CN115522269B

CN115522269B - Cooling device is used in carbon fiber production

Info

Publication number: CN115522269B
Application number: CN202211082694.9A
Authority: CN
Inventors: 胡礼杰; 徐淑芹
Original assignee: Yancheng Xiang Sheng Carbon Fiber Technology Co ltd
Current assignee: Yancheng Xiang Sheng Carbon Fiber Technology Co ltd
Priority date: 2022-09-06
Filing date: 2022-09-06
Publication date: 2023-12-01
Anticipated expiration: 2042-09-06
Also published as: CN115522269A

Abstract

The cooling device for carbon fiber production comprises a base, a cooling mechanism, a tensioning mechanism and an auxiliary mechanism, wherein the base is arranged at the bottom, a first support column and two first guide wheels are arranged at the top of one end of the base, the two first guide wheels are arranged at one end of the first support column, the cooling mechanism is arranged in the middle of the top end of the base, the tensioning mechanism is arranged at the top of one end of the cooling mechanism, and the auxiliary mechanism is arranged at the top of one side of the cooling mechanism; the cooling mechanism comprises a cooling box and a liquid discharge valve, wherein the cooling box is fixed on a base, cooling liquid is filled in the cooling box, two arc-shaped pipes are arranged in the middle of the cooling box, a vertical pipe connected with the arc-shaped pipes is arranged at one end of each arc-shaped pipe, and a water pump is arranged on the cooling box at one side of each arc-shaped pipe.

Description

Cooling device is used in carbon fiber production

Technical Field

The invention relates to an auxiliary component for carbon fiber production, in particular to a cooling device for carbon fiber production.

Background

Carbon fiber nylon belongs to one of conductive nylon, and is prepared by adding carbon fiber into nylon base material. The component of the carbon fiber may determine the strength of the material as well as the electrical conductivity. The conventional addition of 30% carbon fiber can reach the power of 3-6 of 10, and belongs to conductive products. In addition, the carbon fiber can conduct electricity, also has the function of wear resistance, and the strength is also greatly improved.

In the production process of nylon carbon fiber, a cooling device is required to be used for cooling operation, the cooling efficiency of the cooling device for producing the existing nylon carbon fiber is low, the cooling liquid cannot be better recycled, the temperature of part of the recyclable cooling liquid is higher, and meanwhile, the tension degree of the nylon carbon fiber wire is inconvenient to adjust, so that the nylon carbon fiber wire is not beneficial to use.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides the cooling device for producing the carbon fiber, which effectively solves the problems that the cooling efficiency of the cooling device for producing the nylon carbon fiber is low, the cooling liquid cannot be better recycled, the temperature of part of the recyclable cooling liquid is higher, and meanwhile, the tension degree of the nylon carbon fiber wire is inconvenient to adjust and is unfavorable for use.

In order to achieve the above purpose, the present invention provides the following technical solutions: the invention comprises a base arranged at the bottom, a first support column, two first guide wheels arranged at one end of the first support column, a cooling mechanism, a tensioning mechanism and an auxiliary mechanism, wherein the cooling mechanism is arranged in the middle of the top end of the base;

the cooling mechanism comprises a cooling box, cooling liquid, arc-shaped pipes, a vertical pipe, a water pump, a liquid suction pipe, a filter screen, a second guide wheel, a liquid scattering hopper, an opening, a plug, a pore, a side opening, a liquid leakage hole, a liquid discharge pipe and a liquid discharge valve, wherein the cooling box is fixed on a base, the cooling box is filled with the cooling liquid, two arc-shaped pipes are installed in the middle of the cooling box, one end of the arc-shaped pipe is provided with the vertical pipe connected with the cooling box, the water pump is installed on the cooling box on one side of the arc-shaped pipe, the water suction pipe is connected with the liquid suction pipe, the filter screen is installed at the bottom of the cooling box in an inserted manner, the second guide wheel is installed on the cooling box on the other end of the arc-shaped pipe, the liquid scattering hopper is installed on one side of one end of the vertical pipe, the opening is arranged below the liquid scattering hopper on one end of the cooling box, the top of the vertical pipe and one end of the arc-shaped pipe away from the vertical pipe are both provided with the plug, the pore is arranged in the middle of the vertical pipe, the side opening communicated with the inner cavity of the cooling box is arranged on the top of the vertical pipe, and the liquid scattering hopper is provided with a plurality of liquid leakage holes.

Preferably, the diameter of the side opening is much larger than the diameter of the pore.

