CN114808319A - Gas overflow dyeing machine - Google Patents

Abstract

The invention discloses a gas overflow dyeing machine, wherein a fan device is arranged at the top of a dyeing machine body, an air outlet of the fan device is connected with a connecting air pipe, the tail end of the connecting air pipe is connected with a stroke air pipe, the stroke air pipe stretches across an atomizing chamber, the tail end of the stroke air pipe extends out of the atomizing chamber by one section, the atomizing chamber and the stroke air pipe are communicated through flow dividing pipes, and each flow dividing pipe is provided with a pneumatic regulating valve. Through the mode, the air supply device can supply air to the atomizing chamber more stably and more uniformly, the space is saved by installing the top of the fan device, the laying stroke of the air supply pipe is shortened and more energy is saved, the air pipe is integrally sealed, and a section of air pipe is extended to enable the air quantity to be filled in the pipeline for supplying air, so that the air quantity supplied by the atomizing chamber is uniformly distributed, each flow dividing pipe is independently provided with a pneumatic adjusting valve with adjustable flow speed, the condition that the air quantity of an air outlet of the fan deflects and supplies air unevenly is solved, and the problem that the dyeing effect is different due to uneven air quantity at two ends in the traditional three-way conveying and air supply is particularly solved.

Description

Gas overflow dyeing machine

Technical Field

The invention relates to the field of dyeing machines, in particular to a gas overflow dyeing machine.

Background

The traditional gas overflow dyeing machine adopts a design that a high-power fan carries a super-large wind flow pipeline to realize wind flow conveying, and is installed in the lateral direction of the dyeing machine in order to conveniently install the fan, so that the wind energy loss, the wind pressure and the wind quantity cannot meet the requirements in a long-distance stroke, the transverse occupied space is huge, and the condition of energy consumption and space waste is caused, for example, the structure of figure 4.

Some gas overflow dyeing machines also can supply air to the atomizing chambers through the three-way pipe after considering the above problems, but in such a way, the air quantity is inconsistent when the air quantity is sent to the outlets at two ends after the air quantity is sent to the main pipe of the three-way pipe through a test, so that uneven air supply is caused, and the dyeing quality is influenced, for example, the condition shown in fig. 5.

Disclosure of Invention

The invention mainly solves the technical problem of providing an air overflow dyeing machine which can more stably and uniformly supply air to an atomizing chamber, a fan device is directly arranged on the top of a dyeing machine body to save a large amount of space, a stroke air pipe is integrally sealed and extends to form a section of air volume which can be filled in a pipeline for supplying air, and the air volume can be uniformly distributed when the air is supplied to the atomizing chamber.

In order to solve the technical problems, the invention adopts a technical scheme that: the utility model provides a gas overflow dyeing machine, including dyeing the machine body, it sets up two sets of cloth wheel devices of carrying on the barrel to dye machine body upper end, cloth wheel device one end is connected into to carry the cloth wheel device body, carry the cloth wheel device other end and all connect the upper atomization chamber, the back cropping seat is connected to the atomizer chamber rear end, back cropping seat is connected into this is internal to the dyeing machine, dyeing machine body top one end installation fan device, connect a lesson linking tuber pipe on the fan device air outlet, linking tuber pipe end-to-end connection stroke tuber pipe, the stroke tuber pipe is closed body, the stroke tuber pipe spanes the atomizer chamber just the terminal body of stroke tuber pipe extends one section the outdoor side of atomizer chamber, the atomizer chamber with all through the shunt tubes intercommunication between the stroke tuber pipe, every pneumatic control valve all is installed on the shunt tubes.

In a preferred embodiment of the present invention, the stroke air duct is horizontally erected, one end of the stroke air duct is closed, and the other end of the stroke air duct is connected with the air outlet of the fan device through the connection air duct.

In a preferred embodiment of the invention, the shunt pipes are connected with the stroke air pipes in an intersection mode, and the shunt pipes induce air from the stroke air pipes to flow into the atomizing chamber.

In a preferred embodiment of the invention, the atomization chamber is obliquely arranged and is connected with the stroke air pipe.

