CN208167280U

CN208167280U - Sample overflow dyeing machine in Full-automatic double-cylinder

Info

Publication number: CN208167280U
Application number: CN201820483239.2U
Authority: CN
Inventors: 殷玉敏; 夏筛根; 包洪兴; 黄鑫; 陈霞
Original assignee: JINGJIANG HUAXIA TECHNOLOGY Co Ltd
Current assignee: JINGJIANG HUAXIA TECHNOLOGY Co Ltd
Priority date: 2018-04-08
Filing date: 2018-04-08
Publication date: 2018-11-30
Anticipated expiration: 2028-04-08

Abstract

The utility model relates to sample overflow dyeing machines in Full-automatic double-cylinder, including control cabinet, fuselage and feeding device, the top of the fuselage is arranged in the control cabinet, the control cabinet is fixedly connected with the fuselage, the feeding device is arranged in the front of the fuselage and is fixedly connected with the fuselage, selvage guide mechanism is equipped in fuselage, transmission mechanism and heating cooling body, control cabinet and feeding device, transmission mechanism, selvage guide mechanism, cooling body is heated to be electrically connected, transmission mechanism drives the operating of selvage guide mechanism, selvage guide mechanism is arranged in dye vat cylinder body, the lower part of dye vat cylinder body is arranged in heating cooling body, the outside of dye vat cylinder body is arranged in transmission mechanism, feeding device is connected to the intracorporal nozzle of dye vat cylinder, after cloth enters dye vat cylinder body by the door closure on fuselage, selvage guide mechanism drives the cloth rotation, nozzle sprays dye liquor.Above-mentioned overflow dyeing machine, which reduces, manually to be paid, improves operational safety, improves proportioning accuracy, automation strength height.

Description

Full-automatic double-cylinder middle sample dyeing machine

Technical Field

The utility model belongs to fabrics dyeing equipment field, concretely relates to full-automatic double-cylinder mesomorphic dyeing machine.

Background

The traditional middle-sample dyeing machine is a single dyeing cylinder, a cloth guide wheel is arranged in the dyeing cylinder, a large amount of water is needed for operation, pipelines in the cylinder are long, and the bath ratio is large, so that a double-cylinder middle-sample dyeing machine is designed in the past years by our company, the structure is compact, the cleaning is convenient, the cost is saved, however, the feeding, the adding and the proportioning of the feeding, the adding and the adding are manually controlled, so that a special person is still needed for watching in the manual aspect, and the accuracy is always low due to various factors in each proportioning because the feeding, the adding and the proportioning of the feeding, the adding are manually operated, and the pressure is increased in the heating process, so that the pressure discharge and the like still need to be mastered by an old hand, the pressure in the cylinder is adjusted at any time, and the former double-cylinder middle-sample dyeing machine has certain dangerousness in the manual aspect, the proportioning accuracy aspect, The safety aspect is not improved.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a full-automatic double-cylinder mesomorphic dyeing machine overcomes above-mentioned defect, through the institutional advancement to double-cylinder mesomorphic dyeing machine, solves to take the manual work, the batching precision is poor, the degree of control is poor scheduling problem safely.

In order to solve the technical problem, the utility model provides a full-automatic double-cylinder middle sample dyeing machine, which comprises a control box, a machine body and a feeding device, wherein the control box is arranged above the machine body and is fixedly connected with the machine body, the feeding device is arranged in front of the machine body and is fixedly connected with the machine body,

the control box is divided into a first control device and a second control device, the dye vat cylinder body is divided into a first dye vat cylinder body and a second dye vat cylinder body, the feeding device is divided into a first feeding device and a second feeding device, a first cloth guide mechanism, a second cloth guide mechanism, a first transmission mechanism, a second transmission mechanism, a first heating and cooling mechanism and a second heating and cooling mechanism are arranged in the machine body, the first control device is electrically connected with the first feeding device, the first transmission mechanism, the first cloth guide mechanism and the first heating and cooling mechanism, the second control device is electrically connected with the second feeding device, the second transmission mechanism, the second cloth guide mechanism and the second heating and cooling mechanism, the first transmission mechanism drives the first cloth guide mechanism to operate, the second transmission mechanism drives the second cloth guide mechanism to operate, and the first cloth guide mechanism and the second cloth guide mechanism are respectively arranged in the first dye vat cylinder body and the second dye vat cylinder body, the first heating and cooling mechanism is arranged at the lower part of the first dye vat body, the second heating and cooling mechanism is arranged at the lower part of the second dye vat body, the first transmission mechanism and the second transmission mechanism are arranged outside the first dye vat body and the second dye vat body, the first feeding device is communicated with the first nozzle in the first dye vat body, the second feeding device is communicated with the second nozzle in the second dye vat body,

