CN212103301U - Stocking dyeing machine - Google Patents

Abstract

The utility model relates to a stocking dyeing machine, including control box and fuselage, control box and fuselage fixed connection are equipped with in the fuselage and lead cloth mechanism, hydrojet mechanism and drive mechanism, and drive mechanism drives lead the operation of cloth mechanism, lead cloth mechanism and set up in the dye vat cylinder body, and drive mechanism sets up in the outside of dye vat cylinder body, leads cloth mechanism and includes guide wheel, guide shaft and stocking pipe, and hydrojet mechanism includes nozzle pipe and an at least spray tube, and the spray tube passes through nozzle pipe and stocking pipe intercommunication, and the nozzle pipe sets up intraductally in the stocking, and after the stocking got into the dye vat cylinder body by the door closure on the fuselage, the guide wheel drove the stocking and got into the nozzle pipe and dyes, got into the nozzle pipe again through the guide wheel. The stocking dyeing machine has high automation strength, reduces manual expenditure, is controllable in temperature, improves operation safety, is suitable for markets, is convenient for drawing small samples and matching colors, and is applied to large-scale production.

Description

Stocking dyeing machine

Technical Field

The utility model belongs to fabrics dyeing equipment field, concretely relates to stocking dyeing machine.

Background

The stocking band is an elastic textile fabric, can be used for manufacturing socks and other textile finished products needing certain elasticity, such as gloves, headgear, sun-proof ice silk clothes and the like. In a general dyeing factory, aiming at the dyeing of the stocking, the most common mode is directly putting the stocking in a pot for boiling, and manually operating stirring, and the defects are as follows: because stirring is needed, the pot is not provided with a cover body, the temperature is difficult to rise, the temperature can not meet the heating requirement, and the manual stirring efficiency is low. The other mode is to use the traditional stocking dyeing machine, the method is to press the stocking inside the yarn cage for closed dyeing and heating, the requirement of high temperature can be met, but the stocking is easy to have creases, and the stocking is difficult to dye thoroughly and is not even in dyeing due to the strong telescopic capacity of the stocking.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide a stocking dyeing machine overcomes above-mentioned defect, through the institutional advancement to stocking dyeing machine, solves work efficiency low, dyeing effect subalternation problem.

In order to solve the technical problem, the utility model provides a stocking dyeing machine, which comprises a control box and a machine body, wherein the control box is fixedly connected with the machine body, a cloth guide mechanism, a liquid spray mechanism and a transmission mechanism are arranged in the machine body, the transmission mechanism drives the cloth guide mechanism to operate, the cloth guide mechanism is arranged in a dye vat cylinder body, the transmission mechanism is arranged outside the dye vat cylinder body, the cloth guide mechanism comprises a cloth guide wheel, a cloth guide shaft and a stocking pipe, the transmission mechanism comprises a cloth guide wheel motor, a first belt pulley and a second belt pulley, the cloth guide wheel is sleeved on the cloth guide shaft, at least one side of the cloth guide shaft is provided with the first belt pulley, the cloth guide shaft is fixedly connected with the first belt pulley, the first belt pulley is exposed out of the dye vat cylinder body, at least one side of the cloth guide wheel motor is provided with the second belt pulley, the cloth guide wheel motor controls the rotation of the second belt pulley, the second belt pulley passes through the belt and drives first belt pulley rotates, hydrojet mechanism includes nozzle pipe and an at least spray tube, the spray tube passes through the nozzle pipe with the welt pipe intercommunication, the nozzle pipe set up in the welt pipe, the welt by door closure on the fuselage gets into behind the dye vat cylinder body, the fabric guide wheel drives the welt gets into the nozzle pipe dyes, passes through again the fabric guide wheel gets into again the nozzle pipe.

As a preferred scheme of welt dyeing machine, the nozzle pipe is rectangular type's tubular structure, the nozzle pipe is located the welt pipe is intraductal, the length direction of nozzle pipe along the length direction of welt pipe extends, the entrance point of nozzle pipe with the entrance point of welt pipe is on same perpendicular, the entrance point of nozzle pipe with clearance between the entrance point of welt pipe is sealed by first lid, the central line of nozzle pipe with the central line of welt pipe is same central line.

