CN210973227U

CN210973227U - Feeding blower for amorphous thin belt

Info

Publication number: CN210973227U
Application number: CN201920812995.XU
Authority: CN
Inventors: 滕孝义; 隋建都
Original assignee: Shandong Hairuide New Material Technology Co ltd
Current assignee: Shandong Hairuide New Material Technology Co ltd
Priority date: 2019-05-31
Filing date: 2019-05-31
Publication date: 2020-07-10
Anticipated expiration: 2029-05-31

Abstract

A feeding blower for amorphous thin strips relates to the technical field of amorphous thin strip feeding auxiliary tools, and comprises two air guide shells which are arranged in parallel and oppositely up and down, and a convection area for feeding a coiled material is formed by an area between the two air guide shells. The utility model provides a band among the conventional art through spouting the quick-witted spraying of area, after the rolling of rolling machine again, the cracked problem of deformation appears in the band.

Description

Feeding blower for amorphous thin belt

Technical Field

The utility model relates to an amorphous thin area is fed and is assisted utensil technical field, concretely relates to amorphous thin area is with feeding blower.

Background

The amorphous alloy material is a novel alloy material which is produced in the 70 s of the 20 th century, nonmetal such as silicon, boron and carbon is added into metal such as steel, cobalt, nickel and chromium, mixed hot melt of the steel, the silicon, the boron and the like in a certain proportion at the high temperature of 1400 ℃ is cooled at a high speed equivalent to one million ℃ per second, the cooling speed is 105-107K/s, the rotating speed of a cooling chassis is about 30m/s, alloy atoms are formed once from a solution to a thin strip finished product, a long-range disordered structure is obtained by disorderly arranging alloy atoms, crystal grains and crystal boundaries of crystalline alloy are not formed, the amorphous alloy material has a plurality of unique performances, the excellent soft magnetic performance is just one of the amorphous alloy material, a certain angle exists between the direction of a magnetic domain and the direction of a magnetic field, and the smaller angle is the better soft magnetic performance of the strip; the amorphous thin belt is one of products made of amorphous alloy materials, wherein the amorphous thin belt needs to be wound by a winding roller in the production process, and the amorphous thin belt needs to be taken down together with the winding roller after winding is finished, so that the winding roller needs to be detachably fixed on a rack by using a clamping device;

the amorphous thin strip is wound by a winding machine after being sprayed by a strip spraying machine, but in the actual production process, the strip spraying machine and the winding machine are subjected to the processing technological requirements, and a distance exists between the strip spraying machine and the winding machine; the following problems arise:

the power for winding the strip comes from a winding machine, wherein a winding machine can drive a winding roller to wind the strip through a certain rotating speed, but when the wound amorphous thin strip is used, the phenomenon of breakage often occurs, and after analysis, the surface of the coiled material is found to be deformed; the rejection rate of the strip is improved;

in view of the above, the prior art is obviously inconvenient and disadvantageous in practical use, and needs to be improved.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a thin usefulness of amorphous is taken with feeding and is blown ware for the strip of solving among the conventional art passes through the spraying of strip machine, and after the rolling of rolling machine again, the cracked problem of deformation appears in the strip.

In order to solve the above problem, the utility model provides a following technical scheme:

a feeder for an amorphous thin strip includes two air guide casings disposed in parallel and opposed to each other, and a convection area for feeding a web is formed by an area between the two air guide casings.

As an improved scheme, the two air guide shells move longitudinally by utilizing the frame body.

As an improved scheme, the frame body does transverse movement by utilizing the guide rail.

As an improved scheme, the air guide shell comprises an upper shell and a lower shell, the bottom surface and the two end faces of the upper shell are arranged in an open mode, the top surface and the two end faces of the lower shell are arranged in an open mode, the open end of the bottom surface of the upper shell is opposite to the open end of the top surface of the lower shell, and the open ends of the two end faces, which face the same direction, are respectively provided with an air inlet cover body.

As an improved scheme, the guide rail comprises two plate bodies which are arranged in parallel, two sliding shafts are arranged between the two plate bodies in parallel, and the two end parts of each sliding shaft are rotatably provided with walking wheels.

As an improved scheme, the frame body comprises a rectangular frame, the two air guide shells are fixedly connected in the rectangular frame, and the lower end part of the rectangular frame is slidably mounted on the sliding shaft through a lantern ring.

As an improved scheme, a lead screw is further arranged between the two plate bodies, and a driving plate in threaded connection with the lead screw is fixedly connected to the rectangular frame.

As an improved scheme, a manual crank is installed at one end of the screw rod.

As an improved scheme, the air inlet cover body comprises a trapezoidal shell, the large-caliber end of the trapezoidal shell is connected to the opening of the end face of the air guide shell, and the small-caliber end of the trapezoidal shell is connected with the air inlet cylinder.

