JPH0354144Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial field of application] The present invention relates to a weft inserting device for a multicolor air jet loom, and in particular to supplying pressurized air with a pressure value suitable for selected weft yarns based on a predetermined selection order. It pertains to equipment that performs

[Prior art]

In multicolor air jet looms, during weaving, different types of weft threads are introduced one after another based on a predetermined selection order. During this weft insertion process, different types of weft yarns have different pull-out resistances and different ways of riding the airflow, resulting in different weft insertion speeds. To accommodate this, it is necessary to adjust the pressure of compressed air.

For example, JP-A-58-126344 and JP-A-59-125942.
Regarding the wefting nozzle that requires pressure adjustment, the publication provides an air tank or throttle valve for each type of required pressure.

[Issues with conventional technology]

According to such a pressure regulating means, a pressure regulating element, piping, and an on-off valve mechanism are required for each different pressure value, which complicates the pressure system, and in particular, makes piping for the conveying nozzle group difficult.

[Purpose of invention]

Therefore, the purpose of the present invention is to use one pressure control system to supply pressurized air with a pressure value suitable for each weft yarn in the process of selectively weaving multi-colored weft yarns, that is, different types and different counts according to the texture of the fabric. The goal is to enable this to occur.

[Devised solution]

Based on the above object, the present invention supplies pressurized air with a pressure value suitable for the weft yarn selected based on the weft insertion selection order to the weft insertion nozzle and the weft yarn conveyance nozzle during the multicolor weft insertion process. For supply, the pressure control means consists of one tank and one remotely controllable pressure control valve.

[Effect of invention]

The pressure control valve receives the pressure command from the pressure command device, generates pressurized air having an appropriate pressure value specific to the selected weft thread, and supplies it to the corresponding nozzle.
Therefore, one pressure control means can generate pressurized air with pressure values corresponding to a plurality of yarn types, and piping, opening/closing valves, etc. can be configured in one system.

〔Example〕

First, FIG. 1 shows a piping system of a weft insertion device 1 for a two-color air jet loom according to the present invention.

A pressurized air source 2 generates pressurized air 3 for weft insertion and weft thread conveyance, and for the weft insertion nozzle 9 one pipe 4 is used as a pressure control means 5, one tank 6 for accumulating pressure and one remote control. It is sequentially connected to a type pressure control valve 7, and further connected to a weft insertion nozzle 9 via an electrically operated on-off valve 8. This nozzle 9 for horizontal insertion is
It has two weft thread insertion holes 9a, 9b and one mixing pipe 9c communicating therewith, corresponding to the two-color weft insertion holes. , inserting the selected weft thread into the warp thread opening.

On the other hand, the pressurized air 3 of the pressurized air source 2 is branched by one pipe 4 with respect to a group of 14 nozzles for weft yarn conveyance, and includes one tank 11 for accumulating pressure as a pressure control means 10, and a remote-controlled pressure control valve. 12, and are connected to a plurality of groups of weft yarn conveying nozzles 14 via a plurality of, for example, three, electrically operated on-off valves 13, respectively. This nozzle 14 for conveying the weft yarn is arranged along the warp yarn opening, and injects pressurized air 3 of an appropriate pressure value to the flying weft yarn, thereby assisting the conveyance of the weft yarn.

The pressure control valves 7 and 12 are operated by pressure command signals _A1 and _A2, respectively, and the on-off valves 8 and 13 are controlled by on-off command signals B and C, respectively. .

As mentioned above, the piping 4 and the pressure control means 5
There is only one series of nozzles 9 for horizontal insertion. Similarly, piping 4 and pressure control means 10
Also, regarding the conveying nozzle 14, the pressure air source 2
There is only one series from to just before the on-off valve 13. Therefore, the pressure control means 5 or the pressure control means 1
0 will be commonly used for different weft threads.

Next, FIG. 2 shows an electrical control system for generating pressure command signals A ₁ , A ₂ and opening/closing command signals B, C.

The pressure command signals A ₁ and A ₂ are the outputs of the pressure command device 15, and the opening and closing command signals B and C are the outputs of the opening and closing command device 16. The pressure command device 15
is connected to the sensor 17 and interlocks with the rotation of the cam 18. The cam 18 is a plate cam for horizontal insertion control that has a protrusion extending over 180°. In this embodiment, the rotation of the cam 18 is one-half rotation per rotation of the main shaft of the loom, corresponding to the alternating weft insertion of two colors. Therefore, the sensor 17 detects the rotational movement of the cam 18 to operate the pressure command device 15 based on a predetermined weft selection order. Further, the opening/closing command device 16 operates using the signal from the encoder 19 as input information. That is, encoder 19
reads the rotational position of the main shaft of the loom electrically,
The rotation angle information is sent to the opening/closing command device 16. Furthermore, the sensor 17 has an opening/closing program selector 2.
Connected to 0. This opening/closing program selector 20 inputs information corresponding to the jetting timing and the angle of the jetting period from the memory 21 for weft thread selection in order to set the jetting mode at the time of weft insertion, and inputs information specific to the selected weft thread. is sent to the opening/closing command device 16.

The pressurized air 3 from the pressurized air source 2 is transferred to a tank 6,
11 and is regulated by pressure control valves 7 and 12. The pressure value adjusted here is set to a low value corresponding to, for example, wefting of a thin weft thread, and set to a high value to correspond to wefting of a thick weft thread, for example.

