CN114653262B - Lubricating mortar quantitative proportioning stirring device - Google Patents

Abstract

The invention discloses a lubricating cement quantitative proportioning stirring device, which comprises a tank body, wherein a stirring assembly and a quantitative proportioning assembly are arranged on the tank body, the stirring assembly is matched with the quantitative proportioning assembly and drives the quantitative proportioning assembly to operate through the stirring assembly, when the lubricating cement is prepared, stock solution is conveyed into the tank body through a liquid inlet pipe, meanwhile, the stirring assembly is started, the stirring assembly drives liquid in the tank body to rotate by utilizing a rotating centrifugal force and drives the quantitative proportioning assembly to operate, the quantitative proportioning assembly sucks another stock solution quantitatively in the operation process and can convey the sucked another stock solution to different layers of the tank body, so that the liquids of different layers in the tank body can be quantitatively combined with the other stock solution in the stirring process, and the component proportion of the prepared cement meets the requirement, the use effect of the lubricating mucilage is improved.

Description

Lubricating mortar quantitative proportioning stirring device

Technical Field

The invention relates to the technical field of lubricating cement mixing, in particular to a lubricating cement quantitative proportioning stirring device.

Background

The gastroscopy is a slender tube which wraps a light guide fiber by black plastic with the diameter of about one centimeter, the endoscope is arranged at the front end and extends into the esophagus → the stomach → the duodenum of an examinee from the mouth, strong light emitted by a light source device can make light turn through the light guide fiber, and a doctor can clearly observe the health condition of each part in the upper digestive tract from the other end, so a piece of gastroscopy lubricating glue paste is usually required to be orally taken before the gastroscopy is, the gastroscopy lubricating glue paste has the defoaming effect, gastric juice or foam can be generated in the stomach, the visual field is easily influenced when the gastroscopy is performed, the gastroscopy is difficult to be washed out when the gastroscopy is washed out, the defoaming effect can be easily realized when the gastroscopy is drunk, the foam is reduced or disappears, and clear observation can be well performed.

The present lubricating mortar agitating unit majority is direct pours the stoste into jar internal according to the ratio into, drives (mixing) shaft and stirring rod through starter motor and carries out direct stirring to the stoste of jar internal, nevertheless can not mix the different aspect in the stoste, makes the stoste can not the misce bene, lets the shaping effect of lubricating mortar poor, causes the composition ratio of the lubricating mortar of shaping to differ easily, leads to the result of use unsatisfactory.

Disclosure of Invention

The invention aims to provide a lubricating cement quantitative proportioning and stirring device to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: a lubricating cement quantitative proportioning stirring device comprises a tank body, a liquid outlet is formed in the bottom of the tank body, a liquid discharge valve is fixedly mounted on the liquid outlet, a liquid discharge pipe is fixedly connected onto the liquid discharge valve, a liquid inlet is formed in the tank body, a liquid inlet pipe is fixedly connected into the liquid inlet, a stirring assembly and a quantitative proportioning assembly are mounted on the tank body, the stirring assembly is matched with the quantitative proportioning assembly and drives the quantitative proportioning assembly to operate through the stirring assembly, when the lubricating cement is prepared, a stock solution is conveyed into the tank body through the liquid inlet pipe, meanwhile, the stirring assembly is started, the stirring assembly drives the quantitative proportioning assembly to operate while driving the liquid in the tank body to rotate through a rotary centrifugal force, and the quantitative proportioning assembly sucks another stock solution quantitatively in the operation process, and can carry the different aspect of jar body with another kind of stoste of breathing in for the liquid of the internal different aspect of jar all can combine with another kind of stoste ration at the stirring in-process, makes its composition ratio of mucilage preparation meet the requirements, improves the result of use of lubricated mucilage.

