CN219886247U - Terylene line cooling device - Google Patents

Abstract

The utility model discloses a terylene line cooling device which is used for solving the technical problem that the cooling efficiency of terylene lines needs to be continuously enlarged to enable the terylene lines to be effectively cooled in a short time when the productivity is further enlarged in cooling of the terylene lines.

Description

Terylene line cooling device

Technical Field

The utility model relates to the technical field of polyester yarn cooling, in particular to polyester yarn cooling equipment.

Background

When the polyester yarn is produced, after the raw materials are melted and pulled by the polyester yarn spinning device, the raw materials are required to be cooled by a cooling device in a rapid cooling way, so that the raw materials are solidified and molded, and further the processing production efficiency of the polyester yarn is improved.

In the prior art, if the patent publication number is CN210458498U and the patent name is a cooling device for polyester staple fibers, the cooling device for polyester staple fibers comprises a cooling box, the inner wall of the cooling box is fixedly connected with metal cooling pipes which are arranged at equal intervals, each metal cooling pipe penetrates through one inner wall of the cooling box and extends to the outside of the cooling box, one outer side surface of the cooling box is fixedly connected with a fixing frame, the middle part of one side surface of the fixing frame is fixedly connected with a second cooling fan, one outer side surface of the cooling box is provided with a through hole, and the inner top wall of the cooling box is provided with cooling pipes.

The above patent document can solve the problem of air cooling and cooling of the polyester staple fibers in the cooling box in the prior art, but in the cooling of the polyester yarns, particularly when the productivity is further enlarged, the cooling efficiency of the polyester yarns needs to be continuously enlarged so that the polyester yarns can be effectively cooled in a short time, and the above patent document only performs air cooling on the polyester staple fibers twice, so that the polyester yarns cannot be effectively cooled in a short time, and the cooling efficiency is not high.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, and provides cooling equipment for polyester staple fibers, which is used for solving the technical problem that the polyester yarns cannot be cooled effectively in a short time because the polyester yarns are cooled only twice when the capacity is further enlarged.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a dacron line cooling arrangement, includes the workstation, fixed mounting has condenser tube on the workstation, install water-cooling assembly on the condenser tube, the recovery subassembly that is used for retrieving cold water is installed to the workstation bottom, the fixed station is installed to workstation one side, install the box on the fixed station, fixed mounting has the forced air cooling subassembly in the box.

Working principle:

when the polyester yarns need to be rapidly cooled, firstly, operators sequentially pass through the supercooling water pipe and the box body, then the operators start the water cooling assembly, water cooling liquid sprayed out of the water cooling assembly continuously dips the polyester yarns, then the polyester yarns dipped with the water cooling liquid pass through the box body, then the operators start the air cooling assembly, and the air cooling assembly performs secondary cooling towards the polyester yarns.

The beneficial effects of the utility model are as follows:

compared with the patent literature mentioned in the background art, the utility model can perform primary water cooling and primary air cooling on the polyester yarns in a short time, and the air cooling can cool the polyester yarns and air-dry the water cooling liquid on the polyester yarns at the same time after water cooling, and simultaneously perform secondary cooling on the polyester yarns, thereby achieving high-efficiency cooling efficiency.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

fig. 2 is a schematic side cross-sectional view of the second motor, the second shaft, and the rotating drum.

Reference numerals illustrate: the device comprises a workbench 1, a feed pipe 2, a discharge pipe 3, a cooling water pipe 4, a fixed table 5, a box body 6, a rotating roller 7, a cold water tank 8, an on-off valve 9, a water cooling pipe 10, a spray head 11, a recovery water pipe 12, an integrated pipe 13, a filtering water tank 14, a return pipe 15, a recovery water tank 16, a water suction pipe 17, a water suction pump 18, a water outlet pipe 19, a stop valve 20, a filter plate 21, a first motor 22, a first rotating shaft 23, a fan blade 24, a second motor 25, a second rotating shaft 26, a rotating cylinder 27, a feed inlet 28 and a discharge outlet 29.

