US20010013160A1

US20010013160A1 - Device and process for the splicing of textile threads using compressed air and liquid

Info

Publication number: US20010013160A1
Application number: US09/775,980
Authority: US
Inventors: Fabrizio Ragnoli; Valentino Crescini
Original assignee: Mesdan SpA
Current assignee: Mesdan SpA
Priority date: 2000-02-15
Filing date: 2001-02-02
Publication date: 2001-08-16
Anticipated expiration: 2021-02-02
Also published as: US6412262B2; IT1316370B1; DE10105296B4; ITMI20000250A0; ITMI20000250A1; CN1309200A; DE10105296A1; CN1273661C

Abstract

A device (10, 10′) for the splicing of textile threads using compressed air and liquid, which includes a casing on which is assembled a splicing head in which is made a mixing chamber (11), at least one feed duct of air with added liquid which leads into the chamber (11), a valve which is controlled by the immission of compressed air and means to add the liquid to the compressed air before its immission into the chamber (11). The splicing head, with its chamber, is set in an isolated tank from which extends at least one channel for the discharge to the outside of the compressed air with added liquid device. The device (10, 10′) has means for creating suction in the water discharge channel or channels (15, 16, 22, 23). In addition, the object of the present invention is a process for the splicing of textile threads using compressed air and liquid.

Description

The object of the present invention is a device and process for splicing textile threads using compressed air and liquid.

Compressed air devices for splicing textile threads are known (also known as splicers), both manually and mechanically operated, the latter being used chiefly on automatic spoolers.

In some cases, when required by the fibres and/or the characteristics of the yarns to be processed (e.g. in the case of linen or multi-cotton yarns) it is advantageous to add a certain amount of liquid (usually water) to the compressed air to increase splice resistance and improve its appearance. Such technology is shown for instance in the U.S. Pat. No. 3,407,583, U.S. Pat. No. 3,274,764 and U.S. Pat. No. 3,458,905.

The main drawback of these solutions is that the liquid, with the compressed air injected into the area where splicing takes place, runs over the splicer and machine parts nearby, causing serious maintenance problems, which are aggravated by dust in the textile environment, (particularly by fibres) in the air.

A solution to this problem is described in the Italian patent IT 1223431; in this solution the mixing chamber is set in a tank which is hermetically sealable, before or during the splicing operation.

Although having proved itself extremely effective, this solution has additional drawbacks, the biggest of which is the fact that the thread ends to be spliced must be well within the aforesaid tank when it is closed; otherwise even if just one end was held back, the splice would be prevented or, in any case, would be very weak, also resulting in at least one thread end protruding from the same.

Unfortunately the length of the thread ends is not always easily to verify after the preparation stage: this means a detwisting of the fibres which make up the threads and the detachment of some of these fibres which, sometimes, only partially occurs lengthening, in any case, the thread ends to be inserted in the tank.

Another drawback is that the pressure created in the tank, at the moment of immission of the splicing air jet into the mixing chamber, can disturb the normal air flow from the same and prevent correct splicing of the ends, with a consequent worsening in both appearance and resistance.

A further drawback is that the pressure created in the tank, at the moment of immission of the compressed air into the mixing chamber, tends to strain the hermetic seal of the tank, thus allowing water and air to escape.

The aim of the present invention is therefore to produce a device and a process for splicing textile threads using compressed air and liquid which solves the aforesaid problems, obtaining a high quality splice, both in terms of resistance and appearance.

These and other aims are reached by a device for the splicing of textile threads using compressed air and liquid, according to claim 1, to which reference is made for the sake of brevity.

In addition, the object of the present invention is a process for splicing textile threads using compressed air and liquid, according to claim 8.

Moreover, further characteristics of the present invention are defined in the other claims.

