CN213495293U - Cylinder and cleaning machine for cleaning parts for heat treatment process of continuous mesh belt furnace - Google Patents

Abstract

The utility model discloses a cylinder and cleaning machine of washing part that continuous type guipure stove's thermal treatment process used, the perisporium of this cylinder has nearly wall department a that is close to the cylinder center and keeps away from the far wall department b at cylinder center, nearly wall department and far wall are in radially staggering each other of cylinder, thereby form installing port c in the footpath of cylinder, installing port c department installs filter screen 101, adopt this structure, the filter screen discharge can be followed to the scavenging solution, therefore need not set up the wash port on the perisporium of cylinder, thereby solved the problem that the wash port blocked the part. In addition, the roller is provided with the convex ribs 103 on the inner surface close to the wall and the guide surfaces 104 on the convex ribs, so that all surfaces of the parts are effectively cleaned, the parts can fall back to a position far away from the filter screen, the convex points 106 are uniformly distributed on the inner surface of the peripheral wall, the surface tension between the peripheral wall of the roller and the parts is reduced, and the risk that the parts are adhered to the peripheral wall of the roller due to large surface tension is avoided.

Description

Cylinder and cleaning machine for cleaning parts for heat treatment process of continuous mesh belt furnace

Technical Field

The utility model relates to a heat treatment technical field of continuous mesh belt furnace, in particular to a roller for cleaning parts and a cleaning machine for cleaning parts, which are used for the heat treatment process of the continuous mesh belt furnace.

Background

The continuous mesh belt furnace is heat treatment equipment for realizing continuous conveying of parts into the furnace through mesh belts. The heat treatment process flow of the continuous mesh belt furnace is generally as follows: the parts enter the main furnace to be heated and insulated and then fall into the oil pool to be quenched, then the parts are conveyed to the cleaning machine by the hoister to be cleaned to remove quenching oil adhered to the surfaces of the parts, and finally the parts are tempered in the tempering furnace.

At present, a continuous mesh belt furnace mainly adopts a drum-type cleaning machine to clean parts, drain holes are distributed on the peripheral wall of a drum of the existing drum-type cleaning machine, and cleaning liquid is discharged from the drain holes. The roller with the structure is easy to cause part jamming in the application process.

In view of this, how to avoid the parts from being stuck in the roller is a technical problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a cylinder of washing part that continuous type guipure stove's thermal treatment process used, the perisporium of cylinder has nearly wall department that is close to the cylinder center and keeps away from the far wall department at cylinder center, nearly wall department with far wall is in radially staggering each other of cylinder to form the installing port in the footpath of cylinder, installing port department installs the filter screen.

Further, the roller comprises an arc-shaped wall plate, the rear end of the arc-shaped wall plate forms the near wall, and the front end of the arc-shaped wall plate forms the far wall;

or the roller comprises a plurality of arc-shaped wall plates, each arc-shaped wall plate is sequentially arranged along the circumferential direction, the rear end of the front arc-shaped wall plate forms the near wall position, and the front end of the rear arc-shaped wall plate forms the far wall position.

Further, the screens are perpendicular to the respective proximal and distal walls.

Further, the inner surface near the wall is provided with a convex rib extending along the axial direction of the roller, a guide surface is formed on the convex rib, the guide surface faces the front direction, and the inner end of the guide surface is inclined backwards.

Further, the inner surface of the peripheral wall of the roller is provided with a spiral structure, and the spiral structure is screwed from the inlet end of the roller to the outlet end of the roller along the axial direction of the roller.

Furthermore, salient points are uniformly distributed on the inner surface of the peripheral wall of the roller.

In addition, the utility model also provides a cleaning machine of washing part that continuous type mesh belt furnace's thermal treatment process was used, the cleaning machine includes the cylinder, is used for driving the rotatory drive division and the transmission portion of cylinder, the cylinder be above-mentioned arbitrary cylinder.

The utility model provides a cylinder, because radially form the installing port and install the filter screen in installing port department, like this, the washing liquid is discharged from the filter screen, just need not set up the wash port again on the perisporium of cylinder to the problem that the wash port blocked the part has been solved.

In a further scheme, the convex ribs are arranged on the inner surface close to the wall and the guide surfaces are arranged on the convex ribs, so that the parts can be lifted by the convex ribs in the falling process under the action of gravity, all the surfaces of the parts can be effectively cleaned, the parts can fall to the positions farther away from the filter screen, and the risk that the parts are clamped due to the contact of the parts and the filter screen can be further avoided.

