CN215887506U

CN215887506U - Overflow broken-rotation adjustable nozzle for dyeing machine

Info

Publication number: CN215887506U
Application number: CN202122254976.XU
Authority: CN
Inventors: 赵科俭; 金立晗
Original assignee: Jiangsu Bosen Machinery Manufacturing Co ltd
Current assignee: Jiangsu Bosen Machinery Manufacturing Co ltd
Priority date: 2021-09-17
Filing date: 2021-09-17
Publication date: 2022-02-22
Anticipated expiration: 2031-09-17

Abstract

The utility model discloses an overflow broken-spinning adjustable nozzle for a dyeing machine, which comprises an upper nozzle, a lower nozzle, a nozzle shell and a heightening body, wherein the upper nozzle is provided with a first nozzle hole; the feed liquor pipe has been seted up to nozzle shell one side, the flange is fixed in inside the nozzle shell, set up the flange hole of the different degree of depth of a plurality of groups on the flange, the bed hedgehopping body is installed adjustably in the flange hole, through the position relation between nozzle and the flange is gone up in the bed hedgehopping body regulation, the bottom fixed connection of lower nozzle in nozzle shell bottom, go up the nozzle with the lower nozzle is the cross-section and is polygonal chamber section, go up the nozzle lateral surface with form the cross-section for polygonal cyclic annular hydrojet mouth between the lower nozzle medial surface, hydrojet mouth size can be through the mounting height who changes the upper nozzle and adjust. The overflow rotary-breaking adjusting nozzle for the dyeing machine realizes stable and reliable operation of the nozzle, colors fabrics efficiently and uniformly, and can adjust the size of a liquid spraying opening according to process requirements and production requirements.

Description

Overflow broken-rotation adjustable nozzle for dyeing machine

Technical Field

The utility model belongs to the technical field of dyeing machines, and particularly relates to an overflow broken-spinning adjustable nozzle for a dyeing machine.

Background

The overflow breaking spinning dyeing machine utilizes the Venturi principle to make the dyeing liquor delivered by pump body be fed into Venturi nozzle to drive fabric to make it move and dye it. In the dyeing process, the dye liquor is sprayed out through the nozzle in an accelerating way to dye the fabric, and the dyeing process is finished.

The nozzle of overflow breaking-spinning dyeing machine is used for making cloth smoothly and orderly circulate and uniformly spray dyeing liquor on the cloth. At present, the nozzle of traditional dyeing machine is mostly circular cross-section and walks cloth passageway and hydrojet mouth, in the actual production, has the whirl to move in hydrojet mouth because of the dye liquor, leads to work efficiency low, and dyeing is inhomogeneous, is difficult to guarantee production quality and production efficiency. The size of the liquid spraying opening is fixed, the flow speed of dye liquor spraying cannot be adjusted according to actual production requirements, and the process is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an overflow broken-spinning adjustable nozzle for a dyeing machine, which solves the problems that in the prior art, the size of a liquid spraying opening cannot be adjusted according to requirements during dyeing of the dyeing machine, and the fabric is knotted and wound due to rotation during dye liquid spraying, so that the fabric is dyed unevenly or a cloth feeding channel of the dyeing machine is clamped.

The technical purpose of the utility model is realized by the following technical scheme:

an overflow broken spin adjustable nozzle for a dyeing machine comprises an upper nozzle, a lower nozzle, a nozzle shell and a heightening body;

the utility model discloses a dye liquor jet printing machine, including nozzle shell, bed hedgehopping body, nozzle shell, upper nozzle lateral surface, lower nozzle, upper nozzle lateral surface, upper nozzle's mounting height can be adjusted through the mounted position that changes the bed hedgehopping body, the inside flange that sets firmly of nozzle shell, set up the flange hole of the different degree of depth of a plurality of groups on the flange, the bed hedgehopping body is adjustably installed in the flange hole, through the position relation between nozzle and the flange is gone up in the regulation of bed hedgehopping body, the bottom fixed connection of lower nozzle in nozzle shell bottom, go up the nozzle with the lower nozzle is the cross-section and is polygonal chamber section, go up the nozzle lateral surface with form the cross-section and be polygonal cyclic annular hydrojet mouth down between the nozzle medial surface, during dye liquor is through this kind of hydrojet mouth including and not confine regular polygon cross-section, do not have rotatory screw motion, realize broken spiral effect, the mounting height of nozzle can be adjusted through the mounted position that changes the bed hedgehopping body to the size of hydrojet mouth, and then adjust hydrojet mouth size.

