CN211367881U - Warping machine - Google Patents

Abstract

The utility model discloses a warper, it includes: the yarn collecting device comprises a yarn barrel frame, a yarn conveying device and a yarn collecting device, wherein the yarn conveying device sequentially comprises a yarn stabilizing mechanism, a transmission mechanism, a winding mechanism and an electrostatic processing mechanism along the working process; the electrostatic processing mechanism includes: a first housing, a second housing, a water treatment component, and an atomization component; a treatment cavity is arranged in the atomization component, and a plurality of atomization nozzles are arranged in the treatment cavity and used for spraying into the treatment cavity; the upper end of the water treatment component is connected with the lower end of the atomization component and is used for supplying water to the atomization component; one end of the first shell is provided with a yarn inlet, and the other end of the first shell is connected with the atomizing part so that yarns enter the treatment cavity; one end of the second shell is provided with a yarn outlet, and the other end of the second shell is connected with the atomizing part so that the processed yarn leaves the processing cavity. The utility model discloses the static problem of yarn can effectively be solved to the structure.

Description

Warping machine

Technical Field

The utility model relates to a weaving equipment technical field, in particular to warper.

Background

In the textile technology, the textile technology is generally a warping process, a sizing process, a drawing-through process, a weaving process, a finishing process and the like, wherein a warping machine is required in the warping process. However, when the warping machine on the market is used, static electricity is generated due to the fact that the yarn is easy to rub against other components in the transmission process, and the static electricity can cause the yarn to be adsorbed and twisted to influence subsequent processing, so that the problem of how to solve the static electricity of the yarn becomes one of the problems to be solved by the technical staff in the field.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a warper, this warper can effectively solve the static problem of yarn.

In order to realize the purpose, the technical scheme of the utility model is that:

a warper, comprising: the yarn collecting device comprises a yarn barrel frame, a yarn conveying device and a yarn collecting device, wherein the yarn barrel frame is provided with a yarn inlet and a yarn outlet;

the yarn conveying device sequentially comprises a yarn stabilizing mechanism, a transmission mechanism, a winding displacement mechanism and an electrostatic processing mechanism along the working process;

the electrostatic processing mechanism includes: a first housing, a second housing, a water treatment component, and an atomization component; a treatment cavity is arranged in the atomization component, and a plurality of atomization nozzles are arranged in the treatment cavity and used for spraying into the treatment cavity;

the upper end of the water treatment component is connected with the lower end of the atomization component and is used for supplying water to the atomization component;

one end of the first shell is provided with a yarn inlet, and the other end of the first shell is connected with the atomizing part so that yarns enter the treatment cavity;

one end of the second shell is provided with a yarn outlet, and the other end of the second shell is connected with the atomizing part so that the processed yarn leaves the processing cavity.

By adopting the warping machine with the structure, the atomizing part in the electrostatic treatment mechanism carries out atomizing treatment on the yarns in the treatment cavity through the atomizing spray head, so that the static electricity generated on the yarns due to friction is removed, the yarns are effectively prevented from being adsorbed into twists, and the static electricity problem of the yarns is solved.

Further, the atomization component is detachably connected with the water treatment component.

Furthermore, the lower end of the atomization component is provided with a water inlet connected with the plurality of atomization nozzles;

the upper end of the water treatment component is provided with a water supply port;

when the atomization component is connected with the water treatment component, the water inlet is communicated with the water supply port.

Furthermore, the atomization component comprises a plurality of atomization components which are detachably connected, and the lower end of each atomization component is provided with a water inlet;

the upper end of the water treatment component is provided with a water supply port matched with the water inlet;

when the atomization piece is connected with the water treatment component, the water inlet is communicated with the water supply port.

Furthermore, a plurality of atomizing spray heads are arranged on the atomizing component and used for spraying the yarns in the treatment cavity in different directions.

Furthermore, a first water outlet and a second water outlet are also arranged on the water treatment component;

when the first shell, the second shell and the atomization component are connected with the water treatment component, the first water discharge port and the second water discharge port are located in the treatment cavity.

Furthermore, the water treatment component is also provided with a water filling port and a water outlet;

one end of the water filling port is communicated with the water supply port, and the other end of the water filling port is communicated with a water supply pipe;

one end of the water outlet is communicated with the first water outlet and the second water outlet, and the other end of the water outlet is communicated with the water drainage pipe.

Further, the first shell and the second shell are both cone-shaped;

the caliber of the yarn inlet is smaller than that of the end, connected with the atomizing part, of the first shell;

the caliber of the yarn outlet is smaller than that of the end of the second shell connected with the atomizing part.

