CN204311176U - A kind of novel pneumatic semi-automatic joining control device of rotor spinning machine - Google Patents

Abstract

The utility model relates to a kind of novel pneumatic semi-automatic joining control device of rotor spinning machine, comprises control unit, controlling air blowing electromagnetic valve, roller electromagnetic valve, lifting cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve electric signal for sending; Time detecting module, for detecting air blowing electromagnetic valve, roller electromagnetic valve, lifting running time of cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve; Air blowing electromagnetic valve, for controlling beginning and the end of blowing action; Roller electromagnetic valve, for controlling lifting and falling of roller; Lift cylinder and tension rail electromagnetic valve, lift for application cylinder subrack and tension rail and fall and bobbin electromagnetic valve, for controlling braking and the release of bobbin.This apparatus structure is compact, and mounting and adjusting is convenient, and by electricity, gas Systematical control, action can be controlled in Millisecond; Low cost of manufacture, serves the effect that action is accurate, quick; Use apparatus for controlling connection of the present utility model can improve joint success rate and the Yarn connecting quality of semi-automatic joining.

Description

A kind of novel pneumatic semi-automatic joining control device of rotor spinning machine

Technical field

The utility model relates to a kind of novel pneumatic semi-automatic joining control device of rotor spinning machine, be specifically related to a kind of by electricity, gas Systematical control air blowing electromagnetic valve, roller electromagnetic valve, lift the device that cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve complete corresponding actions chronologically, thus realize the action of pneumatic semi-automatic joint.

Background technology

Rotor spinning machine is that one develops novel spinning equipment faster, and current users factory purchases the rotor spinning machine of domestic production, and its Semi automatic piecing device all adopts mechanical structure and electrically combines, and has carried out joint program.When spinning joint, reliability is poor, and joint success rate is low, and error is large, and joint success rate and Yarn connecting quality have larger unstability, affect user's spinning efficiency.

Summary of the invention

The utility model object is the novel pneumatic semi-automatic joining control device providing a kind of rotor spinning machine, it is by the control of electrical system, realize types of functionality electromagnetic valve to complete chronologically within the time of setting, the action of accurate control joint and time, effectively overcome the problem that joint success rate is low, error is large existed in prior art.

In order to reach above-mentioned utility model object, the utility model is realized by following technological means:

A novel pneumatic semi-automatic joining control device for rotor spinning machine, comprising:

Control unit, controlling air blowing electromagnetic valve, roller electromagnetic valve for sending, lifting cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve and open and the electric signal of interrupting;

Time detecting module, for detecting air blowing electromagnetic valve, roller electromagnetic valve, lifting running time of cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve;

Air blowing electromagnetic valve, for controlling beginning and the end of blowing action;

Roller electromagnetic valve, for controlling lifting and falling of roller;

Lift cylinder and tension rail electromagnetic valve, lift for application cylinder subrack and tension rail and fall;

And bobbin electromagnetic valve, for controlling braking and the release of bobbin;

During the work of novel pneumatic semi-automatic joining control device, first, control unit sends the electric signal of electromagnetic valve unlatching to air blowing electromagnetic valve, air blowing electromagnetic valve is connected source of the gas and pressure-air is transported to appointed area and carries out blowing action, when to record air blowing electromagnetic valve running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to air blowing electromagnetic valve, air blowing solenoid valve shuts source of the gas, and blowing action completes; Then, first control unit sends the electric signal of electromagnetic valve unlatching to roller electromagnetic valve, roller electromagnetic valve connect source of the gas and pressure-air is transported to control roller motion airflow line in carry out roller and lift action, when to record roller electromagnetic valve running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to roller electromagnetic valve, roller solenoid valve shuts source of the gas, roller falls action and completes; Then, control unit is to the electric signal of lifting cylinder and the unlatching of tension rail electromagnetic valve transmission electromagnetic valve, lift cylinder and tension rail electromagnetic valve to connect source of the gas and pressure-air is transported in the airflow line of console cylinder and tension rail motion and carry out bobbin cradle and tension rail lifts action, when time detection module records that to lift cylinder and tension rail electromagnetic valve running time be 3-5 seconds, control unit is to the electric signal of lifting cylinder and the interruption of tension rail electromagnetic valve transmission electromagnetic valve, lift cylinder and tension rail solenoid valve shuts source of the gas, lift cylinder and tension rail and fall action and complete; Finally, control unit sends the electric signal of electromagnetic valve unlatching to bobbin electromagnetic valve, bobbin electromagnetic valve is connected source of the gas and pressure-air is transported to the braking maneuver of carrying out bobbin in the airflow line of control bobbin motion, when to record bobbin electromagnetic valve running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to bobbin electromagnetic valve, bobbin solenoid valve shuts source of the gas, the release movement of bobbin completes, thus achieves pneumatic semi-automatic joint operation program.