According to a preferable technical scheme, the stirring assembly comprises a fixing rod, a fixing plate, a driving motor, a rotating shaft, a first through hole and a stirring roller;

the utility model discloses a stirring tank, including the jar body, the top fixed mounting of jar body has the dead lever, fixed mounting has the fixed plate on the dead lever, fixed connection has driving motor on the fixed plate, fixedly connected with pivot on driving motor's the output shaft, through-hole one has been seted up at the top of the jar body, the pivot runs through-hole one, and the pivot is located the internal fixedly connected with stirring roller on the tip of jar, install the stirring board on the stirring roller, through starting driving motor, driving motor's output shaft can drive the stirring roller through the pivot and carry out synchronous high-speed rotatory at rotatory in-process, utilizes the high-speed rotation of stirring roller for the liquid of the jar body can carry out the rotation with the rotation direction under the centrifugal force of stirring roller, thereby lets jar internal liquid can periodic stirring, is favorable to promoting the mixture between the liquid raw materials.

As preferred technical scheme, be equipped with the slide on the stirring roller, the slide is oval annular, fixed mounting has the connecting rod on the stirring board, the tip cover that the stirring board was kept away from to the connecting rod is equipped with the gyro wheel, the gomphosis of gyro wheel roll is in the slide, because gyro wheel and slide are the roll cooperation for the gyro wheel can roll in the slide, when the stirring roller rotated, along with the rotation of stirring roller, the gyro wheel can remove along the orbit of slide, thereby let the gyro wheel drive the stirring board through the connecting rod and carry out synchronous motion, make the stirring board can stir the roller and rotate the in-process and carry out vertical linear motion, thereby realize the stirring of stirring board to the internal different aspect liquid of jar, and every rotation cycle of accomplishing of stirring roller, a vertical linear reciprocating motion just can be accomplished to the stirring board.

As a preferred technical scheme, the quantitative proportioning component comprises a liquid storage tank, a liquid suction barrel, a movable plate, a telescopic sleeve, a cavity, a connecting hole, a connecting pipe and an opening;

the tank body is provided with a liquid storage tank, the bottom of the liquid storage tank is fixedly provided with a liquid suction barrel, the liquid storage tank is provided with a liquid suction hole I, the liquid suction barrel is provided with a liquid suction hole II, the liquid suction hole I is butted with the liquid suction hole II, a movable plate is slidably arranged in the liquid suction barrel, one side of the movable plate, far away from the liquid suction hole II, is fixedly connected with a telescopic sleeve, the movable plate is provided with a through hole, the through hole and a pipe center of the telescopic sleeve are positioned on the same central axis, the bottom of the liquid suction barrel is provided with a slide hole, the telescopic sleeve penetrates through the slide hole, the telescopic end of the telescopic sleeve is connected with a stirring plate, a cavity is arranged in the stirring plate, the cavity is provided with a connecting hole, the connecting pipe is fixedly connected in the connecting hole, the connecting pipe is connected with the telescopic end of the telescopic sleeve, the stirring plate is provided with a hole, and a roller column is rotatably arranged in the hole, because the movable plate can slide in the liquid suction cylinder, when the stirring plate moves upwards along with the rotation of the stirring roller, the stirring plate can gradually compress the telescopic sleeve in the process of moving upwards until the telescopic sleeve jacks the movable plate, so that the movable plate moves upwards in the liquid suction cylinder, liquid raw materials in the liquid suction cylinder can be extruded, the liquid raw materials enter the telescopic sleeve through the through holes and then enter the cavity of the stirring plate through the connecting pipe, the liquid raw materials in the cavity are supplemented, when the stirring plate moves downwards along with the rotation of the stirring roller, the stirring plate gradually moves downwards along with the rotation of the stirring roller until the movable plate is driven by the telescopic sleeve to move downwards in the liquid suction cylinder, at the moment, the movable plate can generate suction force to the liquid suction cylinder along with the downward movement of the movable plate, so that the liquid raw materials in the liquid storage tank can be sucked into the liquid suction cylinder through the liquid suction holes I and the liquid suction holes II, and the supplementation of the liquid suction cylinder is completed, can be automatic for replenishing the liquid raw materials in the cavity next time and prepare, when the liquid in the jar body is at the in-process that flows when stirring the board, utilize the scouring force of rivers can drive the column roll at the trompil internal rotation, let the column roll rotate the in-process with the liquid raw materials of cavity and jar internal matrix combine together, realize the ration ratio to between the raw materials.

