CN215710499U

CN215710499U - Amorphous thin-strip multilayer conveying composite device for amorphous transformer

Info

Publication number: CN215710499U
Application number: CN202122131348.2U
Authority: CN
Inventors: 刘志田; 邹黎; 董国军
Original assignee: Jiangsu Guoneng Alloy Technology Co ltd
Current assignee: Jiangsu Guoneng Alloy Technology Co ltd
Priority date: 2021-09-03
Filing date: 2021-09-03
Publication date: 2022-02-01
Anticipated expiration: 2031-09-03

Abstract

The utility model discloses an amorphous thin strip multilayer conveying and compounding device for an amorphous transformer, which comprises a base, wherein a double-layer conveying belt is arranged on the base, the double-layer conveying belt comprises a lower conveying belt arranged on the base, a plurality of upper conveying belts are arranged above the lower conveying belt at intervals, a plurality of unwinding stations positioned above the double-layer conveying belt are arranged on the base, and the upper conveying belts correspond to the unwinding stations one by one; the machine base is provided with a transmission driving device for synchronously driving the upper conveying belt and the lower conveying belt; the output end of the thin strip of the double conveyor belts is provided with a conduction band device for guiding the thin strip into a winding machine; when the amorphous ribbon feeding device works, thin ribbons from an unreeling station sequentially enter a lower conveying belt, the upper conveying belt and the lower conveying belt are combined together while the thin ribbons are flattened, and finally, the amorphous ribbon is guided into a reeling machine through a ribbon guiding device; after the upper conveying belt and the lower conveying belt are tightly pressed and conveyed and the guide belts of the belt guiding devices enter the multilayer belt on the winding machine, the multilayer belt is very flat and tightly compounded, and the compounding quality is good.

Description

Amorphous thin-strip multilayer conveying composite device for amorphous transformer

Technical Field

The utility model relates to amorphous thin strip processing equipment, in particular to an amorphous thin strip multilayer conveying compound device for an amorphous transformer.

Background

The amorphous thin-strip iron core for the amorphous transformer requires that an amorphous thin strip is compounded by a plurality of layers of thin strips during winding, and the existing production process and equipment need manual operation when an amorphous thin-strip coil is replaced or a broken strip is reconnected, so that the labor intensity is high, serious potential safety hazard exists in the operation, and the production efficiency is low.

In the production process of compounding the amorphous thin strips, how to compound the thin strips on a plurality of strip coils evenly is an important link related to the quality of the thin strips after compounding; in the prior art, the problems of strip breakage and strip wrinkling are easy to occur in the process of compounding the thin strip, so that the final compounding quality is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an amorphous thin strip multilayer conveying and compounding device for an amorphous transformer, which can compound while conveying and has high compounding flatness.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the amorphous thin strip multilayer conveying and compounding device for the amorphous transformer comprises a base, wherein a double-layer conveying belt is arranged on the base, the double-layer conveying belt comprises a lower conveying belt arranged on the base, a plurality of upper conveying belts are arranged on the base above the lower conveying belt at intervals, a plurality of unwinding stations positioned above the double-layer conveying belt are arranged on the base, the upper conveying belts correspond to the unwinding stations one by one, and the upper conveying belts are positioned behind the unwinding stations along the conveying direction of the amorphous thin strips; the machine base is provided with a conveying driving device for synchronously driving the upper conveying belt and the lower conveying belt;

and a belt guide device for guiding the thin belt into the winding machine is arranged at the output end of the thin belt of the double conveyor belts.

As a preferable technical solution, the belt guiding device includes a belt guiding plate rotating coaxially with the outlet end rotating shaft of the lower conveyor belt, the belt guiding plate is located behind the lower conveyor belt, and the upper surface of the inlet end of the belt guiding plate is in coordination with the upper surface of the lower conveyor belt;

the amorphous thin belt is characterized in that a belt pressing assembly rotating coaxially with an outlet end rotating shaft of the upper conveying belt is installed above the amorphous thin belt, the belt pressing assembly is located behind the upper conveying belt, and the upper surface of an inlet end of the belt pressing assembly is in coordination with the upper surface of the upper conveying belt.

As an optimal technical scheme, the conduction band connecting plate is installed to one side of conduction band plate entry end, the conduction band connecting plate outwards extends to the outside of conveyer belt down, fixed mounting has the conduction band connecting cylinder on the conduction band connecting plate, the conduction band connecting cylinder suit is in the pivot of conveyer belt exit end down, the conduction band connecting cylinder with clearance fit between the pivot or the conduction band connecting cylinder with install rolling bearing between the pivot.

Preferably, the exit end of the tape guide plate is rotatably mounted with a tape guide roller that is pressed against the outer circumference of the tape roll.

As a preferred technical scheme, press one side of pressing the subassembly entry end and install and press the area connecting plate, press the area connecting plate and extend outwards go up the outside that the conveyer belt was sent, press fixed mounting to press on the area connecting plate and press the area connecting cylinder, press the area connecting cylinder suit to go up in the pivot of conveyer belt exit end, press the area connecting cylinder with clearance fit between the pivot or press the area connecting cylinder with install rolling bearing between the pivot.

