CN105502923A - Cooling fin adjusting device for manufacturing glass fibers - Google Patents

Abstract

The invention provides a cooling fin adjusting device for manufacturing glass fibers, which can more precisely adjust a distance between a cooling body and a bushing plate. The cooling fin adjusting device for manufacturing the glass fibers comprises a cooling frame body fixing device, a rotating adjusting device and a lock wrench fixing device, wherein the cooling frame body fixing device comprises a connector with the upper part connected with a cooling frame body and a lower fixing block, the cooling frame body fixing device is movably connected with the rotating adjusting device, and the rotating adjusting device is connected with the lock wrench fixing device in a threading manner. The upper end of the adjusting device is connected with the cooling fin frame body, and the lower end of the adjusting device is connected with a lock wrench, so that the adjusting device is firmly fixed on a position below the bushing plate and is convenient to arrange and use; the cooling fin adjusting device is simple and convenient in adjustment, compared with the traditional manual adjustment by an operator, the precision is high, and the adjustment success rate is high; and the adjusting device is long in service life generally reaching a period of furnace life, namely, about 7 to 8 years, and is good in economical performance.

Description

A kind of glass fibre manufacture cooling fin setting device

Technical field

The present invention relates to setting device, particularly relates to glass fibre manufacture cooling fin setting device.

Background technology

At fiber as in glass fiber wire-drawing moulding process, glass metal flows down from the discharge spout of bushing, glass metal must be cooled fast, fiber could be drawn into smoothly, refrigerating unit is exactly the parts playing the glass metal effect that cooling fast flows out from discharge spout, and it can make temperature of glass liquid reach shaping required temperature.Therefore, water cooler is indispensable parts in fiber formation process.

When cooling fin is installed, the height of cooling fin should distance to be let slip a remark about 1 ~ 2mm, and distant cooling performance is bad, and distance is too near then easily " alloy " occurs to be reacted with leting slip a remark to contact, and threatens to the use safety of bushing.It is a quite responsive carrier in refrigerating unit process in action, it is relative to bushing, it not an absolute stationary device, so need to regulate refrigerating unit, existing setting device is for cooling framework is directly welded with a locking pliers equipment, locking pliers clamps down on below bushing at ordinary times, compulsory cooling is carried out to discharge spout, when needs technique adjustment, operative employee unclamps locking pliers, artificially locking pliers is carried out moving to ideal position, the object reaching adjustment TEX value with this and control bushing heat distribution.

Summary of the invention

For solving the problem, the invention provides a kind of glass fibre manufacture cooling fin setting device, more accurately can regulate the distance of cooling body and bushing.

Concrete scheme of the present invention is: a kind of glass fibre manufacture cooling fin setting device, comprise cooling framework stationary installation, rotation adjustment device, locking pliers stationary installation, cooling framework stationary installation comprises the connecting joint that top is connected with cooling framework, with the fixed block of bottom, cooling framework stationary installation is flexibly connected with rotation adjustment device, and rotation adjustment device and locking pliers stationary installation are spirally connected.

Connecting joint sidepiece offers connecting hole.

Fixed block bottom has cavity, and top has groove, and groove is connected by through hole I with cavity.

The cavity inner wall of locking pliers stationary installation and fixed block bottom is slidably connected, and locking pliers stationary installation offers tapped through hole, and tapped through hole is positioned at the below of fixed block upper grooves, and the postmedian of locking pliers stationary installation offers the through hole II be connected with locking pliers.

Rotation adjustment device comprises the threaded rod matched with the tapped through hole of locking pliers stationary installation, and the upper end of threaded rod is provided with clamping joint, and clamping joint is positioned at groove, is connected between threaded rod with clamping joint by smooth shaft, and smooth shaft matches with through hole I.

The bottom of threaded rod is provided with rotating head.

The radius of through hole I is less than the radius of clamping joint and threaded rod.

The length of the length >=tapped through hole of threaded rod.

Tapped through hole both sides are provided with the clamping part I matched with the cavity front portion of fixed block, clamping part I comprises the clamping recess of tapped through hole both sides, the front of clamping recess is provided with clamping protuberance I, the cavity that clamping protuberance I is stuck in fixed block is outside, and the rear side of clamping recess is provided with clamping protuberance II.

The rear portion of clamping part I is provided with the clamping part II matched with cavity back, clamping part II comprises the clamping projection I of the rear side being arranged on clamping protuberance II, the rear side of clamping projection I is provided with clamping projection II, and the width of clamping projection I is less than the width of clamping projection II.