During operation of the loom, the cam 18 rotates one-half revolution corresponding to one revolution of the main shaft of the loom, and changes the output signal of the sensor 17 during one half revolution. Therefore, the pressure command device 15 changes the signal levels of the pressure command signals A ₁ and A ₂ every half rotation of the cam 18, or in other words, every rotation of the main shaft, and controls the pressure control valves 7 and 12 based on a predetermined weft thread selection order. and sends pressurized air 3 of different pressure values to the on-off valves 8 and 13.

On the other hand, the opening/closing program selector 20 inputs the information from the sensor 17, reads out the opening/closing program stored in advance from the memory 21 based on the weft thread selection order, and selects the angle information of the injection mode corresponding to the selected weft thread. It is sent to the opening/closing command device 16. Therefore, the opening/closing command unit 16 compares the angle information of the injection mode with the rotation angle of the main shaft read out by the encoder 19, and from the time when the two match, it issues opening/closing command signals B, C over the necessary injection period. is generated and sent to the on-off valves 8 and 13, respectively. Therefore, the on-off valves 8 and 13 allow the pressurized air 3 to pass through in an injection manner specific to the selected weft thread based on the weft thread selection order. As a result, the weft insertion nozzle 9 injects pressurized air 3 with a high pressure value when wefting a thick weft yarn, and injects pressurized air 3 with a low pressure value when wefting a thin weft yarn to insert the weft yarn. Insert into the warp opening. Similarly, the weft yarn conveying nozzle 14 applies force to the flying weft yarn while switching the jetting mode depending on the type of weft yarn.

[Other embodiments of the invention]

FIG. 3 shows an example using two nozzles 9. The pressurized air 3 is generated by one pressure control means 5 in the same manner as described above, but two pressure control means 5 are generated on the downstream side thereof.
It is controlled by two electrically operated on-off valves 8a and 8b. The pressurized air 3 is then selectively fed into the nozzle 9 depending on the weft insertion of the two types of weft threads. This nozzle 9, while changing its position, causes the selected weft yarn to fly precisely into the warp opening. Therefore, the opening/closing command device 16 alternately generates opening/closing command signals B ₁ and B ₂ in synchronization with the selection of the weft thread.

Although the above embodiments are all directed to two-color air jet looms, the present invention is naturally applicable to not only two-color air jet looms but also multi-color air jet looms that use three or more colors.

[Effect of idea] The present invention provides the following unique effects.

First, since pressurized air with an appropriate pressure value suitable for the selected weft yarn is sent to the weft insertion nozzle or the weft yarn conveyance nozzle based on the weft yarn selection order, the frequency of occurrence of weft insertion defects is reduced. Stabilization of horizontal insertion is achieved. Furthermore, it has become possible to supply pressurized air at an appropriate pressure value to the selected weft yarn using one pressure control system.

In addition, the pressure control valve and the on-off valve of the pressure control means are constituted by electrically operable elements, and the pressure command device and the on-off command device for controlling these are both constituted as an electric control system. Therefore, it is easy to switch and adjust the appropriate pressure, and the adjustment can also be made while the machine is operating, that is, during weaving, and the structure can be simplified compared to conventional mechanical ones.

Furthermore, based on the weft insertion selection order, pressurized air with a pressure value suitable for the weft to be inserted is supplied to the weft insertion nozzle and the conveyance nozzle. Even during horizontal loading, there is no consumption of pressure air more than necessary, so there is no wastage of pressure air.

In particular, the pressure control means is composed of one tank and one remote-controlled pressure control valve, and this pressure control valve generates pressurized air at an appropriate pressure value based on a pressure command signal. Only one control element is required, and the structure can be simplified accordingly.

[Brief explanation of the drawing]

Figure 1 is a connection diagram of the piping system of the horizontal loading device, Figure 2
The figure is a block diagram of the electrical control system, and FIG. 3 is a connection diagram of the piping system in another embodiment. 1... Wefting device of multicolor air jet loom,
2... Pressure air source, 3... Pressure air, 4... Piping, 5... Pressure control means, 6... Tank, 7...
Pressure control valve, 8, 8a, 8b...Opening/closing valve, 9...
Nozzle, 10... Pressure control means, 11... Tank, 12... Pressure control valve, 13... Opening/closing valve, 14
... Nozzle, 15 ... Pressure command device, 16 ... Opening/closing command device, 17 ... Sensor, 18 ... Cam, 19
...Encoder, 20...Opening/closing program selector, 21...Memory.

Claims (1)

[Claims for Utility Model Registration] A pressurized air source 2 that supplies pressurized air 3, nozzles 9 and 14 that inject the pressurized air 3 to insert different types of weft yarns into warp openings, and the pressurized air source 2 that supplies the pressurized air 3; On-off valves 8, 8a, 8b, 13 interposed in the four piping paths between the source 2 and the nozzles 9, 14 to control the passage of the pressurized air 3, and the on-off valves 8, 8a,
an opening/closing command device 16 that gives opening/closing commands to 8b and 13 in synchronization with the rotation of the loom, and a pressure command device 15 that outputs pressure commands with different signal levels based on a predetermined weft selection order in synchronization with the rotation of the loom. , one pressure control means 5,1 for said nozzles 9,14.
The pressure control means 5, 10 are comprised of one tank 6, which is connected to the pressure air source 2 and is located in the four piping lines between the pressure air source 2 and the nozzles 9, 14. 11,
and one remote-controlled pressure control valve 7 connected to the downstream side of the tanks 6, 11, which inputs a pressure command from the pressure command device 15 and generates pressurized air with a pressure value corresponding to the selected weft thread. 1. A weft inserting device 1 for a multicolor air jet loom, characterized by comprising: 12.