For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic view of an embodiment 1 of the warping machine of the present invention;

FIG. 2 is a sectional view of the atomizing part of the warping machine of the present invention when connected with the water treatment part;

fig. 3 is a schematic view of embodiment 2 of the warping machine of the present invention;

fig. 4 is a sectional view of the atomizing sub-unit of the warping machine according to the present invention when it is connected to the water treatment unit.

[ reference numerals ]

100 yarn barrel holder

210 wire stabilizing mechanism 220 transmission mechanism

230 bus line mechanism

240 first housing of electrostatic processing mechanism 241

242 second housing 243 for water treatment

244 atomizing component 245 atomizing nozzle

246 yarn inlet 247 yarn outlet

248 water inlet 249 water supply port

250 atomizing part 251 water supply pipe

252 water discharge pipe

300 yarn collecting device

Detailed Description

In order to fully understand the objects, features and effects of the present invention, the conception, specific structure and technical effects of the present invention will be further described with reference to the accompanying drawings.

Example 1

As shown in fig. 1 and 2, a warping machine includes: the yarn winding device comprises a yarn barrel frame 100, a yarn conveying device and a yarn collecting device 300, wherein;

the yarn conveying device sequentially comprises a yarn stabilizing mechanism 210, a transfer mechanism 220, a winding displacement mechanism and an electrostatic processing mechanism 240 along the working flow;

the electrostatic processing mechanism includes: a first casing 241, a second casing 242, a water treatment part 243, and an atomization part 244; a treatment cavity is arranged in the atomization component, and a plurality of atomization nozzles 245 are arranged in the treatment cavity and used for spraying into the treatment cavity;

the upper end of the water treatment part 243 is connected with the lower end of the atomization part 244 to supply water to the atomization part;

a yarn inlet 246 is arranged at one end of the first shell 241, and the other end of the first shell is connected with the atomizing part 244 so as to enable the yarn to enter the treatment cavity;

the second housing 242 has a yarn outlet 247 at one end and is connected to the atomizing member 244 at the other end to allow the treated yarn to exit the treatment chamber.

Specifically, the yarn is spread from a yarn barrel on a yarn barrel frame, sequentially passes through the yarn stabilizing mechanism, the transmission mechanism and the winding displacement mechanism, then enters the electrostatic processing mechanism, and is collected by the yarn collecting device for later-stage textile processing. The yarn stabilizing mechanism is used for reducing radial elasticity generated when each yarn enters the transfer mechanism, and ensuring that the yarns cannot bounce and knot; the lower surface of the wire arranging mechanism is designed horizontally, and all yarns conveyed from the conveying mechanism to the electrostatic processing mechanism are further arranged in an aligned mode.

By adopting the warping machine with the structure, the atomizing part in the electrostatic treatment mechanism carries out atomizing treatment on the yarns in the treatment cavity through the atomizing spray head, so that the static electricity generated on the yarns due to friction is removed, the yarns are effectively prevented from being adsorbed into twists, and the static electricity problem of the yarns is solved.

Further, the atomization component 244 is detachably connected to the water treatment component 243. When the atomizing part is damaged, the atomizing part can be replaced by a worker according to the condition so as to reduce the maintenance cost.

Further, the lower end of the atomizing part 244 is provided with a water inlet 248 connected with the plurality of atomizing nozzles;

a water supply port 249 is arranged at the upper end of the water treatment component 243;

when the atomization component is connected with the water treatment component, the water inlet is communicated with the water supply opening, so that purified water in the water treatment component is injected into the atomization component through the water supply opening and the water inlet to carry out spraying and static electricity removing operation.

Furthermore, a first water outlet and a second water outlet are also arranged on the water treatment component;

when the first shell, the second shell and the atomization component are connected with the water treatment component, the first water discharge port and the second water discharge port are both positioned in the treatment cavity and used for recycling water in the treatment cavity.

Furthermore, the water treatment component is also provided with a water filling port and a water outlet;

one end of the water filling port is communicated with the water supply port, and the other end is communicated with a water supply pipe 251;

one end of the water outlet is communicated with the first and second water outlets, and the other end is communicated with a water drain pipe 252. Through the delivery pipe is right water treatment part supplies water, for atomizing part provides the pure water, and the pure water atomizes under atomizer's effect to yarn to the treatment chamber carries out destaticizing treatment, and the spraying can contact and fall to water treatment part after gathering into the liquid drop with the wall body inner wall in the treatment chamber on, and via first, second outlet discharge to drain pipe.