The beneficial effects of the utility model: novel pneumatic semi-automatic joining control device of the present utility model, its compact conformation, mounting and adjusting is convenient, and by electricity, gas Systematical control, action can be controlled in Millisecond; Integrated valve body adopts nonmetal injection mo(u)lding, low cost of manufacture, serves the effect that action is accurate, quick; Use apparatus for controlling connection of the present utility model can improve joint success rate and the Yarn connecting quality of semi-automatic joining.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the novel pneumatic semi-automatic joining control device of a kind of rotor spinning machine of the utility model;

Fig. 2 is the structural representation of integrated valve body involved in the novel pneumatic semi-automatic joining control device of a kind of rotor spinning machine of the utility model;

Fig. 3 is the top view of Fig. 1;

Fig. 4 is the half sectional view of the A-A of Fig. 1;

Fig. 5 is the half sectional view of the B-B of Fig. 1.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is preferred embodiment described in further detail:

As shown in Figure 1 be a kind of structured flowchart of novel pneumatic semi-automatic joining control device of rotor spinning machine, this device comprises control unit, time detecting module, roller electromagnetic valve 1, lifts cylinder and tension rail electromagnetic valve 2, bobbin electromagnetic valve 3 and air blowing electromagnetic valve 4;

Control unit controls air blowing electromagnetic valve 4, roller electromagnetic valve 1 for sending, lift cylinder and tension rail electromagnetic valve 2 and bobbin electromagnetic valve 3 opens and the electric signal of interrupting;

Time detecting module, for detecting air blowing electromagnetic valve 4, roller electromagnetic valve 1, lifting running time of cylinder and tension rail electromagnetic valve 2 and bobbin electromagnetic valve 3;

Air blowing electromagnetic valve 4, for controlling beginning and the end of blowing action;

Roller electromagnetic valve 1, for controlling lifting and falling of roller;

Lift cylinder and tension rail electromagnetic valve 2, lift for application cylinder subrack and tension rail and fall;

And bobbin electromagnetic valve 3, for controlling braking and the release of bobbin.

As shown in Figure 2,3, roller electromagnetic valve 1 in a kind of novel pneumatic semi-automatic joining control device of rotor spinning machine, lift cylinder and tension rail electromagnetic valve 2, bobbin electromagnetic valve 3 and air blowing electromagnetic valve 4 four electromagnetic valves are from left to right successively set on an integrated valve body 5, be respectively equipped with air inlet in the left and right sides of this integrated valve body 5, be also respectively equipped with the quick connector corresponding with corresponding valve body in the front end of this integrated valve body 5 simultaneously.

As can be seen from Fig. 2,3, lift cylinder and tension rail electromagnetic valve 2, bobbin electromagnetic valve 3 has identical structure with roller electromagnetic valve 1, therefore, only roller electromagnetic valve 1 is described here.

As shown in Figure 4 be the half sectional view of roller electromagnetic valve 1, the primary structure of electromagnetic valve is mainly described here, it comprises muffler 6, first sealing ring 7, first spool 8, Compress Spring 9, roller electromagnetic valve quick connector 10, the front end of integrated valve body 5 is provided with roller electromagnetic valve quick connector 10, rear end is provided with muffler 6, first spool 8 of roller electromagnetic valve 1 is provided with spring 9 and is provided with the first sealing ring 7 on the first spool 8, when ensureing that the first spool 8 moves, the high pressure gas in cavity can not be revealed.

