CN105755710A - Safe roller type dyeing machine - Google Patents

Abstract

The invention relates to a roller type dyeing device, in particular to a safe roller type dyeing machine.The safe roller type dyeing machine comprises a rack, a dyeing cylinder, a power source, a control box and a feeding mechanism; the annular inner wall of the dyeing cylinder is provided with a combination body of baffles and poking rods; the outside of the annular inner wall of the dyeing cylinder is wrapped with a layer of outer cavity, a gap is formed between the outer cavity and the annular inner wall, and an axial partition plate is arranged in the gap for conducting axial partition, so that the annular becomes a one-way channel, the two sides of the axial partition are provided with a steam inlet and a steam outlet, and the steam inlet and the steam outlet are connected with a steam leading-in branch pipe and a steam leading-out branch pipe respectively; the annular gap is partitioned by an annular partition plate, a steam inlet and a steam outlet are further formed in the two sides of the axial partition in a convergence mode, and the annular partition plate partitions the length of each interval into 5-130 cm in the axial direction of the cylinder.The safe roller type dyeing machine has the advantages of being convenient to use, good in effect and the like.

Description

Safety rotary dyeing machine

Technical field

The present invention relates to a kind of drum-type dyeing apparatus, a kind of device that can be used for using during the dyeing such as woollen sweater, leather and fur.

Background technology

In 2014, Crinis Carbonisatus is had to understand a kind of energy-efficient low emission fur staining machine, the Patent No. 2014201345989 of this patent, the great advantage of this device is steam outer circulation, is not directly contacted with the dyeing water in staining machine, is easy to control during dyeing, simultaneously because logical steam, and steam has certain pressure, cylinder can deform upon after using certain time, and impact uses and there is certain potential safety hazard.

Summary of the invention

The invention aims to solve the deficiency of above-mentioned technology and a kind of safety rotary dyeing machine not deformed upon safely in the case of not changing cylinder volume, using function is provided.

In order to achieve the above object, the safety rotary dyeing machine designed by the present invention, it includes frame, dyeing cylinder, power source, control chamber, charging mechanism；Dyeing cylinder is being respectively provided on two sides with axle, and this axle is arranged in frame, and power source drives dyeing cylinder to rotate；The annular inner wall of dyeing cylinder is provided with feeding gate, the annular inner wall in dyeing tube body is provided with the assembly of multiple baffle plate or driving lever or baffle plate and driving lever, in dyeing tube body, is provided with temperature detector；Outside the annular inner wall of dyeing cylinder, cladding is provided with one layer of outer chamber, and between outer chamber and annular inner wall, form gap, in gap, it is provided with an axial dividing plate axially cut off, making annular gap is half-duplex channel, be provided with steam inlet, steam (vapor) outlet in the both sides axially cut off, this steam inlet, steam (vapor) outlet import with steam respectively be in charge of, steam is derived to be in charge of and is connected；Described annular gap is spaced by ring baffle, and pools again a steam inlet and a steam (vapor) outlet in the both sides axially cut off, and toroidal membrane is divided into 5-30cm the length axial along cylinder at each interval；The axle of dyeing cylinder both sides is hollow, steam importing is in charge of, steam derivation is in charge of by a quill shaft external, steam importing is in charge of, steam is derived to be in charge of and is connected with steam feeding tube, vapour-discharge tube respectively by bindiny mechanism, and under the effect of bindiny mechanism, steam imports when being in charge of rotation, steam feeding tube transfixion, when steam is derived and is in charge of rotation simultaneously, vapour-discharge tube transfixion；Dyeing cylinder is circumscribed with barometric pipe；Vapour-discharge tube is connected with Steam Recovery bucket；Control chamber is mainly used in the monitoring to temperature, the detection of steam intake and control, pressure-air is passed through control and motor rotation speed and the control of rotating.

Described baffle plate or driving lever can be extended to the center of dyeing cylinder by annular inner wall, and the radical length of dividing plate is less than the radius of dyeing cylinder, and the axial length of dividing plate is consistent with the inner length of dyeing cylinder, and driving lever is preferably cylinder；The assembly of described baffle plate and driving lever is such that baffle plate and is arranged on the annular inner wall of dyeing cylinder, and baffle plate is fixed with driving lever to the direction end that axle extends, and both total lengths are less than cylinder radius.

The assembly of described baffle plate and driving lever is such that baffle plate and is separately fixed on the inwall of cylinder with driving lever.