Preferably, a liquid discharge pipe is arranged at one side of the bottom of the cooling box, and a liquid discharge valve is arranged on the liquid discharge pipe.

Preferably, the tensioning mechanism comprises a second support, a third guide wheel, tensioning wheels, concave blocks, grooves, transverse plates, vertical rods, a counterweight box, a counterweight block, a slot and a convex column, wherein the two second support are fixed on the cooling box, the third guide wheels are installed at the top ends of the second support, the tensioning wheels are arranged on carbon fiber wires between the two third guide wheels, the concave blocks are arranged on the tensioning wheels, the transverse plates are arranged at the bottoms of the concave blocks, the vertical rods are arranged in the middle of the bottom ends of the transverse plates, the counterweight box is arranged at the bottom ends of the vertical rods, and the counterweight block is placed inside the counterweight box.

Preferably, the middle part of balancing weight bottom has been seted up the slot, and the middle part on balancing weight top is provided with the projection.

Preferably, the middle part of the tensioning wheel is provided with a groove.

Preferably, the auxiliary mechanism comprises a cross beam, a fan, a hose, a supporting leg, a cooling pipe, an air inlet, a first horn mouth and a second horn mouth, wherein the cross beam is fixed on the cooling box, the fan is installed at the bottom end of the cross beam, the air outlet of the fan is connected with the hose, the cooling pipe is installed at the top end of the cross beam through the supporting leg, the air inlet is arranged in the middle of the cooling pipe, the first horn mouth is arranged on one side of the inner portion of the air inlet, and the second horn mouth is arranged on one side of the first horn mouth.

Preferably, the first flare and the second flare are gradually smaller from the left side to the right side.

Preferably, one end of the hose is connected with the air inlet.

The beneficial effects are that: when the invention is used, the external carbon fiber silk thread needing to be cooled enters the vertical pipe 404 and the arc pipe 403 from the first guide wheel 3 through the fine holes 412 at the top end of the vertical pipe 404, is led out from the fine holes 412 at the other end of the arc pipe 403, is led out from the second guide wheel 408, the third guide wheel 502, the tensioning wheel 503 and the third guide wheel 502, enters the cooling pipe 65 through the third guide wheel 502, and is penetrated out from the cooling pipe 65, when the carbon fiber silk thread passes through the arc pipe 403, the water pump 405 works to pump the cooling liquid 402 in the cooling tank 401, the water pump 405 conveys the pumped cooling liquid to the inside of the arc pipe 403 through the infusion pipe, due to the arrangement of the plug 411, the entered cooling liquid moves from the inside of the arc pipe 403 to the vertical pipe 404, flows to the liquid scattering hopper 409 through the side opening 413 at the top of the vertical pipe 404, and leaks out to the opening 410 through the liquid leakage hole 414 at the bottom end of the liquid scattering hopper 409, in this way, when in use, two carbon fiber wires pass through the groove 505 on the tensioning wheel 503, and after passing through, under the action of the transverse plate 506, the vertical rod 507, the counterweight box 508 and the counterweight 509, the transverse plate 506, the vertical rod 507, the counterweight box 508 and the counterweight 509 pull the two tensioning wheels 503, so that the tensioning wheel 503 tensions the carbon fiber wires, when in tension adjustment, the carbon fiber wire tension is adjusted by placing the number of the counterweight 509, when the counterweight 509 is increased, the slot 510 at the bottom end of the counterweight 509 is inserted on the convex column 511 at the top end of the counterweight 509, the counterweight 509 is increased, the tension of the carbon fiber wires can be increased, when in use, the carbon fiber wires move from the left end of the cooling pipe 65 to the right end of the cooling pipe 65, simultaneously, fan 62 works and will produce wind and carry air intake 66 through hose 63, enter into the inside of cooling tube 65 through air intake 66, the cooling wind that gets into in the cooling tube 65 can be towards the left side of first horn mouth 67 and the right side of second horn mouth 68 to cool off the carbon fiber silk thread that passes through first horn mouth 67 and second horn mouth 68 in the cooling tube 65, because first horn mouth 67 opening is great, the wind speed can reduce gradually, and then promotes cooling time, and second horn mouth 68 then carries out supplementary cooling of strengthening.