Particularly, the upper nozzle comprises a section of cavity with a polygonal section, the top of the cavity is mounted on the heightening body, and the lower nozzle comprises a section of polygonal cavity which is connected and fixed at the bottom of the nozzle shell and is internally contracted, and the section of the bottom of the polygonal cavity is the same as that of the nozzle shell in size.

Particularly, the flange is horizontally welded and fixed in the nozzle shell and is used for fixedly connecting the upper nozzle.

Particularly, the inner side surface of the upper nozzle and the inner side surface below the throat part of the lower nozzle form a cloth walking channel, and the fabric enters from an opening above the upper nozzle and enters the cloth walking channel.

Particularly, a liquid spraying opening is formed between the outer narrowing surface of the upper nozzle and the inner side surface of the throat part of the lower nozzle, and the flow speed of the dye liquid can be increased when the dye liquid flows through the liquid spraying opening by utilizing the Venturi principle.

Particularly, the liquid spraying port is communicated with the cloth moving channel, so that the dye liquor can drive the fabric to move and color the fabric when sprayed out.

In particular, the flange is in the shape of a rectangular disc of quadrangular cross section, provided with flange holes of 4 different depths on each side.

In particular, the flange has a quadrangular cross-sectional shape, which varies with the cross-sectional shapes of the upper and lower nozzles.

Particularly, the cross section shapes of the upper nozzle and the lower nozzle are quadrangles, when the dye liquor passes through the cavity section with the polygonal cross section, the rotary breaking effect can be realized, and the larger the number of the sides is, the weaker the rotary breaking capacity is.

In conclusion, the utility model has the following beneficial effects:

1. the upper nozzle and the lower nozzle are both designed in a polygonal cross section, when dye liquor enters the nozzles, annular liquid spraying ports with polygonal cross sections are formed, and the dye liquor is sprayed out from the liquid spraying ports without rotation, so that the rotating breaking effect is realized.

2. The upper nozzle is arranged on the flange, the position of the heightening body in the flange hole can be changed by the mounting height, and the heightening body is arranged in the flange holes with different depths, so that the mounting height of the upper nozzle can be adjusted, and the size of the liquid spraying opening can be adjusted.

Drawings

FIG. 1 is a cross-sectional view of an overflow spin-breaking adjustable nozzle for a dyeing machine;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a view showing the internal structure of a flange of an overflow vortex breaking adjustable nozzle for a dyeing machine;

FIG. 4 is a cross-sectional view taken at C-C of FIG. 3;

in the figure, 1, an upper nozzle, 2, a lower nozzle, 3, a nozzle shell, 4, a liquid inlet pipe, 5, a flange, 6, a water running cavity, 7, a cloth running channel, 8, a raising body, 9, a liquid spraying opening, 10 and a flange hole.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 to 4, in this embodiment, an overflow breaking and spinning adjustable nozzle for a dyeing machine includes an upper nozzle 1, a lower nozzle 2, a nozzle shell 3, a liquid inlet pipe 4, a flange 5, a water flowing cavity 6, a cloth flowing channel 7, a raising body 8, a liquid spraying port 9, and a flange hole 10.

The liquid inlet pipe 4 is communicated with the nozzle shell 3, dye liquor enters from the liquid inlet pipe 4, the horizontal fixing flange 5 is welded in the nozzle shell 3, and the space part outside the upper nozzle 1 and the lower nozzle 2 in the nozzle shell 3 is a water flowing cavity 6. Four sides of the flange 5 are provided with 4 flange holes 10 with different depths, and the flange holes 10 with 4 depths are used. The four edges of the heightening body 8 on the flange 5 correspondingly form a group, the group is arranged in a flange hole 10 with the same depth of the flange 5, the upper nozzle 1 is arranged above the heightening body 8, the upper nozzle 1 is fixedly connected with the flange 5 through screws, the installation height of the upper nozzle 1 can be adjusted by changing the installation position of the heightening body 8 on the flange 5, and after the position of the heightening body 8 on the flange 5 is changed, the upper nozzle 1 is fixedly connected with the flange 5 through screws. The bottom of the lower nozzle 2 is a quadrangle with the section the same as that of the nozzle shell and is fixedly connected with the nozzle shell 3, and the position of the lower nozzle 2 is fixed and is not adjustable. Go up nozzle 1 and lower nozzle 2 and be the cross section for polygonal chamber section, go up and form the cross section for tetragonal annular hydrojet 9 between 1 outside narrowing face of nozzle and the 2 throat medial surfaces of lower nozzle, do not have rotatory spiral phenomenon when the dye liquor through this kind including but not limit with the hydrojet of regular polygon cross-section, and then realized breaking and revolve the effect. The position of the lower nozzle 2 is fixed at the bottom and is not adjustable, so that the size of the liquid spraying opening 9 can be adjusted by changing the installation height of the upper nozzle 1, and the installation height of the upper nozzle 1 can be adjusted by changing the installation position of the heightening body 8, namely, the size of the liquid spraying opening 9 can be adjusted by adjusting the installation position of the heightening body 8.