after the cloth enters the first dye vat body and/or the second dye vat body through a door cover on the machine body, the first cloth guide mechanism and/or the second cloth guide mechanism drive the cloth to rotate, and the first nozzle and the second nozzle spray dye liquor.

As a preferred scheme of the full-automatic double-cylinder middle sample dyeing machine of the utility model, the first feeding device comprises a first water inlet valve, a first chemical material barrel, a first backflushing pipeline, a first water return pipeline and a first pneumatic adjusting ball valve, the water inlet end of the first water inlet valve is connected with the water inlet device, the water outlet end is communicated with the first chemical material barrel, the feeding end of the first pneumatic adjusting ball valve is connected with the feeding device, the water outlet end is communicated with the first chemical material barrel, the inlet end of the first water return pipeline is communicated with the first dye vat body, the outlet end is communicated with the first chemical material barrel, the inlet end of the first backflushing pipeline is communicated with the first chemical material barrel, the outlet end is communicated with a first nozzle,

the second feeding device comprises a second water inlet valve, a second chemical material barrel, a second backflushing pipeline, a second water return pipeline and a second pneumatic adjusting ball valve, the water inlet end of the second water inlet valve is connected with the water inlet device, the water outlet end of the second water inlet valve is communicated with the second chemical material barrel, the feeding end of the second pneumatic adjusting ball valve is connected with the feeding device, the material outlet end of the second pneumatic adjusting ball valve is communicated with the second chemical material barrel, the inlet end of the second water return pipeline is communicated with the second dye vat body, the outlet end of the second water return pipeline is communicated with the second chemical material barrel, the inlet end of the second backflushing pipeline is communicated with the second chemical material barrel, and the outlet.

As a preferred scheme of full-automatic double-cylinder middle appearance dyeing machine, first feeding device still includes first agitating unit, first agitating unit sets up in the first chemical storage bucket, first agitating unit with first controlling means electric connection, second feeding device still includes second agitating unit, second agitating unit sets up in the second chemical storage bucket, second agitating unit with second controlling means electric connection.

As an optimal scheme of full-automatic double-cylinder middle appearance dyeing machine, first feeding device still includes first blowoff valve, the entrance point intercommunication of first blowoff valve outside sewage treatment plant is connected to first storage bucket, exit end, first blowoff valve with first controlling means electric connection, second feeding device still includes the second blowoff valve, the entrance point intercommunication of second blowoff valve outside sewage treatment plant is connected to second storage bucket, the exit end, the second blowoff valve with second controlling means electric connection.

As a preferred scheme of full-automatic double-cylinder middling dyeing machine, be equipped with first safety interlock, second safety interlock, first pressure relief pipe and second pressure relief pipe on the fuselage, first safety interlock with first controlling means electric connection, the one end intercommunication that first pressure relief pipe was pressed first dye vat cylinder body, first safety interlock sets up on the first pressure relief pipe, second safety interlock with second controlling means electric connection, the one end intercommunication that the pipe was pressed to the second pressure relief pipe the second dye vat cylinder body, second safety interlock sets up on the pipe is pressed to the second pressure relief pipe.

As a preferred scheme of full-automatic double-cylinder middle appearance dyeing machine, first controlling means includes first touch-control screen and first manometer, first touch-control screen and first manometer expose in the fuselage, second controlling means includes second touch-control screen and second manometer, second touch-control screen and second manometer expose in the fuselage.

As an optimal selection scheme of full-automatic double-cylinder middle appearance dyeing machine, be equipped with many strengthening ribs on the outer wall of first dye vat cylinder body and the outer wall of second dye vat cylinder body.

As an optimal selection scheme of full-automatic double-cylinder middle appearance dyeing machine, the inside below of first dye vat cylinder body with the inside below of second dye vat cylinder body all is equipped with the section of thick bamboo net.

