drives a power transmission wheel II 8-5 to rotate, the power transmission wheel II 8-5 drives a crushing shaft 8-4 and a spiral conveying blade 8-6 to rotate, the spiral conveying blade 8-6 rotates to crush the gypsum raw materials in the crushing barrel 8-1, meanwhile, the crushed gypsum raw materials are conveyed rightwards, and the gypsum raw materials are further crushed through a crushing disc 8-3; the broken gypsum raw materials fall into a stirring barrel 9-1, a driving wheel 2-2 drives a long gear 9-8 to rotate, the long gear 9-8 drives a stirring shaft 9-6 and a plurality of stirring blades 9-7 to rotate, the stirring blades 9-7 rotate to stir the gypsum raw materials in the stirring barrel 9-1, after stirring is finished, an end cover 9-5 is pulled forwards, and the gypsum raw materials in the stirring barrel 9-1 are discharged through a discharging barrel 9-4; the pull rod 9-5-2 is pulled forwards, the pull rod 9-5-2 drives the end cover 9-5 to slide forwards until the two L-shaped sliding blocks 9-5-1 are separated from the two L-shaped sliding grooves 9-4-1; the gypsum raw material is further crushed after passing through a plurality of circular through holes on the crushing disc 8-3; the weight of the gypsum raw material in the stirring barrel 9-1 is gradually increased, when the gypsum raw material in the stirring barrel 9-1 reaches a certain weight, the stirring barrel 9-1 gradually moves downwards in the two U-shaped sliding seats 1-8, the compression spring 10 is compressed, the rack II 9-3 drives the control gears 1-12 to rotate clockwise, the control gears 1-12 drive the racks I1-10 to move upwards, the racks I1-10 drive the right end of the hinge rod 11 to move upwards, the left end of the hinge rod 11 moves leftwards, the hinge rod 11 drives the rectangular frame 12-1 to move leftwards, the two shifting forks 12-2 drive the grooved wheels 6-6 to slide leftwards, at the moment, the power transmission wheel I6-10 is separated from the power transmission wheel II 8-5, the power transmission wheel I6-10 cannot drive the power transmission wheel II 8-5 to rotate, the spiral conveying blade 8-6 stops conveying the gypsum to the right, the crushing cylinder 8-1 stops conveying the gypsum, and meanwhile, the power belt wheel 6-3 drives the stirring blades 9-7 to rotate and stir all the time; after the gypsum in the stirring barrel 9-1 is discharged, the stirring barrel 9-1 is driven to reset under the elastic resetting action of the compression spring 10, the power transmission wheel I6-10 and the power transmission wheel II 8-5 are meshed again, and the work is repeated; the long gear 9-8 has the function that when the stirring barrel 9-1 moves downwards to drive the long gear 9-8 to move downwards, the long gear 9-8 is always meshed with the transmission wheel 2-2.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a gypsum raw material mixing device for medical orthopedics, includes support frame (1), transmission (2), conveyor (3), conveyor belt (4), aggregate unit (5), power device (6), aggregate belt (7), breaker (8), agitating unit (9) and compression spring (10), its characterized in that: the supporting frame (1) comprises supporting rods (1-1), transverse plates (1-2), vertical plates (1-3), lower rods (1-4), motor bases (1-5), upper rods (1-6), disc bases (1-7) and U-shaped sliding bases (1-8), the transverse plates (1-2) are fixedly connected to the left ends of the two supporting rods (1-1), the vertical plates (1-3) are fixedly connected to the left ends of the transverse plates (1-2), the motor bases (1-5) are fixedly connected to the left ends of the lower rods (1-4) and the upper rods (1-6), and the lower rods (1-4) are fixedly connected to the upper ends of the vertical plates (1-3); the upper ends of the two support rods (1-1) are fixedly connected with disc seats (1-7), and the two U-shaped sliding seats (1-8) are symmetrically and fixedly connected with the front ends and the rear ends of the disc seats (1-7);

the transmission device (2) comprises a transmission shaft (2-1), a transmission wheel (2-2) and a transmission belt wheel (2-3), the middle end and the upper end of the transmission shaft (2-1) are respectively and fixedly connected with the transmission wheel (2-2) and the transmission belt wheel (2-3), and the lower end of the transmission shaft (2-1) is rotatably connected to the right end of the transverse plate (1-2) through a bearing with a seat;

the conveying device (3) comprises a conveying shaft (3-1), a conveying belt wheel (3-2) and a conveying bevel gear (3-3), the middle end and the upper end of the conveying shaft (3-1) are respectively and fixedly connected with the conveying belt wheel (3-2) and the conveying bevel gear (3-3), the lower end of the conveying shaft (3-1) is rotatably connected to the left end of the transverse plate (1-2) through a belt seat bearing, and a conveying belt (4) is connected between the conveying belt wheel (3-2) and the transmission wheel (2-2);

the linkage device (5) comprises a linkage shaft (5-1), a linkage bevel gear (5-2) and a linkage belt wheel (5-3), the linkage belt wheel (5-3) and the linkage bevel gear (5-2) are respectively and fixedly connected to the left end and the right end of the linkage shaft (5-1), the linkage shaft (5-1) is rotatably connected to a vertical plate (1-3) through a bearing with a seat, and the linkage bevel gear (5-2) is meshed with a conveying bevel gear (3-3);