As a hosiery machine's an preferred scheme, the hose pipe is L type pipeline, the entrance point plane of hose pipe is perpendicular with the horizontal plane, the exit end plane of hose pipe is parallel with the horizontal plane, the exit end of hose pipe is towards below.

As a preferred proposal of the stocking dyeing machine of the utility model, a left baffle, a right baffle, a cover baffle and a top baffle are also arranged in the dye vat body, the left baffle is fixed on the inner wall of the left side of the dye vat body, the right baffle is fixed on the inner wall of the right side of the dye vat body, the cover baffle is fixed on the inner wall of the top of the dye vat body, the top baffle is fixed on the inner wall of the deepest end of the dye vat body along the length direction of the nozzle pipe, the bottom edge of the left baffle plate inclines towards the center of the bottom of the dye vat, the bottom edge of the right baffle plate inclines towards the center of the bottom of the dye vat, the bottom edge of the top baffle plate inclines towards the center of the bottom of the dye vat, the left baffle plate, the right baffle plate and the top baffle plate together enclose a structure with a large upper part and a narrow lower part, the top of the stocking tube is positioned below the cover baffle, and the bottom of the stocking tube is positioned right above the structure with a large upper part and a narrow lower part.

As an optimal scheme of stocking dyeing machine be equipped with a plurality of holes that leak on left baffle, right baffle and the top baffle.

As an optimal scheme of welt dyeing machine the bottom of dye vat cylinder body sets up screen cloth and liquid outlet, the screen cloth is located the top of liquid outlet.

As an optimal scheme of welt dyeing machine, inside liquid outlet and the drain pipe intercommunication of passing through of dye vat cylinder body, be equipped with the filter screen in the drain pipe, the filter screen set up the direction with the extending direction of drain pipe is parallel.

As a preferred scheme of a stocking dyeing machine, it still includes the cloth guide ring to lead cloth mechanism, the cloth guide ring is fixed in the dye vat cylinder body, the cloth guide ring sets up the below of cloth guide wheel, the stocking by door closure on the fuselage gets into behind the dye vat cylinder body, the cloth guide wheel drives the stocking gets into the nozzle pipe dyes, and the stocking after dyeing falls into the pile cloth district of dye vat cylinder body bottom, gets into again through cloth guide ring, cloth guide wheel in proper order the nozzle pipe.

As an optimized proposal of the stocking dyeing machine, the two side sections of the cloth guide wheel are polygons.

As a preferred scheme of a stocking dyeing machine, still be equipped with heating cooling mechanism in the fuselage, heating cooling mechanism includes cooling trough and heater, heater and cooling trough all are located the below of dye vat cylinder body, and with the outer wall laminating of dye vat cylinder body, be equipped with the multiunit strengthening rib on the outer wall of dye vat cylinder body, hydrojet mechanism still includes the water pump, the water pump is located the below of dye vat cylinder body to with fuselage fixed connection, the water pump has first inlet, second inlet and first liquid outlet, first inlet is through first pipeline intercommunication water inlet and chemical material device liquid outlet, second inlet intercommunication drain pipe, first liquid outlet passes through the second pipeline intercommunication hydrojet pipe.

Compared with the prior art, the utility model provides a stocking dyeing machine improves part structure and position in the dye vat cylinder body, has following advantage:

1: the elastic stocking band can be uniformly dyed through the stocking band tube structure;

2: the contact between the dye liquor and the stocking is concentrated through a nozzle pipe, so that the stocking is extruded and soaked;

3: the dyeing temperature and speed are accurately controlled by the control box, 2KG can be dyed at one time, the dyeing is uniform, and the effect is good;

4: the cloth guide wheel with the polygonal side face is arranged to lift the stocking band, so that the direction is changed, and the friction force is increased;

5: by arranging the baffle plate;

6: through the water leakage holes, the dye liquor can timely fall to a cloth stacking area at the bottom of the dye vat, so that the stored cloth can obtain the dip dyeing effect;

7: filtering the wool and cotton substances in the descending dye solution onto the screen by the screen to prevent the wool and cotton substances in the dye solution from blocking the pipeline, and filtering the wool and cotton substances in the dye solution falling in the filter screen pipe onto the filter screen by the filter screen to prevent the wool and cotton substances in the dye solution from blocking the pipeline;

8. the automatic color matching machine has high automation strength, reduces the manual expenditure, has controllable temperature, improves the operation safety, is suitable for the market, is convenient for printing small samples and matching colors, and is then applied to large-scale production.