The upper nozzle 1 comprises a cavity body with a polygonal section, the top of the cavity body is arranged on the heightening body 8 and fixedly connected with the flange 5, and the outer side surface of the bottom of the cavity body is narrowed inwards. The lower nozzle 2 comprises a cavity which is connected and fixed at the bottom of the nozzle shell 3 and is internally contracted at a section of throat part, the section of the bottom of the cavity is the same as that of the nozzle shell 3 in size, and the cavity is fixed at the bottom of the nozzle shell 3 and cannot be adjusted.

A cloth-moving channel 7 is formed between the inner side surface of the throat part of the upper nozzle 1 and the inner side surface of the throat part of the lower nozzle 2, and the fabric enters the cloth-moving channel 7 from the upper part of the upper nozzle 1.

The liquid spraying opening 9 is communicated with the cloth moving channel 7, so that the dyeing liquid is sprayed out from the liquid spraying opening 9, the fabric is driven to move, and the dyeing liquid is colored.

The working principle is as follows: during operation, dye liquor enters the nozzle shell 3 through the liquid inlet pipe 4, the dye liquor enters the annular liquid spraying opening 9 between the upper nozzle 1 and the lower nozzle 2 through the water flowing cavity 6 outside the upper nozzle 1, rotary spiral motion does not exist when the dye liquor is sprayed out in the liquid spraying opening 9 in an accelerating mode, the fabric is driven to move and the color of the fabric is changed, and when the size of the liquid spraying opening 9 needs to be adjusted according to production and process requirements, the size of the liquid spraying opening 9 can be adjusted by changing the installation position of the padding body 8 in the flange 5.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement 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 an overflow breaks adjustable nozzle soon for dyeing machine which characterized in that: comprises an upper nozzle (1), a lower nozzle (2), a nozzle shell (3) and a heightening body (8);

feed liquor pipe (4) have been seted up to nozzle shell (3) one side, nozzle shell (3) internal fixation sets flange (5), set up flange hole (10) of the different degree of depth of a plurality of groups on flange (5), fill up height body (8) and adjustably install in flange hole (10), through fill up height body (8) and adjust the position relation between nozzle (1) and flange (5), the bottom fixed connection of lower nozzle (2) in nozzle shell (3) bottom, go up nozzle (1) with nozzle (2) are the chamber section that the cross-section is polygonized down, go up nozzle (1) lateral surface with form between lower nozzle (2) the medial surface that the cross-section is polygonized cyclic annular spout liquid mouth (9), spout liquid mouth (9) size can be through the mounting height adjustment who changes nozzle (1).

2. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 1, characterized in that: the upper nozzle (1) comprises a cavity with a polygonal section, the top of the cavity is arranged on the heightening body (8), the lower nozzle (2) comprises a polygonal cavity which is connected and fixed in a throat part at the bottom of the nozzle shell (3) and the bottom section of the polygonal cavity is the same as the section of the nozzle shell (3) in size.

3. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 2, characterized in that: the flange (5) is horizontally welded and fixed in the nozzle shell (3).

4. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 3, characterized in that: and a cloth walking channel (7) is formed between the inner side surface of the upper nozzle (1) and the inner side surface below the throat part of the lower nozzle (2).

5. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 4, characterized in that: and a liquid spraying opening (9) is formed between the outer side narrowing surface of the upper nozzle (1) and the inner side surface of the throat part of the lower nozzle.

6. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 5, characterized in that: the liquid spraying port (9) is communicated with the cloth walking channel (7).

7. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 6, characterized in that: the flange (5) is polygonal in shape, and each edge is provided with flange holes (10) with 4 different depths.

8. The overflow spin-breaking adjustable nozzle for dyeing machine as claimed in claim 7, characterized in that: the flange (5) is quadrilateral in shape.

9. The overflow spin-breaking adjustable nozzle for dyeing machine of claim 8, characterized in that: the cross sections of the upper nozzle (1) and the lower nozzle (2) are quadrilateral.