the power device (6) comprises a motor (6-1), a power shaft (6-2), a power belt wheel (6-3), a spring seat (6-4), a convex strip groove (6-5), a grooved wheel (6-6), convex strips (6-7), a telescopic spring (6-8), a hollow stop circle (6-9) and a power transmission wheel I (6-10), an output shaft of the motor (6-1) is connected with the power shaft (6-2) through a coupler, the left end of the power shaft (6-2) is fixedly connected with the power belt wheel (6-3), the middle end of the power shaft (6-2) is fixedly connected with the spring seat (6-4), the right end of the power shaft (6-2) is uniformly provided with four convex strip grooves (6-5) along the circumferential direction, and the inner ring of the grooved wheel (6-6) is fixedly connected with four convex strips (6-7), the grooved wheels (6-6) are connected to the right ends of the convex strip grooves (6-5) in a sliding mode through convex strips (6-7), a telescopic spring (6-8) is sleeved on the power shaft (6-2) between the grooved wheels (6-6) and the spring seats (6-4), the right end of the power shaft (6-2) is fixedly connected with a hollow stop circle (6-9), the right end face of the grooved wheel (6-6) is attached to the stop circle (6-9), the right end of the grooved wheel (6-6) is fixedly connected with a hollow power transmission wheel I (6-10), and the stop circle (6-9) is in clearance fit with the hollow power transmission wheel I (6-10); the motor (6-1) is fixedly connected to the motor base (1-5), and a linkage belt (7) is connected between the power belt wheel (6-3) and the linkage belt wheel (5-3);

the crushing device (8) comprises a crushing barrel (8-1), a charging barrel (8-2), a crushing disc (8-3), a crushing shaft (8-4), a power transmission wheel II (8-5) and a spiral conveying blade (8-6), the upper end of the crushing barrel (8-1) is fixedly connected and communicated with the charging barrel (8-2), the right end of the crushing barrel (8-1) is fixedly connected with the crushing disc (8-3), the right end of the crushing shaft (8-4) is rotatably connected to the crushing disc (8-3) through a bearing with a seat, the left end of the crushing shaft (8-4) is rotatably connected to the left end of the crushing barrel (8-1) through a bearing with a seat, the left end of the crushing shaft (8-4) is fixedly connected with the power transmission wheel II (8-5), and the power transmission wheel II (8-5) is positioned at the outer end of the crushing barrel (8-1), the right end of the crushing shaft (8-4) is fixedly connected with a spiral conveying blade (8-6), and the spiral conveying blade (8-6) is positioned inside the crushing barrel (8-1); the left end of the crushing barrel (8-1) is fixedly connected to the lower rod (1-4) and the upper rod (1-6), and the power transmission wheel II (8-5) is in clearance fit with the power transmission wheel I (6-10);

the stirring device (9) comprises a stirring barrel (9-1), a vertical rod (9-2), a discharge barrel (9-4), an end cover (9-5), a stirring shaft (9-6), a plurality of stirring blades (9-7) and a long gear (9-8), wherein the vertical rod (9-2) is fixedly connected with the front end and the rear end of the stirring barrel (9-1), the stirring barrel (9-1) is connected in the two U-shaped sliding seats (1-8) in a sliding manner through the two vertical rods (9-2), the lower end of the right end of the stirring barrel (9-1) is connected and communicated with the discharge barrel (9-4), the end cover (9-5) is connected at the right end of the discharge barrel (9-4) in a sliding manner, the middle end of the stirring shaft (9-6) is rotatably connected on the stirring barrel (9-1), the upper end of the stirring shaft (9-6) is fixedly connected with the plurality of stirring, a plurality of stirring blades (9-7) are positioned in the stirring barrel (9-1), the lower end of the stirring shaft (9-6) is fixedly connected with a long gear (9-8), and a compression spring (10) is sleeved on the stirring shaft (9-6); the stirring barrel (9-1) is positioned below the right end of the crushing barrel (8-1), the lower end of the stirring shaft (9-6) is connected to the disc seat (1-7) in a sliding mode, the long gear (9-8) is positioned below the disc seat (1-7), the compression spring (10) is positioned between the stirring barrel (9-1) and the disc seat (1-7), and the lower end of the long gear (9-8) is meshed with the transmission wheel (2-2);

still include articulated pole (11) and power control spare (12), its characterized in that: the lower end of the power control piece (12) is connected to the lower rod (1-4) in a sliding mode, the upper end of the power control piece (12) is in clearance fit with the grooved wheels (6-6), the upper end of the hinge rod (11) is hinged to the lower end of the power control piece (12), the lower end of the hinge rod (11) is hinged to the upper end of the rack I (1-10), and the left end of the hinge rod (11) inclines upwards;

the power control part (12) comprises a rectangular frame (12-1) and two shifting forks (12-2), the two shifting forks (12-2) are symmetrically and fixedly connected to the front end and the rear end of the rectangular frame (12-1), the two shifting forks (12-2) are in clearance fit with grooved wheels (6-6), the rectangular frame (12-1) is connected to a lower rod (1-4) in a sliding manner, and the upper end of a hinge rod (11) is hinged to the lower end of the rectangular frame (12-1);

the stirring device (9) further comprises a rack II (9-3), the rack II (9-3) is fixedly connected to the left end of the stirring barrel (9-1), and the rack II (9-3) is meshed with the control gear (1-12);

the front end of the discharging barrel (9-4) is symmetrically provided with two L-shaped chutes (9-4-1), and the end cover (9-5) is connected in the two L-shaped chutes (9-4-1) in a sliding manner;

the crushing disc (8-3) is provided with a plurality of circular through holes.

2. The medical orthopaedic gypsum raw material stirring device according to claim 1, wherein: the end cover (9-5) is provided with L-shaped sliding blocks (9-5-1) and a pull rod (9-5-2), the two L-shaped sliding blocks (9-5-1) are symmetrically and fixedly connected to the rear end of the end cover (9-5), the pull rod (9-5-2) is fixedly connected to the left end of the end cover (9-5), and the two L-shaped sliding blocks (9-5-1) are respectively connected in the two L-shaped sliding grooves (9-4-1) in a sliding mode.