Further aims and advantages of the present invention will become apparent from the description that follows and from the enclosed drawings, supplied simply as explanatory, non-limiting examples, in which:

FIG. 1 is a schematic view of the stage of thread introduction into a splicing device, according to the present invention; [0015]
FIG. 2 is a schematic view of the clamping and cutting stage of threads in the splicing device in FIG. 1; [0016]
FIG. 3 is a schematic view of a detwisting stage of the thread ends to be spliced in the splicing device in FIG. 1; [0017]
FIG. 4 is a schematic view of a stage of keeping in place through suction of thread ends to be spliced in the splicing device in FIG. 1; [0018]
FIG. 5 is a schematic view of a suction stage of the ends in the splicing device in FIG. 1; and [0019]
FIG. 6 is a schematic view of a suction stage of the ends in a second preferred variant of the present invention. [0020]
With particular reference to FIGS. [0021] 1-5, the device for splicing textile threads, according to a first embodiment of the invention is denoted, as a whole, by reference number 10. The device 10 can be used on an automatic spooler.
A detailed description of the known device parts is not given here, as it is already described in Italian patent IT 1223431, to which express reference is made, therefore only the useful functional elements are quoted for the interpretation and implementation of the invention. [0022]
In wholly concise terms, the [0023] device 10 includes a casing on which a splicing head is assembled in which a mixing chamber 11 is made, inside of which the splicing of two threads or yarns 12 and 13 takes place.
The [0024] mixing chamber 11 is set in a tank 26, hermetically sealable before or during the splicing operation by means of a cover 14. At least one feed duct of air with added liquid comes out from the mixing chamber 11 (not shown for simplicity). Water discharge channels are also present 15 and 16, whose function will be better shown afterwards. There are also clamps 17 and 18 and scissors 19 and 20 to cut the threads 12 and 13.
The operation of the device for splicing textile threads, using compressed air and liquid, is briefly shown later on in the present description. [0025]
FIG. 1 shows the [0026] threads 12 and 13 to be spliced while they are introduced into the device 10.
Afterwards (FIG. 2) the clamping and cutting of the [0027] threads 12 and 13 is carried out, by means of the clamps 17 and 18 and scissors 19 and 20 and the partial closing of the tank 26.
FIG. 3 shows a schematic view of a treatment (or detwisting) stage of [0028] thread ends 12 and 13, denoted by numbers 24 and 25, which is normally followed by a partial withdrawal stage of ends 24 and 25.
In consequence of this stage, if the invention device were not applied, the complete closure of the [0029] tank 26 by means of cover 14, partially holding back the ends 24 and 25 would or could happen.
The present invention avoids this phenomenon by putting the [0030] water discharge channels 15 and 16 from the tank 26 under suction pressure upon the hermetic sealing of the tank 26. In this way, the ends 24 and 25 are drawn towards the water discharge channels 15 and 16 and therefore cannot be held back by the cover 14 when it is closed.
At this stage, the [0031] cover 14 is closed and the ends 24 and 25 are still sucked into the discharge channels 15 and 16 by the suction pressure maintained in it, as schematically illustrated in FIG. 5. Such suction is maintained until completion of the air and liquid jet in the mixing chamber 11.
To achieve such suction pressure, one possibility is to draw the suction pressure directly from the spooler suction. [0032]
A second possibility is to use an injector which creates pressure after the duct and therefore suction pressure upstream of it. [0033]
Another preferred variant of the present invention is shown, as a whole, by [0034] reference number 10′ in FIG. 6.
In [0035] such device 10′, the water discharge channels from tank 26 are shown by reference numbers 22 and 23 and are set on opposite sides of the tank 26.
Also in this case, suction pressure is previously created in the [0036] water discharge channels 22 and 23 from the tank 26 upon the hermetic sealing of the tank 26 until completion of the air and liquid jet in the mixing chamber 11.
Another variant of the present invention envisages that the treatment (detwisting) nozzles are set inside the [0037] tank 26 and that they also serve as water discharge ducts, but, anyway, that the same are put under suction pressure at least for the time required.
A further variant of the present invention provides that both the treatment nozzles and the discharge duct or ducts are set inside the [0038] tank 26, the ducts, in any case, being put under suction pressure as above.
Moreover, the object of the present invention is a process for splicing threads using compressed air and liquid. [0039]
This process provides a stage in which the threads to be spliced [0040] 12 and 13 are introduced into the splicing device 10 (or 10′), a clamping stage and thread cutting stage by means of the clamps 17 and 18 and scissors 19 and 20, a detwisting stage of ends 24 and 25 of threads 12 and 13 and a partial withdrawal stage of ends 24 and 25.
Lastly, the process has a stage in which the [0041] water discharge channels 15 and 16 (or 22, 23) of tank 26 are previously put under suction pressure upon the hermetic sealing of the tank 26 and until completion of the air and liquid jet in the mixing chamber 11 which carries out the splicing of threads 12 and 13.
The description makes the device and process characteristics clear for the splicing of textile threads, using compressed air and liquid which is the object of the present invention, with its advantages being likewise apparent. [0042]
The device allows the suction of thread ends which have already been cut and subjected to the detwisting stage inside the tank. This prevents the same being held back upon hermetic sealing, even if their length is greater than the tank width. [0043]
Another advantage of the device is that it gradually releases the ends during the splicing stage, without causing swirling damage, allowing a better splice formation and greater resistance. This improved splice formation also contributes to its improved aesthetic structure. [0044]
Besides, this reduces the pressure on the tank cover thus aiding the airtightness of the seal and preventing liquid leaking from the same. [0045]
Finally, as an additional desirable consequence, the chamber suction also allows the improved cleaning of the chamber itself, contributing to the removal of yarn residues or dust particles. [0046]
Finally, it is clear that numerous variations can be made to the device and process for the splicing of textile threads using compressed air and liquid, object of the present invention, without leading away from the innovative principles of the invention. [0047]
In the practical implementation of the invention, the materials, forms and dimensions of the details illustrated may be of any kind depending on the requirements, and that the same may be replaced with others technically equivalent. [0048]

