CN223118620U - A kind of silk thread ring blowing cooling device for textile production - Google Patents

Abstract

The utility model discloses a silk thread circular blowing cooling device for textile production, which comprises a lower shell, lower diversion rotating blades, an upper shell and an upper diversion rotating blade, wherein the upper shell is arranged at the top end of the lower shell, the upper diversion rotating blades are all fixed on the inner wall of the lower shell, an upper arc-shaped blowing cavity is arranged in the side wall of the upper shell, upper air outlet holes are formed in the inner wall of the upper shell between the upper diversion rotating blades, the lower diversion rotating blades are all fixed on the inner wall of the lower shell, a lower arc-shaped blowing cavity is formed in the side wall of the lower shell, lower air outlet holes are formed in the inner wall of the lower shell between the lower diversion rotating blades, a wire inlet is formed in one end of the lower shell and one end of the upper shell, a wire outlet is formed in the other end of the lower shell and the other end of the upper shell, and a main air supply pipe is arranged on one side of the lower shell. The utility model not only can cool the silk thread in an omnibearing way and improve the cooling uniformity, but also adopts a cyclone cooling mode and improves the cooling efficiency.

Description

Silk thread circular blowing cooling device for textile production

Technical Field

The utility model relates to the technical field of textile production, in particular to a yarn circular blowing cooling device for textile production.

Background

Textile products, i.e. products produced by textile processing, including yarns, wovens, knits, etc., in which cooling of threads is an important step in the production of textiles, ‌ if the cooling is uneven, ‌ will result in an affected quality of the spinning, and therefore a cooling device is required.

Most of the cooling devices cool the silk threads by blowing air in a single direction, the cooling mode is not uniform, and heat is still remained in the device and is difficult to be led out due to the fact that blown cold air lacks guiding in the device, so that the cooling efficiency is influenced, and therefore, improvement is needed.

Disclosure of utility model

The utility model aims to provide a yarn circular blowing cooling device for textile production, which is used for solving the problems in the background technology.

The technical scheme is that the silk thread circular blowing cooling device for textile production comprises a lower shell, lower diversion rotary blades, an upper shell and upper diversion rotary blades, wherein the upper shell is arranged at the top end of the lower shell, the upper diversion rotary blades are all fixed on the inner wall of the lower shell, an upper arc blowing cavity is formed in the side wall of the upper shell, upper air outlet holes are formed in the inner wall of the upper shell between the upper diversion rotary blades, the upper air outlet holes are communicated with the upper arc blowing cavity, the lower diversion rotary blades are all fixed on the inner wall of the lower shell, the lower diversion rotary blades are connected with the upper diversion rotary blades, a lower arc blowing cavity is formed in the side wall of the lower shell, lower air outlet holes are communicated with the lower arc blowing cavity, wire inlets are formed in one ends of the lower shell and the upper shell, wire outlets are formed in the other ends of the lower shell and the upper shell, one side of the lower shell is provided with a total air supply pipe, and the total air supply pipe is respectively connected with one end of the lower shell, the other side of the lower shell is provided with an air supply pipe through another air supply pipe, and the total air supply pipe is respectively connected with one end of the lower shell.

Preferably, a water collecting tank is arranged on the inner wall of the bottom of the lower shell, so that condensed water can be conveniently collected.

Preferably, a drain pipe is installed at one end of the water collecting tank, and the bottom end of the drain pipe extends to the lower side of the lower shell, so that condensed water can be conveniently discharged.

Preferably, the wire inlet and the wire outlet are both in semicircular structures, and the wire inlet and the wire outlet are combined to form a whole circular structure.

Preferably, the wire guide wheels are arranged in the wire inlet and the wire outlet, so that the wires can be guided and limited conveniently.

Preferably, a dehumidifying box is arranged below the lower shell, a drying agent box is arranged inside the dehumidifying box, and one end of the drying agent box extends to the outside of the dehumidifying box and is provided with a sealing plate, so that cold air is dehumidified conveniently.

Preferably, one end of the dehumidification box is communicated with the air outlet pipe, and the other end of the dehumidification box is communicated with the total air supply pipe through a circulating pipe.