The assembly of driving lever, baffle plate, driving lever and baffle plate is to determine according to handled kind of object, and woollen sweater and leather and fur are substantially different selections, plays when dyeing and prevents knotting and object phenomenon of damaging from occurring.

Dyeing cylinder can also include baffle body, the axial width of the rotating cylinder of a length of this baffle body of installation of described baffle body is consistent, an end face at the length direction of baffle body is used for being connected with the arcwall of rotating cylinder, and another relative end face is provided with one or more driving lever.

The described driving lever in baffle body is axial consistent with the rotating cylinder installing this baffle body.

When driving lever quantity is one, driving lever is positioned at the midpoint of baffle body length direction；When driving lever quantity is multiple, driving lever position in baffle body is symmetrical by the midpoint of baffle body length direction.

When driving lever quantity is multiple, driving lever position in baffle body is the position of halving of baffle body length direction.

The width of described baffle body is the 10-70%, the 10-30% of this rotating cylinder radius a length of of described driving lever of the rotating cylinder radius installing this baffle body.

Described annular gap is by the corrosion resistant plate being circumferentially respectively welded multiple L-type on the annular inner wall of dyeing cylinder arranging baffle plate or driving lever, the width of each plate is at 5-30cm, preferably at 10-20cm, axial dividing plate is set, finally fix other parts such as heat-insulation layer, form complete tube structure.

Described charging mechanism can be aerosol, it is also possible to is to be provided with a hopper at charging aperture, it is also possible to is hopper with aerosol and deposit.

Described hopper has the openning of a kind of annular, is extended with sidewall towards same direction, stretches to follow-up the reneing of bending towards same on the top of sidewall, and the hollow cavity formed after end-enclosed, bending is connected with the openning of annular；The distance of the hollow cavity end after being provided with hole or groove and this sidewall on the sidewall of the openning of annular and bending is farthest, and described hole or slot pitch are 1-5cm from the openning of annular.The size in hole is preferably 0.2-3mm.

During use, the bearing of trend of the hollow cavity of bending is contrary with the rotation direction of the cylinder of staining machine, and what this loading hopper was fixing put at the openning of product dyed thereby and concordant.

Safety rotary dyeing machine in accordance with the above has the features such as easy to use, effective.

Accompanying drawing explanation

Fig. 1 is the structural representation of the present invention；

Fig. 2 is the sidewall sections schematic diagram of the dyeing cylinder of the present invention；

Fig. 3 is the hopper construction schematic diagram of the present invention.

Detailed description of the invention

The invention will be further described to combine accompanying drawing below by embodiment.

Embodiment 1:

As shown in Figure 1, Figure 2, Figure 3 shows, the safety rotary dyeing machine that the present embodiment describes, it includes frame 2, dyeing cylinder 1, power source 3, control chamber, charging mechanism；Dyeing cylinder 1 is being respectively provided on two sides with axle 4, and this axle 4 is arranged in frame 2, and power source 3 drives dyeing cylinder 1 to rotate；The annular inner wall 8 of dyeing cylinder 1 is provided with feeding gate 5, the annular inner wall 8 in dyeing cylinder 1 is provided with multiple baffle plate 6 and the assembly of driving lever 7, in dyeing cylinder 1, be provided with temperature detector；Outside the annular inner wall 8 of dyeing cylinder 1, cladding is provided with one layer of outer chamber 9, and between outer chamber 9 and annular inner wall 8, form gap, in gap, it is provided with an axial dividing plate 10 axially cut off, making annular gap is half-duplex channel, be provided with steam inlet, steam (vapor) outlet in the both sides axially cut off, this steam inlet, steam (vapor) outlet import with steam respectively be in charge of, steam is derived to be in charge of and is connected；Described annular gap is spaced by toroidal membrane 12, and pools again a steam inlet and a steam (vapor) outlet in the both sides axially cut off, and the length axial along cylinder at 12 each intervals of toroidal membrane is divided into 15cm；The axle 4 of dyeing cylinder 1 both sides is hollow, steam importing is in charge of, steam derivation is in charge of by a quill shaft external, steam importing is in charge of, steam is derived to be in charge of and is connected with steam feeding tube, vapour-discharge tube respectively by bindiny mechanism, and under the effect of bindiny mechanism, steam imports when being in charge of rotation, steam feeding tube transfixion, when steam is derived and is in charge of rotation simultaneously, vapour-discharge tube transfixion；Dyeing cylinder 1 is circumscribed with barometric pipe；Vapour-discharge tube is connected with Steam Recovery bucket；Control chamber is mainly used in the monitoring to temperature, the detection of steam intake and control, pressure-air is passed through control and motor rotation speed and the control of rotating.