Compared with the prior art, the utility model provides a full-automatic double-cylinder mesomorphic dyeing machine improves corresponding structure and control, has following advantage:

1: the whole process flow is only finished by cloth feeding manually, and other operations are automatically carried out according to the process setting flow. The automatic water feeding through the water inlet valve, the automatic dye stirring through the stirring device, the automatic timed and quantitative feeding through the pneumatic adjusting ball valve, and the automatic water discharging and water feeding through the water return pipeline and the backflushing pipeline, thereby reducing the labor and improving the batching precision;

2: the two touch screens independently control the two cylinders, and storable process curves are increased;

3: the safety interlocking is controlled through the control device, the safety is improved, and the situations such as scalding of workers are avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without inventive labor. Wherein,

fig. 1 is a schematic view of a front view structure of a full-automatic double-cylinder middle sample dyeing machine according to the present invention;

fig. 2 is a schematic structural view of a first dye vat cylinder body or a second dye vat cylinder body of the full-automatic double-cylinder middle sample dyeing machine according to the present invention;

fig. 3 is a side view structure diagram of the first dye vat cylinder body or the second dye vat cylinder body of the full-automatic double-cylinder middle sample dyeing machine.

Wherein: 1 is a machine body, 2 is a first control device, 3 is a second control device, 4 is a first dye vat body, 5 is a second dye vat body, 6 is a first chemical material barrel, 7 is a second chemical material barrel, 8 is a first door cover, 9 is a second door cover, 10 is a first water inlet valve, 11 is a second water inlet valve, 12 is a first recoil pipeline, 13 is a second recoil pipeline, 14 is a first backwater pipeline/a second backwater pipeline, 15 is a first pneumatic adjusting ball valve, 16 is a second pneumatic adjusting ball valve, 17 is a first safety interlock, 18 is a second safety interlock, 19 is a first pressure discharge pipe, 20 is a second pressure discharge pipe, 21 is a first touch screen, 22 is a second touch screen, 23 is a first pressure gauge, 24 is a second pressure gauge, 25 is a reinforcing rib, 26 is a cylinder net, 27 is a first sewage discharge valve, 28 is a second sewage discharge valve, 29 is a cloth inlet, 30 is a front cloth wheel seat, 31 is a rear cloth lifting wheel seat, A safety valve 32, a lighting lamp hole 33, and a cooling water tank 34.

Detailed Description

A full-automatic double-cylinder middle appearance dyeing machine, it includes control box (not shown), fuselage 1 and feeding device (not shown), the control box setting is in the top of fuselage 1, control box and 1 fixed connection of fuselage, feeding device set up in the place ahead of fuselage 1 and with 1 fixed connection of fuselage.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the following embodiments.

First, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with at least one implementation of the invention is included. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Secondly, the utility model discloses utilize structural schematic diagram etc. to carry out the detailed description, when detailing the embodiment of the utility model, for the convenience of explanation, the schematic diagram that shows full-automatic double-cylinder mesopic dyeing machine structure can not do local the enlargeing according to general proportion, moreover the schematic diagram is the example only, and it should not limit here the scope of the protection of the utility model. In addition, the actual fabrication process should include three-dimensional space of length, width and depth.

Please refer to fig. 1-3, fig. 1 is a schematic view of a main structure of a full-automatic double-cylinder middle sample dyeing machine, fig. 2 is a schematic view of a main structure of a first dye vat cylinder or a second dye vat cylinder of a full-automatic double-cylinder middle sample dyeing machine, fig. 3 is a schematic view of a side structure of a first dye vat cylinder or a second dye vat cylinder of a full-automatic double-cylinder middle sample dyeing machine. As shown in fig. 1-3, the utility model discloses a full-automatic double-cylinder middle sample dyeing machine, mainly there is the following part: the control box is divided into a first control device 2 and a second control device 3, the dye vat cylinder body is divided into a first dye vat cylinder body 4 and a second dye vat cylinder body 5, the feeding device is divided into a first feeding device (not shown) and a second feeding device (not shown), and a first cloth guide mechanism (not shown), a second cloth guide mechanism (not shown), a first transmission mechanism (not shown), a second transmission mechanism (not shown), a first heating and cooling mechanism (not shown) and a second heating and cooling mechanism (not shown) are arranged in the machine body 1.