Claims

1. A device (10, 10′) for the splicing of textile threads using compressed air and liquid, which includes a casing on which is assembled a splicing head in which is made a mixing chamber (11), inside of which the splicing of two threads or yarns (12, 13) takes place, at least one feed duct of air with added liquid which leads into the mixing chamber (11), a valve which is controlled by the immission of compressed air and means to add the liquid to the compressed air before its immission into said chamber (11), where the splicing head with its chamber is set in an isolated tank (26) from which extends at least one channel for the discharge to the outside of the compressed air with added liquid device, characterised in that it has means for putting the water discharge channel or channels (15, 16, 22, 23) under suction.

2. A device (10), as in

claim 1

, characterised in that the means for putting the water discharge channel or channels (15, 16, 22, 23) under suction provides a tube to draw the suction pressure directly from the aspirator of the machine to which the aforesaid device is applied.

3. A device (10), as in

claim 1

, characterised in that the means for putting the water discharge channel or channels (15, 16, 22, 23) under suction provides an injector which creates pressure after said channels (15, 16, 22, 23) and, therefore, suction pressure upstream of the same.

4. A device (10), as in

claim 1

, characterised in that the aforesaid water discharge channels (15, 16, 22, 23) are set on the same side of the aforesaid tank (26).

5. A device (10′), as in

claim 1

, characterised in that the aforesaid water discharge channels (15, 16, 22, 23) are set on opposite sides of the aforesaid tank (26).

6. A device (10), as in

claim 1

, characterised in that inside the aforesaid tank (26) are set the detwisting nozzles and that the same also serve as water discharge ducts.

7. A device (10), as in

claim 1

, characterised in that inside the aforesaid tank (26) are set both the detwisting nozzles and the aforesaid water discharge channels (15, 16, 22, 23).

8. A process for the splicing of textile threads, using the device of the previous claims, characterised in that it includes a stage in which the threads (12, 13) to be spliced are introduced into the aforesaid splicing device (10, 10′), a clamping and cutting stage of the threads (12, 13), a treatment stage of the ends (24, 25) of the aforesaid threads (12, 13), a partial withdrawal stage of the ends (24, 25), and a stage in which suction pressure is previously created in the water discharge channels (15, 16) from the aforesaid tank (26) upon the hermetic sealing of the tank (26), until completion of the air and liquid jet in the mixing chamber (11) which carries out the splicing of the threads (12, 13).