Detailed Description

The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

As shown in FIG. 1, the polyester filament cooling device comprises a workbench 1, a cooling water pipe 4 is fixedly installed on the workbench 1, a water cooling assembly is installed on the cooling water pipe 4, a recovery assembly for recovering cold water is installed at the bottom of the workbench 1, a fixed table 5 is installed on one side of the workbench 1, a box 6 is installed on the fixed table 5, an air cooling assembly is fixedly installed in the box 6, the device further comprises a feeding pipe 2 and a discharging pipe 3, the feeding pipe 2 and the discharging pipe 3 are respectively arranged at one end of the cooling water pipe 4, and a relative feeding hole 28 and a discharge hole 29 are respectively formed in two sides of the box 6.

When the polyester yarns need to be rapidly cooled, firstly, operators wear the polyester yarns from the feeding pipe 2 into the cooling water pipe 4, then the operators start the water cooling assembly, water cooling liquid sprayed by the water cooling assembly is continuously soaked in the polyester yarns, then the polyester yarns soaked in the water cooling liquid are taken out from the discharging pipe 3, then the polyester yarns pass through the feeding hole 28, then the operators start the air cooling assembly, the air cooling assembly performs secondary cooling towards the polyester yarns, and finally the polyester yarns subjected to the secondary cooling are transported out from the discharging hole 29.

As shown in fig. 1, the cooling device further comprises four rotating rollers 7, the four rotating rollers 7 are respectively and correspondingly arranged at two ends of the cooling water pipe 4 in a two-to-one corresponding mode, the two rotating rollers 7 are symmetrical with the center line of the cooling water pipe 4, the four rotating rollers 7 can convey polyester yarns, and the rotating rollers 7 positioned at the bottom of the cooling water pipe 4 can limit the polyester yarns to be cooled into cold water for cooling.

As shown in fig. 1, the water cooling assembly comprises a cold water tank 8, a switch valve 9, a plurality of water cooling pipes 10 and spray heads 11, wherein the cold water tank 8 is installed on the cold water pipe 4, the switch valve 9 is fixedly installed on one side of the cold water tank 8, one ends of the water cooling pipes 10 are respectively connected with the cold water tank 8 in a conducting manner, and the other ends of the water cooling pipes 10 are respectively arranged in the cold water pipe 4 in a penetrating manner and are connected with the spray heads 11 positioned in the cold water pipe 4 in a conducting manner.

When the terylene line is required to be water-cooled, firstly, an operator starts the switch valve 9, at this time, the cold water tank 8 injects cold water into the plurality of water cooling pipes 10, then the plurality of water cooling pipes 10 inject cold water into the cooling water pipe 4 through the spray head 11, at this time, the terylene line conveyed at the bottom of the cooling water pipe 4 is soaked by the cold water, and can be rapidly cooled, so that the cooling efficiency of the terylene line through the cold water is realized.

As shown in fig. 1, the recovery assembly comprises a plurality of recovery water pipes 12 with different lengths, an integrated pipe 13, a filtering water tank 14, a return pipe 15, a recovery water tank 16, a water suction pipe 17, a water suction pump 18 and a water outlet pipe 19, wherein one ends of the plurality of recovery water pipes 12 penetrate through the workbench 1 and are connected with the cooling water pipe 4 in a conducting manner, the other ends of the plurality of recovery water pipes 12 are connected to the integrated pipe 13 in a one-to-one manner, the filtering water tank 14 is arranged at the bottom of the workbench 1 and is connected with the integrated pipe 13 in a conducting manner, the recovery water tank 16 is arranged at one side of the filtering water tank 14, two ends of the return pipe 15 are connected with the filtering water tank 14 and the recovery water tank 16 in a conducting manner, the water suction pump 18 is arranged on the recovery water tank 16, two ends of the water suction pipe 17 are connected with the water suction pump 18 and the water tank 16 in a conducting manner, two ends of the water outlet pipe 19 are connected with the output end of the water suction pump 18 and the cold water tank 8 in a conducting manner, the flow stop valve 20 is arranged at one side of the integrated pipe 13, the filter plate 21 is arranged in the filtering water tank 14.

When the cold water in the cooling water pipe 4 needs to be recovered, at this time, an operator rotates the stop valve 20, then the cold water in the cooling water pipe 4 falls into the integrated pipe 13 through the recovery water pipe 12, then flows into the filtering water tank 14 from the integrated pipe 13, and then passes through the filtering plate 21 in the filtering water tank 14 when passing through the filtering water tank 14, at this time, the filtering plate 21 is a simple filtering function, which is not described in detail in the prior art, then the cold water enters the recovery water tank 16 through the return pipe 15, when the recovered cold water is reused, the operator starts the water pump 18, and the water pump 18 pumps the cold water in the recovery water tank 16 through the water pipe 17 and transmits the water to the cold water tank 8 through the water outlet pipe 19, in this way, continuous circulation treatment can be performed on the cold water, and a certain cost of the cold water can be saved while the polyester yarns are cooled efficiently.

