CN214729819U - Wind-force sack filling machine of high-purity miropowder oleamide - Google Patents

Abstract

The utility model discloses a wind-force sack filling machine of high-purity miropowder oleic acid amide, the device comprises a device body, the device body includes box one and supporting legs, the inside of box one is equipped with superstructure and substructure, the bottom of supporting legs is equipped with the gyro wheel, be equipped with fan one and inlet pipe one on superstructure's the roof, inlet pipe one is L shape structure, and the one end of inlet pipe one is equipped with the toper feeder hopper, the other end is equipped with buffering box two, fan one is connected with the lateral wall of inlet pipe one, the bottom of inlet pipe one inserts the inside to buffering box two, and the bottom of inlet pipe one is enclosed construction, the side is equipped with annular air-out otter board, the bottom of buffering box two is equipped with the air filter plate, the inside of superstructure is equipped with buffering box three, be equipped with fan one and heating resistor silk on the buffering box three. The utility model discloses a set up the metal mesh board in second and different apertures of buffer box, improved the efficiency of the bagging-off of the high-purity miropowder oleic acid amide of different particle diameters.

Description

Wind-force sack filling machine of high-purity miropowder oleamide

Technical Field

The utility model belongs to the technical field of the production packing, concretely relates to wind-force sack filling machine of high-purity miropowder oleic acid amide.

Background

Oleic acid amide, also known as oleamide, cis 9-octadecenamide, belongs to unsaturated fatty amide, is a white crystalline or granular solid, has a polycrystalline structure, is odorless, can reduce friction between an internal friction film and conveying equipment of resin and the like in a processing process, simplifies operation of a final product and accordingly increases production capacity. For example, the resin can be used as a lubricant in polyethylene processing, and the melt viscosity of resin particle forming can be reduced, and the fluidity can be improved. The high-purity micro-powder oleamide is white powder or particles, is insoluble in water, is insoluble in solvents such as ethanol and acetone at normal temperature, is soluble in hot chlorinated hydrocarbon and aromatic hydrocarbon solvents, and is nontoxic.

At present, high-purity micro-powder oleamide is packaged in different particle sizes for different product grades, and in the actual packaging process, because the product is powder and extremely drifts, the pollution is caused, and the product is harmful to human bodies, the existing bagged mechanical structure is single, and the differentiation of different particle sizes is difficult.

SUMMERY OF THE UTILITY MODEL

The utility model provides a wind-force sack filling machine of high-purity miropowder oleic acid amide through the metal mesh board that sets up buffer box two and different apertures, has improved the efficiency of the bagging-off of the high-purity miropowder oleic acid amide of different particle diameters.

The technical scheme of the utility model is realized like this:

the utility model provides a wind-force sack filling machine of high-purity miropowder oleamide, its includes the device body, a serial communication port, the device body includes box one and supporting legs, the inside of box one is equipped with superstructure and substructure, the bottom of supporting legs is equipped with the gyro wheel, be equipped with fan one and inlet pipe one on superstructure's the roof, inlet pipe one is L shape structure, and the one end of inlet pipe one is equipped with the toper feeder hopper, and the other end is equipped with buffer box two, fan one is connected with the lateral wall of inlet pipe one, the bottom of inlet pipe one inserts to the inside of buffer box two, and the bottom of inlet pipe one is enclosed construction, and the side is equipped with annular air-out otter board, the bottom of buffer box two is equipped with air filter plate, the inside of superstructure is equipped with buffer box three, be equipped with fan one and heating resistor silk on the buffer box three, the bottom of buffer box three is equipped with discharge gate one, And a first partition plate is arranged between the upper structure and the lower structure.

The utility model discloses an among the wind-force sack filling machine of high-purity miropowder oleic acid amide, substructure is inside to be equipped with discharging pipe one, discharging pipe two, discharging pipe three and discharging pipe four, all be equipped with the annular couple on discharging pipe one, discharging pipe two, discharging pipe three and the discharging pipe four.

The utility model discloses an among the wind-force sack filling machine of high-purity miropowder oleic acid amide, all be equipped with ooff valve one on discharging pipe one, discharging pipe two, discharging pipe three and the discharging pipe four, discharging pipe one, discharging pipe two, discharging pipe three and discharging pipe four run through baffle one respectively to be connected with discharging gate one, discharging gate two, discharging gate three and discharging gate four respectively.

The utility model discloses an among the wind-force sack filling machine of high-purity miropowder oleic acid amide, discharge gate one is equipped with metal otter board one with a discharging pipe junction, discharge gate two is equipped with metal otter board two with two junctions of discharging pipe, discharge gate three is equipped with metal otter board three with three junctions of discharging pipe, discharge gate four is equipped with metal otter board four with four junctions of discharging pipe.