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 the content of the first and second substances,

fig. 1 is a schematic view of a stocking dyeing machine according to the present invention;

fig. 2 is a schematic side view of a stocking dyeing machine according to the present invention;

fig. 3 is a schematic top view of a partial structure of a stocking dyeing machine according to the present invention;

fig. 4 is a schematic view of the structure of fig. 3 along a-a.

Wherein: 1 is a control box, 2 is a machine body, 21 is a door cover, 31 is a cloth guide wheel, 32 is a cloth guide shaft, 33 is a stocking pipe, 331 is an inlet end of the stocking pipe, 34 is a cloth guide ring, 4 is a dye vat cylinder body, 51 is a cloth guide wheel motor, 52 is a first belt pulley, 53 is a second belt pulley, 54 is a belt, 61 is a nozzle pipe, 611 is an inlet end of the nozzle pipe, 62 is a liquid spraying pipe, 63 is a water pump, 64 is a first pipeline, 65 is a second pipeline, 71 is a left baffle, 72 is a right baffle, 73 is a cover baffle, 74 is a top baffle, 81 is a screen mesh, 82 is a liquid outlet, 83 is a liquid outlet pipe, 84 is a filter screen, 85 is a stacking area, 86 is a reinforcing rib, 87 is a water inlet, 88 is a material dissolving device, 89 is a liquid outlet of the material dissolving device, 91 is a cooling water tank, and 92 is a heater.

Detailed Description

A stocking dyeing machine, it includes stocking dyeing machine, stocking dyeing machine includes control box 1 and fuselage 2, control box 1 and fuselage 2 fixed connection.

The main body 2 is provided therein with a cloth guide mechanism (not shown), a transmission mechanism (not shown), a liquid ejecting mechanism (not shown), a heating and cooling mechanism (not shown), and the like.

The control box 1 includes an exhaust fan for dissipating heat from the components in the control box 1, an alarm device controller (not shown) for controlling a series of abnormal conditions such as pressure and water temperature, an operation interruption device controller (not shown) for suspending the operation of the stocking dyeing machine in an emergency, a transmission control switch (not shown) for controlling the operation or stop of the transmission, a cloth guide control switch (not shown) for controlling the operation or stop of the cloth guide, a liquid spray mechanism control switch (not shown) for controlling the operation or stop of the liquid spray mechanism, a heating and cooling mechanism control switch (not shown) for controlling the operation or stop of the heating and cooling mechanism, and the like.

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 describe in detail, when detailing the embodiment of the utility model, for the convenience of explanation, the schematic diagram that shows the stocking dyeing machine structure can not do local enlargement according to general proportion, moreover the schematic diagram is the example only, and it should not limit the scope of the utility model protection here. In addition, the actual fabrication process should include three-dimensional space of length, width and depth.

Referring to fig. 1, fig. 1 is a schematic view of a sock belt dyeing machine according to the present invention, and fig. 2 is a schematic view of a sock belt dyeing machine according to the present invention. As shown in figures 1 and 2, a stocking dyeing machine, including control box 1 and fuselage 2, control box 1 and fuselage 2 fixed connection are equipped with in the fuselage 2 and lead cloth mechanism, hydrojet mechanism, drive mechanism and heating and cooling mechanism, drive mechanism drives and leads cloth mechanism operation. Among the above mechanisms, the cloth guide mechanism is arranged in the dye vat cylinder 4, the liquid spraying part of the liquid spraying mechanism is arranged in the dye vat cylinder 4, the power part is arranged outside the dye vat cylinder 4, the heating and cooling mechanism is arranged outside the dye vat cylinder 4, and the transmission mechanism is arranged outside the dye vat cylinder 4. The heating and cooling mechanism is optimally arranged at the lower part of the dye vat body 4 and is attached to the dye vat body 4. The advantage of this is that the dye vat cylinder 4 can be heated or cooled quickly, avoiding energy losses, poor heating or cooling. The following describes the above-described structures in detail.