Preferably, the water supply pipe and the water discharge pipe can be connected with a water circulation device, water is filtered through the water circulation device, water recycling is achieved, and cost is effectively reduced.

Further, the first casing 241 and the second casing 242 are each cone-shaped;

the caliber of the yarn inlet 246 is smaller than that of the end of the first shell connected with the atomizing part;

the caliber of the yarn outlet 247 is smaller than that of the end of the second shell connected with the atomizing part. The first shell and the second shell are designed in a cone shape, the atomized purified water can be attached to the inner surfaces of the first shell and the second shell when contacting with the inner surfaces and can be gathered, the fog in the treatment cavity is effectively reduced from leaking out of the electrostatic treatment mechanism,

example 2

The present embodiment is basically the same as the embodiment 1, and the main difference is that:

as shown in fig. 3 and 4, the atomizing part comprises a plurality of detachably connected atomizing components 250, and the lower end of each atomizing component is provided with a water inlet 248; a water supply port 249 matched with the water inlet is arranged at the upper end of the water treatment component; when the atomization piece is connected with the water treatment component, the water inlet is communicated with the water supply port. Through the combination of a plurality of atomizing branch piece, when one of them atomizing branch piece appears damaging, the staff can change the atomizing branch piece that damages according to the condition to reduce cost of maintenance.

Furthermore, a plurality of atomizing nozzles 245 are arranged on the atomizing component and used for spraying the yarns in the treatment cavity in different directions. Different atomizing divides the piece, and the position of atomizer on it is inequality, divides the piece to carry out the aggregate erection through selecting different atomizing, realizes that different directions spray to the yarn of processing intracavity, improves this electrostatic treatment mechanism's static-removing effect.

The present invention is not limited to the above embodiment, and if various modifications or variations of the present invention do not depart from the spirit and scope of the present invention, they are intended to be covered if they fall within the scope of the claims and the equivalent technology of the present invention.

Claims (8)

1. A warper, comprising: yarn barrel holder, pass yarn device and receipts yarn device, its characterized in that:

the yarn conveying device sequentially comprises a yarn stabilizing mechanism, a transmission mechanism, a winding displacement mechanism and an electrostatic processing mechanism along the working process;

the electrostatic processing mechanism includes: a first housing, a second housing, a water treatment component, and an atomization component;

a treatment cavity is arranged in the atomization component, and a plurality of atomization nozzles are arranged in the treatment cavity and used for spraying into the treatment cavity;

the upper end of the water treatment component is connected with the lower end of the atomization component and is used for supplying water to the atomization component;

one end of the first shell is provided with a yarn inlet, and the other end of the first shell is connected with the atomizing part so that yarns enter the treatment cavity;

one end of the second shell is provided with a yarn outlet, and the other end of the second shell is connected with the atomizing part so that the processed yarn leaves the processing cavity.

2. The warper of claim 1, wherein:

the atomization component is detachably connected with the water treatment component.

3. The warper of claim 1, wherein:

the lower end of the atomization component is provided with a water inlet connected with the plurality of atomization nozzles;

the upper end of the water treatment component is provided with a water supply port;

when the atomization component is connected with the water treatment component, the water inlet is communicated with the water supply port.

4. The warper of claim 1, wherein:

the atomizing part comprises a plurality of detachably connected atomizing parts, and the lower end of each atomizing part is provided with a water inlet;

the upper end of the water treatment component is provided with a water supply port matched with the water inlet;

when the atomization piece is connected with the water treatment component, the water inlet is communicated with the water supply port.

5. The warper of claim 4, wherein:

the atomizing branch piece is provided with a plurality of atomizing spray heads for spraying yarns in the treatment cavity in different directions.

6. The warping machine according to any one of claims 3-5, wherein:

the water treatment component is also provided with a first water outlet and a second water outlet;

when the first shell, the second shell and the atomization component are connected with the water treatment component, the first water discharge port and the second water discharge port are located in the treatment cavity.

7. The warper of claim 6, wherein:

the water treatment component is also provided with a water filling port and a water outlet;

one end of the water filling port is communicated with the water supply port, and the other end of the water filling port is communicated with a water supply pipe;

one end of the water outlet is communicated with the first water outlet and the second water outlet, and the other end of the water outlet is communicated with the water drainage pipe.

8. The warper of claim 1, wherein:

the first shell and the second shell are both in a cone shape;

the caliber of the yarn inlet is smaller than that of the end, connected with the atomizing part, of the first shell;

the caliber of the yarn outlet is smaller than that of the end of the second shell connected with the atomizing part.

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