CN108654416B

CN108654416B - Stirring equipment for paint

Info

Publication number: CN108654416B
Application number: CN201810614902.2A
Authority: CN
Inventors: 罗德富
Original assignee: Chongqing Aluo Network Technology Co ltd
Current assignee: Chongqing Aluo Network Technology Co ltd
Priority date: 2018-06-14
Filing date: 2018-06-14
Publication date: 2024-04-16
Anticipated expiration: 2038-06-14
Also published as: CN108654416A

Abstract

The invention belongs to the field of stirring devices, and particularly discloses stirring equipment for paint, which comprises a liquid inlet mechanism, a liquid suction driving mechanism, a stirring mechanism and a liquid discharge mechanism; the liquid inlet mechanism comprises a liquid inlet column, a plurality of layered suction pipes which are communicated with the liquid inlet column are arranged on the side wall of the liquid inlet column, and the layered suction pipes extend along the axial direction of the liquid inlet column; the liquid suction driving mechanism comprises a shell, a cylindrical screw and a pressurizing tooth are rotationally arranged in the shell, the rotation axes of the cylindrical screw and the pressurizing tooth are mutually perpendicular, the pressurizing tooth is meshed with a screw groove of the cylindrical screw, the outer edge of the pressurizing tooth is propped against the bottom of the screw groove of the cylindrical screw, a liquid inlet is formed in the shell on one side of the cylindrical screw, a liquid outlet plug is rotationally connected with the other side of the cylindrical screw, the liquid outlet plug is fixedly connected with the cylindrical screw, a plurality of liquid outlets which are respectively communicated with the screw grooves of the cylindrical screw are formed in the liquid outlet plug, and the liquid inlet is communicated with the liquid inlet column. The invention can stir more uniformly when stirring the paint.

Description

Stirring equipment for paint

Technical Field

The invention relates to the field of stirring devices, in particular to stirring equipment for paint.

Background

There are many types of mixers on the market including impellers suitable for low viscosity and medium viscosity fluids, such as paddle, open turbine, propeller, long thin blade propeller, disk turbine, cloth Lu Majin, plate and frame propeller, three blade back bend, MIG, and the like, and impellers suitable for high viscosity and ultra high viscosity fluids, such as ribbon impellers, screws, anchors, frames, propellers, and the like.

At present, low-viscosity paint used for buildings can generate precipitation, paint contained in a paint bucket needs to be stirred when the paint stirring device is used at present, and in the stirring device used at present, impeller type, turbine type and propeller type are commonly used, however, when the existing stirrer is used for stirring through a blade, the lower-layer paint and the upper-layer paint cannot be mixed, so that stirring is uneven, and the stirring effect is poor. In addition, when the paint is stirred, harmful gas is easy to volatilize into the air, so that the environment is polluted, and the health of operators is endangered.

Disclosure of Invention

The invention aims to provide stirring equipment for paint, which can stir uniformly.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the stirring equipment for the paint comprises a liquid inlet mechanism, a liquid suction driving mechanism, a stirring mechanism and a liquid discharge mechanism; the liquid inlet mechanism comprises a liquid inlet column, a plurality of layered suction pipes which are communicated with the liquid inlet column are arranged on the side wall of the liquid inlet column, and the layered suction pipes extend along the axial direction of the liquid inlet column; the liquid suction driving mechanism comprises a shell, a cylindrical screw and a pressurizing tooth are rotationally arranged in the shell, the rotation axes of the cylindrical screw and the pressurizing tooth are mutually perpendicular, the pressurizing tooth is meshed with a screw groove of the cylindrical screw, the outer edge of the pressurizing tooth is propped against the bottom of the screw groove of the cylindrical screw, a liquid inlet is formed in the shell on one side of the cylindrical screw, a liquid outlet plug is rotationally connected with the other side of the cylindrical screw, the liquid outlet plug is fixedly connected with the cylindrical screw, a plurality of liquid outlets which are respectively communicated with the screw grooves of the cylindrical screw are formed in the liquid outlet plug, and the liquid inlet is communicated with the liquid inlet column; the stirring mechanism comprises a stirring cylinder, the top of the stirring cylinder is communicated with a liquid outlet on the shell, a stirring shaft is rotationally connected to the stirring cylinder, and a driving disc and stirring blades are fixed on the stirring shaft; the liquid draining mechanism comprises a liquid draining pipe communicated with the bottom of the stirring cylinder.