In a further scheme, the salient points are uniformly distributed on the inner surface of the peripheral wall of the roller, so that the surface tension between the peripheral wall of the roller and the parts is reduced, and the risk that the parts are adhered to the peripheral wall of the roller due to high surface tension is avoided.

The utility model provides a cleaning machine owing to adopt above-mentioned cylinder, so also has above-mentioned technological effect.

Drawings

Fig. 1 is a front view of a drum according to an embodiment of the present invention;

FIG. 2 is a side view of FIG. 1;

fig. 3 is a partially enlarged view of the inner surface of the drum peripheral wall.

The reference numerals are explained below:

01 details

101 filter screen, 102 arc wall plate, 103 convex rib, 104 guide inclined plane, 105 spiral structure, 106 convex point;

a near wall, b far wall, c installing port.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the following provides a detailed description of the technical solution of the present invention with reference to the accompanying drawings.

Before tempering the parts in the heat treatment process of the continuous mesh belt furnace, quenching oil on the surfaces of the parts can be cleaned by a drum-type cleaning machine. The cleaning machine body comprises a roller, a driving part and a transmission part, wherein the driving part and the transmission part drive the roller to rotate.

The drive division specifically can adopt the motor, and the drive division specifically can adopt the chain subassembly, and the drive sprocket of chain subassembly links to each other with the output shaft of motor, and driven sprocket sets up in the cylinder periphery, and the chain tensioning is between drive sprocket and driven sprocket. The driving transmission mode is stable and reliable.

As shown in fig. 1, the inner surface of the peripheral wall of the drum is provided with a spiral structure 105, and the spiral structure 105 is screwed from the inlet end of the drum to the outlet end of the drum along the axial direction of the drum. It is preferred to have the spiral 105 continuously spiraling from the inlet end of the drum to the outlet end of the drum.

When the quenching oil cleaning device is used, parts are conveyed to the inlet of the roller, cleaning liquid is introduced into the roller, the parts 01 rotate and move to the outlet end of the roller under the rotating action of the roller and the guiding action of the spiral structure 105, and the quenching oil on the surfaces of the parts is cleaned in the rotating and moving processes.

As shown in fig. 1 and 2, the peripheral wall of the drum has a near wall a close to the center of the drum and a far wall b far from the center of the drum, and the near wall a and the far wall b are staggered from each other in the radial direction of the drum, so that an installation opening c is formed in the radial direction of the drum, and a filter screen 101 is installed at the installation opening c. The filter screen 101 may be connected to the circumferential wall of the drum by means of threaded fasteners.

In the figure, the roller comprises four arc-shaped wall plates 102, and the four arc-shaped wall plates 102 are sequentially welded end to end along the circumferential direction and jointly enclose to form the circumferential wall of the roller. Of the adjacent curved wall plates 102, the rear end (i.e., trailing end) of the preceding curved wall plate 102 forms the near wall a, and the front end (i.e., leading end) of the succeeding curved wall plate 102 forms the far wall b. In fig. 2, four near wall positions a and four far wall positions b are formed together, so that four mounting openings c are formed, and the filter screens 101 are mounted at the four mounting openings c.

Of course, in practical implementation, the number of the curved wall plates 102 may be any number, including one, two or more, and is not limited to four. When only one curved wall plate 102 is provided, the curvature of the curved wall plate 102 is approximately 360 °, a proximal wall a is formed at the rear end of the curved wall plate 102, a distal wall b is formed at the front end, and a mounting opening c is formed between the front end and the rear end of the curved wall plate 102.

Relatively speaking, when a plurality of arc-shaped wall plates 102 are arranged, the radian of each arc-shaped wall plate 102 does not need to be too large, so that the arc-shaped wall plates 102 are easy to form and low in processing cost.

In the prior roller for cleaning the parts, drain holes are distributed on the peripheral wall for discharging the cleaning liquid, and the problem that the parts are clamped by the hole edges of the drain holes is easily caused by adopting the structure, so that the parts are easily clamped in the roller.

The utility model discloses, form installing port c and install filter screen 101 in installing port c department in the footpath of cylinder, like this, the washing liquid is discharged from filter screen 101, just need not set up the wash port again on the perisporium of cylinder to the problem that the wash port blocked the part has been solved.

When the rotary drum is used, the rotary drum rotates from back to front (namely, the rotary drum rotates along the anticlockwise direction under the view angle of fig. 2), the part rotates forwards along with the rotary drum, and when the rotary drum rotates to a certain height, the part falls back under the action of gravity.