The invention has novel structure, ingenious conception, good cooling effect of the carbon fiber yarn, good heat dissipation effect of the used cooling liquid, convenient recycling of the cooling liquid, capability of ensuring the tensioning of the carbon fiber yarn, reinforced cooling and good cooling effect.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the liquid spreading hopper of the present invention;

FIG. 3 is a schematic view of the tensioning mechanism of the present invention;

FIG. 4 is a cross-sectional view of a cooling tube of the present invention;

reference numerals in the drawings: 1. a base; 2. a first support column; 3. a first guide wheel; 4. a cooling mechanism; 401. a cooling box; 402. a cooling liquid; 403. an arc tube; 404. a standpipe; 405. a water pump; 406. a liquid suction pipe; 407. a filter screen; 408. a second guide wheel; 409. a liquid spreading bucket; 410. an opening; 411. a plug; 412. fine pores; 413. a side opening; 414. a weeping hole; 415. a liquid discharge pipe; 416. a liquid discharge valve; 5. a tensioning mechanism; 501. a second support; 502. a third guide wheel; 503. a tensioning wheel; 504. a concave block; 505. a groove; 506. a cross plate; 507. a vertical rod; 508. a counterweight box; 509. balancing weight; 510. a slot; 511. a convex column; 6. an auxiliary mechanism; 61. a cross beam; 62. a blower; 63. a hose; 64. a support leg; 65. a cooling tube; 66. an air inlet; 67. a first flare; 68. and a second flare.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to FIGS. 1-4.

The first embodiment is shown in fig. 1-4, the invention provides a cooling device for carbon fiber production, which comprises a base 1 arranged at the bottom, a first support column 2 is arranged at the top of one end of the base 1, two first guide wheels 3 are arranged at one end of the first support column 2, a cooling mechanism 4, a tensioning mechanism 5 and an auxiliary mechanism 6 are also included, the middle part of the top end of the base 1 is provided with the cooling mechanism 4, the top of one end of the cooling mechanism 4 is provided with the tensioning mechanism 5, and the top end of one side of the cooling mechanism 4 is provided with the auxiliary mechanism 6;

the cooling mechanism 4 comprises a cooling box 401, cooling liquid 402, an arc-shaped pipe 403, a vertical pipe 404, a water pump 405, a liquid suction pipe 406, a filter screen 407, a second guide wheel 408, a liquid spreading hopper 409, an opening 410, a plug 411, a pore 412, a side opening 413, a liquid leakage hole 414, a liquid leakage pipe 415 and a liquid leakage valve 416, wherein the cooling box 401 is fixed on the base 1, the cooling liquid 402 is filled in the cooling box 401, two arc-shaped pipes 403 are arranged in the middle of the cooling box 401, one end of each arc-shaped pipe 403 is provided with the vertical pipe 404 connected with the arc-shaped pipe, the water pump 405 is arranged on the cooling box 401 at one side of the arc-shaped pipe 403, and the water inlet of the water pump 405 is connected with the liquid suction pipe 406, the filter screen 407 is installed to the bottom of drawing liquid pipe 406 grafting in cooling tank 401, install the second leading wheel 408 on the cooling tank 401 of arc pipe 403 other end, spill liquid fill 409 is installed to one side of standpipe 404 one end, opening 410 has been seted up to the below that cooling tank 401 one end was located spill liquid fill 409, the top of standpipe 404 and the one end that arc pipe 403 kept away from standpipe 404 all are provided with end cap 411, pore 412 has been seted up at the middle part of end cap 411, the side opening 413 with its inner chamber intercommunication has been seted up on the top of standpipe 404, a plurality of weeping hole 414 has been seted up to the bottom of spilling liquid fill 409, end cap 411 is detachable structure.

Example two

In the first embodiment, the coolant is easily discharged from the pores 412, and referring to fig. 1 and 2, as another preferred embodiment, the difference from the first embodiment is that the diameter of the side opening 413 is much larger than the diameter of the pores 412, so that the coolant is prevented from being discharged from the pores 412.

Example III

In the first embodiment, the cooling tank 401 is inconvenient to drain, and referring to fig. 1, as another preferred embodiment, a drain pipe 415 is disposed on one side of the bottom of the cooling tank 401, and a drain valve 416 is mounted on the drain pipe 415, so as to facilitate draining of the cooling tank 401.