Described annular gap is that the width of each plate is at 15cm by the corrosion resistant plate being circumferentially respectively welded multiple L-type on the annular inner wall 8 of dyeing cylinder 1.Being spliced to form outer chamber 9 and toroidal membrane 12 by L-type corrosion resistant plate, both are structure as a whole.

Described charging mechanism is for be provided with a hopper 11 at feeding gate 5, described hopper 11 has the openning of a kind of annular, it is extended with sidewall towards same direction, stretch to follow-up the reneing of bending towards same on the top of sidewall, and the hollow cavity of formation is connected with the openning of annular after end-enclosed, bending；The distance of the hollow cavity end after being provided with hole 13 and this sidewall on the sidewall of the openning of annular and bending is farthest, and described hole 13 is 4cm apart from the openning of annular.

Claims (6)

1. a safety rotary dyeing machine, it is characterised in that: it includes frame, dyeing cylinder, power source, control chamber, charging mechanism；Dyeing cylinder is being respectively provided on two sides with axle, and this axle is arranged in frame, and power source drives dyeing cylinder to rotate；The annular inner wall of dyeing cylinder is provided with feeding gate, the annular inner wall in dyeing tube body is provided with the assembly of multiple baffle plate or driving lever or baffle plate and driving lever, in dyeing tube body, is provided with temperature detector；Outside the annular inner wall of dyeing cylinder, cladding is provided with one layer of outer chamber, and between outer chamber and annular inner wall, form annular gap, in annular gap, it is provided with an axial dividing plate axially cut off, making annular gap is half-duplex channel, be provided with steam inlet, steam (vapor) outlet in the both sides axially cut off, this steam inlet, steam (vapor) outlet import with steam respectively be in charge of, steam is derived to be in charge of and is connected；Described annular gap is spaced by ring baffle, and pools again a steam inlet and a steam (vapor) outlet in the both sides axially cut off, and toroidal membrane is divided into 5-30cm the length axial along cylinder at each interval；The axle of dyeing cylinder both sides is hollow, steam importing is in charge of, steam derivation is in charge of by a quill shaft external, steam importing is in charge of, steam is derived to be in charge of and is connected with steam feeding tube, vapour-discharge tube respectively by bindiny mechanism, and under the effect of bindiny mechanism, steam imports when being in charge of rotation, steam feeding tube transfixion, when steam is derived and is in charge of rotation simultaneously, vapour-discharge tube transfixion；Dyeing cylinder is circumscribed with barometric pipe；Vapour-discharge tube is connected with Steam Recovery bucket；Control chamber is mainly used in the monitoring to temperature, the detection of steam intake and control, pressure-air is passed through control and motor rotation speed and the control of rotating.

Safety rotary dyeing machine the most according to claim 1, it is characterized in that: the assembly of described baffle plate and driving lever is such that baffle plate and is arranged on the annular inner wall of dyeing cylinder, baffle plate traverses axially, and baffle plate is fixed with driving lever to the direction end that axle extends, both total lengths are less than cylinder radius.

Safety rotary dyeing machine the most according to claim 1, it is characterised in that: the assembly of described baffle plate and driving lever is such that baffle plate and is separately fixed on the inwall of cylinder with driving lever.

Safety rotary dyeing machine the most according to claim 1, it is characterized in that: described annular gap is that the width of each plate is at 5-30cm by the corrosion resistant plate being circumferentially respectively welded multiple L-type on the annular inner wall of dyeing cylinder arranging baffle plate or driving lever.

Safety rotary dyeing machine the most according to claim 1, it is characterized in that: described charging mechanism is for be provided with a hopper at feeding gate, described hopper has the openning of a kind of annular, it is extended with sidewall towards same direction, stretch to follow-up the reneing of bending towards same on the top of sidewall, and the hollow cavity of formation is connected with the openning of annular after end-enclosed, bending；The distance of the hollow cavity end after being provided with hole or groove and this sidewall on the sidewall of the openning of annular and bending is farthest.

Safety rotary dyeing machine the most according to claim 5, is characterized in that: described hole or slot pitch are 1-5cm from the openning of annular.