The relevant structures and working processes of the two dye vats are respectively described as follows:

the first control device 2 is used for being responsible for the operation of the first dye vat cylinder body 4, so, the first control device 2 is electrically connected with the first feeding device, the first transmission mechanism, the first cloth guiding mechanism and the first heating and cooling mechanism, cloth enters the first dye vat cylinder body 4 through the first door cover 8 on the machine body 1 and the cloth inlet and outlet 29 of the first dye vat cylinder body 4, the first control device 2 starts the first transmission mechanism to enable the first transmission mechanism to rotate, and therefore the front cloth wheel seat 30 and the rear cloth lifting wheel seat 31 of the first cloth guiding mechanism are driven to rotate to drive the cloth to rotate.

The first control device 2 controls the water inlet of the cooling water tank 34 of the first heating and cooling mechanism so as to achieve the purpose of cooling the temperature in the dye vat body.

The first control device 2 controls the first feeding device to add dye and water and controls the adding proportion of the dye and the water, and the specific control mode is as follows: the first feeding device comprises a first water inlet valve 10, a first chemical material barrel 6, a first backflushing pipeline 12, a first water return pipeline 14, a first pneumatic adjusting ball valve 15, a first stirring device (not shown) and a first sewage discharge valve 27, wherein the water inlet end of the first water inlet valve 10 is connected with the water inlet device (not shown), the water outlet end of the first water inlet valve is communicated with the first chemical material barrel 6, the first control device 2 ensures the water amount added into the first chemical material barrel 6 by controlling the water inlet amount of the first water inlet valve 10, the feeding end of the first pneumatic adjusting ball valve 15 is connected with the feeding device of dye, the discharging end of the first pneumatic adjusting ball valve 15 is communicated with the first chemical material barrel 6, the first control device 2 ensures the dye amount added into the first chemical material barrel 6 by controlling the feeding amount of the first pneumatic adjusting ball valve 15, the ratio of the dye and the water is controlled by the two valves, the inlet end of the first water return pipeline 14 is communicated with the first dye cylinder body 4, the inlet end of the first backflushing pipeline 12 is communicated with the first material purifying barrel 6, the outlet end is communicated with the first nozzle, when cloth is dyed in the first dye vat cylinder body 4, after dye liquor is sprayed out from the first nozzle, part of the dye liquor falls on the bottom of the first dye vat cylinder body 4, and the concentration of the dye liquor is reduced along with the dyeing of the cloth, so that the dye liquor is saved, and can be increased at any time, the used dye liquor is returned to the first material purifying barrel 6 through the first water return pipeline 14, water can be added according to the condition of the dye liquor, the dye liquor flows through the first backflushing pipeline 12 and is directly sprayed out from the first nozzle, as the batching process is not manually completed any longer, the first stirring device is arranged in the first material purifying barrel 6, the first stirring device is electrically connected with the first control device 2, the stirring device is started through the first control device 2, the inlet end of the first blowdown valve 27 is communicated with the first material purifying barrel 6, the outlet end is connected with an external sewage treatment device, the first sewage discharge valve 27 is electrically connected with the first control device 2, after the cloth in the first dye vat cylinder body 4 is completely dyed, the dye liquor enters the first chemical bucket 6 from the first water return pipeline 14, the first sewage discharge valve 27 is started through the first control device 2, and the redundant dye liquor flows out.

The above is the whole circulation of the dye liquor in the first vat cylinder 4.

The second control device 3 is used for being responsible for the operation of the second dye vat cylinder body 5, therefore, the second control device 3 is electrically connected with the second feeding device, the second transmission mechanism, the second cloth guiding mechanism and the second heating and cooling mechanism, cloth enters the second dye vat cylinder body 5 through the second door cover 9 on the machine body 1 and the cloth inlet and outlet 29 of the second dye vat cylinder body 5, the second control device 3 starts the second transmission mechanism to enable the second transmission mechanism to rotate, and therefore the front cloth wheel seat 30 and the rear cloth lifting wheel seat 31 of the second cloth guiding mechanism are driven to rotate to drive the cloth to rotate.

The second control device 3 controls the water inlet of the cooling water tank 34 of the second heating and cooling mechanism so as to achieve the purpose of cooling the temperature in the cylinder body of the dye vat.