Example IV

In the first embodiment, the tensioning of the carbon fiber yarn is inconvenient, referring to fig. 1 and 3, as another preferred embodiment, the difference between the tensioning mechanism 5 and the first embodiment is that the tensioning mechanism comprises a second strut 501, a third guide wheel 502, a tensioning wheel 503, a concave block 504, a groove 505, a transverse plate 506, a vertical rod 507, a counterweight box 508, a counterweight 509, a slot 510 and a convex column 511, the two second struts 501 are fixed on the cooling box 401, the third guide wheel 502 is installed at the top end of the second strut 501, a tensioning wheel 503 is arranged on the carbon fiber yarn between the two third guide wheels 502, a concave block 504 is arranged on the tensioning wheel 503, a transverse plate 506 is arranged at the bottom of the concave block 504, a vertical rod 507 is arranged at the middle of the bottom end of the transverse plate 506, a counterweight box 508 is arranged at the bottom end of the vertical rod 507, a counterweight 509 is arranged in the counterweight box 508, and when the two carbon fiber yarns pass through the groove 505 on the counterweight wheel 503, and after the two carbon fiber yarns pass through, the tensioning wheels 506, 507, the tensioning wheels 509 and the counterweight 509 are placed at the bottom of the counterweight box 509 are increased, namely, the tensioning degree of the carbon fiber yarns can be increased, and the carbon fiber yarns can be adjusted.

Example five

In the fourth embodiment, the balancing weight 509 is inconvenient to take out and stack, referring to fig. 3, and as another preferred embodiment, the difference between the fourth embodiment and the fourth embodiment is that the middle of the bottom end of the balancing weight 509 is provided with a slot 510, and the middle of the top end of the balancing weight 509 is provided with a convex column 511, so that the balancing weight 509 is conveniently stacked and pulled out through the convex column 511 when taken out.

Example six

In the fourth embodiment, referring to fig. 1, the carbon fiber yarn is inconvenient to limit, and as another preferred embodiment, the difference from the fourth embodiment is that the middle part of the tensioning wheel 503 is provided with a groove 505, so that the carbon fiber yarn is convenient to limit when passing through.

Example seven

In the first embodiment, the carbon fiber yarn is inconvenient to cool, referring to fig. 1 and 4, as another preferred embodiment, the difference from the first embodiment is that the auxiliary mechanism 6 includes a cross beam 61, a fan 62, a hose 63, a supporting leg 64, a cooling pipe 65, an air inlet 66, a first horn 67 and a second horn 68, the cross beam 61 is fixed on a cooling box 401, the fan 62 is installed at the bottom end of the cross beam 61, the air outlet of the fan 62 is connected with the hose 63, the cooling pipe 65 is installed at the top end of the cross beam 61 through the supporting leg 64, the air inlet 66 is arranged in the middle of the cooling pipe 65, the first horn 67 is arranged at one side of the inside of the air inlet 66, the second horn 68 is arranged at one side of the first horn 67, and in use, the carbon fiber yarn moves from the left end of the cooling pipe 65 to the right end of the cooling pipe 65, meanwhile, the fan 62 works to convey generated air to the air inlet 66 through the hose 63, the cooling air entering the cooling pipe 65 can move to the left side of the first horn 67 and the right side of the second horn 68, and thus the air speed of the cooling yarn is gradually increased to the first horn 67 and the second horn 68, and the time is gradually reduced compared with the first horn 67 and the second horn 68.

Example eight

In the seventh embodiment, the first flare 67 and the second flare 68 are inconvenient to use, and referring to fig. 1, as another preferred embodiment, the difference from the first embodiment is that the first flare 67 and the second flare 68 are gradually smaller from the left side to the right side, so that the use of the first flare 67 and the second flare 68 is facilitated.

Example nine

In the seventh embodiment, the hose 63 is inconvenient to use, and referring to fig. 1, as another preferred embodiment, the difference between the hose 63 and the embodiment is that one end of the hose 63 is connected to the air inlet 66, so that the hose 63 is convenient to be connected for use.

