阅读说明：本技术 一种氧化铝纤维制备装置 (Alumina fiber preparation facilities ) 是由 朱东春 井良霄 于 2021-07-22 设计创作，主要内容包括：本发明涉及工业环境设备技术领域,具体的说是一种氧化铝纤维制备装置,包括主体机构,所述主体机构上安装有支撑机构；所述支撑机构上滑动有泄压机构；所述泄压机构上固定有润滑机构；所述主体机构上配合连接有固定机构；所述固定机构上卡合有限位机构；支撑机构对丝束进行导向时带动泄压机构滑动,使泄压机构挤压润滑机构,进而便于对导向组件注油润滑,从而在便于对内部组件润滑的同时也有利于提高导向效果；丝束经过烧结处理后从主体机构内输出,打开固定机构的控制开关,使其转动时对丝束进行卷收,进而便于将干法纺丝设备与烧结部分进行配合使用,转动限位机构,使其从固定机构内部滑出,进而便于对固定机构进行拆卸并更换新的卷收组件。(The invention relates to the technical field of industrial environment equipment, in particular to an alumina fiber preparation device, which comprises a main body mechanism, wherein a supporting mechanism is arranged on the main body mechanism; a pressure relief mechanism slides on the supporting mechanism; a lubricating mechanism is fixed on the pressure relief mechanism; the main body mechanism is connected with a fixing mechanism in a matching way; a limiting mechanism is clamped on the fixing mechanism; when the supporting mechanism guides the tows, the pressure relief mechanism is driven to slide, so that the pressure relief mechanism extrudes the lubricating mechanism, the guide assembly is convenient to lubricate oil, and the guide effect is improved while the internal components are lubricated; the tow is output from the main body mechanism after sintering treatment, the control switch of the fixing mechanism is opened, the tow is rolled up when the tow rotates, the dry spinning equipment and the sintering part are conveniently matched for use, the limiting mechanism rotates to slide out of the fixing mechanism, and the fixing mechanism is conveniently detached and replaced by a new rolling assembly.)

1. The alumina fiber preparation device is characterized by comprising a main body mechanism (1), wherein a supporting mechanism (2) is arranged on the main body mechanism (1); a pressure relief mechanism (5) slides on the supporting mechanism (2); a lubricating mechanism (3) is fixed on the pressure relief mechanism (5); the main body mechanism (1) is connected with a fixing mechanism (4) in a matching way; and a limiting mechanism (6) is clamped on the fixing mechanism (4).

2. The alumina fiber production apparatus according to claim 1, wherein: the main body mechanism (1) comprises a heat treatment equipment body (11), a bottom plate (12) is fixedly connected to the heat treatment equipment body (11), a support column (13) and a plurality of support columns (13) are fixedly mounted on the bottom plate (12) and are symmetrically arranged in two groups.

3. The alumina fiber production apparatus according to claim 2, wherein: supporting mechanism (2) include backup pad (21), symmetry fixed mounting has backup pad (21) on bottom plate (12), the block has stock (25) on backup pad (21), symmetry fixedly connected with limiting plate (22) on stock (25), bull stick (26) has been cup jointed on stock (25), rotate between bull stick (26) and limiting plate (22) and be connected.

4. The alumina fiber production apparatus according to claim 3, wherein: a rubber pad (23) is bonded on the rotating rod (26), the long rod (25) is symmetrically and fixedly connected with a limiting block (24), and the section diameter of the limiting plate (22) is larger than that of the limiting block (24).

5. The alumina fiber production apparatus according to claim 3, wherein: the pressure relief mechanism (5) comprises a support block (51), the long rod (25) is abutted with the support block (51), a support rod (52) is fixedly connected to the support block (51), the support rod (52) is slidably connected with the support plate (21), a hollow groove (53) is formed in the support plate (21), the support rod (52) is slidably matched in the hollow groove (53), and the support rod (52) is connected with the support plate (21) in a matched mode through a telescopic spring (54).