As shown in fig. 1, the air cooling assembly includes a first motor 22, a first rotating shaft 23 and a plurality of fan blades 24, the first motor 22 is mounted on the fixed table 5, the first rotating shaft 23 is vertically and fixedly mounted at the output end of the first motor 22, and the plurality of fan blades 24 are fixedly mounted on the first rotating shaft 23.

When needing to carry out the secondary cooling to the dacron line, at first, operating personnel starts first motor 22, first motor 22 drives first pivot 23 and rotates, and first pivot 23 drives a plurality of flabellums 24 and rotates, and a plurality of flabellums 24 cool off towards the dacron line in the box 6, not only carries out the secondary cooling to the dacron line through this kind of mode, and also can air-dry and take away the cooling of heat principle can further increase the dacron line with utilizing the evaporation of water can be fast to the dacron line through condenser tube 4 refrigerated dacron line when cooling.

As shown in fig. 2, the device further comprises a second motor 25, a second rotating shaft 26 and a rotating cylinder 27, wherein the second motor 25 is fixedly installed on the box body 6, the second rotating shaft 26 is fixedly installed on the output end of the second motor 25 and is perpendicular to the first rotating shaft 23, and the rotating cylinder 27 is sleeved on the second rotating shaft 26 and is fixedly connected with the second rotating shaft 26.

And finally, when the cooled polyester yarns are transmitted, an operator starts the second motor 25, the second motor 25 drives the second rotating shaft 26 to rotate, the second rotating shaft 26 drives the rotating cylinder 27 to rotate, the rotating cylinder 27 rotates and collects the cooled polyester yarns to the outer surface of the rotating cylinder 27, and the cooled polyester yarns can be rapidly transmitted and collected in the mode.

Working principle:

when needs carry out quick cooling to the dacron line, at first operating personnel wear to establish into condenser tube 4 with the dacron line earlier from inlet pipe 2 to can carry out the transmission to the dacron line through four live rollers 7 that set up, and lie in the live roller 7 of condenser tube 4 bottom can be with waiting refrigerated dacron line spacing to cooling in the cold water liquid, when needs carry out the water-cooling to the dacron line, at first operating personnel start switch valve 9, at this moment cold water tank 8 pours into cold water liquid into a plurality of water-cooling tubes 10, then a plurality of water-cooling tubes 10 are through sprinkler head 11 into cold water-cooling tube 4 in, and the transmission at this moment is received the soaking of cold water liquid and can be carried out quick cooling to the dacron line, then carries out the secondary cooling to the dacron line time, and operating personnel starts first motor 22, first motor 22 drives first pivot 23 and drives a plurality of pieces 24 and rotate, and a plurality of flabellum 24 are cooled down towards the dacron line in box 6, not only carries out the secondary to the dacron line through this kind of mode, and also can be to the quick cooling down to the dacron line that takes away through the evaporation principle of the dacron line of cooling water of cooling 4 cooling simultaneously.

When the cold water in the cooling water pipe 4 needs to be recovered, at this time, an operator rotates the stop valve 20, then the cold water in the cooling water pipe 4 falls into the integrated pipe 13 through the recovery water pipe 12, then flows into the filtering water tank 14 from the integrated pipe 13, and then passes through the filtering plate 21 in the filtering water tank 14 when passing through the filtering water tank 14, at this time, the filtering plate 21 is a simple filtering function, which is not described in detail in the prior art, then the cold water enters the recovery water tank 16 through the return pipe 15, when the recovered cold water is reused, the operator starts the water pump 18, and the water pump 18 pumps the cold water in the recovery water tank 16 through the water pipe 17 and transmits the water to the cold water tank 8 through the water outlet pipe 19, in this way, continuous circulation treatment can be performed on the cold water, and a certain cost of the cold water can be saved while the polyester yarns are cooled efficiently.