With reference to fig. 2 and fig. 3, fig. 3 is a schematic top view of a partial structure of a stocking dyeing machine according to the present invention. As shown in fig. 2 and 3, the cloth guide mechanism comprises a cloth guide wheel 31, a cloth guide shaft 32 and a stocking band tube 33, the cloth guide wheel 31 is used for lifting the stocking band, changing the running direction of the stocking band, guiding the stocking band to enter the stocking band tube 33, freely falling into the cloth stacking area 85 after passing through the stocking band tube 33, and then returning to the cloth guide wheel 31 to repeat the process again, and the stocking band is connected end to end, so that a complete circulating band is formed.

In one embodiment, considering that the influence of gravity or the partial pressing of the band occurs when the band passes the cloth guide wheel 31 again from the cloth stacking area 85, and the band may be separated from the cloth guide wheel 31 or may be biased to a corner of one side of the cloth guide wheel 31 when passing the cloth guide wheel 31, the cloth guide ring 34 is provided under the cloth guide wheel 31, and the cloth guide ring 34 is formed in a ring-like structure, which is fixed in the cylinder 4, and the band passes through the cloth guide ring 34.

In the process of dyeing the stocking, the cloth guide wheel 31 may be made in a polygonal structure, i.e. the cross-sections of both sides of the cloth guide wheel 31 are polygonal, considering that the friction force may be too small when the cloth guide wheel 31 is in a cylindrical structure during the rapid rotation of the cloth guide wheel 31.

The operation of cloth guide mechanism is not separated from drive mechanism, drive mechanism includes cloth guide wheel motor 51, first belt pulley 52 and second belt pulley 53, cloth guide wheel 31 cover is established on cloth guide shaft 32, at least one side of cloth guide shaft 32 is equipped with first belt pulley 52, cloth guide shaft 32 and first belt pulley 52 fixed connection, first belt pulley 52 exposes in dye vat cylinder body 4, at least one side of cloth guide wheel motor 51 is equipped with second belt pulley 53, cloth guide wheel motor 51 controls the rotation of second belt pulley 53, second belt pulley 53 drives first belt pulley 52 through belt 54 and rotates.

The hose pipe 33 is a pipe with an inlet and an outlet, the shape can be various, the hose pipe 33 is set to be the shape of a long pipe because the hose has certain elasticity, and repeated experiments of technicians find that other shapes can not be uniformly dyed at the contraction part of the hose, but the utility model discloses a cooperation of the cloth guide wheel 31 and the hose pipe 33 makes the hose pipe 33 present an instant stretching state when contacting with the dye liquid in the process that the hose falls after entering the hose pipe 33, and the instant stretching state is just the range that the dye liquid sprayed by the nozzle pipe 61 can reach. In the embodiment of fig. 2, the stocking 33 is an L-shaped channel, the plane of the inlet end 331 of the stocking being perpendicular to the horizontal, the plane of the outlet end of the stocking being parallel to the horizontal, the outlet end of the stocking facing downwards. Through the structure of bending downwards and circular arc transition, the stocking can be guided and smoothly fall on the stacking area 85, and the situation that the surface integrity and quality of the stocking are influenced due to friction generated by the quick operation of the cloth guide mechanism in other pipelines such as a straight pipe and bending towards other directions is avoided.

Therefore, the whole operation process of the stocking in the stocking dyeing machine is as follows: after the hose gets into dye vat cylinder body 4 by door closure 21 on the fuselage 2, cloth guide wheel 31 drives the hose and gets into hose pipe 33, then fall on the heap cloth district 85 of dye vat cylinder body 4 bottom, end to end with the hose, form an annular material area, switch on, operation control box 1 button, make cloth guide wheel motor 51 start, drive second belt pulley 53 and rotate, drive first belt pulley 52 through belt 54 and rotate, thereby make cloth guide wheel 31 rotate, cloth guide wheel 31 drives the hose and gets into hose pipe 33, then fall on the heap cloth district 85 of dye vat cylinder body 4 bottom, get into cloth guide wheel 31, hose pipe 33 in proper order again through cloth guide ring 34, begin the circulation.

