CN210905741U

CN210905741U - Cutting fluid additive conveying device

Info

Publication number: CN210905741U
Application number: CN201921356842.5U
Authority: CN
Inventors: 赵天祥
Original assignee: Hubei Chengxiang Technology Co ltd
Current assignee: Hubei Chengxiang Technology Co ltd
Priority date: 2019-08-20
Filing date: 2019-08-20
Publication date: 2020-07-03
Anticipated expiration: 2029-08-20

Abstract

The utility model discloses a cutting fluid additive conveyor, including casing and servo motor, the upper left side of casing is connected with sealed lid, and is provided with the solid feed inlet below the left side of sealed lid to the right side below of sealed lid is provided with the liquid feed inlet, be fixed with the baffle in the middle of the internal surface of casing, and be fixed with the adsorbed layer on the left side surface of baffle and the left side internal surface of casing to the cooling tube has been seted up on the right side surface of baffle and the right side internal surface of casing. This cutting fluid additive conveyor is provided with adsorbed layer and cooling tube, and adsorbed layer and cooling tube all set up on the casing, and the active carbon material on adsorbed layer surface can adsorb the surperficial moisture of solid additive, and the inside coolant liquid of cooling tube can carry out the subcooling to liquid additive, can carry out drying process and subcooling to solid additive and liquid additive respectively and handle, has guaranteed their chemical properties.

Description

Cutting fluid additive conveying device

Technical Field

The utility model relates to a cutting fluid technical field specifically is a cutting fluid additive conveyor.

Background

When the cutting fluid is processed, some additives need to be added into the cutting fluid for reaction, and the following problems can occur when the additives are conveyed by the conveying device on the market at present;

1. because the shell on the market can only store the additive in one form, when the solid additive and the liquid additive are required to be simultaneously conveyed into the cutting fluid, the two shells are required to be simultaneously conveyed, so that excessive space is occupied;

2. since the additive is stored in the box, we can find that the solid additive is affected by moisture in the space during the storage process, and the liquid additive needs to be stored at low temperature due to its chemical property, and the shell of the conveying device in the market cannot be stored at low temperature.

Therefore, the cutting fluid additive conveying device can well solve the problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cutting fluid additive conveyor to cutting fluid additive is in the transportation process on solving the existing market that above-mentioned background art provided, and same casing can not store the additive of two kinds of different forms, can not stir it when storing and can not carry out drying process and the problem of cryogenic cooling processing to the additive.

In order to achieve the above object, the utility model provides a following technical scheme: a cutting fluid additive conveying device comprises a shell and a servo motor, wherein a sealing cover is connected to the upper left of the shell, a solid feeding hole is formed in the lower left of the sealing cover, a liquid feeding hole is formed in the lower right of the sealing cover, a partition plate is fixed to the middle of the inner surface of the shell, an adsorption layer is fixed to the outer surface of the left side of the partition plate and the inner surface of the left side of the shell, cooling pipes are arranged on the outer surface of the right side of the partition plate and the inner surface of the right side of the shell, a solid discharging pipe is connected to the lower left of the shell, a solid control valve is arranged right below the solid discharging pipe, a solid temporary storage box is arranged below the solid control valve, a liquid discharging pipe is connected to the lower right corner of the shell, a liquid control valve is arranged below the liquid discharging pipe, a liquid temporary storage box is arranged below the liquid, and the top of rotary rod is fixed with the puddler, the below surface threaded connection of rotary rod has the swash plate, and the outside at both ends all is provided with the spout about the swash plate, the upper left side of swash plate is fixed with the arc, and the left front side of swash plate is inside to be seted up and to dredge the pipe, the spout has been seted up to the below inboard of casing.

Preferably, the housing and the partition constitute an integrated structure, and the partition has an inclined zigzag structure, and the partition divides the housing into two parts in equal areas.

Preferably, the diameter of the solids discharge pipe is greater than the diameter of the liquids discharge pipe, and the solids discharge pipe and the housing are parallel to each other, and the liquids discharge pipe and the housing are perpendicular to each other.

