CN208542932U - A kind of cooling copper roller main axle structure of amorphous thin ribbon production - Google Patents

Abstract

The utility model discloses a kind of amorphous thin ribbons to produce with cooling copper roller main axle structure, including main shaft body, main shaft body is hollow structure, water output cylinder there are two being set in main shaft body, an intake chamber is formed between each water output cylinder and the inner wall of main shaft body, cooling water respectively enters cooling copper roller by two intake chambers, is discharged through two water output cylinders.The main shaft that the utility model uses above-mentioned technical proposal can be realized both ends water inlet and both ends water outlet, improves cooling water circulating speed, so that temperature is uniform on copper roller, and then improves the flatness and yield rate of band.

Description

A kind of cooling copper roller main axle structure of amorphous thin ribbon production

Technical field

The utility model relates to a kind of process units of amorphous band, specifically, being related to a kind of amorphous thin ribbon

The cooling copper roller main axle structure of production, belongs to field of mechanical technique.

Background technique

The patent of invention that number of patent application is 2017102731433 discloses a kind of rotation chill roll and its cooling means, Including copper roller 4 and inner cylinder 6, copper roller 4 and inner cylinder 6 are in sleeve-shaped respectively, and inner cylinder 6 is fixed on master by the two inner cylinder end caps 5 in left and right On axis 1, the inner cylinder face of the copper roller 4 is internal thread structure, forms cylindrical thread water channel, institute with the external cylindrical surface of inner cylinder 6 Copper roller 4 is stated connect with the two copper roller end lids 3 in left and right and fixed, the two copper roller end lids 3 in left and right respectively by the axle sleeves 8 of left and right two and The two inner cylinder end caps 5 in left and right are connected and fixed on main shaft 1, flat thread are provided on the inside of copper roller end lid 3, with 5 shape of inner cylinder end cap At flat thread water channel, cylindrical thread water channel is connected to the flat thread water channel of the left and right sides, forms the cooling of cooling copper roller Water route.

One end of main shaft 1 is provided with inlet opening 2, and the other end is provided with apopore 7.

The main shaft of above structure is unfavorable for following for cooling water by one end water inlet other end water outlet, the main shaft of this structure Ring, circulation rate is slow, non-uniform temperature on copper roller, causes that cooling effect is poor, and the flatness and yield rate of band are low.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of amorphous thin ribbons to produce with cooling copper roller main shaft

Structure, the main shaft can be realized both ends water inlet and both ends water outlet, cooling water circulating speed improved, so that on copper roller Temperature is uniform, and then improves the flatness and yield rate of band.

In order to solve the above technical problems, the technical solution of the utility model is: a kind of cooling copper roller of amorphous thin ribbon production Main axle structure, including main shaft body, main shaft body are hollow structure, are set in main shaft body there are two water output cylinder, each water output cylinder An intake chamber is formed between the inner wall of main shaft body, cooling water respectively enters cooling copper roller by two intake chambers, through two Water output cylinder discharge.

It is further improvement of the utility model below:

Two water output cylinders are isolated by spacing block to be arranged.

It is further improved:

Main shaft body is equipped with the first water inlet and the second water inlet.

It is further improved:

The first radial inlet opening, the second radial backwater hole, the second radial inlet opening, the first radial direction are offered on main shaft body Backwater hole.

It is further improved:

The intake chamber includes the first intake chamber, the second intake chamber；

The radial inlet opening of first water inlet, the first intake chamber and first is interconnected；

The radial inlet opening of second water inlet, the second intake chamber and second is interconnected.

It is further improved:

Two water output cylinders include the first water output cylinder, the second water output cylinder；

The first radial apopore is offered on first water output cylinder；

The second radial apopore is offered on second water output cylinder；

Second radial backwater hole, the first radial apopore and the first water outlet tube inner chamber are interconnected；

First radial backwater hole, the second radial apopore and the second water outlet tube inner chamber are interconnected.

It is further improved:

Main shaft body includes interconnecting piece, and wherein one end of interconnecting piece is connected with the first main shaft part, interconnecting piece it is another End is connected with the second main shaft part；

First main shaft part, the second main shaft part and interconnecting piece coaxial arrangement.

It is further improved:

The first water output cylinder is equipped in first main shaft part, the first water output cylinder and the first main shaft part are coaxially disposed；

The second water output cylinder is equipped in second main shaft part, the second water output cylinder and the second main shaft part are coaxially disposed；

One end of first water output cylinder is arranged in interconnecting piece, and the other end of the first water output cylinder in the first main shaft part by stretching out；

One end of second water output cylinder is arranged in interconnecting piece, and the other end of the second water output cylinder in the second main shaft part by stretching out；

Position in interconnecting piece positioned at the first water output cylinder and the second water output cylinder between is equipped with spacing block, the first water output cylinder and the The end of two water output cylinders connect with spacing block respectively and is sealed by spacing block.