6. The alumina fiber production apparatus according to claim 5, wherein: lubricating mechanism (3) includes slide bar (36), fixed mounting has slide bar (36) on support lever (52), slide bar (36) have cup jointed expanding spring (54), just sliding connection between slide bar (36) and backup pad (21), be equipped with spout (34) in backup pad (21), spout (34) fit in-sliding has slider (35), fixed connection between slider (35) and slide bar (36), fixedly connected with batch oil tank (32) on backup pad (21), fixed mounting has oil pipe (37) on limiting plate (22), batch oil tank (32) and oil pipe (37) all communicate with spout (34), fixed mounting has fibre sponge (38) on bull stick (26), oil pipe (37) and fibre sponge (38) intercommunication, bull stick (26) fit in-rotating has ball (39), the ball (39) is in rolling connection with the long rod (25), and the ball (39) is abutted against the fiber sponge (38).

7. The alumina fiber production apparatus according to claim 6, wherein: threaded connection has sealing plug (31) on oil storage tank (32), check valve (33), a plurality of are installed to oil storage tank (32) fit in the setting of ball (39) are cyclic annular equidistance.

8. The alumina fiber production apparatus according to claim 2, wherein: fixed establishment (4) include first fixed plate (41), the first fixed plate of fixedly connected with (41) is gone up in bottom plate (12), the block is connected with second fixed plate (45) on bottom plate (12), the block is connected with first cardboard (44) on second fixed plate (45), the block is connected with second cardboard (46) on first fixed plate (41), all rotate in first cardboard (44) and second cardboard (46) and be connected with deflector roll (43), the block is connected between deflector roll (43) and loop bar (47), fixed connection between loop bar (47) and pivot (48), fixedly connected with installation piece (42) is gone up in first fixed plate (41), motor (49) are installed to installation piece (42) fit in, the output of motor (49) (through shaft coupling) fixedly connected with pivot (48).

9. The alumina fiber production apparatus according to claim 8, wherein: stop gear (6) are including extrusion stem (61), second fixed plate (45) female connection has extrusion stem (61), it has lug (62) to contradict on extrusion stem (61), fixed mounting has dead lever (63) on lug (62), sliding connection between dead lever (63) and second fixed plate (45), fixedly connected with supports board (64) on dead lever (63), pressure spring (65) have been cup jointed on dead lever (63), support board (64) and be connected through pressure spring (65) and second fixed plate (45) cooperation, fixedly connected with fixture block (67) on dead lever (63), the block is connected between fixture block (67) and bottom plate (12), be equipped with draw-in groove (66) in second fixed plate (45).

10. The alumina fiber production apparatus according to claim 9, wherein: the end parts of the extrusion rod (61) and the convex block (62) are both of an inclined surface structure, the diameter of the cross section of the abutting plate (64) is larger than that of the cross section of the pressure spring (65), and the cross section of the end part of the clamping block (67) is of an inverted trapezoidal structure.

Technical Field

The invention relates to the technical field of industrial environment equipment, in particular to an alumina fiber preparation device.

Background

Alumina fiber is a polycrystalline inorganic fiber whose main component is alumina. The alumina fiber has high tensile strength, good elastic modulus, good electrical insulation performance, good chemical stability, low thermal conductivity and thermal expansion coefficient, good thermal shock resistance and other excellent characteristics. Alumina continuous fibers are commonly used as structural reinforcing materials to prepare composite materials, and the composite materials as high-temperature heat insulation materials have been widely applied to weapons, aviation, aerospace, automobiles and the like. The sol-gel method is a common preparation method of alumina fibers, and has the advantages of simple production process, uniform components, high purity and uniform performance.

However, in the preparation process of the alumina fiber, an operator needs to put the alumina fiber subjected to dry spinning into a heat treatment device for sintering, the operation steps are complicated, time-consuming and labor-consuming, and the improvement of the preparation efficiency of the alumina fiber is not facilitated; in addition, the fiber after heat treatment needs to be wound by using the winding assembly, and in the operation process, an operator needs to repeatedly replace the wound guide roller so as to facilitate the winding assembly to continue winding, and the winding assembly is inconvenient to mount and dismount, so that the effect of replacing the guide roller by the operator is not facilitated.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides an alumina fiber preparation device.

The technical scheme adopted by the invention for solving the technical problems is as follows: an alumina fiber preparation device comprises a main body mechanism, wherein a supporting mechanism is arranged on the main body mechanism; a pressure relief mechanism slides on the supporting mechanism; a lubricating mechanism is fixed on the pressure relief mechanism; the main body mechanism is connected with a fixing mechanism in a matching way; and a limiting mechanism is clamped on the fixing mechanism.