The above process completely describes the circulation of the stocking band in the whole dyeing process, and the circulation of the dyeing solution in the whole dyeing process is described as follows:

with continuing reference to fig. 2 and 3 in conjunction with fig. 4, fig. 4 is a schematic structural view taken along line a-a of fig. 3. As shown in fig. 2 to 4, the liquid spraying mechanism includes a nozzle tube 61, at least one liquid spraying tube 62 and a water pump 63, the number of the liquid spraying tubes 62 in fig. 3 is two, each of the liquid spraying tubes 62 is supplied by a second pipe 65, the liquid spraying tube 62 is communicated with the nozzle tube 61, the nozzle tube 61 is disposed in the stocking tube 33, the nozzle tube 61 is in a long strip type tubular structure, the length direction of the nozzle tube 61 extends along the length direction of the stocking tube 33, the inlet end 611 of the nozzle tube and the inlet end 331 of the stocking tube are on the same vertical plane, the gap between the inlet end 611 of the nozzle tube and the inlet end 331 of the stocking tube is sealed by a first cover (not shown), and the center line of the nozzle tube 61 and the center line of the stocking tube 33 are the same center line. Therefore, the nozzle pipe 61, the stocking-band pipe 33 and the first cover body jointly form a pipeline with a hollow interlayer, dye liquid enters the nozzle pipe 61, the stocking band also enters the nozzle pipe 61, and the hollow interlayer does not contain the dye liquid and the stocking band, so that the stocking band is centralized in the nozzle pipe 61, the dye liquid sprayed from the liquid spraying pipe 62 infiltrates the stocking band, the rear half section of the stocking-band pipe 33 can still have the structure of the nozzle pipe 61 and the liquid spraying pipe 62, the nozzle pipe 61 and the liquid spraying pipe 62 can also be omitted, only the stocking-band pipe 33 is a single pipe, and through the two structures, the stocking band can operate by the impulsive force of water in the nozzle pipe 61, the stretching is avoided, and the dyeing is uniform.

The water pump 63 is positioned below the dye vat cylinder 4 and is fixedly connected with the machine body 2 through a bracket and the like, the opening or closing of the water pump 63 is controlled and operated by the control box 1, for the convenience of understanding, an inlet and an outlet of the water pump 63 are divided into a first liquid inlet (not shown), a second liquid inlet (not shown) and a first liquid outlet (not shown), the first liquid inlet is communicated with a water inlet 87 and a material dissolving device liquid outlet 89 through a first pipeline 64, the water inlet 87 is used for receiving water from the outside, and the material dissolving device liquid outlet 89 is used for feeding dye liquor prepared in the material dissolving device 88 into the first pipeline 64; the second liquid inlet is communicated with a liquid outlet pipe 83 and is used for recycling the used dye liquor in the dye vat body 4 through the water pump 63 again; the first outlet is connected to the spray pipe 62 through a second pipe 65, and is used for pressurizing all the dye liquor obtained from the first inlet and the second inlet to the nozzle pipe 61 through a water pump 63.

The circulation process of the dyeing solution in the whole dyeing process is as follows: the power supply is connected, the water pump 63 is started through the control box 1, the water fed from the water inlet 87 and the dye liquor obtained by the material melting device 88 are fed into the liquid spraying pipe 62 by the water pump 63 and then enter the nozzle pipe 61 to dip and dye the hose in the nozzle pipe 61, part of redundant dye liquor falls into the cloth stacking area 85 to dip and dye the hose in the cloth stacking area, and then the redundant dye liquor flows out from the liquid outlet pipe 83 and enters the water pump 63 to carry out next circulation.

The heating and cooling mechanism includes a cooling water tank 91 and a heater 92, the opening and closing of the heater 92 is operated by the control box 1, and a temperature measuring device such as a probe (not shown) for detecting the temperature in the dye vat cylinder 4 is further provided in the dye vat cylinder 4. The heater 92 and the cooling water tank 91 are both positioned below the dye vat body 4 and attached to the outer wall of the dye vat body 4, and the heater 92 heats water in the cooling water tank 91, so that heat exchange is carried out between the hot water and dye liquor in the dye vat body 4, and the purpose of temperature rise is achieved. The probe feeds the temperature of the dye vat cylinder 4 back to the control box 1, whether the temperature meets the requirement is judged by the probe, when the temperature is lower than the set requirement, the heater 92 is started for heating, otherwise, the heater 92 is closed.