As a preferable technical solution, the belt pressing assembly includes a first belt pressing plate and a second belt pressing plate hinged together, the first belt pressing plate is connected to the upper conveyor belt, and a belt pressing roller is rotatably mounted at a free end of the second belt pressing plate.

As a preferable technical solution, the conveying driving device includes a driving motor, and the driving motor is connected with a transmission mechanism respectively connected with the lower conveying belt and the upper conveying belt in a transmission manner.

Due to the adoption of the technical scheme, the amorphous thin strip multilayer conveying and compounding device for the amorphous transformer comprises a base, wherein a double-layer conveying belt is arranged on the base, the double-layer conveying belt comprises a lower conveying belt arranged on the base, a plurality of upper conveying belts are arranged on the base above the lower conveying belt at intervals, a plurality of unwinding stations positioned above the double-layer conveying belt are arranged on the base, the upper conveying belts correspond to the unwinding stations one by one, and the upper conveying belts are positioned behind the unwinding stations along the conveying direction of the amorphous thin strips; the machine base is provided with a conveying driving device for synchronously driving the upper conveying belt and the lower conveying belt; the output end of the thin strip of the double conveyor belts is provided with a strip guiding device for guiding the thin strip into a winding machine; when the amorphous ribbon feeding device works, thin ribbons from an unreeling station sequentially enter a lower conveying belt, the upper conveying belt and the lower conveying belt are combined together while the thin ribbons are flattened, and finally, the amorphous ribbon is guided into a reeling machine through a ribbon guiding device; after the upper conveying belt and the lower conveying belt are tightly pressed and conveyed and the guide belts of the belt guiding devices enter the multilayer belt on the winding machine, the multilayer belt is very flat and tightly compounded, and the compounding quality is good.

Drawings

The drawings are only for purposes of illustrating and explaining the present invention and are not to be construed as limiting the scope of the present invention. Wherein:

FIG. 1 is a first schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a second schematic structural diagram of an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of an embodiment of the present invention;

in the figure: 1-a machine base; 21-a lower conveyor belt; 22-upper conveyor belt; 3, a winding machine; 41-a tape guide plate; 42-a conduction band connection plate; 43-conduction band connection cylinder; 44-a belt guide roller; 51-a press belt web; 52-a press belt connecting cylinder; 53-a first belt platen; 54-a second belt platen; 55-press belt roller.

Detailed Description

The utility model is further illustrated below with reference to the figures and examples. In the following detailed description, certain exemplary embodiments of the present invention are described by way of illustration only. Needless to say, a person skilled in the art realizes that the described embodiments can be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and not intended to limit the scope of the claims.

As shown in fig. 1, 2 and 3, the amorphous thin strip multilayer conveying compound device for the amorphous transformer comprises a base 1, wherein a double-layer conveyor belt is installed on the base 1, the double-layer conveyor belt comprises a lower conveyor belt 21 installed on the base 1, a plurality of upper conveyor belts 22 are installed on the base 1 above the lower conveyor belt 21 at intervals, a plurality of unwinding stations located above the double-layer conveyor belt are arranged on the base 1, the upper conveyor belts 22 correspond to the unwinding stations one by one, and the upper conveyor belts 22 are located behind the unwinding stations along the conveying direction of the amorphous thin strips; install the conveying drive arrangement who is used for synchronous drive to go up conveyer belt 22 and lower conveyer belt 21 on the frame 1, conveying drive arrangement includes driving motor (not shown in the figure), driving motor adopts servo motor, driving motor be connected with respectively with lower conveyer belt 21 with go up the driven drive mechanism (not shown in the figure) of connecting of conveyer belt 22, drive mechanism can adopt chain gear drive mode, also can adopt belt pulley and belt drive mode, and the drive mechanism of these modes all belongs to prior art, and no longer repeated description here.

And a belt guide device for guiding the thin belt into the winding machine 3 is arranged at the output end of the thin belt of the double conveyor belts. The belt guiding device comprises a belt guiding plate 41 which coaxially rotates with the outlet end rotating shaft of the lower conveyor belt 21, the belt guiding plate 41 is positioned behind the lower conveyor belt 21, and the upper surface of the inlet end of the belt guiding plate 41 is in coordination with the upper surface of the lower conveyor belt 21; conduction band connecting plate 42 is installed to one side of conduction band board 41 entry end, conduction band connecting plate 42 outwards extends to the outside of conveyer belt 21 down, fixed mounting has conduction band connecting cylinder 43 on the conduction band connecting plate 42, conduction band connecting cylinder 43 suit is in the pivot of conveyer belt 21 exit end down, conduction band connecting cylinder 43 with clearance fit between the pivot perhaps conduction band connecting cylinder 43 with install rolling bearing between the pivot. The exit end of the tape guide plate 41 is rotatably mounted with a tape guide roller 44 that is pressed against the outer periphery of the roll.