Specifically, the main part mechanism includes the heat treatment device body, fixedly connected with bottom plate on the heat treatment device body, fixed mounting has the support column on the bottom plate, a plurality of the support column divide into two sets ofly and is the symmetry setting.

Specifically, the supporting mechanism includes the backup pad, symmetry fixed mounting has the backup pad on the bottom plate, the block has the stock in the backup pad, symmetry fixedly connected with limiting plate on the stock, the bull stick has been cup jointed on the stock, rotate between bull stick and the limiting plate and be connected, it has the rubber pad to bond on the bull stick, symmetry fixedly connected with stopper on the stock, just the cross-sectional diameter of limiting plate is greater than the cross-sectional diameter of stopper.

Specifically, the pressure relief mechanism comprises a supporting block, a supporting block is abutted on the long rod, a supporting rod is fixedly connected to the supporting block and is in sliding connection with the supporting plate, a hollow groove is formed in the supporting plate, the supporting rod is matched and slides in the hollow groove, and the supporting rod is matched and connected with the supporting plate through a telescopic spring.

The lubricating mechanism comprises a sliding rod, a sliding rod is fixedly mounted on the support rod, a telescopic spring is sleeved on the sliding rod, a sliding connection is arranged between the sliding rod and the supporting plate, a sliding groove is formed in the supporting plate, a sliding block is arranged in the sliding groove in a matched mode, the sliding block is fixedly connected between the sliding block and the sliding rod, an oil storage tank is fixedly connected to the supporting plate, an oil guide pipe is fixedly mounted on the limiting plate, the oil storage tank and the oil guide pipe are communicated with the sliding groove, a fiber sponge is fixedly mounted on the rotating rod, the oil guide pipe is communicated with the fiber sponge, a ball is rotated in a matched mode in the rotating rod, the ball is connected with the long rod in a rolling mode, the ball is abutted against the fiber sponge, a sealing plug is connected to the oil storage tank through threads, a check valve is mounted in the oil storage tank in a matched mode, and the ball is arranged in an annular equidistant mode.

Specifically, fixed establishment includes first fixed plate, the first fixed plate of fixedly connected with on the bottom plate, the block is connected with the second fixed plate on the bottom plate, the block is connected with first cardboard on the second fixed plate, the block is connected with the second cardboard on the first fixed plate, all rotate in first cardboard and the second cardboard and be connected with the deflector roll, the block is connected between deflector roll and the loop bar, fixed connection between loop bar and the pivot, fixedly connected with installation piece on the first fixed plate, the motor is installed to the installation piece fit, shaft coupling fixedly connected with pivot is passed through to the output of motor.

Specifically, stop gear includes the stripper bar, second fixed plate female connection has the stripper bar, it has the lug to contradict on the stripper bar, fixed mounting has the dead lever on the lug, sliding connection between dead lever and the second fixed plate, fixedly connected with is to the board on the dead lever, the pressure spring has been cup jointed on the dead lever, it is connected with the second fixed plate cooperation through the pressure spring to support the board, fixedly connected with fixture block on the dead lever, the block is connected between fixture block and the bottom plate, be equipped with the draw-in groove in the second fixed plate, the tip of stripper bar and lug is all established to the inclined plane structure, the cross-sectional diameter of supporting the board is greater than the cross-sectional diameter of pressure spring, the tip cross-sectional of fixture block is the structure of falling trapezium.

The invention has the beneficial effects that:

(1) according to the alumina fiber preparation device, fibers processed by the dry spinning machine are changed into tows and wound on the supporting mechanism, so that the supporting mechanism can conveniently drive the pressure relief mechanism to slide when guiding the tows, the pressure relief mechanism extrudes the lubricating mechanism, the lubricating mechanism can conveniently perform oil injection and lubrication on the guiding component, internal components of the device can be conveniently lubricated, and meanwhile, the guiding effect of the device can be improved, namely: an operator transmits tows processed by the dry spinning machine into the heat treatment equipment body through the rotating rod, the rotating rod enables the long rod to extrude the abutting block when guiding, the rotating rod is sleeved on the long rod, the two limiting plates are symmetrically fixed on the long rod, when the abutting block is fixedly connected with the abutting rod, the abutting rod is connected with the supporting plate in a matched mode through the telescopic spring, and when the abutting block receives the abutting force of the long rod, the abutting rod is driven to extrude the telescopic spring when sliding at the empty groove part, so that the pressure relief of gravity borne by the supporting plate is facilitated; in addition, the long rod is directly clamped in the support plate, so that the guide assembly is convenient for an operator to overhaul at any time to a certain extent; the sealing plug is opened to operating personnel, can pour lubricating oil into the batch oil tank inside and deposit, lubricating oil arranges to the spout through the check valve, it slides to support the slide bar that the pole slides and drive internal connection, be fixed with the slider on the slide bar, and then make the slider extrude the lubricating oil in the spout when sliding and lead in oil pipe, lead fixed connection between oil pipe and the limiting plate, and lead oil pipe and fibre sponge intercommunication, lubricating oil enters into inside the fibre sponge through leading oil pipe, it rotates to drive inside ball when the bull stick rotates at the stock lateral wall, and then make the ball extrude the fibre sponge when rotating, and then make the inside lubricating oil of fibre sponge can evenly paint the stock through the ball on, thereby also be favorable to improving device's direction effect when being convenient for carry out the oiling lubrication to the direction subassembly.

(2) According to the alumina fiber preparation device, tows are subjected to sintering treatment by the heat treatment furnace and the high temperature furnace and then are conveyed out of the main body mechanism, the control switch of the fixing mechanism is turned on, the tows are wound when the control switch is turned, and then dry spinning equipment and a sintering part are conveniently matched for use, after winding is finished, the limiting mechanism is turned to slide out of the fixing mechanism, so that the fixing mechanism is conveniently detached and a new winding assembly is conveniently replaced, and therefore the winding efficiency of the device is improved, namely: the tows after sintering treatment are conveyed out of the interior of the heat treatment equipment body, an operator turns on a control switch of a motor, a storage battery is arranged in a mounting block and is electrically connected with the motor through the control switch, when the control switch of the motor is turned on by the operator, the storage battery supplies power to the motor, the motor drives a rotating shaft to rotate, a loop bar is fixedly connected onto the rotating shaft, and a guide roller is sleeved on the loop bar, so that the loop bar can drive the guide roller to rotate when rotating, the guide roller can conveniently roll up the tows after treatment when rotating, and the dry spinning equipment and the sintering part can be conveniently matched for use; after the silk bundle is furled, operating personnel can use tools to rotate the extrusion pole, and then make the extrusion pole separate with the lug when the second fixed plate slides, and then make the lug drive the dead lever when sliding, support the board and slide and contradict with the second fixed plate again, and then make originally the block of block inside the bottom plate slide into the draw-in groove, and then the operating personnel of being convenient for stimulates the second fixed plate, separate it with first cardboard, thereby the operating personnel of being convenient for takes out the deflector roll from loop bar inside and more renew the deflector roll simultaneously, be favorable to improving the result of use of device to a certain extent.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic structural diagram of an overall structure of a preferred embodiment of an apparatus for preparing alumina fibers according to the present invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is a schematic view of a connection structure between the supporting mechanism and the pressure relief mechanism shown in FIG. 1;

FIG. 4 is an enlarged view of the structure of the portion B shown in FIG. 3;

FIG. 5 is an enlarged view of the structure of the portion C shown in FIG. 3;

FIG. 6 is a schematic view of a connection structure between the fixing mechanism and the limiting mechanism shown in FIG. 1;

FIG. 7 is an enlarged view of the structure of the portion D shown in FIG. 6;

FIG. 8 is an enlarged view of the structure of the section E shown in FIG. 6;

fig. 9 is a schematic structural view of the fixing mechanism shown in fig. 6.