Preferably, the lower shell and the upper shell are combined into a cylindrical structure, and one side of the upper shell is connected with the lower shell through a rotating shaft.

Compared with the prior art, the utility model has the beneficial effects that:

The silk thread enters into lower casing, go up in the casing from the inlet wire to derive from the outlet wire, the draught fan is with cold air pumping to in the total blast pipe, total blast pipe is through lower hose, go up the hose and carry cold air to lower casing, go up the inside lower arc chamber of blowing of casing, go up arc chamber of blowing, cold air enters into lower casing, go up the drum that the casing constitutes down from lower apopore, go up the apopore, because lower apopore annular distribution, cool down the silk thread and carry out the omnidirectional cooling, thereby cooling uniformity has been improved, at the same time, the silk thread moves from left to right, and cold wind forms whirlwind and from right to left movement under the direction effect of lower water conservancy diversion swivel vane, last water conservancy diversion swivel vane, when cold cyclone wind passes the silk thread, take away the heat of silk thread, and derive through the play tuber pipe, make the heat can not remain in the device, thereby cooling efficiency has been promoted.

Drawings

FIG. 1 is a schematic view of a front cross-sectional structure of the present utility model;

FIG. 2 is a schematic side sectional view of the present utility model;

FIG. 3 is a schematic view of a partially enlarged structure of the present utility model;

FIG. 4 is an enlarged schematic view of the structure of FIG. 3A according to the present utility model;

fig. 5 is a schematic diagram of a cross-sectional enlarged structure of the dehumidifying case of the present utility model.

The device comprises a lower shell, a lower arc-shaped air blowing cavity, a lower air outlet hole, a 103, a water collecting tank, a 104, a water drain pipe, a2, a lower diversion rotary vane, a 3, a dehumidification box, a 301, a sealing plate, a 302, a drying agent box, a 4, a lower hose, a 5, a total air supply pipe, a 6, an induced draft fan, a 7, an upper hose, a 8, an upper shell, a 801, an upper arc-shaped air blowing cavity, a 802, an upper air outlet hole, a 9, an upper diversion rotary vane, a 10, a circulating pipe, a 11, an air outlet pipe, a 12, a wire inlet, a 13, a wire outlet, a 14 and a wire guide wheel.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model, and all other embodiments obtained by those skilled in the art without making any inventive effort based on the embodiments of the present utility model are within the scope of protection of the present utility model.

Referring to fig. 1-5, an embodiment of the present utility model provides a filament loop blowing cooling device for textile production, which comprises a lower housing 1, a lower guiding vane 2, an upper housing 8 and an upper guiding vane 9, wherein the upper housing 8 is arranged at the top end of the lower housing 1, the upper guiding vane 9 is fixed on the inner wall of the lower housing 1, an upper arc blowing cavity 801 is arranged in the side wall of the upper housing 8, upper air outlet holes 802 are arranged on the inner wall of the upper housing 8 between the upper guiding vanes 9, the upper air outlet holes 802 are communicated with the upper arc blowing cavity 801, the lower guiding vane 2 is fixed on the inner wall of the lower housing 1, and the lower guiding vane 2 is connected with the upper guiding vane 9;

Specifically, the silk thread enters the lower shell 1 and the upper shell 8 from the inlet 12 and is led out from the outlet 13, wherein the silk thread is guided and limited by the wire guide wheel 14, then the induced draft fan 6 is connected with an external cold air pipe, the induced draft fan 6 pumps cold air into the total air supply pipe 5, the total air supply pipe 5 conveys the cold air to the lower arc-shaped air blowing cavity 101 and the upper arc-shaped air blowing cavity 801 in the lower shell 1 and the upper shell 8 through the lower hose 4 and the upper hose 7, and the cold air enters the cylinder formed by the lower shell 1 and the upper shell 8 from the lower air outlet 102 and the upper air outlet 802, and the silk thread is cooled in an omnibearing way due to the annular distribution of the lower air outlet 102 and the lower air outlet 102, so that the cooling uniformity is improved;

The silk thread moves from left to right, cold air forms whirlwind under the guiding action of the lower guiding rotating vane 2 and the upper guiding rotating vane 9 and moves from right to left, when cold whirlwind passes through the silk thread, heat of the silk thread is taken away, and the heat is led out through the air outlet pipe 11, so that the heat cannot remain in the device, and the cooling efficiency is improved;