The second control device 3 controls the second feeding device to add the dye and the water, and controls the adding proportion of the dye and the water, and the specific control mode is as follows: the second feeding device comprises a second water inlet valve 11, a second chemical tank 7, a second backflushing pipeline 13, a second water return pipeline 14, a second pneumatic adjusting ball valve 16, a second stirring device (not shown) and a second blow-down valve 28, the water inlet end of the second water inlet valve 11 is connected with a water inlet device (not shown), the water outlet end is communicated with the second chemical tank 7, the second control device 3 ensures the water amount added into the second chemical tank 7 by controlling the water inlet amount of the second water inlet valve 11, the feeding end of the second pneumatic adjusting ball valve 16 is connected with a dye feeding device, the discharging end is communicated with the second chemical tank 7, the second control device 3 ensures the dye amount added into the second chemical tank 7 by controlling the feeding amount of the second pneumatic adjusting ball valve 16, the ratio of the dye and the water is controlled by the two valves, the inlet end of the second water return pipeline 14 is communicated with the second dye vat body 5, the outlet end is communicated with the second chemical tank 7, the inlet end of the second backflushing pipeline 13 is communicated with the second chemical material barrel 7, the outlet end is communicated with the second nozzle, when the cloth is dyed in the second dye vat cylinder body 5, after the dye liquor is sprayed out from the second nozzle, part of the dye liquor falls to the bottom of the second dye vat cylinder body 5, and the concentration of the dye liquor is reduced along with the dyeing of the cloth, so that the dye liquor is saved, and can be increased at any time, the used dye liquor is returned to the second chemical material barrel 7 through the second water return pipeline 14, water can be added according to the condition of the dye liquor, the dye liquor flows through the second backflushing pipeline 13 and is directly sprayed out from the second nozzle, as the batching process is not manually completed any more, the second stirring device is arranged in the second chemical material barrel 7, the second stirring device is electrically connected with the second control device 3, the stirring device is started through the second control device 3, the inlet end of the second blowoff valve 28 is communicated with the second chemical material barrel 7, the outlet end is connected with an external sewage treatment device, the second blow-down valve 28 is electrically connected with the second control device 3, after the cloth in the second dye vat cylinder body 5 is completely dyed, the dye liquor enters the second chemical material barrel 7 from the second water return pipeline 14, the second blow-down valve 28 is started through the second control device 3, and the redundant dye liquor flows out.

The above is the whole circulation of the liquor in the second vat cylinder 5.

In the working process of the two dye vat cylinders, liquid in the dye vat is heated to more than 80 ℃, certain pressure exists in the dye vat cylinders due to high temperature, in order to ensure safety, a first safety interlock 17, a second safety interlock 18, a first pressure discharge pipe 19 and a second pressure discharge pipe 20 are arranged on the machine body 1, the first safety interlock 17 is electrically connected with the first control device 2, one end of the first pressure discharge pipe 19 is communicated with the first dye vat cylinder 4, the first safety interlock 17 is arranged on the first pressure discharge pipe 19, and when the pressure in the first dye vat cylinder 4 is overlarge, the first control device 2 opens the first safety interlock 17 to discharge redundant pressure from the first pressure discharge pipe 19; the second safety interlock 18 is electrically connected with the second control device 3, one end of the second pressure discharge pipe 20 is communicated with the second dye vat cylinder body 5, the second safety interlock 18 is arranged on the second pressure discharge pipe 20, and when the pressure in the second dye vat cylinder body 5 is overlarge, the second control device 3 opens the second safety interlock 18, so that the redundant pressure is discharged from the second pressure discharge pipe 20.

In order to make the first control device 2 and the second control device 3 more convenient to use, the first control device 2 includes a first touch screen 21 and a first pressure gauge 23, the first touch screen 21 and the first pressure gauge 23 are exposed out of the machine body 1, the second control device 3 includes a second touch screen 22 and a second pressure gauge 24, the second touch screen 22 and the second pressure gauge 24 are exposed out of the machine body 1, so that a corresponding program is designed on the touch screen and operated through the touch screen, a safety valve 32 is arranged on the upper portion of the dye vat cylinder body, when the pressure gauge displays an excessive data and the control device fails, the safety valve 32 is opened to release the pressure, a lighting lamp hole 33 is further arranged on the top of the dye vat cylinder body and used for installing a lighting lamp, and the condition in the dye vat cylinder body can be observed through an observation window on a door cover.