As preferred technical scheme, the stirring board is the cylindroid structure, and the slope of stirring board is placed, and inclination is less than 45 and is greater than 15, can let the stirring board neither influence the rotation of the liquid base material of jar internal under centrifugal force, again can make full use of rivers flow tension drive the roller to rotate to the guarantee stirs the board and can also carry out directional ratio to the liquid raw materials that flow through when realizing stirring function.

As a preferred technical scheme, the liquid injection channel is formed by the liquid suction hole I, the liquid suction hole II, the perforation, the telescopic sleeve and the connecting pipe, so that liquid raw materials in the liquid suction cylinder can enter the cavity of the stirring plate conveniently.

According to the preferable technical scheme, the first liquid suction hole is fixedly provided with a first one-way valve, the perforation is fixedly provided with a second one-way valve, the first one-way valve can ensure that liquid raw materials in the liquid suction cylinder cannot flow back into the liquid storage tank, liquid in the liquid suction cylinder can enter the perforation through the second one-way valve, the second one-way valve can seal the perforation, and the movable plate can be guaranteed to be sucked when moving downwards in the liquid suction cylinder.

As a preferred technical scheme, the stirring assembly drives the quantitative proportioning assembly to radially rotate through the radial stirring assembly, so that the radial movement of the stirring plate is realized.

As a preferred technical scheme, the radial stirring assembly comprises a bearing, a fixed ring, a driven gear, a driving gear and a transmission gear;

the liquid suction device is characterized in that a fixing ring is fixedly arranged in the first through hole through a bearing, a driven gear is fixedly arranged on the inner diameter of the fixing ring, a driving gear is fixedly arranged on the rotating shaft, the driving gear and the driven gear are meshed through a transmission gear, a second through hole is formed in the fixing ring, the liquid suction cylinder penetrates through the second through hole and is in interference fit, when the rotating shaft rotates, the rotating shaft can drive the driving gear to synchronously rotate, the driving gear can drive the driven gear to rotate through the transmission gear in the rotating process, the rotating direction of the driven gear is opposite to that of the driving gear, meanwhile, the driven gear can drive the fixing ring to synchronously rotate in the bearing in the rotating process, so that the liquid suction cylinder can be driven to synchronously rotate, and the liquid suction cylinder can drive the stirring plate to radially move through the movable plate and the telescopic sleeve while rotating, when can improve stirring board stirring effect, improve the contact of stirring board and liquid raw materials.

Compared with the prior art, the invention has the following beneficial effects:

1. when carrying out lubricated mucilage binding preparation, carry the stoste through the feed liquor pipe and enter into jar internal, meanwhile, start the stirring subassembly, when making the stirring subassembly utilize rotatory centrifugal force to drive the internal liquid of jar and rotate, drive the operation of ration ratio subassembly, let the ration ratio subassembly carry out the ration inhalation to another kind of stoste at the operation in-process, and can carry the different aspect of jar body with another kind of stoste of inspiratory, make the liquid of the internal different aspect of jar homoenergetic combine with another kind of stoste ration at the stirring in-process, make its composition ratio of mucilage binding that prepares meet the requirements, improve the result of use of lubricated mucilage binding.

2. Through starting driving motor, driving motor's output shaft can drive the stirring roller through the pivot and carry out synchronous high-speed rotatory at rotatory in-process, utilizes the high-speed rotation of stirring roller for the liquid of the jar body can carry out the rotation with the direction of rotation under the centrifugal force of stirring roller, thereby lets jar internal liquid can periodic stirring, is favorable to promoting the mixture between the liquid raw materials.

3. When the stirring plate moves upwards along with the rotation of the stirring roller, the stirring plate can gradually compress the telescopic sleeve in the upwards moving process until the telescopic sleeve jacks up the moving plate, so that the moving plate moves upwards in the liquid suction cylinder, liquid raw materials in the liquid suction cylinder can be extruded, the liquid raw materials enter the telescopic sleeve through the through holes and then enter the cavity of the stirring plate through the connecting pipe, so that the liquid raw materials in the cavity are supplemented, when the stirring plate moves downwards along with the rotation of the stirring roller, the stirring plate moves downwards along with the gradual movement of the stirring plate until the moving plate is driven by the telescopic sleeve to move downwards in the liquid suction cylinder, at the moment, the moving plate moves downwards to generate suction force on the liquid suction cylinder, so that the liquid raw materials in the liquid storage tank can be sucked into the liquid suction cylinder through the liquid suction hole I and the liquid suction hole II, the supplementation on the liquid suction cylinder is completed, and preparation can be automatically prepared for supplementing the liquid raw materials in the cavity next time, when liquid in the tank body passes through the stirring plate in the flowing process, the roller column can be driven to rotate in the opening by using the scouring force of water flow, so that the roller column combines the liquid raw material of the cavity with the base material in the tank body in the rotating process, and the quantitative proportioning between the raw materials is realized.

