KR20180102545A - Adjustable nozzle unit - Google Patents

Abstract

The adjustable nozzle device further comprises a driving device and a connecting device which are connected to each other and which include a nozzle body 12 and an outer cylinder 15 with constant gap between each other and the connecting device is connected to the outer cylinder 15, The driving device moves the connecting device and the connecting device moves the outer cylinder 15 and adjusts the nozzle size by adjusting the nozzle gap between the nozzle body 12 and the outer cylinder 15. [ It is also possible to control the water flow rate and speed of the nozzle by manually adjusting the nozzle clearance manually using the apparatus and to reduce the error of the flow control to reduce the problem of uneven dyeing, so that it is also suitable for the flow sensitive cloth type.

Description

Adjustable nozzle unit

Field of the Invention The present invention relates to the field of textile industry, and more particularly, to a nozzle device for application to adjustable nozzle structure of a dyeing machine and for dyeing a fabric in a cylinder.

Conventional dyeing machines include structures such as nozzles and fabric storage grooves, which cause the fabric to move within the dyeing machine in a continuous loop fashion. After the fabric enters the loose type cylinder, it passes through the water spray nozzle through the drum. The nozzle water entry device is located above the nozzle and supplies water to the water injection nozzle so that the water injection nozzle makes the fabric wet and the fabric can be advanced using the water force direction. However, due to the different process and fabrics, the single water flow rate and speed of the fabric cylinder can lead to unexpected effects in different fabric dyes, resulting in a loss of dyeing, wasting dye and energy in the entire cylinder, Ultimately resulting in a greater error for the user. Therefore, the dyeing plant uses dyeing machine programming to adjust the amount of water and adjust it to the relative process, so as to achieve the desired dyeing effect and prevent the dyeing from being broken.

However, there is also a risk in the above system. Because it relies heavily on programmed flow control, it solves the problem only on the surface, but not in practice. Because the flow rate is regulated only by programming, there is still a significant error in the dye speed. If the flow rate can not be precisely controlled, fabric types such as chemical fiber fabrics that are sensitive to dye flow rates may experience problems such as uneven dyeing at excessively slow or fast dye flow rates. In order to prevent a problem from occurring, the above-described technique needs to be further improved by controlling the flow rate in a manner other than the central processing unit programming, and therefore, the present invention is applied to this invention.

It is an object of the present invention to provide an adjustable nozzle device to overcome the disadvantages of the prior art. By manually controlling the nozzle clearance manually using the apparatus, the water flow rate and speed of the nozzle can be controlled, and the error of the flow control can be further reduced to reduce the problem of uneven dyeing, so that even if the user is satisfied with the flow- So that the effect can be obtained.

In detail, the adjustable nozzle device proposed in the present invention further includes a driving device and a connecting device which are connected to each other and include a nozzle body and an outer cylinder having a constant gap between each other, and the connecting device is connected to an outer cylinder , The driving device moves the connecting device, the connecting device moves the outer cylinder, and adjusts the nozzle size by adjusting the nozzle gap between the nozzle body and the outer cylinder.

Further, the adjustable nozzle device is characterized in that the nozzle body and the outer cylinder are both hollow cylinders, there is an annular nozzle gap between the nozzle body and the outer cylinder, the drive device moves forward or backward in a straight line, The driving device moves the connecting device, the connecting device moves the outer cylinder, and adjusts the nozzle size by adjusting the nozzle gap of the outer cylinder and the nozzle body.

Further, the driving device includes a screw rod, a nut is provided at the end of the screw rod, and the screw rod is rotated to cause the screw rod to move back and forth in a straight line along the axis of the nut, The screw rod can move the shaft locking member back and forth, and the shaft locking member is connected to the connecting device to move the connecting device.

Furthermore, the threaded rod has an annular recessed groove, the shaft locking member comprising a clamping plate and a connecting rod connected to the clamping plate, the clamping plate being divided into two parts, And the screw rod moves the clamping plate, and the clamping plate of each part is provided with a connecting rod, and the connecting rod is connected to the connecting device to move the connecting device.

Further, the connecting device includes a swinging rod connected to the shaft locking member, the swinging rod being connected to the pulling rod, the pulling rod being fixed to the outer cylinder through the pulling plate, The rod is moved, and the swing rod moves the outer cylinder in order by moving the pull rod and the pull plate.

Further, the swing rod, the pulling rod and the pulling plate are all two, and are located on both sides symmetrical to the outer cylinder, respectively, to ensure stable and balanced movement of the outer cylinder.