In addition, since the first and second dye vat cylinders 4 and 5 have a large amount of water and cloth during the dyeing process and are also at a high temperature, the pressure is large, and a plurality of reinforcing ribs 25 are provided on the outer wall of the first dye vat cylinder 4 and the outer wall of the second dye vat cylinder 5 in order to enhance the pressure-receiving capacity thereof. And because the return water pipeline and the like are connected with the bottom of the dye vat body, the bottom of the dye vat body is provided with a cylinder net 26 for filtering out lint and the like to prevent the return water pipeline from being blocked.

In the present invention, the machine body 1 may be provided with necessary facilities such as an alarm device (not shown). Since these are well known to those skilled in the art, they will not be described herein.

It should be noted that the above embodiments are only used for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the scope of the claims of the present invention.

Claims

1. Full-automatic double-cylinder middle sample dyeing machine, including control box, fuselage and feeding device, its characterized in that:

the control box is arranged above the machine body and is fixedly connected with the machine body, the feeding device is arranged in front of the machine body and is fixedly connected with the machine body,

2. The full-automatic double-cylinder sample dyeing machine as claimed in claim 1, characterized in that:

the first feeding device comprises a first water inlet valve, a first chemical material barrel, a first backflushing pipeline, a first water return pipeline and a first pneumatic adjusting ball valve, the water inlet end of the first water inlet valve is connected with the water inlet device, the water outlet end of the first water inlet valve is communicated with the first chemical material barrel, the feeding end of the first pneumatic adjusting ball valve is connected with the feeding device, the discharging end of the first pneumatic adjusting ball valve is communicated with the first chemical material barrel, the inlet end of the first water return pipeline is communicated with the first dye vat body, the outlet end of the first water return pipeline is communicated with the first chemical material barrel, the inlet end of the first backflushing pipeline is communicated with the first chemical material barrel, and the outlet,

3. The full-automatic double-cylinder sample dyeing machine according to claim 2, characterized in that: the first feeding device further comprises a first stirring device, the first stirring device is arranged in the first chemical material barrel, the first stirring device is electrically connected with the first control device, the second feeding device further comprises a second stirring device, the second stirring device is arranged in the second chemical material barrel, and the second stirring device is electrically connected with the second control device.

4. The full-automatic double-cylinder sample dyeing machine according to claim 2, characterized in that: the first feeding device further comprises a first blowdown valve, the inlet end of the first blowdown valve is communicated with the first chemical material barrel, the outlet end of the first blowdown valve is connected with an external sewage treatment device, the first blowdown valve is electrically connected with the first control device, the second feeding device further comprises a second blowdown valve, the inlet end of the second blowdown valve is communicated with the second chemical material barrel, the outlet end of the second blowdown valve is connected with the external sewage treatment device, and the second blowdown valve is electrically connected with the second control device.

5. The full-automatic double-cylinder sample dyeing machine as claimed in claim 1, characterized in that: be equipped with first safety interlock, second safety interlock, first pressure release pipe and second pressure release pipe on the fuselage, first safety interlock with first controlling means electric connection, the one end intercommunication that first pressure release pipe was pressed the first dye vat cylinder body, first safety interlock sets up on the first pressure release pipe, second safety interlock with second controlling means electric connection, the one end intercommunication that the pipe was pressed to the second pressure release pipe the second dye vat cylinder body, second safety interlock sets up on the pipe is pressed to the second pressure release.

6. The full-automatic double-cylinder sample dyeing machine as claimed in claim 1, characterized in that: the first control device comprises a first touch screen and a first pressure gauge, the first touch screen and the first pressure gauge are exposed out of the machine body, the second control device comprises a second touch screen and a second pressure gauge, and the second touch screen and the second pressure gauge are exposed out of the machine body.

7. The full-automatic double-cylinder sample dyeing machine as claimed in claim 1, characterized in that: and a plurality of reinforcing ribs are arranged on the outer wall of the first dye vat body and the outer wall of the second dye vat body.

8. The full-automatic double-cylinder sample dyeing machine as claimed in claim 1, characterized in that: and cylinder nets are arranged below the inner part of the first dye vat body and the inner part of the second dye vat body.