4. When the pivot rotates, the pivot can drive gear and carry out synchronous rotation, let drive gear can drive driven gear through drive gear at rotatory in-process and rotate, make driven gear's direction of rotation reverse with drive gear's direction of rotation, meanwhile, driven gear can drive solid fixed ring and carry out synchronous rotation in the bearing rotating the in-process, thereby can drive the imbibition section of thick bamboo and carry out synchronous rotation, and the imbibition section of thick bamboo pivoted can drive the stirring board through movable plate and telescope tube and carry out radial movement, when can improve stirring board stirring effect, improve the contact of stirring board and liquid raw materials.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a first partially cut-away structural schematic view of the present invention;

FIG. 3 is a second partial cutaway configuration of the present invention;

FIG. 4 is a third schematic view in partial cutaway of the present invention;

FIG. 5 is a schematic front view of the structure of FIG. 4;

FIG. 6 is an enlarged schematic view of FIG. 2 at a;

FIG. 7 is an enlarged view of the structure at b in FIG. 3;

FIG. 8 is an enlarged view of the structure at c in FIG. 4;

FIG. 9 is a schematic view of a portion of the stirring assembly and the portion proportioning assembly;

FIG. 10 is a schematic view of the construction of the stirring roller;

FIG. 11 is a schematic view of the construction of a stir plate;

FIG. 12 is a schematic view of the flow of liquid through an agitating plate.

In the figure: 1. a tank body; 2. a liquid outlet; 3. a drain valve; 4. a liquid outlet pipe; 5. a liquid inlet; 6. a liquid inlet pipe;

7. a stirring assembly; 701. fixing the rod; 702. a fixing plate; 703. a drive motor; 704. a rotating shaft; 705. a first through hole; 706. a stirring roller; 707. a slideway; 708. a connecting rod; 709. a roller;

8. a quantitative proportioning component; 801. a liquid storage tank; 802. a liquid suction cylinder; 803. a first liquid suction hole; 804. a second liquid suction hole; 805. moving the plate; 806. perforating; 807. a telescopic sleeve; 808. a slide hole; 809. a stirring plate; 810. a cavity; 811. connecting holes; 812. a connecting pipe; 813. opening a hole; 814. a roller; 815. a first check valve; 816. a second one-way valve;

9. a radial agitation assembly; 901. a bearing; 902. a fixing ring; 903. a driven gear; 904. a drive gear; 905. a transmission gear; 906. and a second through hole.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): as shown in fig. 1 to 12, the present invention provides the following technical solutions: a quantitative proportioning and stirring device for lubricating cement comprises a tank body 1, wherein a liquid outlet 2 is formed in the bottom of the tank body 1, a liquid discharge valve 3 is fixedly mounted on the liquid outlet 2, a liquid discharge pipe 4 is fixedly connected onto the liquid discharge valve 3, a liquid inlet 5 is formed in the tank body 1, a liquid inlet pipe 6 is fixedly connected into the liquid inlet 5, a stirring assembly 7 and a quantitative proportioning assembly 8 are mounted on the tank body 1, the stirring assembly 7 is matched with the quantitative proportioning assembly 8 and drives the quantitative proportioning assembly 8 to operate through the stirring assembly 7, when the lubricating cement is prepared, raw liquid is conveyed into the tank body 1 through the liquid inlet pipe 6, and meanwhile, the stirring assembly 7 is started to drive the quantitative proportioning assembly 8 to operate while driving the liquid in the tank body 1 to rotate by utilizing a rotary centrifugal force, let quantitative ratio subassembly 8 carry out the ration and inhale another kind of stoste at the operation in-process to can carry the different aspect of jar body 1 with another kind of stoste of inhaling, make the liquid of jar body 1 internal different aspect all can combine with another kind of stoste ration at the stirring in-process, make its composition ratio of mucilage that prepares meet the requirements, improve the result of use of lubricated mucilage.

