CN220004424U - Novel oil scraps separating cylinder structure - Google Patents

Abstract

The utility model relates to the technical field of oil scraps separating drums, and discloses a novel oil scraps separating drum structure, which comprises a high-speed rotating mechanism A and an oil scraps separating drum B, wherein the high-speed rotating mechanism A comprises a rotating motor, a triangle belt pulley, a triangle belt, a rotating shaft, an upper tapered roller bearing, a lower tapered roller bearing, an upper bearing seat and a lower bearing seat, the rotating motor provides a power source for the high-speed rotating mechanism, the triangle belt pulley and the triangle belt drive the high-speed rotating mechanism, and the rotating shaft drives the oil scraps separating drum B to rotate at a high speed through an upper rotating supporting rod and a lower rotating supporting rod. This novel oil bits separating drum structure is through adopting the rotating electrical machines as the power supply of oil bits separating drum to do not need the manual work to carry the iron ladle into the suggestion, laborsaving saving time, convenient also environmental protection promptly, the final effect is also fine, and is very stable, does benefit to moreover and realizes automaticly, also releases the operator from heavy physical labor.

Description

Novel oil scraps separating cylinder structure

Technical Field

The utility model relates to the technical field of oil scraps separating barrels, in particular to a novel oil scraps separating barrel structure.

Background

At present, a mode of separating metal chips in an iron barrel by adopting a basic traditional manual mode is adopted after precision part processing, the iron barrel is firstly required to be manually lifted and fixed, and after oil chip separation is finished, a fixed compression bar is required to be manually loosened to lift the iron barrel, however, the mode is laborious and time-consuming, inconvenient and not environment-friendly, is not beneficial to realizing automation, and is not beneficial to releasing heavy manual labor of people, so that a novel oil chip separating barrel structure is provided for solving the problems mentioned in the background.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a novel oil scraps separating cylinder structure, which has the advantages of time and labor saving, and solves the problems that the mode is laborious and time-consuming, inconvenient and not environment-friendly, is not beneficial to realizing automation and is not beneficial to releasing heavy manual labor.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: the novel oil scraps separating cylinder structure comprises a high-speed rotating mechanism A and an oil scraps separating cylinder B, wherein the high-speed rotating mechanism A comprises a rotating motor, a triangle belt pulley, a triangle belt, a rotating shaft, an upper tapered roller bearing, a lower tapered roller bearing, an upper bearing seat and a lower bearing seat, the rotating motor provides a power source for the high-speed rotating mechanism, and the triangle belt pulley and the triangle belt drive the high-speed rotating mechanism; the rotating shaft drives the oil and scraps separating cylinder B to rotate at a high speed through an upper rotating supporting rod and a lower rotating supporting rod; the oil scraps separating cylinder B comprises an oil scraps separating cylinder body, an upper shaft sleeve, a lower shaft sleeve, an upper rotary supporting rod and a lower rotary supporting rod, wherein the oil scraps separating cylinder body is composed of an orifice plate with the diameter of 2mm on the outer layer and an orifice plate with the diameter of 1mm on the inner layer.

Preferably, the side fixed mounting at the top of the rotating shaft has two cam pulleys, the number of the cam belts is two, the output shaft of the rotating motor is in transmission connection with the two cam pulleys through the two cam belts, the two cam pulleys are all fixedly connected with the side of the rotating shaft through being provided with the two cam pulleys, and the output shaft of the rotating motor can drive the two cam pulleys to rotate through the two cam belts by starting the rotating motor, so that the rotating shaft can be synchronously driven to rotate.

Preferably, two upper tapered roller bearings and upper bearing seat are installed at the top of the side surface of the rotating shaft, the upper bearing seat wraps the two upper tapered roller bearings, the two upper tapered roller bearings are installed on the side surface of the rotating shaft back to back respectively, and the upper tapered roller bearings and the upper bearing seat are located under the two triangular belt pulleys, so that the rotating shaft and the oil scraps separating cylinder body can be connected in an internal-external mode through the two upper tapered roller bearings and the upper bearing seat, and the rotating shaft can rotate while the position of the rotating shaft can be kept unchanged.