In the figure: 1. a main body mechanism, 11, a heat treatment equipment body, 12, a bottom plate, 13, a support column, 2, a support mechanism, 21, a support plate, 22, a limit plate, 23, a rubber pad, 24, a limit block, 25, a long rod, 26, a rotating rod, 3, a lubricating mechanism, 31, a sealing plug, 32, an oil storage tank, 33, a one-way valve, 34, a sliding chute, 35, a sliding block, 36, a sliding rod, 37, an oil guide pipe, 38, a fiber sponge, 39, a ball, 4, a fixing mechanism, 41, a first fixing plate, 42, an installation block, 43, a guide roller, 44, a first clamping plate, 45, a second fixing plate, 46, a second clamping plate, 47, a loop bar, 48, a rotating shaft, 49, a motor, 5, a mechanism, 51, a resisting block, 52, a resisting rod, 53, a hollow groove, 54, a telescopic spring, 6, a limit mechanism, 61, a squeezing rod, 62, a lug, 63, a fixing rod, 64, a resisting plate, 65, a pressure spring, 66 and a clamping groove, 67. and (7) clamping blocks.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to fig. 9, the alumina fiber preparation apparatus according to the present invention includes a main body mechanism 1, wherein a support mechanism 2 is mounted on the main body mechanism 1; a pressure relief mechanism 5 slides on the supporting mechanism 2; a lubricating mechanism 3 is fixed on the pressure relief mechanism 5; the main body mechanism 1 is connected with a fixing mechanism 4 in a matching way; and a limiting mechanism 6 is clamped on the fixing mechanism 4.

Specifically, main part mechanism 1 includes heat treatment equipment body 11, fixedly connected with bottom plate 12 on the heat treatment equipment body 11, fixed mounting has support column 13 on bottom plate 12, a plurality of support column 13 divide into two sets of symmetry setting.

Specifically, the supporting mechanism 2 includes a supporting plate 21, symmetrical fixed mounting has a supporting plate 21 on the bottom plate 12, the block has a stock 25 on the supporting plate 21, symmetrical fixedly connected with limiting plate 22 on the stock 25, the bull stick 26 has been cup jointed on the stock 25, rotate between bull stick 26 and the limiting plate 22 and be connected, it has rubber pad 23 to bond on the bull stick 26, symmetrical fixedly connected with stopper 24 on the stock 25, just limiting plate 22's cross-sectional diameter is greater than stopper 24's cross-sectional diameter.

Specifically, the pressure relief mechanism 5 includes a resisting block 51, the long rod 25 is butted with the resisting block 51, a resisting rod 52 is fixedly connected to the resisting block 51, the resisting rod 52 is slidably connected with the support plate 21, a hollow groove 53 is formed in the support plate 21, the resisting rod 52 is slidably arranged in the hollow groove 53, and the resisting rod 52 is connected with the support plate 21 through a telescopic spring 54 in a matching manner.

Specifically, the lubricating mechanism 3 includes a sliding rod 36, a sliding rod 36 is fixedly mounted on the abutting rod 52, a telescopic spring 54 is sleeved on the sliding rod 36, the sliding rod 36 is slidably connected with the supporting plate 21, a sliding groove 34 is arranged in the supporting plate 21, a sliding block 35 is slidably arranged in the sliding groove 34 in a matched manner, the sliding block 35 is fixedly connected with the sliding rod 36, an oil storage tank 32 is fixedly connected with the supporting plate 21, an oil guide pipe 37 is fixedly mounted on the limiting plate 22, the oil storage tank 32 and the oil guide pipe 37 are both communicated with the sliding groove 34, a fiber sponge 38 is fixedly mounted on the rotating rod 26, the oil guide pipe 37 is communicated with the fiber sponge 38, a ball 39 is rotatably arranged in the rotating rod 26 in a matched manner, the ball 39 is in rolling connection with the long rod 25, the ball 39 is abutted against the fiber sponge 38, a sealing plug 31 is connected to a thread on the oil storage tank 32, a one-way valve 33 is installed in the oil storage tank 32 in a matched manner, a plurality of ball 39 is cyclic annular equidistance setting, and the fibre after dry spinning machine handles becomes the silk bundle winding on supporting mechanism 2, and then the supporting mechanism 2 of being convenient for drives pressure relief mechanism 5 when leading to the silk bundle and slides, and pressure relief mechanism 5 extrudees lubricated mechanism 3, is convenient for make lubricated mechanism 3 carry out the oiling lubrication to the direction subassembly to also be favorable to improving the direction effect of device when being convenient for to install the inside subassembly is lubricated, promptly: an operator transmits tows processed by the dry spinning machine to the interior of the heat treatment equipment body 11 through the rotating rod 26, the rotating rod 26 enables the long rod 25 to extrude the abutting block 51 when guiding, the rotating rod 26 is sleeved on the long rod 25, the two limiting plates 22 are symmetrically fixed on the long rod 25, when the abutting block 51 is fixedly connected with the abutting rod 52, the abutting rod 52 is connected with the supporting plate 21 in a matched mode through the telescopic spring 54, and when the abutting block 51 is subjected to the abutting force of the long rod 25, the abutting rod 52 is driven to extrude the telescopic spring 54 when sliding at the hollow groove 53, so that the pressure relief of the gravity borne by the supporting plate 21 is facilitated; in addition, the long rod 25 is directly clamped in the support plate 21, so that the guide assembly can be conveniently overhauled by an operator at any time to a certain extent; an operator opens the sealing plug 31, can pour lubricating oil into the oil storage tank 32 for storage, the lubricating oil is discharged to the sliding groove 34 through the one-way valve 33, the abutting rod 52 slides to drive the internally connected sliding rod 36 to slide, the sliding rod 36 is fixed with the sliding block 35, further, when the slide block 35 slides, the lubricating oil in the slide groove 34 is squeezed into the oil guide pipe 37, the oil guide pipe 37 is fixedly connected with the limit plate 22, and the oil guide pipe 37 is communicated with the fiber sponge 38, the lubricating oil enters the fiber sponge 38 through the oil guide pipe 37, when the rotating rod 26 rotates on the side wall of the long rod 25, the ball 39 inside is driven to rotate, thereby leading the balls 39 to extrude the fiber sponge 38 when rotating, leading the lubricating oil in the fiber sponge 38 to be evenly smeared on the long rod 25 through the balls 39, thereby being convenient for carry out the lubricated direction effect that also is favorable to improving the device when oiling to the direction subassembly.