Further, the adjustable nozzle device further includes a support plate, wherein the support plate is connected to the swing rod to support the swing rod.

Furthermore, the adjustable nozzle arrangement further comprises a sliding sleeve installed outside the outer cylinder to ensure that the outer cylinder moves in a straight line.

Further, the adjustable nozzle device further includes a dial used to refer to the external cylinder mobility.

Furthermore, since the scale plate has a scale and is disposed below the swing rod, the advance or retraction length of the swing rod can be obtained through comparison of the scale plate, so that it is easy to control the degree of movement of the outer cylinder.

Further, a seal ring is provided between the outer cylinder and the sliding sleeve to prevent water leakage.

The adjustable nozzle device of the present invention can manually adjust the size of the nozzle gap freely in a clockwise or counterclockwise direction by operating the rotation of the screw rod directly. Since the screw rod is connected to the shaft lock member, the shaft lock member is connected to the swing rod, and the swing arm is connected to the outer cylinder through the pulling rod and the pulling plate, the moving direction of the screw rod and the outer cylinder coincide with each other.

The adjustable nozzle device of the present invention controls the swing rod supported on the support plate through the shaft locking member and the swing rod is moved back and forth along the sliding sleeve by the pulling rod and the pulling plate along the sliding sleeve, So that the nozzle gap distance is increased or decreased to 2 to 6 mm, so that the water flow rate and speed of the nozzle can be controlled. Further, the flow control error is further reduced through proper flow rate programming and the problem of uneven dyeing is solved. This allows users to achieve satisfactory and predictable effects when used with flow-sensitive fabric types, and it also contributes to the user's ability to add fabric types to increase the revenue of the dyeing plant.

1 is a side view of an embodiment of the present invention;
2 is a cross-sectional view of an embodiment of the present invention; And
3 is a stereoscopic view of the embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the drawings. The following description is provided to assist the understanding of the technical solution of the present invention and does not limit the scope of protection of the present invention.

1 to 3, the adjustable nozzle apparatus of the present invention includes a nozzle body 12 and an outer cylinder 15, both of which are hollow cylindrical structures. The nozzle body 12 is located in the nozzle outer housing 9 and an outer cylinder 15 is provided in the nozzle outer housing 9 and an annular nozzle clearance 15 between the nozzle body 12 and the outer cylinder 15 2). The driving device includes a screw rod 1 and a nut 5 is provided at the end of the screw rod 1. The screw rod 1 is rotated so that the screw rod 1 rotates about the axis of the nut 5 The screw rod 1 is provided with an annular concave groove (not shown in the figure), and the shaft lock 1 is provided with an axial locking member 3, The member includes a clamping plate and a connecting rod connected to the clamping plate, wherein the clamping plate is divided into two parts, connected together through the bolt, and located in the recessed groove, each of which has a connecting rod The connecting rod is connected to the swinging rod 11 and the swinging rod 11 is connected to the pulling plate 10 and the pulling plate 10 is fixed to the outer cylinder 15 via the pulling rod 7, The movement of the shaft locking member 3 The swinging rod 11 is moved and the swinging rod 11 moves the outer cylinder 15 by moving the pulling plate 10 and the pulling rod 7 in order. The swinging rod, the pulling rod and the pulling plate are all two and are located on both sides symmetrical to the outer cylinder, respectively, to ensure that the movement of the outer cylinder is stable and equilibrium. Wherein the adjustable nozzle device further comprises a support plate (4) which is connected to the swing rod (11) and is used to support the swing rod (11), the adjustable nozzle arrangement comprising an outer cylinder And a sealing ring (8) provided between the outer cylinder (15) and the sliding sleeve (6) so as to prevent leakage . The adjustable nozzle device further comprises a scale plate (14) used to refer to the external cylinder mobility, the scale plate having a graduation and located below the swinging rod (11), wherein the swinging rod (11) It is easy to control the degree of movement of the outer cylinder 15 because the length of the outer cylinder 15 can be obtained through comparison of the scale plate 14. [

When the worker twists the screw rod 1 along the clockwise direction, the screw rod 1 goes forward along the nut 5 and pours out when twisting the screw rod 1 in the counterclockwise direction, 15 are moved forward (for example, in the case of biting the screw rod 1 in the clockwise direction) or rearward (in the case of screwing the screw rod 1 in the counterclockwise direction, for example) in the sliding sleeve 6 So that the distance of the nozzle clearance 2 is increased (for example, if the thread bar 1 is bit-wise counterclockwise) or reduced (for example, if the screw bar 1 is bit-wise clockwise). The operator can accurately adjust the distance in units of the scale plate 14 to enter the water at the nozzle water inlet 13 and then change the water flow rate and velocity based on the nozzle gap 2 by the nozzle body 12, A seal ring 8 can be provided between the cylinder 15 and the sliding sleeve 6 to prevent leakage.