It is further improved:

The outer wall of first water output cylinder is equipped with the first flange, the second flange, the outer wall of the first water output cylinder, the first main shaft part The first intake chamber is formed between inner wall, the inner wall of interconnecting piece, the first flange and the second flange；

Third water cavity is formed between the outer wall of first water output cylinder, the inner wall of interconnecting piece, the first flange and spacing block.

It is further improved:

The outer wall of second water output cylinder is equipped with third flange, the 4th flange, the outer wall of the second water output cylinder, the second main shaft part The second intake chamber is formed between inner wall, the inner wall of interconnecting piece, third flange and the 4th flange；

The 4th water cavity is formed between the outer wall of second water output cylinder, the inner wall of the second main shaft part, third flange and spacing block.

The main shaft that the utility model uses above-mentioned technical proposal can be realized both ends water inlet and both ends water outlet, improve cold But water circulating speed so that temperature is uniform on copper roller, and then improves the flatness and yield rate of band.

Detailed description of the invention

Attached drawing 1 is the structural schematic diagram of main shaft in the utility model embodiment；

In figure:

1- main shaft body, the first water output cylinder of 2-, the second water output cylinder of 3-, the first intake chamber of 4-, the second intake chamber of 5-, 6- first Radial inlet opening, the radial inlet opening 7- second, the radial apopore of 8- first, the radial apopore of 9- second, the first water inlet of 10-, The second water inlet of 11-, the first water outlet of 12-, the second water outlet of 13-,

The radial backwater hole of 14- second, the radial backwater hole of 15- first, 16- spacing block, the first flange of 17-；18- second is convex Edge；19- third flange, the 4th flange of 20-, 21- third water cavity, the 4th water cavity of 22-, the first main shaft part of 101-, 102- second are main Axle portion, 103- interconnecting piece.

Specific embodiment

Embodiment, as shown in Figure 1, a kind of production of amorphous thin ribbon cooling copper roller main axle structure, including main shaft body 1, main Shaft body 1 is hollow structure.

Main shaft body 1 includes interconnecting piece 503, and wherein one end of interconnecting piece 503 is connected with the first main shaft part 501, even The other end of socket part 503 is connected with the second main shaft part 502.

First main shaft part 501, the second main shaft part 502 and interconnecting piece 503 are coaxially disposed.

The diameter of second main shaft part 502 is greater than the diameter of the first main shaft part 501, the second main shaft part 502.

The first water output cylinder 2 is equipped in first main shaft part 501, the first water output cylinder 2 and the first main shaft part 501 are coaxially disposed.

The second water output cylinder 3 is equipped in second main shaft part 502, the second water output cylinder 3 and the second main shaft part 502 are coaxially disposed.

One end of first water output cylinder 2 is arranged in interconnecting piece 503, and the other end of the first water output cylinder 2 is by the first main shaft part 501 Interior stretching.

One end of second water output cylinder 3 is arranged in interconnecting piece 503, and the other end of the second water output cylinder 3 is by the second main shaft part 502 Interior stretching.

Position in interconnecting piece 503 between the first water output cylinder 2 and the second water output cylinder 3 is equipped with spacing block 16, and first goes out Water drum 2 connect respectively with spacing block 16 with the end of the second water output cylinder 3 and is sealed by spacing block 16.

The outer wall of first water output cylinder 2 is equipped with the first flange 17, the second flange 18, the outer wall of the first water output cylinder 2, the first master The first intake chamber 4 is formed between the inner wall of axle portion 501, the inner wall of interconnecting piece 503, the first flange 17 and the second flange 18.

Third water is formed between the outer wall of first water output cylinder 2, the inner wall of interconnecting piece 503, the first flange 17 and spacing block 16 Chamber 21.

The outer wall of first water output cylinder 2 is equipped with the first radial apopore 8, leads between the first water output cylinder 2 and third water cavity 21 The first radial apopore 8 is crossed to be connected to.

The outer wall of second water output cylinder 3 is equipped with third flange 19, the 4th flange 20, the outer wall of the second water output cylinder 3, the second master The second intake chamber 5 is formed between the inner wall of axle portion 502, the inner wall of interconnecting piece 503, third flange 19 and the 4th flange 20.

Is formed between the outer wall of second water output cylinder 3, the inner wall of the second main shaft part 502, third flange 19 and spacing block 16 Four water cavities 22.

The outer wall of second water output cylinder 3 is equipped with the second radial apopore 9, leads between the second water output cylinder 3 and the 4th water chamber 43 The second radial apopore 9 is crossed to be connected to.

First water output cylinder 2 has the first water outlet 12, and the second water output cylinder 3 has the second water outlet 13.

Main shaft body 1 is equipped with the first water inlet 10 being connected to the first intake chamber 4, and main shaft body 1 is equipped with and second The second water inlet 11 that intake chamber 5 is connected to.

The circumference of interconnecting piece 503 is equipped with the first radial inlet opening 6, first the 14, second radial inlet opening 7 of intercommunicating pore, the One radial backwater hole 15.