Specifically, fixed establishment 4 includes first fixed plate 41, the first fixed plate 41 of fixedly connected with on the bottom plate 12, the block is connected with second fixed plate 45 on the bottom plate 12, the block is connected with first cardboard 44 on the second fixed plate 45, the block is connected with second cardboard 46 on the first fixed plate 41, it is connected with deflector roll 43 all to rotate in first cardboard 44 and the second cardboard 46, the block is connected between deflector roll 43 and the loop bar 47, fixed connection between loop bar 47 and the pivot 48, fixedly connected with installation piece 42 on the first fixed plate 41, motor 49 is installed to installation piece 42 fit-in, shaft coupling fixedly connected with pivot 48 is passed through to motor 49's output.

Specifically, the limiting mechanism 6 includes an extrusion rod 61, the extrusion rod 61 is connected to the second fixing plate 45 through an internal thread, a convex block 62 is abutted on the extrusion rod 61, a fixing rod 63 is fixedly installed on the convex block 62, the fixing rod 63 is connected with the second fixing plate 45 in a sliding manner, a resisting plate 64 is fixedly connected to the fixing rod 63, a pressure spring 65 is sleeved on the fixing rod 63, the resisting plate 64 is connected to the second fixing plate 45 through a pressure spring 65 in a matching manner, a clamping block 67 is fixedly connected to the fixing rod 63, the clamping block 67 is connected to the bottom plate 12 in a clamping manner, a clamping groove 66 is arranged in the second fixing plate 45, the end portions of the extrusion rod 61 and the convex block 62 are both designed to be inclined surface structures, the section diameter of the resisting plate 64 is larger than that of the pressure spring 65, the section of the end portion of the clamping block 67 is in an inverted trapezoid structure, and tows are conveyed out from the inside the main body mechanism 1 after being sintered by a heat treatment furnace and a high temperature furnace, open the control switch of fixed establishment 4, carry out the roll-up to the tow when making it rotate, and then be convenient for cooperate the dry spinning equipment with sintering part and use, after the roll-up was finished, rotate stop gear 6, make it from the inside roll-off of fixed establishment 4, and then be convenient for dismantle fixed establishment 4 and the roll-up subassembly of renewal to be favorable to improving the roll-up efficiency of device, promptly: the filament bundles after sintering treatment are conveyed out of the interior of the heat treatment equipment body 11, an operator turns on a control switch of a motor 49, a storage battery is arranged in an installation block 42 and is electrically connected with the motor 49 through the control switch, when the operator turns on the control switch of the motor 49, the storage battery supplies power to the motor 49, the motor 49 drives a rotating shaft 48 to rotate, a loop bar 47 is fixedly connected to the rotating shaft 48, and the loop bar 47 is sleeved with a guide roller 43 and can drive the guide roller 43 to rotate, so that the guide roller 43 can be conveniently wound when rotating, the treated filament bundles can be conveniently wound, and the dry spinning equipment can be conveniently matched with a sintering part for use; after the silk bundle is furled, operating personnel can use tools to rotate the extrusion rod 61, and then make the extrusion rod 61 separate with lug 62 when second fixed plate 45 slides, and then make lug 62 drive when dead lever 63 slides, support the board 64 and slide and contradict with second fixed plate 45 again, and then make originally the block 67 of block inside bottom plate 12 slide into draw-in groove 66, and then the operating personnel of being convenient for stimulate second fixed plate 45, separate it with first cardboard 44, thereby the operating personnel of being convenient for takes out deflector roll 43 from loop bar 47 is inside and more renews deflector roll 43 simultaneously, be favorable to improving the result of use of device to a certain extent.