The utility model discloses an among the wind-force sack filling machine of high-purity miropowder oleic acid amide, be equipped with hole one on the metal otter board, be equipped with hole two on the metal otter board two, be equipped with hole three on the metal otter board three, be equipped with hole four on the metal otter board four, the diameter of hole one is greater than the diameter of hole two, the diameter of hole two is greater than the diameter of hole three, the diameter of hole three is greater than the diameter of hole four.

The utility model discloses an among the wind-force sack filling machine of high-purity miropowder oleic acid amide, be equipped with the glass observation window on the superstructure lateral wall, be equipped with two page door one on the substructure lateral wall, two page door swing joint are on the device body.

Implement the utility model discloses a wind-force sack filling machine of this kind of high-purity miropowder oleamide has following beneficial effect: the present case sets up superstructure and substructure, and set up buffer box two and buffer box three with superstructure's inside, and buffer box two's tip and buffer box two's junction are the enclosed construction, also can be through the metal mesh board that is equipped with different apertures in buffer box three's bottom, this has just solved traditional wind-force sack filling machine single structure, and the not good problem of buffering effect, hole one, hole two, hole three and hole four set up the high-purity miropowder oleamide that makes that can be quick different particle diameters and bag, the bagging-off overall process of artificial control high-purity miropowder oleamide like this, the device operation is very simple and convenient, the bagging-off of especially adapted high-purity miropowder oleamide.

Drawings

Fig. 1 is a schematic structural diagram of the wind power bagging machine for high-purity micro-powder oleic acid amide of the utility model;

fig. 2 is an overall schematic view of the wind power bagging machine for high-purity micro-powder oleic acid amide of the utility model;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

FIG. 4 is an enlarged view of a portion of FIG. 1 at B;

FIG. 5 is an enlarged view of a portion of FIG. 1 at C;

FIG. 6 is an enlarged partial schematic view of FIG. 1 at D;

FIG. 7 is an enlarged partial schematic view at E in FIG. 1;

fig. 8 is a partially enlarged schematic view of F in fig. 1.

In the figure: the device comprises a device body 1, a box body I2, supporting legs 3, an upper structure 4, a lower structure 5, rollers 6, a fan I7, a feeding pipe I8, a conical feeding hopper 9, a buffer box body II 10, an annular air outlet screen plate 11, an air filter plate 12, a buffer box body III 13, a fan I14, a heating resistance wire 15, a discharging port I16, a discharging port II 17, a discharging port III 18, a discharging port IV 19, a partition plate I20, a discharging pipe I21, a discharging pipe II 22, a discharging pipe III 23, a discharging pipe IV 24, an annular hook 25, a switch valve I26, a metal screen plate I27, a metal screen plate II 28, a metal screen plate III 29, a metal screen plate IV 30, a hole I31, a hole II 32, a hole III 33, a hole IV 34, a glass observation window 35 and a double-leaf door I36.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The utility model discloses a wind-force sack filling machine of high-purity miropowder oleamide as shown in fig. 1-8, it includes device body 1, device body 1 includes box 2 and supporting legs 3, the inside of box 2 is equipped with superstructure 4 and substructure 5, the bottom of supporting legs 3 is equipped with gyro wheel 6, the setting of gyro wheel 6 has made things convenient for the removal of device, be equipped with fan 7 and inlet pipe 8 on the roof of superstructure 4, inlet pipe 8 is L shape structure, and one end of inlet pipe 8 is equipped with toper feeder hopper 9, the other end is equipped with buffering box two 10, fan 7 is connected with the lateral wall of inlet pipe 8, the bottom of inlet pipe 8 inserts to the inside of buffering box two 10, and the bottom of inlet pipe 8 is the enclosed construction, the side is equipped with annular air-out otter board 11, the enclosed construction and the setting of annular air-out otter board 11 make can obtain effective buffering, the bottom of the second buffer box body 10 is provided with an air filtering plate 12, the inside of the upper structure 4 is provided with a third buffer box body 13, the third buffer box body 13 is provided with a first fan 14 and a heating resistance wire 15, the arrangement of the first fan 14 and the heating resistance wire 15 ensures quick bagging of raw materials, particles in the second buffer box body can be quickly condensed, the bottom of the third buffer box body 13 is provided with a first discharge hole 16, a second discharge hole 17, a third discharge hole 18 and a fourth discharge hole 19, a first partition plate 20 is arranged between the upper structure 4 and the lower structure 5, the inside of the lower structure 5 is provided with a first discharge pipe 21, a second discharge pipe 22, a third discharge pipe 23 and a fourth discharge pipe 24, the first discharge pipe 21, the second discharge pipe 22, the third discharge pipe 23 and the fourth discharge pipe 24 are respectively provided with an annular hook 25, the first discharge pipe 21, the second discharge pipe 22, the third discharge pipe 23 and the fourth discharge pipe 24 are respectively provided with a first switch valve 26, the first discharge pipe 21, the second discharge pipe 21, the third discharge pipe 23 and the fourth discharge pipe 24 are respectively provided with a first switch valve 26, and a second switch valve 26, The discharge pipe II 22, the discharge pipe III 23 and the discharge pipe IV 24 respectively penetrate through the partition plate I20 and are respectively connected with the discharge port I16, the discharge port II 17, the discharge port III 18 and the discharge port IV 19, a first metal mesh plate 27 is arranged at the joint of the discharge port I16 and the discharge pipe I21, a second metal mesh plate 28 is arranged at the joint of the discharge port II 17 and the discharge pipe II 22, a third metal mesh plate 29 is arranged at the joint of the discharge port III 18 and the discharge pipe III 23, a fourth metal mesh plate 30 is arranged at the joint of the discharge port IV 19 and the discharge pipe IV 24, a first hole 31 is formed in the first metal mesh plate 27, a second hole 32 is formed in the second metal mesh plate 28, a third hole 33 is formed in the third metal mesh plate 29, a fourth hole 34 is formed in the fourth metal mesh plate 30, the diameter of the first hole 31 is larger than the diameter of the second hole 32, the diameter of the second hole 32 is larger than the diameter of the third hole 33, and the diameters of the third hole 32 are larger than the diameters of the fourth hole 34, and the arrangement of different hole diameters ensures that high-purity micro-powder oleamide with different grain diameters can be quickly condensed, the side wall of the upper structure 4 is provided with a glass observation window 35, the side wall of the lower structure 5 is provided with a first double-leaf door 36, and the first double-leaf door 36 is movably connected to the device body 1.