Working principle: when the invention is used, the external carbon fiber silk thread needing to be cooled enters the vertical pipe 404 and the arc pipe 403 from the first guide wheel 3 through the fine holes 412 at the top end of the vertical pipe 404, is led out from the fine holes 412 at the other end of the arc pipe 403, is led out from the second guide wheel 408, the third guide wheel 502, the tensioning wheel 503 and the third guide wheel 502, enters the cooling pipe 65 through the third guide wheel 502, and is penetrated out from the cooling pipe 65, when the carbon fiber silk thread passes through the arc pipe 403, the water pump 405 works to pump the cooling liquid 402 in the cooling tank 401, the water pump 405 conveys the pumped cooling liquid to the inside of the arc pipe 403 through the infusion pipe, due to the arrangement of the plug 411, the entered cooling liquid moves from the inside of the arc pipe 403 to the vertical pipe 404, flows to the liquid scattering hopper 409 through the side opening 413 at the top of the vertical pipe 404, and leaks out to the opening 410 through the liquid leakage hole 414 at the bottom end of the liquid scattering hopper 409, in this way, when in use, two carbon fiber wires pass through the groove 505 on the tensioning wheel 503, and after passing through, under the action of the transverse plate 506, the vertical rod 507, the counterweight box 508 and the counterweight 509, the transverse plate 506, the vertical rod 507, the counterweight box 508 and the counterweight 509 pull the two tensioning wheels 503, so that the tensioning wheel 503 tensions the carbon fiber wires, when in tension adjustment, the carbon fiber wire tension is adjusted by placing the number of the counterweight 509, when the counterweight 509 is increased, the slot 510 at the bottom end of the counterweight 509 is inserted on the convex column 511 at the top end of the counterweight 509, the counterweight 509 is increased, the tension of the carbon fiber wires can be increased, when in use, the carbon fiber wires move from the left end of the cooling pipe 65 to the right end of the cooling pipe 65, simultaneously, fan 62 works and will produce wind and carry air intake 66 through hose 63, enter into the inside of cooling tube 65 through air intake 66, the cooling wind that gets into in the cooling tube 65 can be towards the left side of first horn mouth 67 and the right side of second horn mouth 68 to cool off the carbon fiber silk thread that passes through first horn mouth 67 and second horn mouth 68 in the cooling tube 65, because first horn mouth 67 opening is great, the wind speed can reduce gradually, and then promotes cooling time, and second horn mouth 68 then carries out supplementary cooling of strengthening.

The beneficial effects are that: the invention has novel structure, ingenious conception, good cooling effect of the carbon fiber yarn, good heat dissipation effect of the used cooling liquid, convenient recycling of the cooling liquid, capability of ensuring the tensioning of the carbon fiber yarn, reinforced cooling and good cooling effect.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a cooling device is used in carbon fiber production, base (1) including the bottom setting, two first leading wheels (3) of first pillar (2) and the one end installation of first pillar (2) are installed at the top of base (1) one end, its characterized in that: the novel cooling device is characterized by further comprising a cooling mechanism (4), a tensioning mechanism (5) and an auxiliary mechanism (6), wherein the middle part of the top end of the base (1) is provided with the cooling mechanism (4), the top of one end of the cooling mechanism (4) is provided with the tensioning mechanism (5), and the auxiliary mechanism (6) is installed at the top end of one side of the cooling mechanism (4);

the cooling mechanism (4) comprises a cooling box (401), cooling liquid (402), an arc-shaped pipe (403), a vertical pipe (404), a water pump (405), a liquid suction pipe (406), a filter screen (407), a second guide wheel (408), a liquid scattering hopper (409), an opening (410), a plug (411), a pore (412), a side opening (413), a liquid leakage hole (414), a liquid discharge pipe (415) and a liquid discharge valve (416), wherein the cooling box (401) is fixed on a base (1), the cooling liquid (402) is filled in the cooling box (401), two arc-shaped pipes (403) are arranged in the middle of the cooling box (401), one end of each arc-shaped pipe (403) is provided with the vertical pipe (404) connected with the arc-shaped pipe, the water pump (405) is arranged on the cooling box (401) on one side of each arc-shaped pipe (403), the water inlet of each water pump (405) is connected with the liquid suction pipe (406), the bottom of each liquid suction pipe (406) is inserted into the cooling box (401), the cooling box (401) on the other end of each arc-shaped pipe (403) is provided with the second guide wheel (408), one side of each vertical pipe (404) is filled with the cooling liquid (403), one end of each vertical pipe (409) is provided with the liquid scattering hopper (409) on one side, one end of each filter hopper (409), the top end of the vertical pipe (404) and one end of the arc-shaped pipe (403) far away from the vertical pipe (404) are both provided with plugs (411), the middle part of each plug (411) is provided with a fine hole (412), the top end of the vertical pipe (404) is provided with a side opening (413) communicated with the inner cavity of the vertical pipe, and the bottom end of the liquid scattering hopper (409) is provided with a plurality of liquid leakage holes (414);