The amorphous ribbon is characterized in that a ribbon pressing assembly rotating coaxially with an outlet end rotating shaft of the upper conveying belt 22 is installed above the amorphous ribbon, the ribbon pressing assembly is located behind the upper conveying belt 22, and the upper surface of an inlet end of the ribbon pressing assembly is in coordination with the upper surface of the upper conveying belt 22. Press one side of pressing the subassembly entry end to install and press area connecting plate 51, press area connecting plate 51 outwards to extend to go up the outside that the conveyer belt 22 was sent, press fixed mounting to press on the area connecting plate 51 to press and press a connecting cylinder 52, press and press the suit of connecting cylinder 52 in go up in the pivot of conveyer belt 22 exit end, press the area connecting cylinder 52 with clearance fit between the pivot or press the area connecting cylinder 52 with install rolling bearing between the pivot. The belt pressing assembly comprises a first belt pressing plate 53 and a second belt pressing plate 54 which are hinged together, the first belt pressing plate 53 is connected with the upper conveyor belt 22, and a belt pressing roller 55 is rotatably mounted at the free end of the second belt pressing plate 54.

The belt guide plate 41 and the output end rotating shaft of the lower conveying belt 21 rotate coaxially, the end part of the belt guide plate 41 is provided with a belt guide roller 44, the belt guide roller 44 is in contact with the belt coil and floats along with the diameter change of the belt coil, the belt pressing assembly and the transmission roller at the output end of the upper conveying belt 22 rotate coaxially and freely, the belt pressing assembly consists of two sections and can be freely lapped on the belt guide plate 41, and the composite thin belt is conveyed to a belt coil winding core of the winding machine 3 to be wound after passing through the belt guide plate 41 and the belt pressing assembly. The transmission speeds of the upper conveyor belt 22 and the lower conveyor belt 21 are synchronized.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims

1. Amorphous thin multilayer of taking transports set composite for amorphous transformer, including the frame, its characterized in that: the machine base is provided with a double-layer conveyor belt, the double-layer conveyor belt comprises a lower conveyor belt arranged on the machine base, a plurality of upper conveyor belts are arranged on the machine base above the lower conveyor belt at intervals, a plurality of unreeling stations located above the double-layer conveyor belt are arranged on the machine base, the upper conveyor belts correspond to the unreeling stations one by one, and the upper conveyor belts are located behind the unreeling stations along the conveying direction of the amorphous thin strips; the machine base is provided with a conveying driving device for synchronously driving the upper conveying belt and the lower conveying belt;

and a belt guide device for guiding the thin belt into the winding machine is arranged at the output end of the thin belt of the double-layer conveyor belt.

2. The amorphous thin-strip multilayer conveying compound device for the amorphous transformer as claimed in claim 1, wherein: the guide belt device comprises a guide belt plate which coaxially rotates with the rotating shaft at the outlet end of the lower conveying belt, the guide belt plate is positioned behind the lower conveying belt, and the upper surface of the inlet end of the guide belt plate is in coordination with the upper surface of the lower conveying belt;

3. The amorphous thin-strip multilayer conveying compound device for the amorphous transformer as claimed in claim 2, wherein: the conduction band connecting plate is installed to one side of conduction band board entry end, the conduction band connecting plate outwards extends to the outside of conveyer belt down, fixed mounting has the conduction band connecting cylinder on the conduction band connecting plate, the conduction band connecting cylinder suit is in the pivot of conveyer belt exit end down, the conduction band connecting cylinder with clearance fit between the pivot perhaps the conduction band connecting cylinder with install rolling bearing between the pivot.

4. The amorphous thin-strip multilayer conveying compound device for the amorphous transformer as claimed in claim 2, wherein: the outlet end of the tape guide plate is rotatably provided with a tape guide roller which is pressed against the outer peripheral surface of the tape roll.

5. The amorphous thin-strip multilayer conveying compound device for the amorphous transformer as claimed in claim 2, wherein: press one side of area subassembly entry end to install and press the area connecting plate, press the area connecting plate outwards to extend go up the outside that the conveyer belt was sent, press fixed mounting to press on the area connecting plate to press and press the area connecting cylinder, press the area connecting cylinder suit to go up in the pivot of conveyer belt exit end, press the area connecting cylinder with clearance fit between the pivot perhaps press the area connecting cylinder with install rolling bearing between the pivot.

6. The amorphous thin-strip multilayer conveying compound device for the amorphous transformer as claimed in claim 2, wherein: the belt pressing assembly comprises a first belt pressing plate and a second belt pressing plate which are hinged together, the first belt pressing plate is connected with the upper conveying belt, and a belt pressing roller is rotatably mounted at the free end of the second belt pressing plate.

7. An amorphous thin-strip multi-layer conveying composite device for an amorphous transformer as claimed in any one of claims 1 to 6, wherein: the conveying driving device comprises a driving motor, and the driving motor is connected with a transmission mechanism which is in transmission connection with the lower conveying belt and the upper conveying belt respectively.