As shown in fig. 2-5 and 9-10, the stirring assembly 7 includes a fixing rod 701, a fixing plate 702, a driving motor 703, a rotating shaft 704, a first through hole 705, and a stirring roller 706;

a fixed rod 701 is fixedly arranged at the top of the tank body 1, a fixed plate 702 is fixedly arranged on the fixed rod 701, a driving motor 703 is fixedly installed on the fixing plate 702, a rotating shaft 704 is fixedly connected to an output shaft of the driving motor 703, the top of the tank body 1 is provided with a first through hole 705, the rotating shaft 704 penetrates through the first through hole 705, and the end part of the rotating shaft 704 positioned in the tank body 1 is fixedly connected with a stirring roller 706, a stirring plate 809 is arranged on the stirring roller 706, by starting the driving motor 703, the output shaft of the driving motor 703 can drive the stirring roller 706 to synchronously rotate at high speed through the rotating shaft 704 during the rotation process, and by utilizing the high-speed rotation of the stirring roller 706, so that the liquid in the tank body 1 can rotate in the same rotating direction under the centrifugal force of the stirring roller 706, thereby the liquid in the tank body 1 can be periodically stirred, and the mixing of the liquid raw materials is promoted.

The stirring roller 706 is provided with a slideway 707, the slideway 707 is in an elliptical ring shape, a connecting rod 708 is fixedly installed on the stirring plate 809, a roller 709 is sleeved at the end, far away from the stirring plate 809, of the connecting rod 708, the roller 709 is embedded in the slideway 707 in a rolling manner, because the roller 709 is matched with the slideway 707 in a rolling manner, the roller 709 can roll in the slideway 707, when the stirring roller 706 rotates, the roller 709 can move along the track of the slideway 707 along with the rotation of the stirring roller 706, so that the roller 709 drives the stirring plate 809 to synchronously move through the connecting rod 708, the stirring plate 809 can perform longitudinal linear motion in the rotation process of the stirring roller 706, the stirring of different layers of liquid in the tank body 1 by the stirring plate 809 is realized, and once the rotation period of the stirring roller 706 is completed, the longitudinal linear reciprocating motion of the stirring plate 809 can be completed.

As shown in fig. 1-8 and 11-12, the proportioning component 8 comprises a liquid storage tank 801, a liquid suction barrel 802, a moving plate 805, a telescopic sleeve 807, a cavity 810, a connecting hole 811, a connecting pipe 812 and an opening 813;

the tank body 1 is provided with a liquid storage tank 801, the bottom of the liquid storage tank 801 is fixedly provided with a liquid suction barrel 802, the liquid storage tank 801 is provided with a first liquid suction hole 803, the liquid suction barrel 802 is provided with a second liquid suction hole 804, the first liquid suction hole 803 is in butt joint with the second liquid suction hole 804, a moving plate 805 is slidably mounted in the liquid suction barrel 802, one side, away from the second liquid suction hole 804, of the moving plate 805 is fixedly connected with a telescopic sleeve 807, the moving plate 805 is provided with a through hole 806, the through hole 806 is positioned on the same central axis with the center tube 807 of the telescopic sleeve, the bottom of the liquid suction barrel 802 is provided with a sliding hole 808, the telescopic sleeve 807 penetrates through the sliding hole 808, the telescopic end of the telescopic sleeve 807 is connected with a stirring plate 809, a cavity 810 is arranged in the stirring plate 809, the cavity 810 is provided with a connecting hole 811, the connecting pipe 812 is fixedly connected in the connecting hole 811, and the connecting pipe 812 is connected with the telescopic end of the telescopic sleeve 807, the stirring plate 809 is provided with an opening 813, the opening 813 is rotatably provided with a roller column 814, because the moving plate 805 can slide in the liquid suction cylinder 802, when the stirring plate 809 moves upwards along with the rotation of the stirring roller 706, the stirring plate 809 can gradually compress the telescopic sleeve 807 in the process of moving upwards until the telescopic sleeve 807 lifts the moving plate 805, so that the moving plate 805 moves upwards in the liquid suction cylinder 802, and thus the liquid raw material in the liquid suction cylinder 802 can be extruded, the liquid raw material enters the telescopic sleeve 807 through the perforation 806, and then enters the cavity 810 of the stirring plate 809 through the connecting pipe 812, so that the liquid raw material in the cavity 810 is supplemented, when the stirring plate 809 moves downwards along with the rotation of the stirring roller 706, the moving plate 809 moves downwards along with the gradual movement of the stirring plate 809 until the moving plate 805 moves downwards in the liquid suction cylinder 802 under the driving of the telescopic sleeve 807, at this time, the moving plate 805 can generate suction force along with the downwards movement of the liquid suction cylinder 802, liquid raw materials in the liquid storage tank 801 can be sucked into the liquid suction cylinder 802 through the liquid suction holes I803 and the liquid suction holes II 804, the liquid suction cylinder 802 is supplemented, preparation can be automatically made for supplementing the liquid raw materials in the cavity 810 next time, when liquid in the tank body 1 flows through the stirring plate 809, the roller 814 can be driven to rotate in the opening 813 by using the scouring force of water flow, the liquid raw materials in the cavity 810 and base materials in the tank body 1 are combined in the rotating process of the roller 814, and quantitative proportioning of the raw materials is achieved.