In a preferred embodiment of the present invention, the tube body at the end of the stroke air pipe extends out of the atomizing chamber by 100 mm and 200 mm.

The invention has the beneficial effects that: the invention can more stably and uniformly supply air to the atomizing chamber, the fan device is directly arranged at the top of the dyeing machine body, a large amount of space is saved, the structure is more compact and reasonable, meanwhile, the laying stroke of the air supply pipe is shortened due to the design, the energy is more saved, the stroke air pipe is integrally sealed and extends out to form a section, the air quantity can be fully filled in the pipeline for supplying air, the air quantity can be uniformly distributed when the air is supplied to the atomizing chamber, the continuity is stronger, the problem of uneven deflection and air supply of the air quantity of the air outlet of the fan is solved, in particular, the problem of different dyeing effects caused by uneven air quantity at two ends in the traditional three-way conveying and air supply is solved, the air supply quality is ensured, the dyeing quality is further improved, each shunt pipe is independently provided with a pneumatic regulating valve with adjustable flow speed, and the air quantity consistency in the atomizing chamber is further ensured by fine speed regulation.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without inventive efforts, wherein:

FIG. 1 is a schematic structural view of a preferred embodiment of the gas overflow dyeing machine of the present invention;

FIG. 2 is a schematic structural view of a preferred embodiment of the dyeing machine body;

FIG. 3 is a front view of a preferred embodiment of the dyeing machine body

FIG. 4 is a schematic structural view of a conventional side-mounted fan dyeing machine;

FIG. 5 is a schematic structural view of a conventional three-way blowing dyeing machine;

the parts in the drawings are numbered as follows: 1. A dyeing machine body; 2. A cloth lifting wheel device; 3. An atomization chamber; 4. A rear cropping seat; 5. A fan device; 6. Connecting the air pipes; 7. A travel air pipe; 8. A shunt tube; 9. Pneumatic control valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, an embodiment of the present invention includes:

an air overflow dyeing machine comprises a dyeing machine body 1, two groups of cloth lifting wheel devices 2 are arranged on a cylinder body at the upper end of the dyeing machine body 1, one end of the cloth lifting wheel device 2 is connected into the dyeing machine body 1, the other end of the cloth lifting wheel device 2 is connected with an upper atomization chamber 3, the rear end of the atomizing chamber 3 is connected with a rear cropping seat 4, the rear cropping seat 4 is connected into the dyeing machine body 1, a fan device 5 is arranged at one end of the top of the dyeing machine body 1, an air outlet of the fan device 5 is connected with a joint air pipe 6, the tail end of the connecting air pipe 6 is connected with a stroke air pipe 7, the stroke air pipe 7 is a closed pipe body, the stroke air pipe 7 stretches across the atomizing chamber 3, the pipe body at the tail end of the stroke air pipe 7 extends out of one section of the outer side of the atomizing chamber 3, atomizing chamber 3 with all communicate through shunt tubes 8 between the stroke tuber pipe 7, every pneumatic control valve 9 is all installed on shunt tubes 8.

In addition, the stroke air pipe 7 is horizontally erected transversely, one end of the stroke air pipe 7 is closed, and the other end of the stroke air pipe 7 is communicated with an air outlet of the fan device 5 through being connected with the connecting air pipe 6.

In addition, the shunt tubes 8 are connected with the stroke air pipes 7 in an intersecting manner, and the shunt tubes 8 induce air from the stroke air pipes 7 to flow into the atomizing chamber 3.

In addition, the atomization chamber 3 is obliquely arranged and connected with the stroke air pipe 7.

In addition, the end pipe body of the stroke air pipe 7 extends out of the outer side of the atomizing chamber 3 by 100-200 mm.

The working principle of the invention is that two groups of cloth lifting wheel devices 2 are arranged on a cylinder body at the upper end of a dyeing machine body 1, one end of each cloth lifting wheel device 2 is connected into the dyeing machine body 1, the other end of each cloth lifting wheel device 2 is connected with an upper atomization chamber 3, the rear end of each atomization chamber 3 is connected with a rear cropping seat 4, and the rear cropping seats 4 are connected into the dyeing machine body 1.