Preferably, the adsorption layer and the shell are connected in a bonding mode, and the surface area of the adsorption layer is greater than 1/2 of the surface area of the shell.

Preferably, the cooling pipe and the housing form an integrated structure, and the inside of the cooling pipe is a hollow structure.

Preferably, the connection mode of puddler and rotating rod is welding, and the puddler distributes around the rotating rod equidistantly.

Preferably, arc, swash plate and dredging pipe constitute the integral structure, and the left surface and the adsorbed layer of arc laminate mutually to the height that highly is greater than the spout of arc, dredging pipe simultaneously and being the structure of falling the trapezium, the minimum diameter of dredging the pipe moreover is less than the diameter of solid discharging pipe.

Compared with the prior art, the beneficial effects of the utility model are that: the cutting fluid additive conveying device;

(1) the device is provided with a shell and a partition board, the interior of the shell is divided into two parts through the partition board, so that a solid additive and a liquid additive can be placed in the same shell, the occupied space can be saved when the solid additive and the liquid additive are conveyed, meanwhile, the rotating rod drives the stirring rod to rotate, the solid additive agglomerated in the shell is scattered, and the solid additive is conveyed through the dredging pipe arranged on the inclined plate below the stirring rod, so that the chemical property of the solid additive is ensured;

(2) be provided with adsorbed layer and cooling tube, and adsorbed layer and cooling tube all set up on the casing, and the active carbon material on adsorbed layer surface can adsorb the surperficial moisture of solid additive, and the inside coolant liquid of cooling tube can carry out cryogenic cooling to liquid additive, can carry out drying process and cryogenic cooling to solid additive and liquid additive respectively and handle, guaranteed their chemical properties.

Drawings

FIG. 1 is a schematic view of the main section structure of the present invention;

FIG. 2 is a schematic left sectional view of the present invention;

FIG. 3 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 1 at B according to the present invention;

fig. 5 is an enlarged schematic structural view of the point C in fig. 2 according to the present invention.

In the figure: 1. a housing; 2. a sealing cover; 3. a solid discharge pipe; 4. a liquid discharge pipe; 5. an adsorption layer; 6. a cooling tube; 7. a partition plate; 8. a solids control valve; 9. a solid temporary storage box; 10. a liquid control valve; 11. a liquid temporary storage tank; 12. a solids feed port; 13. a liquid feed port; 14. a stirring rod; 15. rotating the rod; 16. a servo motor; 17. an arc-shaped plate; 18. a sloping plate; 19. a dredging pipe; 20. a chute.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a cutting fluid additive conveying device comprises a shell 1, a sealing cover 2, a solid discharging pipe 3, a liquid discharging pipe 4, an adsorption layer 5, a cooling pipe 6, a partition plate 7, a solid control valve 8, a solid temporary storage box 9, a liquid control valve 10, a liquid temporary storage box 11, a solid feeding hole 12, a liquid feeding hole 13, a stirring rod 14, a rotating rod 15, a servo motor 16, an arc plate 17, an inclined plate 18, a dredging pipe 19 and a sliding groove 20, wherein the sealing cover 2 is connected to the upper left of the shell 1, the solid feeding hole 12 is formed in the lower left of the sealing cover 2, the liquid feeding hole 13 is formed in the lower right of the sealing cover 2, the partition plate 7 is fixed in the middle of the inner surface of the shell 1, the adsorption layer 5 is fixed on the outer surface of the left side of the partition plate 7 and the inner surface of the left side of the shell 1, the cooling, the left side below of casing 1 is connected with solid discharging pipe 3, and be provided with solid control valve 8 under solid discharging pipe 3, and the below of solid control valve 8 is provided with solid temporary storage box 9, the lower right corner of casing 1 is connected with liquid discharging pipe 4, and the below of liquid discharging pipe 4 is provided with liquid control valve 10, and the below of liquid control valve 10 is provided with liquid temporary storage box 11, servo motor 16's output runs through casing 1 and is connected with rotary rod 15, and the top of rotary rod 15 is fixed with puddler 14, the below surface threaded connection of rotary rod 15 has swash plate 18, and the outside at both ends all is provided with spout 20 about swash plate 18, the upper left side of swash plate 18 is fixed with arc 17, and the inside pipe 19 of dredging of having seted up in the front left side of swash plate 18, spout 20 has been seted up to the below inboard of casing 1.