Preferably, the side surface of the rotating shaft is fixedly provided with an upper shaft sleeve, the side surface of the upper shaft sleeve is fixedly provided with four upper rotating support rods, the other ends of the four upper rotating support rods are fixedly connected with the inner layer of the oil scraps separating cylinder, the upper shaft sleeve is positioned right below the upper bearing seat, the upper shaft sleeve is fixedly arranged on the side surface of the rotating shaft through the arrangement of the upper shaft sleeve and the four upper rotating support rods, one ends of the four upper rotating support rods are fixedly connected with the side surface of the upper shaft sleeve, the other ends of the four upper rotating support rods are fixedly connected with the inner surface of the oil scraps separating cylinder, and thus the rotating shaft drives the oil scraps separating cylinder to rotate at a high speed through the four upper rotating support rods.

Preferably, the side surface of the bottom of the rotating shaft is provided with a lower shaft sleeve, the side surface of the lower shaft sleeve is fixedly connected with four lower rotary supporting rods, the other ends of the four lower rotary supporting rods are fixedly connected with the inner layer of the oil scraps separating cylinder body, the side surface of the bottom is provided with two lower tapered roller bearings and a lower bearing seat, the two lower tapered roller bearings are arranged inside the lower bearing seat, the two lower tapered roller bearings are respectively arranged on the side surface of the rotating shaft back to back, the lower bearing seat is positioned under the lower shaft sleeve, the rotating shaft can drive the oil scraps separating cylinder to rotate at a high speed through the lower shaft sleeve and the four lower rotary supporting rods, and the position of the bottom of the rotating shaft can be kept unchanged while the bottom of the rotating shaft is kept to rotate through the two lower tapered roller bearings and the lower bearing seat.

Compared with the prior art, the utility model provides a novel oil scraps separating cylinder structure, which has the following beneficial effects:

1. this novel oil bits separating drum structure is through adopting the rotating electrical machines as the power supply of oil bits separating drum to do not need the manual work to carry the iron ladle into the suggestion, laborsaving saving time, convenient also environmental protection promptly, the final effect is also fine, and is very stable, does benefit to moreover and realizes automaticly, also releases the operator from heavy physical labor.

2. This novel oil bits separating drum structure, through oil bits separating drum skin for diameter 2mm orifice plate, the inlayer is diameter 1mm orifice plate, because this kind of double-deck orifice plate structure also separates very thin metal chip powder and cutting oil, and the oil bits rate of separation is higher, and the effect is better, and through actual test, the rate of separation can reach more than 95%.

Drawings

FIG. 1 is a three-dimensional view of an oil and scraps separating drum with a structure of the utility model;

FIG. 2 is a front view of the oil-filings separating drum of the structure of the utility model;

FIG. 3 is a diagram showing the connection of the inside of the oil and scraps separating cylinder with the structure of the present utility model.

Wherein: 1. a rotating electric machine; 2. a V-belt; 3. a V-belt pulley; 4. a rotation shaft; 5. an upper tapered roller bearing; 6. an upper bearing block; 7. an oil and scraps separating cylinder; 8. an upper rotary support bar; 9. a lower rotary support bar; 10. a lower tapered roller bearing; 11. a lower bearing seat; 12. an upper sleeve; 13. a lower sleeve.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-3, a novel oil and dust separating cylinder structure comprises a high-speed rotating mechanism a and an oil and dust separating cylinder B, wherein the high-speed rotating mechanism a comprises a rotating motor 1, a triangle belt pulley 3, a triangle belt 2, a rotating shaft 4, an upper tapered roller bearing 5, a lower tapered roller bearing 10, an upper bearing seat 6 and a lower bearing seat 11, the rotating motor 1 provides a power source for the high-speed rotating mechanism, and the triangle belt pulley 3 and the triangle belt 2 drive the high-speed rotating mechanism; the rotating shaft 4 drives the oil and scraps separating drum B to rotate at a high speed through an upper rotating supporting rod 8 and a lower rotating supporting rod 9; the oil chip separating cylinder B comprises an oil chip separating cylinder 7, an upper shaft sleeve 12, a lower shaft sleeve 13, an upper rotary supporting rod 8 and a lower rotary supporting rod 9, wherein the oil chip separating cylinder 7 is composed of an orifice plate with the outer layer being 2mm in diameter and an orifice plate with the inner layer being 1mm in diameter.