When the dry spinning device is used, firstly, an operator transmits tows processed by the dry spinning machine into the heat treatment equipment body 11 through the rotating rod 26, the rotating rod 26 enables the long rod 25 to extrude the abutting block 51 when guiding, the rotating rod 26 is sleeved on the long rod 25, the two limiting plates 22 are symmetrically fixed on the long rod 25, when the abutting block 51 is fixedly connected with the abutting rod 52, the abutting rod 52 is matched and connected with the support plate 21 through the telescopic spring 54, and when the abutting block 51 receives the abutting force of the long rod 25, the abutting rod 52 is driven to extrude the telescopic spring 54 when sliding at the hollow groove 53 part, so that the pressure relief of the gravity borne by the support plate 21 is facilitated; in addition, the long rod 25 is directly clamped in the support plate 21, so that the guide assembly can be conveniently overhauled by an operator at any time to a certain extent; an operator opens the sealing plug 31, can pour lubricating oil into the oil storage tank 32 for storage, the lubricating oil is discharged to the sliding groove 34 through the one-way valve 33, the abutting rod 52 slides to drive the internally connected sliding rod 36 to slide, the sliding rod 36 is fixed with the sliding block 35, further, when the slide block 35 slides, the lubricating oil in the slide groove 34 is squeezed into the oil guide pipe 37, the oil guide pipe 37 is fixedly connected with the limit plate 22, and the oil guide pipe 37 is communicated with the fiber sponge 38, the lubricating oil enters the fiber sponge 38 through the oil guide pipe 37, when the rotating rod 26 rotates on the side wall of the long rod 25, the ball 39 inside is driven to rotate, thereby leading the balls 39 to extrude the fiber sponge 38 when rotating, leading the lubricating oil in the fiber sponge 38 to be evenly smeared on the long rod 25 through the balls 39, thereby facilitating the oil injection and lubrication of the guide assembly and simultaneously being beneficial to improving the guide effect of the device; the filament bundles after sintering treatment are conveyed out of the interior of the heat treatment equipment body 11, an operator turns on a control switch of a motor 49, a storage battery is arranged in an installation block 42 and is electrically connected with the motor 49 through the control switch, when the operator turns on the control switch of the motor 49, the storage battery supplies power to the motor 49, the motor 49 drives a rotating shaft 48 to rotate, a loop bar 47 is fixedly connected to the rotating shaft 48, and the loop bar 47 is sleeved with a guide roller 43 and can drive the guide roller 43 to rotate, so that the guide roller 43 can be conveniently wound when rotating, the treated filament bundles can be conveniently wound, and the dry spinning equipment can be conveniently matched with a sintering part for use; after the silk bundle is furled, operating personnel can use tools to rotate the extrusion rod 61, and then make the extrusion rod 61 separate with lug 62 when second fixed plate 45 slides, and then make lug 62 drive when dead lever 63 slides, support the board 64 and slide and contradict with second fixed plate 45 again, and then make originally the block 67 of block inside bottom plate 12 slide into draw-in groove 66, and then the operating personnel of being convenient for stimulate second fixed plate 45, separate it with first cardboard 44, thereby the operating personnel of being convenient for takes out deflector roll 43 from loop bar 47 is inside and more renews deflector roll 43 simultaneously, be favorable to improving the result of use of device to a certain extent.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.