CN210506603U - Independent multi-air-duct control side blowing device - Google Patents

Abstract

The utility model discloses an independent multi-air-channel control side blowing device, which comprises a lower air channel component, an air inlet, an air cavity and an air outlet, wherein the air inlet, the air cavity and the air outlet are sequentially communicated; the air flow channel part is arranged on the lower air channel part, a plurality of independent air channels are arranged in the air flow channel part, the independent air channels are mutually isolated from each other in air flow, each independent air channel is provided with an air inlet and an air outlet, and the air inlets of the independent air channels are respectively communicated with the air flow outlet of the lower air channel part in air flow; the air volume control mechanisms are in one-to-one correspondence with the independent air channels and are used for respectively controlling the air volume entering the independent air channels, each air volume control mechanism comprises a blade and an adjusting part, the blades are rotatably arranged in the corresponding independent air channels, and the adjusting parts are used for driving the blades to rotate so as to adjust the opening sizes of the corresponding independent air channels. Therefore, the purpose of controlling the air volume in each independent air duct is achieved, and the air blowing device is suitable for the air blowing process requirements of different types of yarns during spinning.

Description

Independent multi-air-duct control side blowing device

Technical Field

The utility model relates to a chemical fiber spinning equipment technical field, in particular to an independent multicavity control side blast apparatus that is arranged in the chemical fiber spinning when many varieties silk or many specifications silk are spun jointly.

Background

With the continuous development of modern chemical fibers, the melt spinning industry technology is tending to develop in two aspects: firstly, the spinning scale of the conventional variety of silk is getting bigger and bigger, and the conventional variety of silk is developed to high speed, high productivity and high efficiency; and secondly, the differentiated fiber is more and more abundant, and the differentiated fiber with high strength, multiple functions and high performance is emerging continuously. When various types of different fibers are pursued for high-efficiency and high-performance spinning, a set of equipment is often used for spinning yarns with various specifications and varieties. In the traditional composite spinning process, a plurality of side blowing devices are often used for respectively blowing and cooling the yarns of different specifications and varieties, so that the waste of materials is caused, and the time and the labor are wasted in installation. The utility model discloses an independent many bellows side blast apparatus only needs a side blast apparatus, alright make multiple fibre cool off jointly under the wind speed of difference to reach the requirement of technology.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model aims at providing an independent multicavity control side blast apparatus that silk that is applicable to different kind and specification satisfies the technological requirement of blowing when spinning.

In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:

an independent multi-duct control side blowing device comprises:

the lower air duct component comprises an airflow inlet, an air cavity and an airflow outlet which are sequentially communicated, and the airflow inlet is used for being in airflow communication with an external air source;

the air flow channel part is arranged on the lower air channel part, a plurality of independent air channels are arranged in the air flow channel part, the independent air channels are isolated from each other in air flow, each independent air channel is provided with an air inlet and an air outlet, and the air inlets of the independent air channels are communicated with the air flow outlet of the lower air channel part in air flow;

the air volume control mechanisms are in one-to-one correspondence with the independent air channels and are used for respectively controlling the air volume entering the independent air channels, each air volume control mechanism comprises a blade and an adjusting part, the blades are rotatably arranged in the corresponding independent air channels, and the adjusting parts are used for driving the blades to rotate so as to adjust the opening sizes of the independent air channels.

In the above technical solution, preferably, the blade is mounted on the air flow passage member through a rotating shaft, the adjusting member includes an adjusting worm mounted on the air flow passage member and a worm wheel mounted on the rotating shaft, and the adjusting worm is engaged with the worm wheel.

In the above technical solution, preferably, the rotation angle range of the blade around the axis of the rotation shaft is 0-90 °, and at the 0 ° position, the blade crosspiece is in the corresponding independent air duct and seals the independent air duct; and when the position is at 90 degrees, the blades are parallel to the inner wall surface of the corresponding independent air channel.

In the above technical solution, preferably, each of the air volume control mechanisms is located at an air inlet of the corresponding independent air duct.

In the above technical solution, preferably, a plurality of baffles are arranged inside the air duct member, and a plurality of independent air ducts are formed between two adjacent baffles and between the baffles and the side wall of the air duct member.