Through above-mentioned technical scheme, through adopting rotating electrical machines 1 as the power supply of oil bits separating drum to do not need the manual work to carry the iron drum into the suggestion, laborsaving saving time, convenient also environmental protection promptly, the final effect is also fine, very stable. And the automation is facilitated, and an operator is relieved from heavy physical labor.

Specifically, two V-belt pulleys 3 are fixedly arranged on the side surface of the top of the rotating shaft 4, the number of the V-belt pulleys 2 is two, and the output shaft of the rotating motor 1 is in transmission connection with the two V-belt pulleys 3 through the two V-belt pulleys 2.

Through above-mentioned technical scheme, through being provided with two V-belt pulleys 3, two V-belt pulleys 3 all with rotation axis 4 side fixed connection, through starting rotating electrical machines 1, the output shaft of rotating electrical machines 1 just can drive two V-belt pulleys 3 through two V-belt belts 2 and rotate to can drive rotation axis 4 in step and rotate.

Specifically, two upper tapered roller bearings 5 and an upper bearing seat 6 are installed at the top of the side surface of the rotating shaft 4, the upper bearing seat 6 is wrapped and arranged outside the two upper tapered roller bearings 5, the two upper tapered roller bearings 5 are respectively installed on the side surface of the rotating shaft 4 back to back, and the upper tapered roller bearings 5 and the upper bearing seat 6 are both located under the two V-belt pulleys 3.

Through above-mentioned technical scheme, through being provided with two upper portion tapered roller bearings 5 and upper portion bearing frame 6, can establish inside and outside connection with rotation axis 4 and oil bits separation barrel 7 for rotation axis 4 can carry out the pivoted while can also keep rotation axis 4's position unchanged.

Specifically, an upper shaft sleeve 12 is fixedly arranged on the side surface of the rotating shaft 4, four upper rotating support rods 8 are fixedly arranged on the side surface of the upper shaft sleeve 12, the other ends of the four upper rotating support rods 8 are fixedly connected with the inner layer of the oil scraps separating cylinder 7, and the upper shaft sleeve 12 is positioned under the upper bearing seat 6.

Through above-mentioned technical scheme, through being provided with upper portion axle sleeve 12 and four upper portion rotation support bars 8, upper portion axle sleeve 12 carries out fixed mounting with rotation axis 4 side, and the one end of four upper portion rotation support bars 8 all is connected with upper portion axle sleeve 12 side fixed, and the other end of four upper portion rotation support bars 8 carries out fixed connection with oil bits separation barrel 7 internal surface, and rotation axis 4 drives oil bits separation barrel high-speed rotation through four upper portion rotation support bars 8 like this.

Specifically, a lower shaft sleeve 13 is installed on the side surface of the bottom of the rotating shaft 4, four lower rotary supporting rods 9 are fixedly connected to the side surface of the lower shaft sleeve 13, the other ends of the four lower rotary supporting rods 9 are fixedly connected with the inner layer of the oil scraps separating cylinder 7, two lower tapered roller bearings 10 and a lower bearing seat 11 are installed on the side surface of the bottom, the two lower tapered roller bearings 10 are installed inside the lower bearing seat 11, the two lower tapered roller bearings 10 are installed on the side surface of the rotating shaft 4 back to back respectively, and the lower bearing seat 11 is located under the lower shaft sleeve 13.

Through the technical scheme, through being provided with lower shaft sleeve 13 and four lower rotation support bars 9, can make the rotation axis drive oil bits separating tube high-speed rotation through four lower rotation support bars 9, through being provided with two lower tapered roller bearings 10 and lower bearing frame 11, can keep the rotation axis 4 bottom to rotate, and the position of rotation axis 4 bottom also can keep unchanged.