As shown in Figure 4, the course of work of roller electromagnetic valve is: control unit sends the electric signal of electromagnetic valve unlatching to roller electromagnetic valve 1, after now roller electromagnetic valve 1 receives above-mentioned electric signal, first spool 8 promotes to the right to connect source of the gas by electromagnetic action by valve body, by roller electromagnetic valve quick connector 10 and the tracheae that is connected with its roller electromagnetic valve quick connector 10 pressure-air is transported to and controls to carry out roller in airflow line that roller moves and lift action, now spring 9 is stretched, when to record roller electromagnetic valve 1 running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to roller electromagnetic valve 1, after now roller electromagnetic valve 1 receives above-mentioned electric signal, the electromagnetic action of valve body and the first spool 8 disappears, now the first spool 8 sets back under the effect of spring 9, cut off source of the gas, after returning to reset condition, in electromagnetic valve, remaining high pressure gas is released from muffler 6.

The reset condition of the first spool 8 in roller electromagnetic valve 1 is: the left end of the first spool 8 contacts with the entrance of muffler 6, and now, spring 9 is reset condition.

As shown in Figure 5 be the half sectional view of air blowing electromagnetic valve 4, the primary structure of electromagnetic valve is also mainly described here, it comprises the second spool 11, second sealing ring 12, Compress Spring 13 and air blowing electromagnetic valve quick connector 14, the front end of integrated valve body 5 is provided with air blowing electromagnetic valve quick connector 14, described second spool 11 comprises standing part 15 and movable part 16, its standing part 15 is provided with the second sealing ring 12, between standing part 15 and movable part 16, is provided with Compress Spring 13.

As shown in Figure 5, the course of work of air blowing electromagnetic valve 4 is: control unit sends the electric signal of electromagnetic valve unlatching to air blowing electromagnetic valve 4, after now air blowing electromagnetic valve 4 receives above-mentioned electric signal, the movable part 16 of the second spool 11 is upwardly connected source of the gas by electromagnetic action by valve body, by air blowing electromagnetic valve quick connector 14 and the tracheae that is connected with its air blowing electromagnetic valve quick connector 14, pressure-air is transported to appointed area and carries out blowing action, now Compress Spring 13 is compressed, when to record air blowing electromagnetic valve 4 running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to air blowing electromagnetic valve 4, after now air blowing electromagnetic valve 4 receives above-mentioned electric signal, the electromagnetic action of valve body and the second spool 11 disappears, now the movable part 16 of the second spool 11 sets back under the effect of Compress Spring 13, cut off source of the gas.

Specifically tell about the course of work of the novel pneumatic semi-automatic joining control device of a kind of rotor spinning machine of the utility model below:

First, control unit sends the electric signal of electromagnetic valve unlatching to air blowing electromagnetic valve 4, after now air blowing electromagnetic valve 4 receives above-mentioned electric signal, the movable part 16 of the second spool 11 is upwardly connected source of the gas by electromagnetic action by valve body, by air blowing electromagnetic valve quick connector 14 and the tracheae that is connected with its air blowing electromagnetic valve quick connector 14, pressure-air is transported to appointed area and carries out blowing action, now Compress Spring 13 is compressed, when to record air blowing electromagnetic valve 4 running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to air blowing electromagnetic valve 4, after now air blowing electromagnetic valve 4 receives above-mentioned electric signal, the electromagnetic action of valve body and the second spool 11 disappears, now the movable part 16 of the second spool 11 sets back under the effect of Compress Spring 13, cut off source of the gas, blowing action terminates,

Then, control unit sends the electric signal of electromagnetic valve unlatching to roller electromagnetic valve 1, after now roller electromagnetic valve 1 receives above-mentioned electric signal, first spool 8 promotes to the right to connect source of the gas by electromagnetic action by valve body, by roller electromagnetic valve quick connector 10 and the tracheae that is connected with its roller electromagnetic valve quick connector 10 pressure-air is transported to and controls to carry out roller in airflow line that roller moves and lift action, now spring 9 is stretched, when to record roller electromagnetic valve 1 running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to roller electromagnetic valve 1, after now roller electromagnetic valve 1 receives above-mentioned electric signal, the electromagnetic action of valve body and the first spool 8 disappears, now the first spool 8 sets back under the effect of spring 9, cut off source of the gas, roller falls action and completes, after returning to reset condition, in electromagnetic valve, remaining high pressure gas is released from muffler 6,