Stirring board 809 is the cylindroid structure, and stirring board 809 inclines inclined and places, and inclination is less than 45 and is greater than 15, can let stirring board 809 neither influence the rotation of the liquid base stock in jar body 1 under centrifugal force, again can the flow tension of make full use of rivers drive the column 814 and rotate to guarantee stirring board 809 when realizing the stirring function, can also carry out directional ratio to the liquid raw materials that flow through.

The first liquid suction hole 803, the second liquid suction hole 804, the perforation 806, the telescopic sleeve 807 and the connecting pipe 812 form a liquid injection channel, which is beneficial for liquid raw materials in the liquid suction cylinder 802 to enter a cavity 810 of the stirring plate 809.

The first one-way valve 815 is fixedly installed on the first liquid suction hole 803, the second one-way valve 816 is fixedly installed on the perforation 806, the first one-way valve 815 can ensure that liquid raw materials in the liquid suction cylinder 802 cannot flow back into the liquid storage tank 801, liquid in the liquid suction cylinder 802 can enter the perforation 806 through the second one-way valve 816, the second one-way valve 816 can also seal the perforation 806, and suction can be formed when the moving plate 805 moves downwards in the liquid suction cylinder 802.

The stirring component 7 drives the quantitative proportioning component 8 to rotate radially through the radial stirring component 9, and the radial movement of the stirring plate 809 is realized.

1-5, the radial agitation assembly 9 includes a bearing 901, a fixed ring 902, a driven gear 903, a drive gear 904, and a transmission gear 905;

a fixing ring 902 is fixedly arranged in the first through hole 705 through a bearing 901, a driven gear 903 is fixedly arranged on the inner diameter of the fixing ring 902, a driving gear 904 is fixedly arranged on the rotating shaft 704, the driving gear 904 and the driven gear 903 are meshed through a transmission gear 905, a second through hole 906 is formed in the fixing ring 902, the liquid suction cylinder 802 penetrates through the second through hole 906 and is in interference fit, when the rotating shaft 704 rotates, the rotating shaft 704 can drive the driving gear 904 to synchronously rotate, the driving gear 904 can drive the driven gear 903 to rotate through the transmission gear 905 in the rotating process, the rotating direction of the driven gear 903 is opposite to that of the driving gear 904, meanwhile, the driven gear 903 can drive the fixing ring 902 to synchronously rotate in the bearing 901 in the rotating process, and the liquid suction cylinder 802 can be driven to synchronously rotate, and the liquid suction cylinder 802 can drive the stirring plate 809 to move radially through the moving plate 805 and the telescopic sleeve 807 while rotating, so that the stirring effect of the stirring plate 809 can be improved, and the contact between the stirring plate 809 and the liquid raw materials can be improved.