Some structures are also arranged in the stocking dyeing machine;

1. with continuing reference to fig. 2 and 3, as shown in fig. 2 and 3, in order to facilitate the guiding of the stocking band, the cylinder 4 is further provided with a left baffle 71 and a right baffle 72, the novel dyeing machine comprises a cover baffle 73 and a top baffle 74, wherein a left baffle 71 is fixed on the inner wall of the left side of a dye vat cylinder body 4, a right baffle 72 is fixed on the inner wall of the right side of the dye vat cylinder body 4, the cover baffle 73 is fixed on the inner wall of the top of the dye vat cylinder body 4, the top baffle 74 is fixed on the inner wall of the deepest end of the dye vat cylinder body 4 along the length direction of a nozzle pipe 61, the bottom edge of the left baffle 71 inclines towards the center of the bottom of the dye vat cylinder, the bottom edge of the right baffle 72 inclines towards the center of the bottom of the dye vat cylinder, the bottom edge of the top baffle 74 inclines towards the center of the bottom of the dye vat cylinder, the left baffle 71, the right baffle 72 and the top baffle 74 jointly form a structure which is large in top and narrow in bottom, the top of a hose pipe 33 is located. These flaps form a trough-like structure, by which the sock coming out of the sock tube 33 is received and guided during the rapid rotation of the cloth guide wheel 31 and rapidly falls down and is stacked in the stacking area 85 because of the absence of the bottom flap. The baffle plate is provided with a plurality of water leakage holes, so that the dye liquor can fall to the bottom of the dye vat in time, and the lower cloth can be soaked to achieve the dip dyeing effect.

A plurality of water leakage holes (not shown) are formed in the left baffle 71, the right baffle 72 and the top baffle 74, so that redundant dye liquor discharged from the nozzle pipe 61 can quickly fall to the bottom of the dye vat cylinder body 4 from the water leakage holes, the dyed stocking tape located in the cloth stacking area 85 is dip-dyed again, a further dyeing opportunity is provided for the dyed stocking tape with part of the dyed stocking tape which is not dyed in place, and the dye liquor is uniformly dyed and dyed.

2. A screen 81 is provided at the bottom of the vat cylinder 4, the screen 81 being located above the liquor outlet 82. The down-going wool substances in the dye liquor are filtered onto the screen 81, so that the blockage of the pipeline by the wool substances in the dye liquor is avoided.

3. The inside of dye vat cylinder 4 is communicated with liquid outlet pipe 83 through liquid outlet 82, is equipped with filter screen 84 in liquid outlet pipe 83 for on filtering the batting material in the dye liquor of whereabouts to filter screen 84, filter screen 84's direction of setting is parallel with the extending direction of liquid outlet pipe 83, and filter screen 84 is parallel with the pipeline direction promptly, and such advantage is, when stocking dyeing machine shut down the clearance, can pull out the clearance with filter screen 84.

4. The outer wall of the dye vat body 4 is provided with a plurality of groups of reinforcing ribs 86 for reinforcing the dye vat body 4.

The utility model discloses in, the dye vat cylinder body is full sealing device, in order to ensure its security, prevents the explosion, be equipped with pressure relief valve (not shown), safety lock (not shown) on the cylinder body, for the convenience of observing, still be equipped with sight glass (not shown) and light (not shown), for the convenience of washing, still be equipped with jar interior water intaking valve (not shown) on the fuselage 2, essential facilities such as jar interior drainage mouth (not shown), for the convenience of removing, the bottom of fuselage 2 still is equipped with truckle (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 (10)

1. The stocking dyeing machine comprises a control box and a machine body, wherein the control box is fixedly connected with the machine body, a cloth guide mechanism, a liquid spraying mechanism and a transmission mechanism are arranged in the machine body, the transmission mechanism drives the cloth guide mechanism to operate, the cloth guide mechanism is arranged in a dye vat cylinder body, and the transmission mechanism is arranged outside the dye vat cylinder body and is characterized in that:

the cloth guiding mechanism comprises a cloth guiding wheel, a cloth guiding shaft and a stocking belt pipe, the transmission mechanism comprises a cloth guiding wheel motor, a first belt pulley and a second belt pulley, the cloth guiding wheel is sleeved on the cloth guiding shaft, at least one side of the cloth guiding shaft is provided with the first belt pulley, the cloth guiding shaft is fixedly connected with the first belt pulley, the first belt pulley is exposed out of the dyeing cylinder body, at least one side of the cloth guiding wheel motor is provided with the second belt pulley, the cloth guiding wheel motor controls the rotation of the second belt pulley, the second belt pulley drives the first belt pulley to rotate through a belt, the liquid spraying mechanism comprises a nozzle pipe and at least one liquid spraying pipe, the liquid spraying pipe is communicated with the stocking belt pipe through the nozzle pipe, the nozzle pipe is arranged in the stocking belt pipe, the stocking belt enters the dyeing cylinder body through a door cover on the machine body, the cloth guiding wheel drives the stocking belt to enter the nozzle pipe for dyeing, and then enters the nozzle pipe again through the cloth guide wheel.