In a most preferred embodiment of the present invention, in a loose type fabric cylinder, the water injection nozzle is installed adjacent to the entrance of the fabric cylinder and on the drum, then adjacent to the top of the cylinder. The device extracts the liquid from the water inlet to the nozzle and ejects it at the nozzle gap under pressure, as in conventional devices, and immediately wets the fabric as it enters the cylinder and advances the fabric guide using that force. The operator can adjust the flow rate and the speed of the water spray nozzle by opening the operation door and reaching the screw rod of the apparatus and turning the screw in the clockwise or counterclockwise direction and adjusting the nozzle distance of the appropriate process in units of graduations. In addition, since the fabric passes through a new adhesive tape drum before dyeing, then enters the water spray nozzle and enters the fabric guide tube again, it is possible to control the water flow rate and the speed of the nozzle. Further, the error of flow control is further reduced, To achieve a satisfactory and expected effect.

The above description, including the drawings, does not limit the scope of protection of the present invention. When the improvement such as the size, the shape, the change of the material used, and the replacement of the similar parts are performed based on the same or similar principle as the technical solution of the present invention, all belong to the protection scope of the present invention.

1: Screw rod 2: Nozzle clearance
3: Axial locking member 4: Supporting plate
5: Nut 6: Sliding sleeve
7: Pull rod 8: Sealing ring
9: nozzle outer housing 10: pulling plate
11: swing rod 12: nozzle body
13: nozzle water inlet 14:
15: Outer cylinder

Claims (10)

The apparatus according to claim 1, further comprising a driving device and a connecting device which are connected to each other and include a nozzle body and an outer cylinder having a constant gap between each other, the connecting device is connected to an external cylinder and the driving device moves the connecting device, The apparatus moves the outer cylinder, and the nozzle between the nozzle body and the outer cylinder And adjusting the nozzle size by adjusting the gap. The method according to claim 1,
Characterized in that the nozzle body and the outer cylinder are both of hollow cylinder type and there is an annular nozzle clearance between the nozzle body and the outer cylinder and the drive device moves forward or backward in a straight line, Wherein the connecting device moves the outer cylinder and regulates the nozzle size by adjusting the nozzle clearance of the outer cylinder and the nozzle body. 3. The method according to claim 1 or 2,
The driving device includes a screw rod, a nut is provided at the end of the screw rod, and the screw rod is rotated to cause the screw rod to move back and forth in a straight line along the axis of the nut, Wherein the screw rod is capable of moving the shaft locking member back and forth and the shaft locking member is connected to the connecting device to move the connecting device. The method of claim 3,
Wherein the screw rod has an annular recessed groove, the shaft locking member comprising a clamping plate and a connecting rod connected to the clamping plate, the clamping plate being divided into two parts and connected together through a bolt Characterized in that the clamping plate is located in the recessed groove and the screw rod moves the clamping plate and the clamping plates of each part are provided with connecting rods respectively which are connected to the connecting device to move the connecting device . 5. The method of claim 4,
The connecting device comprises a swinging rod connected to the shaft locking member, the swinging rod being connected to a pulling rod, the pulling rod being fixed to the outer cylinder via a pulling plate, the movement of the shaft locking member being such that the swinging rod moves , And the swinging rod moves the outer cylinder by moving the pulling rod and the pulling plate in order. 6. The method of claim 5,
Wherein the swinging rod, the pulling rod and the pulling plate are both two, each located on both sides symmetrical to the outer cylinder to ensure that the movement of the outer cylinder is stable and equilibrium. 6. The method of claim 5,
Further comprising a support plate, the support plate being connected to the swing rod to support the swing rod. The method according to any one of claims 1, 2, 4, 5, 6, and 7,
Further comprising a sliding sleeve installed outside the outer cylinder to ensure that the outer cylinder moves in a straight line. The method according to any one of claims 1, 2, 4, 5, 6, and 7,
Further comprising a dial used to refer to said outer cylinder mobility. 9. The method of claim 8,
Wherein a seal ring is provided between the outer cylinder and the sliding sleeve to prevent leakage.

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