The utility model discloses a theory of operation does: firstly, a first fan 7 is started, so that the high-purity micro-powder oleic acid amide to be bagged is sucked to a first feeding pipe 8, then flows into a second buffer box body 10 through the side wall of the first feeding pipe 8, the bottom of the second buffer box body 10 is connected with a third buffer box body 13, so that the high-purity micro-powder oleic acid amide is temporarily stored in the third buffer box body 13, and a first fan 14 and a heating resistance wire 15 are arranged at the top of the third buffer box body 13, so that the high-purity micro-powder oleic acid amide is enabled to quickly enter different discharging pipes. Thus, the object of the present invention can be achieved.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a wind-force sack filling machine of high-purity miropowder oleamide, includes the device body, its characterized in that, the device body includes box one and supporting legs, the inside of box one is equipped with superstructure and substructure, the bottom of supporting legs is equipped with the gyro wheel, be equipped with fan one and inlet pipe one on superstructure's the roof, inlet pipe one is L shape structure, and the one end of inlet pipe one is equipped with the toper feeder hopper, and the other end is equipped with buffer box two, fan one is connected with the lateral wall of inlet pipe one, the bottom of inlet pipe one inserts to the inside of buffer box two, and the bottom of inlet pipe one is enclosed construction, and the side is equipped with annular air-out otter board, the bottom of buffer box two is equipped with air filter plate, the inside of superstructure is equipped with buffer box three, be equipped with fan one and heating resistor silk on the buffer box three, the bottom of buffer box three is equipped with discharge gate one, And a first partition plate is arranged between the upper structure and the lower structure.

2. The pneumatic bagging machine for the high-purity micro-powder oleamide according to claim 1, wherein a first discharge pipe, a second discharge pipe, a third discharge pipe and a fourth discharge pipe are arranged inside the lower structure, and annular hooks are arranged on the first discharge pipe, the second discharge pipe, the third discharge pipe and the fourth discharge pipe.

3. The wind-driven bagging machine for high-purity micro-powder oleamide according to claim 2, wherein the first discharge pipe, the second discharge pipe, the third discharge pipe and the fourth discharge pipe are respectively provided with a first switch valve, and the first discharge pipe, the second discharge pipe, the third discharge pipe and the fourth discharge pipe respectively penetrate through the first partition plate and are respectively connected with the first discharge port, the second discharge port, the third discharge port and the fourth discharge port.

4. The wind-driven bagging machine for high-purity micro-powder oleamide according to claim 3, wherein a first metal screen plate is arranged at the joint of the first discharge port and the first discharge pipe, a second metal screen plate is arranged at the joint of the second discharge port and the second discharge pipe, a third metal screen plate is arranged at the joint of the third discharge port and the third discharge pipe, and a fourth metal screen plate is arranged at the joint of the fourth discharge port and the fourth discharge pipe.

5. The wind-powered bagging machine for high-purity micro-powder oleamide according to claim 4, wherein a first hole is formed in the first metal mesh plate, a second hole is formed in the second metal mesh plate, a third hole is formed in the third metal mesh plate, a fourth hole is formed in the fourth metal mesh plate, the diameter of the first hole is larger than that of the second hole, the diameter of the second hole is larger than that of the third hole, and the diameter of the third hole is larger than that of the fourth hole.

6. The wind-driven bagging machine for the high-purity micro-powder oleamide according to claim 1, wherein a glass observation window is arranged on the side wall of the upper structure, a first double-leaf door is arranged on the side wall of the lower structure, and the first double-leaf door is movably connected to the device body.

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