A lower arc-shaped blowing cavity 101 is arranged in the side wall of the lower shell 1, lower air outlet holes 102 are formed in the inner wall of the lower shell 1 between the lower diversion rotary blades 2, and the lower air outlet holes 102 are communicated with the lower arc-shaped blowing cavity 101;

One end of the lower shell 1 and one end of the upper shell 8 are provided with a wire inlet 12, and the other end of the lower shell 1 and the other end of the upper shell 8 are provided with a wire outlet 13;

A main blast pipe 5 is arranged on one side of the lower shell 1, the main blast pipe 5 is respectively communicated with one end of the lower shell 1 and one end of the upper shell 8 through a lower hose 4 and an upper hose 7, an air outlet pipe 11 is arranged at the other end of the lower shell 1, an induced draft fan 6 is arranged on one side of the main blast pipe 5, and the output end of the induced draft fan 6 is communicated with the main blast pipe 5;

A water collecting tank 103 is arranged on the inner wall of the bottom of the lower shell 1;

A drain pipe 104 is installed at one end of the water collection tank 103, and the bottom end of the drain pipe 104 extends to the lower part of the lower shell 1;

the wire inlet 12 and the wire outlet 13 are of semicircular structures, and the wire inlet 12 and the wire outlet 13 are combined to form a whole circular structure;

the wire guide wheels 14 are arranged in the wire inlet 12 and the wire outlet 13;

a dehumidifying box 3 is provided below the lower case 1, a desiccant box 302 is provided inside the dehumidifying box 3, and one end of the desiccant box 302 extends to the outside of the dehumidifying box 3 and is mounted with a sealing plate 301;

One end of the dehumidification box 3 is communicated with an air outlet pipe 11, and the other end of the dehumidification box 3 is communicated with a total air supply pipe 5 through a circulating pipe 10;

Specifically, the air outlet pipe 11 guides cold air into the dehumidifying box 3, the desiccant box 302 dehumidifies the cold air, the sealing plate 301 can be pulled to draw out the desiccant box 302 for replacement, the dehumidified cold air reenters the total air supply pipe 5 through the circulating pipe 10 and is mixed with the cold air in the total air supply pipe 5 and then reenters the lower shell 1 and the upper shell 8, and the circulation is performed, so that the humidity in the device is reduced, threads are prevented from being damped, and in addition, a small amount of condensed water on the inner walls of the lower shell 1 and the upper shell 8 flows into the water collecting tank 103 under the action of gravity and is led out from the drain pipe 104 to the outside, so that the condensed water is conveniently discharged;

The lower shell 1 and the upper shell 8 are combined into a cylindrical structure, and one side of the upper shell 8 is connected with the lower shell 1 through a rotating shaft;

specifically, the upper case 8 can be turned around the lower case 1, and the upper case 8 is opened so that the inside of the lower case 1, the upper case 8 is regularly cleaned and overhauled.

When the embodiment of the application is used, the following steps are adopted: firstly, silk threads enter the lower shell 1 and the upper shell 8 from a wire inlet 12 and are led out from a wire outlet 13, wherein a wire guide wheel 14 guides and limits the silk threads, then, a draught fan 6 is connected with an external cold air pipe, the draught fan 6 pumps cold air into a total air supply pipe 5, the total air supply pipe 5 conveys the cold air into a lower arc-shaped air blowing cavity 101 and an upper arc-shaped air blowing cavity 801 in the lower shell 1 and the upper shell 8 through a lower hose 4 and an upper hose 7, the cold air enters a cylinder formed by the lower shell 1 and the upper shell 8 from a lower air outlet 102 and an upper air outlet 802, the silk threads are cooled in an omnibearing way due to the annular distribution of the lower air outlet 102 and the lower air outlet 102, so that the cooling uniformity is improved, meanwhile, the silk threads move from left to right, and form whirlwind and move from right to left under the guiding action of a lower diversion rotating blade 2 and an upper diversion rotating blade 9, when cold cyclone wind passes through the silk thread, the heat of the silk thread is taken away and is led out through the air outlet pipe 11, so that the heat cannot be remained in the device, the cooling efficiency is improved, the air outlet pipe 11 guides the cold air into the dehumidifying box 3, the drying agent box 302 dehumidifies the cold air, the sealing plate 301 can be pulled to pull the drying agent box 302 out for replacement, the dehumidified cold air reenters the total air outlet pipe 5 through the circulating pipe 10 and is mixed with the cold air in the total air outlet pipe 5 and then reenters the lower shell 1 and the upper shell 8, the circulation is carried out, the humidity in the device is reduced, the silk thread is prevented from being wetted, in addition, a small amount of condensed water on the inner walls of the lower shell 1 and the upper shell 8 flows into the water collecting tank 103 under the action of gravity and is led out to the outside through the water outlet pipe 104, the condensed water is conveniently discharged, the upper casing 8 can be turned around the lower casing 1, and the upper casing 8 is opened so as to perform regular cleaning and maintenance on the inside of the lower casing 1 and the upper casing 8.