Then, control unit sends to lifting cylinder and tension rail electromagnetic valve 2 electric signal that electromagnetic valve opens, now lift after cylinder and tension rail electromagnetic valve 2 receive above-mentioned electric signal, spool promotes to the right to connect source of the gas by electromagnetic action by valve body, pressure-air is transported in airflow line that console cylinder and tension rail move carries out bobbin cradle and tension rail lifts action by lifting cylinder and tension rail electromagnetic valve quick connector and lifting with it tracheae that cylinder and tension rail electromagnetic valve quick connector be connected, now spring is stretched, when time detection module records control unit to when to lift cylinder and tension rail electromagnetic valve 2 running time be 3-5 seconds, control unit sends to lifting cylinder and tension rail electromagnetic valve 2 electric signal that electromagnetic valve interrupts, now lift after cylinder and tension rail electromagnetic valve 2 receive above-mentioned electric signal, the electromagnetic action of valve body and spool disappears, now spool sets back under the action of the spring, cut off source of the gas, lift cylinder and tension rail to fall action and complete, after returning to reset condition, in electromagnetic valve, remaining high pressure gas is released from muffler,

Finally, control unit sends the electric signal of electromagnetic valve unlatching to bobbin electromagnetic valve 3, after now bobbin electromagnetic valve 3 receives above-mentioned electric signal, spool promotes to the right to connect source of the gas by electromagnetic action by valve body, by bobbin electromagnetic valve quick connector and the tracheae that is connected with its bobbin electromagnetic valve quick connector pressure-air is transported to the braking maneuver controlling to carry out bobbin in airflow line that bobbin moves, now spring is stretched, when to record bobbin electromagnetic valve 3 running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to bobbin electromagnetic valve 3, after now bobbin electromagnetic valve 3 receives above-mentioned electric signal, the electromagnetic action of valve body and spool disappears, now spool sets back under the action of the spring, cut off source of the gas, the release movement of bobbin completes, after returning to reset condition, in electromagnetic valve, remaining high pressure gas is released from muffler.

Claims (1)

1. a novel pneumatic semi-automatic joining control device for rotor spinning machine, is characterized in that, comprising:

Control unit, controlling air blowing electromagnetic valve, roller electromagnetic valve for sending, lifting cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve and open and the electric signal of interrupting;

Time detecting module, for detecting air blowing electromagnetic valve, roller electromagnetic valve, lifting running time of cylinder and tension rail electromagnetic valve and bobbin electromagnetic valve;

Air blowing electromagnetic valve, for controlling beginning and the end of blowing action;

Roller electromagnetic valve, for controlling lifting and falling of roller;

Lift cylinder and tension rail electromagnetic valve, lift for application cylinder subrack and tension rail and fall;

And bobbin electromagnetic valve, for controlling braking and the release of bobbin;

During the work of novel pneumatic semi-automatic joining control device, first, control unit sends the electric signal of electromagnetic valve unlatching to air blowing electromagnetic valve, air blowing electromagnetic valve is connected source of the gas and pressure-air is transported to appointed area and carries out blowing action, when to record air blowing electromagnetic valve running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to air blowing electromagnetic valve, air blowing solenoid valve shuts source of the gas, and blowing action completes; Then, first control unit sends the electric signal of electromagnetic valve unlatching to roller electromagnetic valve, roller electromagnetic valve connect source of the gas and pressure-air is transported to control roller motion airflow line in carry out roller and lift action, when to record roller electromagnetic valve running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to roller electromagnetic valve, roller solenoid valve shuts source of the gas, roller falls action and completes; Then, control unit is to the electric signal of lifting cylinder and the unlatching of tension rail electromagnetic valve transmission electromagnetic valve, lift cylinder and tension rail electromagnetic valve to connect source of the gas and pressure-air is transported in the airflow line of console cylinder and tension rail motion and carry out bobbin cradle and tension rail lifts action, when time detection module records that to lift cylinder and tension rail electromagnetic valve running time be 3-5 seconds, control unit is to the electric signal of lifting cylinder and the interruption of tension rail electromagnetic valve transmission electromagnetic valve, lift cylinder and tension rail solenoid valve shuts source of the gas, lift cylinder and tension rail and fall action and complete; Finally, control unit sends the electric signal of electromagnetic valve unlatching to bobbin electromagnetic valve, bobbin electromagnetic valve is connected source of the gas and pressure-air is transported to the braking maneuver of carrying out bobbin in the airflow line of control bobbin motion, when to record bobbin electromagnetic valve running time be 3-5 seconds to time detection module, control unit sends the electric signal of electromagnetic valve interruption to bobbin electromagnetic valve, bobbin solenoid valve shuts source of the gas, the release movement of bobbin completes.