The principle of the scheme is as follows:

the liquid feeding mechanism is used for sucking up the paint in the paint bucket, the liquid suction driving mechanism is used for generating suction force so that the paint in the paint bucket can enter the liquid feeding mechanism, namely, the liquid suction driving mechanism is used as a power source of the liquid feeding mechanism, the stirring mechanism is used for stirring the paint discharged by the liquid suction driving mechanism uniformly, and the liquid discharging mechanism is used for discharging the paint discharged by the stirring mechanism into the paint bucket for containing the paint.

In the liquid inlet mechanism, a plurality of layering straws are used for sucking all layers of paint of the paint bucket into a liquid inlet column.

In the liquid suction driving mechanism, a closed space is formed between a screw groove of a cylindrical screw and a shell, the cylindrical screw and a pressurizing tooth form a pair of spherical worm pairs, the cylindrical screw rotates to drive the pressurizing tooth meshed with the cylindrical screw to rotate, the closed space is equivalent to a plurality of piston cavities, the pressurizing tooth acts as a piston reciprocating in the piston cavities, when the pressurizing tooth moves relatively in the screw groove of the cylindrical screw, the volume of the closed space close to one side of a liquid inlet is gradually increased, negative pressure is generated to suck paint in a paint bucket into the closed space at one side through the liquid inlet on the liquid inlet column and the shell, the strong suction force generated by the negative pressure realizes the first uniform mixing of the paint in the closed space at one side, the volume of the closed space close to one side of a liquid outlet is gradually reduced, the paint pressure in the closed space at one side is increased to realize the pressurizing of the paint, the paint is discharged through the liquid outlet, and the paint moves spirally in the screw groove.

In the rabbling mechanism, helical movement's coating strikes on the driving disk for the driving disk produces rotatablely, and the coating falls down from the driving disk border again, and the driving disk rotates and is used for driving the (mixing) shaft rotation, and the (mixing) shaft rotation is used for driving the rotatory stirring leaf of epaxial fixed stirring, stirs the coating in the churn evenly, realizes the secondary misce bene to the coating from this.

In the liquid discharge mechanism, the liquid discharge pipe is used for discharging the paint which is uniformly stirred by the stirring cylinder into the paint bucket, and as the paint which enters the paint bucket is high-pressure paint, the high-pressure paint can roll in the paint bucket, so that the paint is uniformly mixed for the third time.

The following technical effects can be achieved by adopting the scheme:

1. in the stirring process, the upper layer of paint in the paint bucket and the lower layer of paint are sucked into the stirring barrel through the liquid suction driving mechanism to be stirred, and then the stirred paint is introduced into the paint bucket and circulated for a plurality of times, so that the paint can be uniformly stirred, and the problem that the traditional stirrer cannot mix the lower layer of paint with the upper layer of paint to cause non-uniform stirring is solved.

2. The liquid suction driving mechanism adopts a form of matching a shell, a cylindrical screw and pressurizing teeth, so that the effect of pumping paint can be achieved, the paint can be pressurized on the other hand, and the paint after stirring is convenient to roll in the paint barrel.

3. The paint moves in the screw groove of the cylindrical screw rod, so that the paint still makes spiral movement due to inertia when being discharged out of the screw groove, the spiral movement is used as stirring power, and an additional power mechanism is not needed to drive the stirring shaft to move.

4. The paint in the paint bucket can be thoroughly and uniformly mixed by mixing the paint for multiple times and combining in various uniformly mixing modes.

5. Because stirring is performed in the stirring cylinder, and the stirred paint is directly introduced into the paint cylinder, harmful gas generated during stirring the paint can not volatilize into the air, and the paint can not splash, so that the paint is safe and environment-friendly.

Further, the number of layered straws is two. One of the layered suction pipes is used for sucking the paint on the upper layer of the paint bucket into the liquid inlet column, and the other layered suction pipe is used for sucking the paint on the upper layer of the paint bucket into the liquid inlet column, so that the upper layer and the lower layer of the paint in the paint bucket are mixed.