Claims (8)

1. A thread ring-blowing cooling device for textile production, characterized in that it comprises a lower shell (1), a lower guide vane (2), an upper shell (8) and an upper guide vane (9), wherein the upper shell (8) is arranged at the top end of the lower shell (1), the upper guide vanes (9) are all fixed on the inner wall of the lower shell (1), an upper arc-shaped blowing cavity (801) is arranged in the side wall of the upper shell (8), upper air outlet holes (802) are arranged on the inner wall of the upper shell (8) between the upper guide vanes (9), the upper air outlet holes (802) are connected to the upper arc-shaped blowing cavity (801), the lower guide vanes (2) are all fixed on the inner wall of the lower shell (1), the lower guide vanes (2) are connected to the upper guide vanes (9), and the side wall of the lower shell (1) is provided with a lower arc-shaped blowing cavity (101), lower air outlet holes (102) are provided on the inner wall of the lower shell (1) between the lower guide vanes (2), and the lower air outlet holes (102) are connected to the lower arc-shaped blowing chamber (101), one end of the lower shell (1) and the upper shell (8) are provided with a line inlet (12), and the other end of the lower shell (1) and the upper shell (8) are provided with a line outlet (13), one side of the lower shell (1) is installed with a main air supply pipe (5), and the main air supply pipe (5) is connected to one end of the lower shell (1) and the upper shell (8) through a lower hose (4) and an upper hose (7), respectively, and the other end of the lower shell (1) is installed with an air outlet pipe (11), and one side of the main air supply pipe (5) is provided with an induced draft fan (6), and the output end of the induced draft fan (6) is connected to the main air supply pipe (5). 2. A thread ring-blowing cooling device for textile production according to claim 1, characterized in that a water collecting trough (103) is provided on the inner wall of the bottom of the lower shell (1). 3. A silk thread ring-blowing cooling device for textile production according to claim 2, characterized in that: a drain pipe (104) is installed at one end of the water collecting tank (103), and the bottom end of the drain pipe (104) extends to the bottom of the lower shell (1). 4. A thread ring-blowing cooling device for textile production according to claim 1, characterized in that the thread inlet (12) and the thread outlet (13) are both semicircular structures, and the thread inlet (12) and the thread outlet (13) are combined into a full-circular structure. 5. A thread ring-blowing cooling device for textile production according to claim 1, characterized in that a wire guide wheel (14) is installed inside the wire inlet (12) and the wire outlet (13). 6. A silk thread ring-blowing cooling device for textile production according to claim 1, characterized in that a dehumidification box (3) is arranged below the lower shell (1), and a desiccant box (302) is arranged inside the dehumidification box (3), and one end of the desiccant box (302) extends to the outside of the dehumidification box (3) and is installed with a sealing plate (301). 7. A silk thread ring-blowing cooling device for textile production according to claim 6, characterized in that one end of the dehumidification box (3) is connected to the air outlet pipe (11), and the other end of the dehumidification box (3) is connected to the main air supply pipe (5) through the circulation pipe (10). 8. A thread ring-blowing cooling device for textile production according to claim 1, characterized in that: the lower shell (1) and the upper shell (8) are combined into a cylindrical structure, and one side of the upper shell (8) is connected to the lower shell (1) via a rotating shaft.