The shell 1 and the partition plate 7 form an integrated structure, the partition plate 7 is in an inclined Z-shaped structure, and the partition plate 7 divides the shell 1 into two parts in an equal area, so that two additives in different forms can be placed in the shell 1 at the same time.

The diameter of solid discharge pipe 3 is greater than the diameter of liquid discharge pipe 4, and solid discharge pipe 3 and casing 1 are parallel to each other, and liquid discharge pipe 4 and casing 1 are mutually perpendicular for solid additive can smoothly flow out in solid discharge pipe 3, and liquid additive can smoothly flow out in liquid discharge pipe 4 simultaneously.

The connection mode of the adsorption layer 5 and the shell 1 is bonding, and the surface area of the adsorption layer 5 is greater than 1/2 of the surface area of the shell 1, so that the adsorption layer 5 can adsorb moisture on the surface of the solid additive, and the solid additive is prevented from being affected by moisture and caking to influence the chemical property of the solid additive.

The cooling pipe 6 and the shell 1 form an integrated structure, and the inside of the cooling pipe 6 is of a hollow structure, so that cooling liquid can be added into the cooling pipe 6, and the liquid additive can be cooled.

The connected mode of puddler 14 and rotary rod 15 is the welding, and puddler 14 distributes around rotary rod 15 equidistantly for servo motor 16 can drive rotary rod 15 and rotate, and rotary rod 15 drives puddler 14 simultaneously and rotates together, will stir the solid additive of caking like this in with casing 1 and smash.

Arc 17, swash plate 18 and dredge pipe 19 and constitute the integral structure, and the left surface of arc 17 and adsorbed layer 5 laminate mutually, and the height that highly is greater than spout 20 of arc 17, it is the trapezoidal structure to dredge pipe 19 simultaneously, and the minimum diameter of dredging pipe 19 is less than the diameter of solid discharging pipe 3, when making arc 17 and swash plate 18 slide from top to bottom in spout 20, the solid additive can not enter into spout 20, the solid additive can be smoothly carried in solid discharging pipe 3 from dredging pipe 19 simultaneously.

The working principle is as follows: in using the cutting fluid additive conveying device, according to fig. 1-3, firstly, as shown in fig. 1, the sealing cover 2 is opened from the housing 1 by screw rotation, then the solid additive is put into the housing 1 from the solid feed port 12, and the liquid additive is put into the housing 1 from the liquid feed port 13, then the sealing cover 2 is closed by the rotation, the moisture on the surface of the solid additive is adsorbed by the activated carbon material of the adsorption layer 5 on the inner surface of the left side of the housing 1, and simultaneously the cooling fluid in the cooling pipe 6 on the inner surface of the right side of the housing 1 carries out low-temperature cooling treatment on the liquid additive.

Then the servo motor 16 is turned on, the output end of the servo motor 16 drives the rotating rod 15 to rotate, at this time, the rotating rod 15 drives the stirring rod 14 to rotate, so that the agglomerated solid additives in the shell 1 can be scattered, meanwhile, the inclined plate 18 in threaded connection with the outer surface of the rotating rod 15 can also rise along with the rotation of the rotating rod 15, when the inclined plate 18 rises to the highest point of the chute 20 at the right end of the inclined plate 18, the servo motor 16 drives the rotating rod 15 to rotate reversely, until the inclined plate 18 drops to the lowest point of the chute 20 at the left end of the inclined plate 18, the servo motor 16 can rotate positively, so that the inclined plate 18 can move up and down in the chute 20, as the height of the arc-shaped plate 17 is greater than that of the chute 20, and when the arc-shaped plate 17 and the inclined plate 18 slide up and down in the chute 20, the solid additives, the minimum diameter of the dredging pipe 19 is smaller than the diameter of the solid discharging pipe 3, so that the solid additive in the housing 1 is conveyed from the dredging pipe 19 formed on the inclined plate 18 into the solid discharging pipe 3.