And finally, when the cooled polyester yarns are transmitted, an operator starts the second motor 25, the second motor 25 drives the second rotating shaft 26 to rotate, the second rotating shaft 26 drives the rotating cylinder 27 to rotate, the rotating cylinder 27 rotates and collects the cooled polyester yarns to the outer surface of the rotating cylinder 27, and the cooled polyester yarns can be rapidly transmitted and collected in the mode.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present utility model, which is intended to be covered by the scope of the claims of the present utility model.

Claims (8)

1. The utility model provides a polyester yarn cooling arrangement, includes workstation (1), its characterized in that: the cooling water system is characterized in that a cooling water pipe (4) is fixedly arranged on the workbench (1), a water cooling assembly is arranged on the cooling water pipe (4), a recovery assembly for recovering cold water is arranged at the bottom of the workbench (1), a fixing table (5) is arranged on one side of the workbench (1), a box body (6) is arranged on the fixing table (5), and an air cooling assembly is fixedly arranged in the box body (6).

2. The polyester yarn cooling apparatus according to claim 1, wherein: the cooling water pipe cooling device further comprises four rotating rollers (7), the four rotating rollers (7) are correspondingly arranged at two ends of the cooling water pipe (4) in a one-to-one correspondence mode, and the two groups of rotating rollers (7) are symmetrical with the perpendicular bisector of the cooling water pipe (4) as the center.

3. The polyester yarn cooling apparatus according to claim 1, wherein: the water cooling assembly comprises a cold water tank (8), a switch valve (9), a plurality of water cooling pipes (10) and spray heads (11), wherein the cold water tank (8) is arranged on the cooling water pipe (4), the switch valve (9) is fixedly arranged on one side of the cold water tank (8), one ends of the water cooling pipes (10) are respectively connected with the cold water tank (8) in a conducting mode, and the other ends of the water cooling pipes (10) are respectively arranged in the cooling water pipe (4) in a penetrating mode and are connected with the spray heads (11) located in the cooling water pipe (4).

4. A polyester yarn cooling apparatus according to claim 3, wherein: the recovery assembly comprises a plurality of recovery water pipes (12), an integrated pipe (13), a filtering water tank (14), a return pipe (15), a recovery water tank (16), a water suction pipe (17), a water suction pump (18) and a water outlet pipe (19), wherein one ends of the plurality of recovery water pipes (12) penetrate through the workbench (1) one by one and are connected with the cooling water pipe (4) in a conducting mode, the other ends of the plurality of recovery water pipes (12) are connected to the integrated pipe (13) one by one, the filtering water tank (14) is installed at the bottom of the workbench (1) and is communicated with the integrated pipe (13), the recovery water tank (16) is installed at one side of the filtering water tank (14), two ends of the return pipe (15) are connected with the filtering water tank (14) and the recovery water tank (16) in a conducting mode, the water suction pump (18) is installed on the recovery water tank (16), and two ends of the water suction pipe (17) are connected with the water suction pump (18) and the recovery water tank (16) in a conducting mode, and two ends of the water outlet pipe (19) are connected with the output end of the water suction pump (18) and the cold water tank (8) in a conducting mode.

5. The polyester yarn cooling apparatus according to claim 4, wherein: and the integrated pipe (13) further comprises a stop valve (20), and the stop valve (20) is arranged on one side of the integrated pipe (13).

6. The polyester yarn cooling apparatus according to claim 4, wherein: the filter plate (21) is arranged in the filter water tank (14).

7. The polyester yarn cooling apparatus according to claim 1, wherein: the air cooling assembly comprises a first motor (22), a first rotating shaft (23) and a plurality of fan blades (24), wherein the first motor (22) is arranged on a fixed table (5), the first rotating shaft (23) is vertically and fixedly arranged at the output end of the first motor (22), and the fan blades (24) are fixedly arranged on the first rotating shaft (23).

8. The polyester yarn cooling apparatus according to claim 1, wherein: the novel rotary drum type electric machine is characterized by further comprising a second motor (25), a second rotating shaft (26) and a rotating drum (27), wherein the second motor (25) is fixedly arranged on the box body (6), the second rotating shaft (26) is fixedly arranged at the output end of the second motor (25) and perpendicular to the first rotating shaft (23), and the rotating drum (27) is sleeved on the second rotating shaft (26) and fixedly connected with the second rotating shaft and the rotating drum.