Further, the liquid inlet column is fixedly connected with a supporting seat, the supporting seat is rotationally connected with a gear and is slidably connected with two vertical racks, the two racks are respectively meshed with two sides of the gear, the two layered suction pipes are respectively fixedly connected with the two racks, and the two layered suction pipes are corrugated pipes. Because the height of the paint in the paint bucket is uncertain, the two racks can vertically move in opposite directions or move in opposite directions through the rotation of the gears, so that the two layered suction pipes can be positioned at the upper layer and the lower layer of the paint all the time.

Further, the driving disk is conical, and the large diameter end of the driving disk faces downwards and the small diameter end of the driving disk faces upwards. The driving disc is conical, so that paint can smoothly flow down from the edge of the driving disc after impacting on the driving disc, and the contact area between the paint and the driving disc can be increased, friction between the paint and the driving disc is increased, and the paint can more easily rotate the driving disc.

Further, the upper surface of the driving disc is provided with a plurality of radial convex strips. After the paint impacts the driving disc, the convex strips on the upper surface of the driving disc can be given a tangential thrust along the driving disc, and the driving disc can be pushed to rotate more easily.

Further, the fluid-discharge tube is communicated with a hollow fluid-discharge rod which is transversely arranged, and a plurality of fluid-discharge ports are arranged at the bottom of the fluid-discharge rod. The liquid discharged from the liquid discharge pipe can enter the hollow liquid discharge rod, and is discharged into the paint bucket through a plurality of liquid discharge ports at the bottom of the liquid discharge rod, so that the paint at each position in the transverse direction in the paint bucket can be uniformly rolled, and the paint mixing speed is higher.

Further, the number of the pressurizing teeth is two. The number of the pressurizing teeth is equal to the number of the piston cavities and is doubled, and the suction and pressurizing effects on the paint are doubled.

Drawings

Fig. 1 is a front view of an embodiment of the present invention.

Detailed Description

The following is a further detailed description of the embodiments:

reference numerals in the drawings of the specification include: paint bucket 1, liquid inlet column 2, supporting seat 3, supporting shaft 4, gear 40, upper rack 51, lower rack 52, upper layering straw 61, lower layering straw 62, casing 7, liquid inlet 71, cylindrical screw 8, pivot 81, helicoid groove 80, pressure boost tooth 9, drive shaft 90, liquid outlet plug 10, liquid outlet 100, motor 11, hold-in range 12, churn 13, liquid outlet 130, stirring axle 14, driving disk 15, sand grip 150, stirring leaf 16, liquid discharge tube 17, liquid discharge rod 18.

As shown in fig. 1, the stirring device for paint of the present embodiment includes a liquid feeding mechanism, a liquid suction driving mechanism, a stirring mechanism, and a liquid discharging mechanism.

The liquid inlet mechanism comprises a liquid inlet column 2, an upper layered straw 61 and a lower layered straw 62 which are communicated with the liquid inlet column 2 are fixed on the side wall of the liquid inlet column 2, the upper layered straw 61 and the lower layered straw 62 are corrugated pipes, and the upper layered straw 61 is located above the lower layered straw 62. The integrated into one piece of liquid column 2 has a supporting seat 3, rotates through the bearing on the supporting seat 3 and is connected with back shaft 4, and back shaft 4 is equipped with gear 40 through the flat key cover, and vertical sliding connection has upper rack 51 and lower floor's rack 52 on the supporting seat 3 still, and upper rack 51 and lower floor's rack 52 mesh respectively in gear 40 both sides, upper rack 51 top and upper layering straw 61 fixed connection, lower floor's rack 52 bottom and lower layering straw 62 fixed connection.