Compared with the prior art, the beneficial effects of the utility model are that:

the method comprises the following steps of performing suspension auxiliary feeding on a strip material to prevent the surface of the strip material from rubbing with a feeding auxiliary tool; the auxiliary feeding of the strip is realized, and the problem of strip deformation caused by the tension of a winder is solved; the belt material is supported, so that the belt material is prevented from drooping due to the fact that the distance between the belt spraying machine and the winding machine is too far, and the tension force is prevented from deforming; the winding quality of the strip is ensured, and the yield is improved; the number of parts is small, the assembly process is simple and convenient, and the failure rate is low; simple structure and long service life.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

Fig. 1 is a schematic structural view of the utility model;

in the figure: 1-an upper shell; 2-a lower shell; 3-convection zone; 4-a rectangular frame; 5-an air inlet cover body; 6-an air inlet cylinder; 7-a plate body; 8-walking wheels; 9-sliding shaft; 10-a collar; 11-a drive plate; 12-a lead screw; 13-hand crank.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

As shown in FIG. 1, the feeder-blower for amorphous ribbon comprises two air guide casings disposed in parallel and opposed to each other in the upper and lower direction, and forms a convection zone 3 for feeding a web through a zone between the two air guide casings.

The two air guide shells move longitudinally by utilizing the frame body.

The frame body moves transversely by using the guide rail.

The guide rail comprises two plate bodies 7 which are arranged in parallel, two sliding shafts 9 are arranged between the two plate bodies 7 in parallel, the two end parts of each sliding shaft 9 are respectively provided with a walking wheel 8 in a rotating way, and the walking wheels 8 are independently provided with a driving part, so that the details are not repeated herein because the walking wheels are known by the technical personnel in the field.

The support body comprises a rectangular frame 4, two air guide shells are fixedly connected in the rectangular frame 4, and the lower end part of the rectangular frame 4 is slidably mounted on a sliding shaft 9 through a lantern ring 10.

The air guide shell comprises an upper shell body 1 and a lower shell body 2, the bottom surface and the two end faces of the upper shell body 1 are opened, the top surface and the two end faces of the lower shell body 2 are opened, the bottom surface opening end of the upper shell body 1 and the top surface opening end of the lower shell body 2 are arranged oppositely, and an air inlet cover body 5 is arranged at one end face opening end of the upper shell body 1 and the end face opening end of the lower shell body which face the same.

The air inlet cover body 5 comprises a trapezoidal shell, the large-caliber end of the trapezoidal shell is connected to the opening of the end face of the air guide shell, the small-caliber end of the trapezoidal shell is connected with an air inlet cylinder 6, wherein the air inlet cylinder 6 is connected with an air source, two air guide shells form a convection space by utilizing opposite openings to suspend and support the amorphous thin strip, so that the amorphous thin strip is prevented from being rubbed with a feeding device, the air source enters from one end of the air guide shell and blows to the other opening end to play a role in feeding and supporting the amorphous thin strip, wherein the air source pressure of the lower shell 2 is greater than that of the upper shell 1, the pressure is selected according to different amorphous thin strips, and the pressure is well known by technicians in the field, so that the.

A screw 12 is further arranged between the two plate bodies 7, and a driving plate 11 in threaded connection with the screw 12 is fixedly connected to the rectangular frame 4.

One end of the screw 12 is mounted with a manual crank 13.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims

1. A feeding blower for amorphous thin ribbon, characterized in that: comprises two air guide shells which are arranged in parallel and oppositely up and down, and a convection area (3) for feeding the coiled material is formed by the area between the two air guide shells.

2. The feeding blower for amorphous ribbon as set forth in claim 1, wherein: the two air guide shells move longitudinally by utilizing the frame body.

3. The feeding blower for amorphous ribbon as set forth in claim 2, wherein: the frame body moves transversely by using the guide rail.

4. The feeding blower for amorphous ribbon as set forth in claim 1, wherein: the air guide shell comprises an upper shell (1) and a lower shell (2), the bottom surface and the two end faces of the upper shell (1) are opened, the top surface and the two end faces of the lower shell (2) are opened, the bottom surface opening end of the upper shell (1) is opposite to the top surface opening end of the lower shell (2), and the two end faces are provided with air inlet cover bodies (5) respectively towards the same end face opening end.

5. The feeding blower for amorphous ribbon as set forth in claim 3, wherein: the guide rail comprises two plate bodies (7) which are arranged in parallel, two sliding shafts (9) are arranged between the plate bodies (7) in parallel, and the two end parts of each sliding shaft (9) are respectively rotatably provided with a travelling wheel (8).

6. The feeding blower for amorphous ribbon as set forth in claim 5, wherein: the support body includes rectangular frame (4), two the equal rigid coupling of air guide casing in rectangular frame (4), the lower tip of rectangular frame (4) through lantern ring (10) slidable mounting in on sliding shaft (9).

7. The feeding blower for amorphous ribbon as set forth in claim 6, wherein: a lead screw (12) is further arranged between the two plate bodies (7), and a driving plate (11) in threaded connection with the lead screw (12) is fixedly connected to the rectangular frame (4).

8. The feeding blower for amorphous ribbon as set forth in claim 7, wherein: and a manual crank (13) is arranged at one end of the screw rod (12).

9. The feeding blower for amorphous ribbon as set forth in claim 4, wherein: the air inlet cover body (5) comprises a trapezoidal shell, the large-caliber end of the trapezoidal shell is connected to the opening of the end face of the air guide shell, and the small-caliber end of the trapezoidal shell is connected with an air inlet cylinder (6).