The working principle of the invention is as follows:

when carrying out lubricated mucilage preparation, carry the stoste through feed liquor pipe 6 and enter into jar body 1 in, meanwhile, start stirring subassembly 7, make stirring subassembly 7 utilize rotatory centrifugal force to drive the liquid in jar body 1 and rotate, drive the operation of ration ratio subassembly 8, let ration ratio subassembly 8 carry out the ration and inhale another kind of stoste in the operation process, and can carry the different aspect of jar body 1 with another kind of stoste of inhaling, make the liquid of the different aspect of jar body 1 all can combine with another kind of stoste ration at the stirring in-process, make its composition ratio of the mucilage of preparing meet the requirements, improve the result of use of lubricated mucilage.

Through starting driving motor 703, driving motor 703's output shaft can drive stirring roller 706 through pivot 704 in rotatory process and carry out synchronous high-speed rotatory, utilizes stirring roller 706's high-speed rotation for the liquid of jar body 1 can carry out the rotation with the direction of rotation under stirring roller 706's centrifugal force, thereby lets jar internal liquid can periodic stirring, is favorable to promoting the mixture between the liquid raw materials.

When the stirring plate 809 moves upwards along with the rotation of the stirring roller 706, the stirring plate 809 can gradually compress the telescopic sleeve 807 in the process of moving upwards until the telescopic sleeve 807 lifts the moving plate 805, so that the moving plate 805 moves upwards in the liquid suction cylinder 802, and thus the liquid raw material in the liquid suction cylinder 802 can be extruded, so that the liquid raw material enters the telescopic sleeve 807 through the through holes 806, and then enters the cavity 810 of the stirring plate 809 through the connecting pipe 812, so that the liquid raw material in the cavity 810 is supplemented, when the stirring plate 809 moves downwards along with the rotation of the stirring roller 706, the stirring plate 809 moves downwards along with the gradual movement until the moving plate 805 is driven by the telescopic sleeve 807 to move downwards in the liquid suction cylinder 802, at this time, the stirring plate 809 can generate suction force to the liquid suction cylinder 802 along with the downward movement of the moving plate 805, so that the liquid raw material in the liquid storage cylinder 801 can be sucked into the liquid suction cylinder 802 through the liquid suction holes one 803 and the two liquid suction holes 804, the liquid material in the cavity 810 can be automatically prepared for replenishing the liquid raw material in the cavity 802 next time after the liquid in the tank body 1 passes through the stirring plate 809 in the flowing process, the roller 814 can be driven to rotate in the opening 813 by using the scouring force of water flow, and the liquid raw material in the cavity 810 and the base material in the tank body 1 are combined in the rotating process of the roller 814, so that the quantitative proportioning between the raw materials is realized.