The liquid suction driving mechanism comprises a shell 7, a motor 11 is arranged outside the shell 7, a vertical rotating shaft 81 and two transverse driving shafts 90 are rotatably connected in the shell 7 through bearings, the motor 11 is connected with the rotating shaft 81 through a synchronous belt, a cylindrical screw rod 8 is fixedly sleeved on the rotating shaft 81, the two driving shafts 90 are respectively positioned on the left side and the right side of the cylindrical screw rod 8, pressurizing teeth 9 are respectively arranged on the driving shafts 90 through flat key sleeves, the rotating axes of the cylindrical screw rod 8 and the driving shafts 90 are mutually perpendicular, the cylindrical screw rod 8 is provided with six screw grooves 80, the pressurizing teeth 9 are meshed with the screw grooves 80 of the cylindrical screw rod 8, the outer edges of the pressurizing teeth 9 are abutted against the bottom of the screw grooves 80 of the cylindrical screw rod 8, a liquid inlet 71 is formed in the top of the shell 7, a liquid outlet plug 10 is rotatably connected with the cylindrical screw rod 8, six liquid outlets 100 are formed in the liquid outlet plug 10 and are respectively communicated with the six screw grooves 80 of the cylindrical screw rod 8, and the liquid inlet 71 is communicated with the liquid inlet column 2.

The stirring mechanism comprises a stirring cylinder 13 which is vertically arranged, the top of the stirring cylinder 13 is fixedly connected with the bottom of the shell 7, the top of the stirring cylinder 13 is communicated with a liquid outlet 100 on the shell 7, a vertical stirring shaft 14 is rotationally connected to the stirring cylinder 13, a transverse driving disc 15 and stirring blades 16 are welded on the stirring shaft 14, the driving disc 15 is positioned above the stirring blades 16, the driving disc 15 is conical, the large diameter end of the driving disc is downward, the small diameter end of the driving disc is upward, a plurality of radial convex strips 150 are arranged on the upper surface of the driving disc 15, and a liquid outlet 130 is formed in the bottom of the stirring cylinder 13.

The liquid discharging mechanism comprises a vertical liquid discharging pipe 17 communicated with the bottom of the stirring cylinder 13, the liquid discharging pipe 17 is communicated with a hollow liquid discharging rod 18, the liquid discharging rod 18 is transversely arranged, and a plurality of liquid discharging ports are uniformly formed in the bottom of the liquid discharging rod 18.

In the stirring apparatus for paint of this embodiment, in specific use, the liquid inlet column 2 is inserted into the paint bucket 1, the gear 40 is rotated according to the height of paint in the paint bucket 1, the gear 40 drives the upper rack 51 and the lower rack 52 to move, and the upper rack 51 and the lower rack 52 respectively drive the upper layered straw 61 and the lower layered straw 62 to move until the free ends of the upper layered straw 61 and the lower layered straw 62 are respectively located at the upper layer and the lower layer of paint in the paint bucket 1. Then, the motor 11 is started to switch, the motor 11 rotates through the rotating shaft 81 of the synchronous belt 12, the rotating shaft 81 drives the cylindrical screw rod 8 to rotate, a closed space is formed between the screw groove 80 of the cylindrical screw rod 8 and the shell 7 due to the fact that the cylindrical screw rod 8 is meshed with the pressurizing teeth 9, the cylindrical screw rod 8 rotates to drive the pressurizing teeth 9 meshed with the cylindrical screw rod 8 to rotate, the pressurizing teeth 9 relatively slide in the screw groove 80, the closed space corresponds to a plurality of piston cavities, the pressurizing teeth 9 act as pistons reciprocating in the piston cavities, when the pressurizing teeth 9 relatively move in the screw groove 80 of the cylindrical screw rod 8, the volume of the closed space close to one side of the liquid inlet 71 is gradually increased, negative pressure is generated to suck paint in the paint barrel 1 into the closed space on the side through the liquid inlet 71 on the liquid inlet 2 and the shell 7, the first uniform mixing of the paint in the closed space on the side is achieved, the volume of the closed space on the side close to the liquid outlet 10 is gradually reduced, the paint pressure in the closed space on the side is increased, the paint in the closed space on the side is achieved, the paint in the side of the closed space is discharged from the screw groove 80 due to the fact that the liquid outlet of the paint is in the spiral cavity 80 moves obliquely through the screw grooves 100. The coating in tilting motion hits the driving disc 15, and through the friction between the coating and the upper surface of the driving disc 15 and the thrust of the coating to the raised strips 150 on the upper surface of the driving disc 15, the driving disc 15 rotates, the coating falls down from the edge of the driving disc 15 and enters the stirring cylinder 13, the driving disc 15 rotates to drive the stirring shaft 14 and the stirring blades 16 fixed on the stirring shaft 14 to rotate, and the coating in the stirring cylinder 13 is uniformly stirred, so that the second uniform mixing of the coating is realized. The paint which is stirred in the stirring cylinder 13 enters the hollow liquid discharging rod 18 through the liquid discharging pipe 17, and is discharged into the paint bucket 1 through a plurality of liquid discharging ports at the bottom of the liquid discharging rod 18, and the paint discharged from the liquid discharging rod 18 is high-pressure paint, so that the high-pressure paint can roll in the paint bucket 1, and the paint is uniformly mixed for the third time. According to the invention, the upper layer coating and the lower layer coating in the coating barrel 1 are mixed and then stirred, and the stirred coating is directly communicated into the coating barrel 1, so that the coating can be uniformly stirred through multiple times of circulation, and the problem that the traditional stirrer cannot mix the lower layer coating and the upper layer coating to cause non-uniform stirring is solved; the liquid suction driving mechanism adopts a mode of matching the shell 7, the cylindrical screw rod 8 and the pressurizing teeth 9, so that the paint discharged from the screw groove 80 can drive the stirring shaft 14 to stir without additional stirring power; in addition, stirring is performed in the stirring cylinder 13, and the stirred paint is directly introduced into the paint bucket 1, so that harmful gas generated during stirring the paint can not volatilize into the air, and the paint can not splash out, thereby being safe and environment-friendly.