In the above technical solution, preferably, the air cooling system further comprises a cooling box located at the downstream of the air flow passage component and through which the spinning passes, wherein a spinning inlet is formed in the upper part of the cooling box, a spinning outlet is formed in the lower part of the cooling box, an opening is formed in one side wall of the cooling box, and the opening is in airflow communication with the air outlets of the plurality of independent air passages.

The utility model discloses a set up the structure in a plurality of independent wind channels in wind flow path part, constitute air volume control mechanism through setting up blade and adjusting part to with the blade setting in corresponding independent wind channel, thereby rotate the opening size who adjusts corresponding independent wind channel through adjusting part drive vane, thereby reach the big or small purpose of the amount of wind in controlling each independent wind channel, be applicable to the technological requirement of blowing of different kinds of silk when spinning.

Drawings

Fig. 1 is a schematic front view of the present invention;

fig. 2 is a left side schematic view of the present invention;

FIG. 3 is a schematic front view of the duct member of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is an enlarged partial schematic view at B of FIG. 1;

fig. 6 is a schematic side sectional view of the air volume control mechanism of the present invention;

wherein: 1. a lower duct member; 11. an airflow inlet; 12. a wind cavity; 13. an airflow outlet;

2. an air duct member; 21. an independent air duct; 22. an air inlet; 23. an air outlet; 24. a baffle plate;

3. an air volume control mechanism; 31. a blade; 32. an adjustment member; 321. adjusting the worm; 322. a worm gear; 33. a rotating shaft;

4. a cooling tank; 41. a spinning inlet; 42. a spinning outlet; 43. and (4) opening.

Detailed Description

To explain the technical content, structural features, achieved objects and functions of the present invention in detail, the following detailed description is made with reference to the accompanying drawings. The upper, lower, left, right, front and rear positional relationships described in the present embodiment correspond to the positional relationships shown in fig. 1 and 2, respectively.

As shown in fig. 1 and 2, the independent multi-duct control side blower includes a lower duct member 1, an air duct member 2, a plurality of air volume control mechanisms 3, and a cooling box 4.

The lower air duct component 1 comprises an air inlet 11, an air cavity 12 and an air outlet 13 which are communicated in sequence, wherein the air inlet 11 is used for being communicated with an external air source. The external air source can be a centrifugal fan, an axial flow fan, or a component capable of generating air flow such as an air pump. Referring to fig. 3 and 4, the air duct member 2 is mounted on the lower air duct member 1, a plurality of baffles 24 are provided in the air duct member 2, and a plurality of independent air ducts 21 are formed between two adjacent baffles 24 and between the baffles 24 and the side walls of the air duct member 2. The independent air ducts 21 are isolated from each other in terms of air flow, each independent air duct 21 has an air inlet 22 and an air outlet 23, and the air inlets 22 of the independent air ducts 21 are in air flow communication with the air flow outlets 13 of the lower air duct part 1. In this way, the air flow generated by the external air source can enter the plurality of independent air ducts 21 through the air flow outlets 13 of the lower air duct member 1.

Referring to fig. 5 and 6, the air volume control mechanisms 3 correspond to the independent air ducts 21 one by one and are used for respectively controlling the air volume entering the independent air ducts 21, and each air volume control mechanism 3 is located at the air inlet 22 of the corresponding independent air duct 21. Each air volume control mechanism 3 comprises a blade 31 and an adjusting member 32, the blade 31 is rotatably disposed in the corresponding independent air duct 21, and the adjusting member 32 is used for driving the blade 31 to rotate so as to adjust the size of the opening 43 of the corresponding independent air duct 21. Specifically, the vane 31 is mounted on the wind flow path member 2 through the rotation shaft 33, and the adjusting member 32 includes an adjusting worm 321 mounted on the wind flow path member 2 and a worm wheel 322 mounted on the rotation shaft 33, the adjusting worm 321 and the worm wheel 322 being engaged with each other. So that the user can manually rotate the adjusting worm 321, thereby driving the worm wheel 322 to rotate, and then the blades 31 to rotate in the respective independent air ducts 21. The rotation angle range of the blades 31 around the axis line of the rotating shaft 33 is 0-90 degrees, and in the 0-degree position, the crosspieces of the blades 31 are positioned in the corresponding independent air ducts 21 and seal the independent air ducts 21; in the 90 ° position, the vanes 31 are parallel to the inner wall surfaces of the respective independent air paths 21.