The height of clamping protuberance I and clamping protuberance II is equal, lower than the height of clamping protruding I or clamping projection II; The upper surface side that clamping protuberance II, clamping protruding I contact with cavity with clamping protruding II is inclined-plane.

The invention has the beneficial effects as follows: setting device upper end connects cooling fin framework, lower end connects locking pliers, is fixed on bushing lower position firmly, and arrangement and use are convenient; Regulate simple, convenient, relative to former operator's manual setting, precision is high, is adjusted to power also high; Setting device long service life, reaches kiln cycle in age, namely an about 7-8, good economy performance usually.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention.

Fig. 2 is the forward sight structural representation of cooling framework stationary installation.

Fig. 3 is the left TV structure schematic diagram of cooling framework stationary installation.

Fig. 4 is the perspective view of cooling framework stationary installation.

Fig. 5 is the perspective view of locking pliers stationary installation.

Fig. 6 is the structural representation of rotation adjustment device.

Embodiment

As shown in figures 1 to 6, a kind of glass fibre manufacture cooling fin setting device, comprise cooling framework stationary installation 1, rotation adjustment device 3, locking pliers stationary installation 2, cooling framework stationary installation 1 comprises the connecting joint 4 that top is connected with cooling framework, with the fixed block 5 of bottom, cooling framework stationary installation 1 is flexibly connected with rotation adjustment device 3, and rotation adjustment device 3 and locking pliers stationary installation 2 are spirally connected.The material of cooling framework stationary installation 1 is copper product, and heat conductivity is strong, and locking pliers stationary installation 2 processes for stainless steel.

Connecting joint 4 sidepiece offers connecting hole 15.

Fixed block 5 bottom has cavity 6, and top has groove 7, and groove 7 is connected by through hole I 8 with cavity 6.

Locking pliers stationary installation 2 is slidably connected with cavity 6 inwall of fixed block 5 bottom, locking pliers stationary installation 2 offers tapped through hole 9, tapped through hole 9 is positioned at the below of fixed block 5 upper grooves 7, and the postmedian of locking pliers stationary installation 2 offers the through hole II 10 be connected with locking pliers.

Tapped through hole 9 both sides are provided with the clamping part I 16 matched with cavity 6 front portion of fixed block 5, clamping part I 16 comprises the clamping recess 17 of tapped through hole 9 both sides, the front of clamping recess 17 is provided with clamping protuberance I 18, the cavity 6 that clamping protuberance I 18 is stuck in fixed block 5 is outside, and the rear side of clamping recess 17 is provided with clamping protuberance II 19.Clamping protuberance I 18, clamping protuberance II 19 and middle clamping recess 17 form the clamping part I 16 of cavity front end.

The rear side of clamping protuberance II 19 is provided with clamping protruding I 20, and the rear side of clamping protruding I 20 is provided with clamping protruding II 21, and the width of clamping protruding I 20 is less than the width of clamping protruding II 21.Clamping protruding I 20 forms with clamping protruding II 21 clamping part II 22 matched with cavity 6 rear portion.

The height of clamping protuberance I 18 and clamping protuberance II 19 is equal, lower than the height of clamping protruding I 20 or clamping protruding II 21.

The upper surface side that clamping protuberance II 19, clamping protruding I 20 contact with cavity 6 with clamping protruding II 21 is inclined-plane.

The both sides, front end of cavity 6 are provided with first protruding I 23, clamping recess 17 matches with first protruding I 23 of fixed block 5, clamping protuberance I is positioned at the outside of the cavity 6 of fixed block 5, clamping protuberance I 18 and clamping protuberance II 19 are stuck in the both sides of first protruding I 23, jointly complete the horizontal clamping of locking pliers stationary installation 2 and fixed block 5.The rear side of first protruding I 23 is provided with second protruding I 24, second protruding I 24 is slidably connected with the inwall of clamping protuberance II 19 and clamping protruding I 20, second protruding I 24 the first top I 25 contacted with the upper surface of clamping protuberance II 19 is inclined-plane, is that inclined-plane matches with the side of the upper surface of clamping protuberance II 19.Second protruding I 24 the second top I 26 contacted with the upper surface of clamping protruding I 20 is inclined-plane, is that inclined-plane matches with the side of the upper surface of clamping protruding I 20.The rear side of second protruding I 24 is provided with plane 27, and plane 27 is slidably connected with clamping protruding II 21, and the 3rd top I 28 that plane 27 contacts with the upper surface of clamping protruding II 21 is inclined-plane, is that inclined-plane matches with the side of the upper surface of clamping protruding II 21.