And rotating the solid control valve 8 below the solid discharge pipe 3 by 90 degrees, allowing the solid additive in the shell 1 to reach the solid temporary storage tank 9 along with the solid discharge pipe 3, rotating and opening the solid control valve 8 below the solid temporary storage tank 9 when the solid additive in the solid temporary storage tank 9 needs to be conveyed to a next device, rotating the liquid control valve 10 below the liquid discharge pipe 4 by 90 degrees in the same way, allowing the liquid additive in the shell 1 to reach the liquid temporary storage tank 11 along with the liquid discharge pipe 4, and when the liquid additive in the liquid temporary storage tank 11 needs to be conveyed to the next device, rotating and opening the liquid control valve 10 below the liquid temporary storage tank 11, and conveying the liquid additive from the liquid temporary storage tank 11 to the next device, so as to complete the whole process.

Those not described in detail in this specification are within the skill of the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. A cutting fluid additive delivery device comprises a shell (1) and a servo motor (16), and is characterized in that: the device is characterized in that a sealing cover (2) is connected to the upper left of the shell (1), a solid feeding hole (12) is formed in the lower left of the sealing cover (2), a liquid feeding hole (13) is formed in the lower right of the sealing cover (2), a partition plate (7) is fixed in the middle of the inner surface of the shell (1), an adsorption layer (5) is fixed on the outer surface of the left side of the partition plate (7) and the inner surface of the left side of the shell (1), a cooling pipe (6) is arranged on the outer surface of the right side of the partition plate (7) and the inner surface of the right side of the shell (1), a solid discharging pipe (3) is connected to the lower left of the shell (1), a solid control valve (8) is arranged under the solid discharging pipe (3), a solid temporary storage box (9) is arranged below the solid control valve (8), and a liquid, and the below of liquid discharging pipe (4) is provided with liquid control valve (10) to the below of liquid control valve (10) is provided with liquid temporary storage case (11), the output of servo motor (16) runs through casing (1) and is connected with rotary rod (15), and the top of rotary rod (15) is fixed with puddler (14), the below surface threaded connection of rotary rod (15) has swash plate (18), and the outside at both ends all is provided with spout (20) about swash plate (18), the upper left side of swash plate (18) is fixed with arc (17), and inside dredging pipe (19) of having seted up in the left front side of swash plate (18), spout (20) have been seted up to the below inboard of casing (1).

2. The cutting fluid additive delivery apparatus of claim 1, wherein: the shell (1) and the partition plate (7) form an integrated structure, the partition plate (7) is in an inclined Z-shaped structure, and the partition plate (7) divides the shell (1) into two parts in an equal area.

3. The cutting fluid additive delivery apparatus of claim 1, wherein: the diameter of the solid discharging pipe (3) is larger than that of the liquid discharging pipe (4), the solid discharging pipe (3) is parallel to the shell (1), and the liquid discharging pipe (4) is perpendicular to the shell (1).

4. The cutting fluid additive delivery apparatus of claim 1, wherein: the adsorption layer (5) and the shell (1) are connected in an adhesion mode, and the surface area of the adsorption layer (5) is greater than 1/2 of the surface area of the shell (1).

5. The cutting fluid additive delivery apparatus of claim 1, wherein: the cooling pipe (6) and the shell (1) form an integrated structure, and the interior of the cooling pipe (6) is of a hollow structure.

6. The cutting fluid additive delivery apparatus of claim 1, wherein: the connecting mode of the stirring rods (14) and the rotating rods (15) is welding, and the stirring rods (14) are distributed around the rotating rods (15) at equal intervals.

7. The cutting fluid additive delivery apparatus of claim 1, wherein: arc (17), swash plate (18) and dredge pipe (19) and constitute the integral structure, and the left surface and adsorbed layer (5) of arc (17) laminate mutually to the height that highly is greater than spout (20) of arc (17), dredge pipe (19) simultaneously and be the structure of falling the trapezium, dredge the diameter that the minimum diameter of pipe (19) is less than solid discharging pipe (3) moreover.