First radial inlet opening 6 is connected to the first intake chamber 4.

First intercommunicating pore 14 is connected to by third water cavity 21 with the first water output cylinder 2.

Second radial inlet opening 7 is connected to the second intake chamber 5, and the first radial backwater hole 15 passes through the 4th water chamber 43 and second Water output cylinder 3 is connected to.

The course of work of the utility model is as follows: being passed through cooling water, the first via from the water inlet of main shaft body 1

Enter the first intake chamber 4 from the first water inlet 10, it cooled down into copper roller along the first radial inlet opening 6, It participates in water after cooling and enters the second water output cylinder 3 through the first radial apopore 9 of radial backwater hole 15, second, from the second water outlet 13 outflows.

Second road enters the second intake chamber 5 from the second water inlet 11, carries out into copper roller to it along the second radial inlet opening 7 It is cooling, water after cooling is participated in through first the 14, first radial apopore 8 of intercommunicating pore and enters the first water output cylinder 2, from the first water outlet 12 outflows.

Claims (10)

1. a kind of amorphous thin ribbon production cooling copper roller main axle structure, including main shaft body (1), main shaft body (1) is hollow knot Structure, sets that there are two water output cylinders in main shaft body (1), it is characterised in that: shape between each water output cylinder and the inner wall of main shaft body (1) At an intake chamber, cooling water respectively enters cooling copper roller by two intake chambers, is discharged through two water output cylinders.

2. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 1, it is characterised in that: two water output cylinders It is isolated by spacing block and is arranged.

3. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 1, it is characterised in that: main shaft body (1) the first water inlet (10) and the second water inlet (11) are equipped with.

4. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 3, it is characterised in that: main shaft body (1) the first radial inlet opening (6), the second radial backwater hole (14), the second radial inlet opening (7), first radial time are offered on Water hole (15).

5. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 4, it is characterised in that: the intake chamber Including the first intake chamber (4), the second intake chamber (5)；

The radial inlet opening (6) of first water inlet (10), the first intake chamber (4) and first is interconnected；

The radial inlet opening (7) of second water inlet (11), the second intake chamber (5) and second is interconnected.

6. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 3, it is characterised in that: two water output cylinders Including the first water output cylinder (2), the second water output cylinder (3)；

The first radial apopore (8) is offered on first water output cylinder (2)；

The second radial apopore (9) is offered on second water output cylinder (3)；

Second radial backwater hole (14), the first radial apopore (8) and the first water output cylinder (2) inner cavity are interconnected；

First radial backwater hole (15), the second radial apopore (9) and the second water output cylinder (3) inner cavity are interconnected.

7. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 1, it is characterised in that: main shaft body It (1) include interconnecting piece (503), wherein one end of interconnecting piece (503) is connected with the first main shaft part (501), interconnecting piece (503) The other end be connected with the second main shaft part (502)；

First main shaft part (501), the second main shaft part (502) and interconnecting piece (503) coaxial arrangement.

8. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 3, it is characterised in that: the first main shaft part (501) the first water output cylinder (2) are equipped in, the first water output cylinder (2) and the first main shaft part (501) are coaxially disposed；

The second water output cylinder (3) are equipped in second main shaft part (502), the second water output cylinder (3) with the second main shaft part (502) is coaxial sets It sets；

One end setting of first water output cylinder (2) is in interconnecting piece (503), and the other end of the first water output cylinder (2) is by the first main shaft part (501) it is stretched out in；

One end setting of second water output cylinder (3) is in interconnecting piece (503), and the other end of the second water output cylinder (3) is by the second main shaft part (502) it is stretched out in；

Position in interconnecting piece (503) between the first water output cylinder (2) and the second water output cylinder (3) is equipped with spacing block (16), the One water output cylinder (2) connect respectively with spacing block (16) with the end of the second water output cylinder (3) and is sealed by spacing block (16).

9. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 8, it is characterised in that: the first water output cylinder (2) outer wall is equipped with the first flange (17), the second flange (18), the outer wall of the first water output cylinder (2), the first main shaft part (501) Inner wall, the inner wall of interconnecting piece (503), between the first flange (17) and the second flange (18) form the first intake chamber (4)；

Is formed between the outer wall of first water output cylinder (2), the inner wall of interconnecting piece (503), the first flange (17) and spacing block (16) Three water cavities (21).

10. the cooling copper roller main axle structure of amorphous thin ribbon production according to claim 8, it is characterised in that: the second water outlet The outer wall of cylinder (3) is equipped with third flange (19), the 4th flange (20), the outer wall of the second water output cylinder (3), the second main shaft part (502) the second intake chamber is formed between the inner wall of inner wall, interconnecting piece (503), third flange (19) and the 4th flange (20) (5)；

Shape between the outer wall of second water output cylinder (3), the inner wall of the second main shaft part (502), third flange (19) and spacing block (16) At the 4th water cavity (22).