Rotation adjustment device 3 comprises the threaded rod 11 matched with the tapped through hole 9 of locking pliers stationary installation 2, the upper end of threaded rod 11 is provided with clamping joint 12, clamping joint 12 is positioned at the groove 7 that fixed block 5 top is offered, be connected by smooth shaft 13 between threaded rod 11 with clamping joint 12, smooth shaft 13 matches with through hole I 8.

The bottom of threaded rod 11 is provided with rotating head 14.Conveniently carry out manually direct rotation or hand-held device to rotate thus rotating threaded rod rotating head, make threaded rod increase or decline, cooling framework stationary installation is driven to rise or decline, thus regulate the height of cooling framework, facilitate cooled glass liquid, again can not because of with too near with distance of leting slip a remark, there is " alloy " and react with leting slip a remark to contact, affect cooling performance.

The radius of through hole I 8 is less than the radius of clamping joint 12, threaded rod 11.Facilitate rotation adjustment device to be firmly connected in cooling framework stationary installation, regulate more accurate.

The length of the length >=tapped through hole 9 of threaded rod 11.Adjustment altitude range is large, and device is stablized at variable range internal fixtion.

Claims (10)

1. a glass fibre manufacture cooling fin setting device, it is characterized in that: comprise cooling framework stationary installation (1), rotation adjustment device (3), locking pliers stationary installation (2), cooling framework stationary installation (1) comprises the connecting joint (4) that top is connected with cooling framework, with the fixed block (5) of bottom, cooling framework stationary installation (1) is flexibly connected with rotation adjustment device (3), and rotation adjustment device (3) and locking pliers stationary installation (2) are spirally connected.

2. glass fibre manufacture cooling fin setting device according to claim 1, it is characterized in that: fixed block (5) bottom has cavity (6), top has groove (7), and groove (7) is connected by through hole I (8) with cavity (6).

3. glass fibre manufacture cooling fin setting device according to claim 2, it is characterized in that: locking pliers stationary installation (2) is slidably connected with cavity (6) inwall of fixed block (5) bottom, locking pliers stationary installation (2) offers tapped through hole (9), tapped through hole (9) is positioned at the below of fixed block (5) upper grooves (7), and the postmedian of locking pliers stationary installation (2) offers the through hole II (10) be connected with locking pliers.

4. glass fibre manufacture cooling fin setting device according to claim 3, it is characterized in that: rotation adjustment device (3) comprises the threaded rod (11) matched with tapped through hole (9), the upper end of threaded rod (11) is provided with clamping joint (12), clamping joint (12) is positioned at groove (7), be connected by smooth shaft (13) between threaded rod (11) with clamping joint (12), smooth shaft (13) matches with through hole I (8).

5. glass fibre manufacture cooling fin setting device according to claim 4, is characterized in that: the bottom of threaded rod (11) is provided with rotating head (14).

6. glass fibre manufacture cooling fin setting device according to claim 4, is characterized in that: the radius of through hole I (8) is less than the radius of clamping joint (12) and threaded rod (11).

7. glass fibre manufacture cooling fin setting device according to claim 4, is characterized in that: the length of the length >=tapped through hole (9) of threaded rod (11).

8. glass fibre manufacture cooling fin setting device according to claim 3, it is characterized in that: tapped through hole (9) both sides are provided with the clamping part I (16) matched with the cavity of fixed block (5) (6) front portion, clamping part I (16) comprises the clamping recess (17) of tapped through hole (9) both sides, the front of clamping recess (17) is provided with clamping protuberance I (18), the cavity (6) that clamping protuberance I (18) is stuck in fixed block (5) is outside, and the rear side of clamping recess (17) is provided with clamping protuberance II (19).

9. glass fibre manufacture cooling fin setting device according to claim 8, it is characterized in that: the rear portion of clamping part I (16) is provided with the clamping part II (22) matched with cavity (6) rear portion, clamping part II (22) comprises the clamping projection I (20) of the rear side being arranged on clamping protuberance II (19), the rear side of clamping projection I (20) is provided with clamping projection II (21), and the width of clamping projection I (20) is less than the width of clamping projection II (21).

10. glass fibre manufacture cooling fin setting device according to claim 9, is characterized in that: the height of clamping protuberance I (18) and clamping protuberance II (19) is equal, lower than the height of clamping projection I (20) or clamping projection II (21); The upper surface side that clamping protuberance II (19), clamping projection I (20) contact with cavity (6) with clamping projection II (21) is inclined-plane.