When the rotating shaft 704 rotates, the rotating shaft 704 can drive the driving gear 904 to synchronously rotate, the driving gear 904 can drive the driven gear 903 to rotate through the transmission gear 905 in the rotating process, the rotating direction of the driven gear 903 is opposite to that of the driving gear 904, meanwhile, the driven gear 903 can drive the fixing ring 902 to synchronously rotate in the bearing 901 in the rotating process, the liquid suction cylinder 802 can be driven to synchronously rotate, the stirring plate 809 can be driven to radially move through the moving plate 805 and the telescopic sleeve 807 when the liquid suction cylinder 802 rotates, the stirring effect of the stirring plate 809 can be improved, and meanwhile, the contact between the stirring plate 809 and a liquid raw material is improved.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a lubricating mortar ration agitating unit which characterized in that: this quantitative proportioning stirring device of lubricating cement includes a jar body (1), liquid outlet (2) have been seted up to the bottom of jar body (1), fixed mounting has flowing back valve (3) on liquid outlet (2), fixedly connected with drain pipe (4) on flowing back valve (3), inlet (5) have been seted up on jar body (1), fixedly connected with feed liquor pipe (6) in inlet (5), install stirring subassembly (7) and quantitative proportioning subassembly (8) on jar body (1), stirring subassembly (7) cooperate with quantitative proportioning subassembly (8), and run through stirring subassembly (7) drive quantitative proportioning subassembly (8), stirring subassembly (7) include dead lever (701) The tank comprises a fixing plate (702), a driving motor (703), a rotating shaft (704), a first through hole (705) and a stirring roller (706), wherein the fixing rod (701) is fixedly installed at the top of the tank body (1), the fixing plate (702) is fixedly installed on the fixing rod (701), the driving motor (703) is fixedly installed on the fixing plate (702), the rotating shaft (704) is fixedly connected to an output shaft of the driving motor (703), the first through hole (705) is formed in the top of the tank body (1), the rotating shaft (704) penetrates through the first through hole (705), the stirring roller (706) is fixedly connected to the end part of the rotating shaft (704) located in the tank body (1), and a stirring plate (809) is installed on the stirring roller (706), the quantitative proportioning device is characterized in that a slideway (707) is arranged on the stirring roller (706), the slideway (707) is in the shape of an oval ring, a connecting rod (708) is fixedly mounted on the stirring plate (809), a roller (709) is sleeved at the end, far away from the stirring plate (809), of the connecting rod (708), the roller (709) is embedded in the slideway (707) in a rolling manner, the quantitative proportioning component (8) comprises a liquid storage tank (801), a liquid suction cylinder (802), a moving plate (805), a telescopic sleeve (807), a cavity (810), a connecting hole (811), a connecting pipe (812) and an opening (813), the liquid storage tank (801) is mounted on the tank body (1), the liquid suction cylinder (802) is fixedly mounted at the bottom of the liquid storage tank (801), and a liquid suction hole I (803) is formed in the liquid storage tank (801), the liquid suction barrel (802) is provided with a second liquid suction hole (804), the first liquid suction hole (803) and the second liquid suction hole (804) are connected in a butt joint mode, a moving plate (805) is installed in the liquid suction barrel (802) in a sliding mode, one side, far away from the second liquid suction hole (804), of the moving plate (805) is fixedly connected with a telescopic sleeve (807), the moving plate (805) is provided with a perforation hole (806), the perforation hole (806) and a pipe center of the telescopic sleeve (807) are located on the same central axis, and the liquid suction barrel (802)

The bottom of the telescopic sleeve (807) is provided with a sliding hole (808), the telescopic sleeve (807) penetrates through the sliding hole (808), and the telescopic sleeve is extended

The flexible end of shrinkage pipe (807) is connected with stirring board (809), be equipped with cavity (810) in stirring board (809), connecting hole (811) have been seted up on cavity (810), connecting pipe (812) are connected with to the solid in connecting hole (811), connecting pipe (812) link to each other with the flexible end of flexible sleeve (807), trompil (813) have been seted up on stirring board (809), roller (814) are installed to trompil (813) internal rotation.

2. The quantitative proportioning and stirring device for lubricating cement of claim 1, wherein: the stirring plate (809) is of an elliptic cylinder structure, the stirring plate (809) is obliquely arranged, and the inclination angle is smaller than 45 degrees and larger than 15 degrees.

3. The quantitative proportioning and stirring device for lubricating cement of claim 2, wherein: the liquid injection channel is formed by the liquid suction hole I (803), the liquid suction hole II (804), the perforation hole (806), the telescopic sleeve (807) and the connecting pipe (812).

4. The quantitative proportioning and stirring device for lubricating cement of claim 3, wherein: a first one-way valve (815) is fixedly installed on the first liquid suction hole (803), and a second one-way valve (816) is fixedly installed on the perforation (806).

5. The quantitative proportioning and stirring device for lubricating cement of claim 4, wherein: the stirring component (7) drives the quantitative proportioning component (8) to radially rotate through the radial stirring component (9), so that the radial movement of the stirring plate (809) is realized.

6. The quantitative proportioning and stirring device for lubricating cement of claim 5, wherein: the radial stirring assembly (9) comprises a bearing (901), a fixed ring (902), a driven gear (903), a driving gear (904) and a transmission gear (905);

fixed ring (902) is fixedly mounted in through-hole one (705) through bearing (901), fixed gear (903) is fixedly mounted on the ring internal diameter of fixed ring (902), fixed gear (904) is mounted on rotating shaft (704), driving gear (904) and driven gear (903) are meshed through transmission gear (905), through-hole two (906) have been seted up on fixed ring (902), inhale liquid section of thick bamboo (802) and run through-hole two (906), and be interference fit.

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