WO2018056935A2

WO2018056935A2 - Innovation in the heating systems of fabric dyeing machines

Info

Publication number: WO2018056935A2
Application number: PCT/TR2017/050284
Authority: WO
Inventors: Adnan BAŞARAN
Original assignee: Canlar Mekatroni̇k Sanayi̇ Ve Ti̇caret Anoni̇m Şi̇rketi̇
Priority date: 2016-06-29
Filing date: 2017-06-22
Publication date: 2018-03-29
Also published as: TR201609108A2; WO2018056935A3

Abstract

An innovation in the heating system of fabric dyeing machines, which comprises a main body which comprises a J-Box (11), a circulation pipe (12), and a pump protection sheet (13), a filter (20), a main pump (30), a heat exchanger (40), and a mixer pump (50).

Description

INNOVATION IN THE HEATING SYSTEMS OF FABRIC DYEING MACHINES

TECHNICAL FIELD

The invention relates to the heating systems of dyeing machines used in fabric dyeing in the textile industry. More particularly, the present invention relates to a system for providing a homogeneous dyeing by ensuring that the heat is properly adjusted in the dyeings made by the heating system of the hydraulic machines used in fabric dyeing in the textile industry and that a controlled dyeing is achieved.

BACKGROUND OF THE INVENTION The most important thing to note in textile dyeing systems made for textile industry is that the fabric is dyed in homogeneous shape and accurate temperature scale.

Otherwise, the material loss due to the improper application of the liquid to the fabric may cause loss of time and work power.

Existing fabric dyeing machines provide circulation of paint in the heating systems and heat transfer is provided by the heat exchanger, filter and then the fabric in the nozzle, which is used at the single main pump outlet.

However, in this system, although the temperature of the liquid in the entire canyon is adjusted and fixed, the heated water from the heat exchanger differs from the bottom of the J-box with the nozzle it encounters with the fabric. This also affects the shots in color, causing color deviations.

Furthermore, in the old system, a steady flow of water is not provided since the filter filling in front of and in the middle of the circulation pump changes the nozzle pressure and the flow of the passing water. In this case, it prevents the quality and penetration of the dyeing of the fabric. As a result, the technical problem that has been encountered can not be solved by any of the approaches in the prior art, and a technical field development has become a necessity.

At this point, the inventive apparatus has provided a homogeneous and accurate dyeing on this two pumped solution, unlike all prior art approaches as a solution. SUMMARY OF THE INVENTION

The present invention relates to a dyeing system which meets the above-mentioned requirements, provides a homogeneous dyeing which removes all disadvantages and adds some additional advantages.

The aim of the meeting is to reveal the homogeneous dyeing in dyeing machines used in textile industry.

Another way to come up with the idea of knowing your technique is to put forth a stable water pressure. Another object of the invention is to demonstrate the enhancement of chemical yield.

Another aim of the invention is to eliminate the loss of time and work power by avoiding energy losses, financial losses.

BRIEF DESCRIPTION OF THE DRAWINGS

Fig. 1 is a general overview of the system of the invention Fig. 2 is an overview of the body.

Fig. 3 is a front view of the pump protection sheet.

Fig. 4 is a view of the pump protection sheet located between the J-boxes.

REFERENCE NUMBERS

10. Body

1 1 . J-box

12. Circulation pipe

13. Pump protection sheet

20. Filter

30. Main pump

40. Heat exchanger

50. Mixer pump

DETAILED DESCRIPTION

The new system of the invention has two pumps instead of the single pump, which is the most important disadvantage of the old systems. In this case, there is no obstacle in front of or behind the second pump that pumps water to the nozzles and a more stable water pressure is provided. By means of the second pump, it is possible to accelerate the circulation of the water and reduce the factors such as the stuffing of the filter (20), thereby preventing the falling of the nozzle pressure.

In this case, the actual temperature of the fabric is measured in the J-box (11 ). Due to the detection of the actual temperature of the fabric, the possibility of changing the original gradation level is observed and a homogeneous and accurate painting is provided on the fabric.

Thanks to this invention, the chemical efficiency has been increased, the irregularities in fabric dyeing have been removed, and the loss of time and work power has been abolished by eliminating these irregularities and the material losses caused by them.

Regular water supply of the main pump (30) is provided. The pressure losses due to the heat exchanger (40) and the filter (20) are eliminated, and the energy lost in these losses is recovered.

The invention is a novelty in the heating system of fabric dyeing machines, comprises a body (10) which consists of a J-box (11 ), a circulation tube (12) and a pump protection sheet (13), a filter (20), a main pump (30), a heat exchanger (40) and a mixer pump (50). The body (10) is the part which provides heating of the water coming from the mixer pump (50).

The filter (20) is the part which collects the fiber particles contained in the water (bath).

The heat exchanger (40) is the part that distributes the water heated in the machine body (10) evenly into the bath.

The main pump (30) provides 35% lower energy cost than the conventional model.

The pump protection sheet (13); is the part that is located between the J-box (11 ) and the body (10) curve and positioned between at least two J-boxes(11 ) which are located within said body, preventing large fiber parts from going to the main pump (30) and the mixer pump (50).

The pump protection sheet (13) is positioned between the J-box (11 ) and the body as shown in figure 3. At the same time, as shown in FIG. 4, it is positioned between the J- boxes (11 ) positioned in the body (10) which are optionally two or more.

In this case, it is shown that the pump protection sheet (13) is prevented from going to the main pump (30) and the mixer pump (50).

The main pump (30) connected to the body (10) by the mixer pump (50) receives the water from the body (10) and delivers it to the filter which is connected to the heat exchanger (40). The water passing through the heat exchanger (40) is distributed to the body (10) by the circulation pipe (12).

Temperature control is performed in this section.

It ensures that the water from the heat control that is stably pressurized by the agitator pump (50) at constant pressure without any resistance.

Claims

CLAIMS What claimed is:

1 . An innovation in the heating system of fabric dyeing machines, comprises: a main body which comprises a J-Box (11 ), a circulation pipe (12), and a pump protection sheet (13), a filter (20), a main pump (30), a heat exchanger (40), and a mixer pump (50).

2. The innovation in the heating system of fabric dyeing machines as claimed in claim 1 , wherein said pump protection sheet (13) is located between the J-box (11 ) and the body (10), which prevents the passage of large fiber parts into said main pump (30) and said mixer pump (50).

3. The innovation in the heating system of fabric dyeing machines as claimed in claim 1 , wherein said mixer pump (50) allows the water to pass through said heat exchanger (40) by homogenous mixing with the body (10).

4. The innovation in the heating system of fabric dyeing machines as claimed in claim 1 , wherein said body (10) provides heating for the water coming from said mixing pump (50).

5. The innovation in the heating system of fabric dyeing machines as claimed in claim 1 , wherein said filter (20) collects and separates the fiber particles contained in the water (bath).

6. The innovation in the heating system of fabric dyeing machines as claimed in claim 1 , wherein said heat exchanger (40) distributes the water heated in the body (10) evenly into the bath.