The foregoing is merely exemplary embodiments of the present invention, and specific structures and features that are well known in the art are not described in detail herein. It should be noted that modifications and improvements can be made by those skilled in the art without departing from the structure of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims

1. The stirring equipment for the paint is characterized by comprising a liquid inlet mechanism, a liquid suction driving mechanism, a stirring mechanism and a liquid discharge mechanism; the liquid inlet mechanism comprises a liquid inlet column, a plurality of layered suction pipes which are communicated with the liquid inlet column are arranged on the side wall of the liquid inlet column, and the layered suction pipes extend along the axial direction of the liquid inlet column; the layered straw comprises an upper layered straw and a lower layered straw; the upper layered straw is positioned above the lower layered straw; the liquid inlet column is fixedly connected with a supporting seat, the supporting seat is rotationally connected with a gear and is slidably connected with two vertical racks, namely an upper layer rack and a lower layer rack, the upper layer rack and the lower layer rack are respectively meshed with two sides of the gear, the top end of the upper layer rack is fixedly connected with an upper layered straw, and the bottom end of the lower layer rack is fixedly connected with a lower layered straw;

the liquid suction driving mechanism comprises a shell, a cylindrical screw and a pressurizing tooth are rotationally arranged in the shell, the rotation axes of the cylindrical screw and the pressurizing tooth are mutually perpendicular, the pressurizing tooth is meshed with a screw groove of the cylindrical screw, the outer edge of the pressurizing tooth is propped against the bottom of the screw groove of the cylindrical screw, a liquid inlet is formed in the shell on one side of the cylindrical screw, a liquid outlet plug is rotationally connected to the other side of the cylindrical screw, the liquid outlet plug is fixedly connected with the cylindrical screw, a plurality of liquid outlets which are respectively communicated with the screw grooves of the cylindrical screw are formed in the liquid outlet plug, and the liquid inlet is communicated with a liquid inlet column; the stirring mechanism comprises a stirring cylinder, the top of the stirring cylinder is communicated with a liquid outlet on the shell, a stirring shaft is rotationally connected to the stirring cylinder, and a driving disc and stirring blades are fixed on the stirring shaft; the liquid draining mechanism comprises a liquid draining pipe communicated with the bottom of the stirring cylinder.

2. The stirring apparatus for paint as set forth in claim 1, wherein: the upper layered straw and the lower layered straw are corrugated pipes.

3. The stirring apparatus for paint as set forth in claim 2, wherein: the driving disc is conical, and the large diameter end of the driving disc faces downwards and the small diameter end of the driving disc faces upwards.

4. A stirring apparatus for paint as set forth in claim 3, wherein: the upper surface of the driving disc is provided with a plurality of radial convex strips.

5. The stirring apparatus for paint as set forth in claim 4, wherein: the liquid discharge pipe is communicated with a hollow liquid discharge rod, the liquid discharge rod is transversely arranged, and a plurality of liquid discharge ports are formed in the bottom of the liquid discharge rod.