1 top one end installation fan device 5 of dyeing machine body, connect a lesson on linking up tuber pipe 6 on the 5 air outlets of fan device, link up 6 end-to-end connection stroke tuber pipe 7 of tuber pipe, stroke tuber pipe 7 is for sealing the body, stroke tuber pipe 7 spanes atomizing chamber 3 and 7 end-to-end bodys of stroke tuber pipe extend the atomizing chamber 3 outside one section, 7 end-to-end bodys of stroke tuber pipe extend the atomizing chamber 3 outside 100 and add up 200mm, 7 horizontal levels of stroke tuber pipe erect, 7 one ends of stroke tuber pipe are sealed, 7 other ends of stroke tuber pipe link to each other and communicate with 5 air outlets of fan device through with linking up tuber pipe 6.

The atomizing chamber 3 is communicated with the stroke air pipe 7 through the flow dividing pipe 8, the flow dividing pipes 8 are connected with the stroke air pipe 7 in an intersecting manner, the flow dividing pipes 8 draw air from the stroke air pipe 7 to flow into the atomizing chamber 3, the atomizing chamber 3 is obliquely arranged and connected with the stroke air pipe 7, each flow dividing pipe 8 is provided with the pneumatic regulating valve 9, the dyeing machine body 1 can stably and uniformly supply air to the atomizing chamber 3, the fan device 5 is directly arranged at the top of the dyeing machine body 1, a large amount of space is saved, the structure is more compact and reasonable, meanwhile, the laying stroke of the air supply pipe is shortened through the design, the energy is saved, the stroke air pipe 7 is integrally sealed and extends out for one section, the air quantity can be supplied after being filled with a pipeline in a difference manner, the air quantity can be uniformly distributed when the air is supplied to the atomizing chamber, the continuity is stronger, the problem of uneven air quantity deflection and air supply of a fan air outlet is solved, and the problem that the dyeing effect is caused by uneven air quantity at two ends in the traditional three-way conveying and air supply is particularly solved, still all set up the pneumatic control valve 9 of adjustable velocity of flow alone on every shunt tubes 8, the air volume uniformity in further guaranteeing the atomizer chamber 3 of careful speed governing has guaranteed the air supply quality, and then has promoted dyeing quality.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the present specification, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (5)

1. An air overflow dyeing machine comprises a dyeing machine body and is characterized in that two groups of cloth lifting wheel devices are arranged on a cylinder body at the upper end of the dyeing machine body, one end of the cloth lifting wheel device is connected into the dyeing machine body, the other end of the cloth lifting wheel device is connected with the upper atomization chamber, the rear end of the atomization chamber is connected with a rear cropping seat which is connected into the dyeing machine body, a fan device is arranged at one end of the top of the dyeing machine body, an air outlet of the fan device is connected with a joint air pipe, the tail end of the connecting air pipe is connected with a stroke air pipe which is a closed pipe body, the stroke air pipe stretches across the atomizing chamber, and the pipe body at the tail end of the stroke air pipe extends out of one section of the outer side of the atomizing chamber, the atomizer chamber with all communicate through the shunt tubes between the stroke tuber pipe, every all install pneumatic control valve on the shunt tubes.

2. The gas overflow dyeing machine of claim 1, wherein said travel air duct is horizontally mounted, said travel air duct being closed at one end and open at the other end to said fan unit outlet by being connected to said connecting air duct.

3. The gas overflow dyeing machine of claim 2, wherein said shunt tubes are each in convergent connection with said travel air duct, said shunt tubes drawing air from said travel air duct into said atomizing chamber.

4. The gas overflow dyeing machine of claim 1, wherein said atomizing chamber is disposed at an incline and interfaces with said travel air duct.

5. The gas overflow dyeing machine as recited in claim 1, wherein said end tube body of said travel air duct extends out of said atomizing chamber by 100 mm and 200 mm.

Images