the auxiliary mechanism (6) comprises a cross beam (61), a fan (62), a hose (63), supporting legs (64), a cooling pipe (65), an air inlet (66), a first horn mouth (67) and a second horn mouth (68), wherein the cross beam (61) is fixed on a cooling box (401), the fan (62) is installed at the bottom end of the cross beam (61), the hose (63) is connected with an air outlet of the fan (62), the cooling pipe (65) is installed at the top end of the cross beam (61) through the supporting legs (64), the air inlet (66) is formed in the middle of the cooling pipe (65), the first horn mouth (67) is formed in one side of the inside of the air inlet (66), and the second horn mouth (68) is formed in one side of the first horn mouth (67);

the outside needs carbon fiber silk thread that cool off enters into standpipe (404) and arced tube (403) through pore (412) on standpipe (404) top by first leading wheel (3), draw forth through pore (412) on arced tube (403) other end, draw forth through second leading wheel (408), third leading wheel (502), take-up pulley (503) and third leading wheel (502), enter into cooling tube (65) through third leading wheel (502), pass through in cooling tube (65), when carbon fiber silk thread passes arced tube (403) during operation, water pump (405) work is with coolant liquid (402) in cooling tank (401) draw out, water pump (405) is carried the coolant liquid that draws out to the inside of arced tube (403) through the transfer line, because of the setting of end cap (411), the coolant liquid that gets into is moved towards standpipe (404) by the inside of arced tube (403), spill liquid hopper (409) through side opening (413) on standpipe (404) top, spill liquid drain hole (414) on spill liquid bottom of spill liquid hopper (409), in this way can spill out through cooling tank (506) during operation, use, can be convenient for retrieving by cooling tank (506) after cooling tank (401) is used, use, can be cooled down by the back to the cooling tank (506) is passed through in the time, cooling tank (401) is convenient for recovering, the effect of montant (507), counter weight box (508) and balancing weight (509) down, make diaphragm (506), montant (507), counter weight box (508) and balancing weight (509) stimulate two take-up pulley (503), make take-up pulley (503) taut carbon fiber silk thread, thereby make carbon fiber silk thread tensioning, when adjusting the rate of tension, through the quantity adjustment carbon fiber silk thread rate of placing balancing weight (509), when increasing balancing weight (509), insert slot (510) in balancing weight (509) bottom on projection (511) on balancing weight (509) top of bottom can, increase balancing weight (509), multiplicable carbon fiber silk thread's rate of tension, during the use, carbon fiber silk thread is moved to the right-hand member of cooling tube (65) by the left end of cooling tube (65), simultaneously, fan (62) work is with the wind that produces for hose (66), inside through air intake (66) entering cooling tube (65), cooling wind in entering cooling tube (65) can be towards first horn mouth (67) left side and second horn mouth (68) are carried out in cooling tube (67) and second horn mouth (68) are cooled down.

2. A cooling device for carbon fiber production according to claim 1, wherein the diameter of the side opening (413) is much larger than the diameter of the fine hole (412).

3. The cooling device for carbon fiber production according to claim 1, wherein a drain pipe (415) is provided on one side of the bottom of the cooling tank (401), and a drain valve (416) is mounted on the drain pipe (415).

4. The cooling device for carbon fiber production according to claim 1, wherein the tensioning mechanism (5) comprises a second support column (501), a third guide wheel (502), a tensioning wheel (503), a concave block (504), a groove (505), a transverse plate (506), a vertical rod (507), a weight box (508), a balancing weight (509), a slot (510) and a convex column (511), the two second support columns (501) are fixed on the cooling box (401), the third guide wheel (502) is mounted on the top end of the second support column (501), the tensioning wheel (503) is arranged on a carbon fiber wire between the two third guide wheels (502), the concave block (504) is arranged on the tensioning wheel (503), the transverse plate (506) is arranged at the bottom of the concave block (504), the vertical rod (507) is arranged in the middle of the bottom end of the transverse plate (506), the weight box (508) is arranged at the bottom end of the vertical rod (507), and the balancing weight (509) is placed inside the weight box (508).

5. The cooling device for carbon fiber production according to claim 4, wherein the middle part of the bottom end of the balancing weight (509) is provided with a slot (510), and the middle part of the top end of the balancing weight (509) is provided with a convex column (511).

6. The cooling device for carbon fiber production according to claim 4, wherein a groove (505) is provided in the middle of the tension wheel (503).

7. A cooling device for carbon fiber production according to claim 1, wherein the first horn mouth (67) and the second horn mouth (68) are tapered from the left side to the right side.

8. A cooling device for carbon fiber production according to claim 1, wherein one end of the hose (63) is connected to the air inlet (66).