Because the utility model discloses in, nearly wall department a is formed by the rear end of arc wallboard 102, and far wall department b is formed by the front end of arc wallboard 102, so the filter screen 101 can be crossed smoothly to the in-process of part landing backward, and can not blocked by filter screen 101.

Specifically, it is preferable to make the filter screen 101 perpendicular to the near wall a and the far wall b of the corresponding curved wall plate 102, so that the discharge speed of the cleaning liquid can be relatively fast and the parts can easily pass over the filter screen 101.

Specifically, as shown in fig. 2, a rib 103 is provided on the inner surface near the wall, the rib 103 extends in the axial direction of the drum, a guide surface 104 is formed on the rib 103, the guide surface 104 faces forward, and the inner end of the guide surface 104 is inclined rearward.

Set up bead 103 and guide surface 104, when part 01 falls backward through bead 103, can be along guide surface 104 towards the inner of bead 103, and in this process, the part is lifted by bead 103, like this, can avoid a surface of part to contact with the cylinder perisporium all the time and lead to the problem that this surface can't be effectively washd, makes each surface of part can both be effectively washd, consequently, has promoted the cleaning performance of cylinder.

In addition, the rib 103 and the guide surface 104 can change the falling track of the part 01 to make the falling track of the part 01 in a parabolic shape (as shown by a dotted line in fig. 2), so that the part 01 can fall to a position far away from the filter screen (the position of the part shown by the dotted line in fig. 2 is the falling position of the part), and the risk that the part is blocked by the filter screen can be further avoided.

Specifically, as shown in fig. 3, the inner surface of the circumferential wall of the drum is uniformly provided with the protruding points 106, and the shape, size and number of the protruding points 106 can be flexibly set according to actual needs.

Because the surface of the part is provided with the quenching oil, the surface tension exists between the part and the peripheral wall of the roller, and the surface tension between the part and the peripheral wall of the roller can be reduced by arranging the salient points 106, so that the risk that the part is stuck on the inner surface of the roller due to the large surface tension can be avoided, and the clamping stagnation probability of the part can be further reduced.

The roller and the cleaning machine for cleaning the parts for the heat treatment process of the continuous mesh belt furnace provided by the utility model are described in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (7)

1. The roller for cleaning the parts for the heat treatment process of the continuous mesh belt furnace is characterized in that the peripheral wall of the roller is provided with a near wall (a) close to the center of the roller and a far wall (b) far away from the center of the roller, the near wall (a) and the far wall (b) are staggered with each other in the radial direction of the roller, so that a mounting opening (c) is formed in the radial direction of the roller, and a filter screen (101) is mounted at the mounting opening (c).

2. The drum for washing parts for use in the heat treatment process of the continuous belt furnace according to claim 1, wherein the drum comprises a curved wall plate (102), the rear end of the curved wall plate (102) forms the near wall (a), and the front end of the curved wall plate (102) forms the far wall (b);

or the roller comprises a plurality of arc-shaped wall plates (102), each arc-shaped wall plate (102) is sequentially arranged along the circumferential direction, the rear end of the front arc-shaped wall plate (102) forms the near wall part (a), and the front end of the rear arc-shaped wall plate (102) forms the far wall part (b).

3. The part-washing drum for a heat treatment process of a continuous belt furnace according to claim 1, wherein the screen (101) is perpendicular to the respective near wall (a) and far wall (b).

4. The drum for washing parts for use in heat treatment process of continuous belt furnace according to claim 1, characterized in that the inner surface of said near wall (a) is provided with a rib (103) extending along the axial direction of the drum, said rib (103) is formed with a guide surface (104), said guide surface (104) faces forward, and the inner end of said guide surface (104) is inclined backward.

5. The drum for cleaning parts for use in heat treatment process of continuous belt furnace according to any of claims 1 to 4, characterized in that the inner surface of the peripheral wall of the drum is provided with a spiral structure (105), and the spiral structure (105) is spiraled from the inlet end of the drum to the outlet end of the drum along the axial direction of the drum.

6. The roller for cleaning parts in the heat treatment process of the continuous mesh belt furnace according to claim 5, characterized in that the inner surface of the peripheral wall of the roller is uniformly provided with salient points (106).

7. A cleaning machine for cleaning parts for a heat treatment process of a continuous mesh belt furnace, which comprises a roller, a driving part for driving the roller to rotate and a transmission part, and is characterized in that the roller is the roller as claimed in any one of claims 1 to 6.

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