Referring to fig. 1 and 2, the cooling box 4 is located at the downstream of the air duct member 2 and through which the spun yarn passes, the upper portion of the cooling box is provided with a spun yarn inlet 42, the lower portion of the cooling box is provided with a spun yarn outlet, the rear side wall of the cooling box 4 is provided with an opening 43, and the opening 43 is in air flow communication with the air outlets 23 of the plurality of independent air ducts 21.

The utility model discloses a set up the structure in a plurality of independent wind channels in wind flow path part, constitute air volume control mechanism through setting up blade and adjusting part to with the blade setting in corresponding independent wind channel, thereby rotate the opening size who adjusts corresponding independent wind channel through adjusting part drive vane, thereby reach the big or small purpose of the amount of wind in controlling each independent wind channel, be applicable to the technological requirement of blowing of different kinds of silk when spinning.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (6)

1. The utility model provides an independent many wind channels control side blast apparatus which characterized in that includes:

the lower air duct component (1) comprises an airflow inlet (11), an air cavity (12) and an airflow outlet (13) which are communicated in sequence, wherein the airflow inlet (11) is used for being in airflow communication with an external air source;

the air flow passage component (2) is arranged on the lower air passage component (1), a plurality of independent air passages (21) are arranged in the air flow passage component (2), the independent air passages (21) are mutually isolated in air flow, each independent air passage (21) is provided with an air inlet (22) and an air outlet (23), and the air inlets (22) of the independent air passages (21) are respectively communicated with the air flow outlet (13) of the lower air passage component (1) in air flow;

a plurality of air volume control mechanism (3), with a plurality of independent wind channel (21) one-to-one and be used for controlling respectively and get into a plurality of independent wind channel (21) in the amount of wind size, each air volume control mechanism (3) all include blade (31) and adjusting part (32), blade (31) rotationally set up correspondingly independent wind channel (21) in, adjusting part (32) be used for the drive blade (31) rotate thereby adjust corresponding independent wind channel (21) the opening size.

2. The independent multi-duct controlled side blowing apparatus of claim 1, wherein: the blade (31) is arranged on the air flow passage part (2) through a rotating shaft (33), the adjusting part (32) comprises an adjusting worm (321) arranged on the air flow passage part (2) and a worm wheel (322) arranged on the rotating shaft (33), and the adjusting worm (321) is meshed with the worm wheel (322).

3. The independent multi-duct controlled side blowing apparatus of claim 2, wherein: the range of the rotation angle of the blades (31) around the axial lead of the rotating shaft (33) is 0-90 degrees, and when the blades (31) are in the 0-degree position, the crosspieces of the blades (31) are positioned in the corresponding independent air channels (21) and seal the independent air channels (21); in the 90-degree position, the blades (31) are parallel to the inner wall surface of the corresponding independent air duct (21).

4. The independent multi-duct controlled side blowing apparatus of claim 1, wherein: each air volume control mechanism (3) is positioned at an air inlet (22) of the corresponding independent air duct (21).

5. The independent multi-duct controlled side blowing apparatus of claim 1, wherein: a plurality of baffles (24) are arranged in the air duct component (2), and a plurality of independent air ducts (21) are formed between two adjacent baffles (24) and between the baffles (24) and the side wall of the air duct component (2).

6. The independent multi-duct controlled side blowing apparatus of claim 1, wherein: the air-conditioning device is characterized by further comprising a cooling box (4) which is located at the downstream of the air duct component (2) and used for spinning, wherein a spinning inlet (41) is formed in the upper portion of the cooling box (4), a spinning outlet (42) is formed in the lower portion of the cooling box (4), an opening (43) is formed in one side wall of the cooling box (4), and the opening (43) is in airflow communication with a plurality of air outlets (23) of the independent air ducts (21).

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