2. A stocking dying machine as claimed in claim 1, characterized in that: the hose is characterized in that the nozzle pipe is of a strip-shaped tubular structure, the nozzle pipe is positioned in the stocking pipe, the length direction of the nozzle pipe extends along the length direction of the stocking pipe, the inlet end of the nozzle pipe and the inlet end of the stocking pipe are on the same vertical plane, a gap between the inlet end of the nozzle pipe and the inlet end of the stocking pipe is sealed by a first cover body, and the central line of the nozzle pipe and the central line of the stocking pipe are the same central line.

3. A stocking dying machine as claimed in claim 2, characterized in that: the hose pipe is an L-shaped pipeline, the plane of the inlet end of the hose pipe is perpendicular to the horizontal plane, the plane of the outlet end of the hose pipe is parallel to the horizontal plane, and the outlet end of the hose pipe faces downwards.

4. A hosiery dying machine according to any one of claims 1 to 3, characterized in that: the dye vat comprises a dye vat body, and is characterized in that a left baffle, a right baffle, a cover baffle and a top baffle are further arranged in the dye vat body, the left baffle is fixed on the inner wall of the left side of the dye vat body, the right baffle is fixed on the inner wall of the right side of the dye vat body, the cover baffle is fixed on the inner wall of the top of the dye vat body, the top baffle is fixed on the inner wall of the deepest end of the dye vat body along the length direction of a nozzle pipe, the bottom edge of the left baffle inclines towards the center of the bottom of the dye vat, the bottom edge of the right baffle inclines towards the center of the bottom of the dye vat, the left baffle, the right baffle and the top baffle jointly enclose a structure which is narrow from top to bottom, the top of a stocking pipe is located below the cover baffle, and the bottom of the stocking pipe is located right above the structure which is narrow from top to bottom.

5. Stocking dying machine as claimed in claim 4, characterized in that: and a plurality of water leakage holes are formed in the left baffle, the right baffle and the top baffle.

6. A stocking dying machine as claimed in claim 1, characterized in that: the bottom of the dye vat body is provided with a screen and a liquid outlet, and the screen is positioned above the liquid outlet.

7. Stocking dying machine as claimed in claim 6, characterised in that: the inside liquid outlet and drain pipe intercommunication of passing through of dye vat cylinder body, be equipped with the filter screen in the drain pipe, the direction that sets up of filter screen with the extending direction of drain pipe is parallel.

8. A stocking dying machine as claimed in claim 1, characterized in that: the cloth guide mechanism further comprises a cloth guide ring, the cloth guide ring is fixed in the dye vat cylinder body, the cloth guide ring is arranged below the cloth guide wheel, the hose is fed into the dye vat cylinder body through a door cover on the machine body, the cloth guide wheel drives the hose to enter the nozzle pipe for dyeing, the dyed hose falls into a cloth stacking area at the bottom of the dye vat cylinder body, and then the hose sequentially enters the nozzle pipe through the cloth guide ring and the cloth guide wheel.

9. A stocking dying machine as claimed in claim 1, characterized in that: the sections of the two sides of the cloth guide wheel are both polygons.

10. A hosiery dying machine as defined in claim 7, wherein: still be equipped with heating cooling mechanism in the fuselage, heating cooling mechanism includes cooling trough and heater, heater and cooling trough all are located the below of dye vat cylinder body, and with the outer wall laminating of dye vat cylinder body, be equipped with the multiunit strengthening rib on the outer wall of dye vat cylinder body, hydrojet mechanism still includes the water pump, the water pump is located the below of dye vat cylinder body to with fuselage fixed connection, the water pump has first inlet, second inlet and first liquid outlet, first inlet is through first pipeline intercommunication water inlet and change material device liquid outlet, second inlet intercommunication drain pipe, first liquid outlet passes through second pipeline intercommunication the hydrojet pipe.

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