When the novel oil chip separating device is used, metal chips containing a large amount of cutting oil are added into the novel oil chip separating cylinder, a button is pressed, the novel oil chip separating cylinder rotates at a high speed under the driving of a rotating motor, and a large amount of cutting oil contained in the metal chips is separated under the action of centrifugal force. The novel oil scraps separating cylinder is characterized in that the outer layer of the novel oil scraps separating cylinder is a pore plate with the diameter of 2mm, the inner layer of the novel oil scraps separating cylinder is a pore plate with the diameter of 1mm, and because of the double-layer pore plate structure, fine metal scraps are separated from cutting oil, the oil scraps separating efficiency is higher, the oil scraps separating cylinder is better in effect, the high-speed rotating time can be set, and the rotating speed can also be set through a rotating motor frequency converter.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides a novel oil bits separating drum structure, includes high-speed rotary mechanism A and oil bits separating drum B, its characterized in that: the high-speed rotating mechanism A comprises a rotating motor (1), a triangle belt pulley (3), a triangle belt (2), a rotating shaft (4), an upper tapered roller bearing (5), a lower tapered roller bearing (10), an upper bearing seat (6) and a lower bearing seat (11), wherein the rotating motor (1) provides a power source for the high-speed rotating mechanism, and the triangle belt pulley (3) and the triangle belt (2) drive the high-speed rotating mechanism; the rotating shaft (4) drives the oil scraps separating cylinder B to rotate at a high speed through an upper rotating supporting rod (8) and a lower rotating supporting rod (9); the oil and dust separating cylinder B comprises an oil and dust separating cylinder body (7), an upper shaft sleeve (12), a lower shaft sleeve (13), an upper rotary supporting rod (8) and a lower rotary supporting rod (9), wherein the oil and dust separating cylinder body (7) is composed of an orifice plate with the diameter of 2mm on the outer layer and an orifice plate with the diameter of 1mm on the inner layer.

2. The novel oil and chip separating cylinder structure according to claim 1, wherein: two triangular belt pulleys (3) are fixedly arranged on the side face of the top of the rotating shaft (4), the number of the triangular belt pulleys (2) is two, and an output shaft of the rotating motor (1) is in transmission connection with the two triangular belt pulleys (3) through the two triangular belt pulleys (2).

3. The novel oil and chip separating tube structure according to claim 2, wherein: two upper tapered roller bearings (5) and upper bearing seat (6) are installed at rotation axis (4) side top, upper bearing seat (6) parcel sets up in two upper tapered roller bearings (5) outsides, two upper tapered roller bearings (5) are installed on rotation axis (4) side back to back respectively, upper tapered roller bearings (5) and upper bearing seat (6) are all located under two V-arrangement belt pulleys (3).

4. A novel oil and chip separating cartridge structure according to claim 3, wherein: the oil-residue separating device is characterized in that an upper shaft sleeve (12) is fixedly arranged on the side face of the rotating shaft (4), four upper rotating support rods (8) are fixedly arranged on the side face of the upper shaft sleeve (12), the other ends of the four upper rotating support rods (8) are fixedly connected with the inner layer of the oil-residue separating cylinder body (7), and the upper shaft sleeve (12) is located right below the upper bearing seat (6).

5. The novel oil and chip separating cylinder structure according to claim 1, wherein: the utility model discloses a rotary shaft, including rotation axis (4), lower axle sleeve (13) are installed to rotation axis (4) bottom side, four lower rotation support bars (9) are fixedly connected with to lower axle sleeve (13) side, four lower rotation support bars (9) other end all with oil bits separation barrel (7) inlayer fixed connection, two lower tapered roller bearings (10) and lower bearing frame (11) are installed to bottom side, two lower tapered roller bearings (10) all set up and install in lower bearing frame (11) inside, and two lower tapered roller bearings (10) are installed back to back respectively on rotation axis (4) side, lower bearing frame (11) are located under lower axle sleeve (13).