CN105855755A - Pneumatic system for internal welding machine - Google Patents

Abstract

The invention provides a pneumatic system for an internal welding machine. The technical problem that in the prior art, walking of an internal welding machine cannot be effectively controlled is solved. The pneumatic system for the internal welding machine comprises a main gas storage tank, a remote-control pressure reducing valve, an adjusting pressure reducing valve, a pneumatic motor and a first electromagnetic valve. The pneumatic motor is used for driving a walking mechanism of the internal welding machine. A gas outlet of the main gas storage tank is connected with the pneumatic motor through a first gas inlet pipeline. The remote-control pressure reducing valve is connected to the first gas inlet pipeline. One end of the adjusting pressure reducing valve is connected with the remote-control pressure reducing valve, and the other end of the adjusting pressure reducing valve is connected with the gas outlet of the main gas storage tank. The first electromagnetic valve is connected between the remote-control pressure reducing valve and the pneumatic motor and is used for controlling the on-off states of the first gas inlet pipeline so as to control starting and closing of the pneumatic motor. The adjusting pressure reducing valve is used for controlling the remote control pressure reducing valve to reduce pressure of inlet gas according to a preset pressure reducing valve so that the gas inlet pressure generated when the pneumatic motor is started can be changed, and therefore the walking speed of the internal welding machine is controlled.

Description

A kind of internal welding machine pneumatic system

Technical field

The present invention relates to weldering system in intelligent pipeline, particularly relate to a kind of internal welding machine pneumatic system.

Background technology

In the most domestic intelligent pipeline, weldering system includes welding unit, walking mechanism, Programmable Logic Controller, electric-motor drive unit, sensor etc. move forward and backward for internal welding machine and brake, stretching of positional cylinder, front and back the flexible of tighting rod waits control process to be gone out signal by main controlling board and long-range operation hair updo, received signal by PLC, and complete the interlocking of each action and sending of signal.Existing walking needs to be driven realizing by electric-motor drive unit, owing to motor span of control limit of control is difficult to regulate, therefore, there is the technical problem regulating inconvenience of speed of travel speed in existing walking mechanism, when when running into the situation of power-off or undertension, internal welding machine such as can not be walked at the situation.

Therefore, in prior art, existence cannot effectively control the technical problem of internal welding machine walking.

Summary of the invention

The embodiment of the present invention, by providing a kind of internal welding machine pneumatic system, solves and there is the technical problem that cannot effectively control internal welding machine walking in prior art, and then achieve the technique effect that can effectively control the internal welding machine speed of travel.

Embodiments providing a kind of internal welding machine pneumatic system, including main air accumulator, far control air relief valve, regulation air relief valve, air motor, the first electromagnetic valve, described air motor is for driving the walking mechanism of internal welding machine；

The gas outlet of described main air accumulator is connected with described air motor by the first air inlet pipeline, described remote control air relief valve is connected on described first air inlet pipeline, described regulation air relief valve one end connects described remote control air relief valve, the other end connects the gas outlet of described main air accumulator, is connected and has the first electromagnetic valve between described remote control air relief valve and described air motor；

Described first electromagnetic valve is for controlling the break-make of described first air inlet pipeline, to control the opening and closing of described air motor, the gas being passed through is reduced pressure with default pressure relief value by described regulation air relief valve for controlling described remote control air relief valve, to change the described air motor admission pressure when opening, thus control the speed of travel of described internal welding machine.

Further, between described first electromagnetic valve and described air motor, it is also associated with fast-discharge valve.

Further, it is connected by the second air inlet pipeline in parallel with described first air inlet pipeline between the gas outlet of described main air accumulator and described air motor, described second air inlet pipeline connects and has hand-operated valve group, described hand-operated valve group to include for controlling first manual control valve that described air motor rotates clockwise and for controlling second-hand's brake control valve that described air motor rotates counterclockwise.

Further, also include auxiliary gas tank, three line-up clamp cylinders, brake cylinder, cylinder is stretched on top, front tensioning cylinder, rear tensioning cylinder, three line-up clamp cylinders are supplied by described auxiliary gas tank gas outlet by the second electromagnetic valve, brake cylinder is supplied by described auxiliary gas tank gas outlet by the 3rd electromagnetic valve, top is stretched cylinder by the 4th electromagnetic valve and is supplied by described auxiliary gas tank gas outlet, front tensioning cylinder is supplied by described auxiliary gas tank gas outlet by the 5th electromagnetic valve, rear tensioning cylinder is supplied by described auxiliary gas tank gas outlet by the 6th electromagnetic valve, described auxiliary gas tank air inlet connects the gas outlet of described main air accumulator.

Further, the gas circuit between described each line-up clamp cylinder and described second electromagnetic valve being connected magnetic switch, described magnetic switch is for detecting the state of described line-up clamp cylinder.

Further, the gas circuit between described front tensioning cylinder with described 5th electromagnetic valve being connected and has pressure switch, described pressure switch for judging the state of described front tensioning cylinder by detecting the pressure of described front tensioning cylinder.

Further, being connected and have the first quick plug between described rear tensioning cylinder with described 6th electromagnetic valve, the one-way air inlet mouth of described quick plug connects gas tube.

Further, connect between described main air accumulator and auxiliary gas tank and have first manual ball valve, when closing described first manual ball valve, described master going out the gas circuit between gas tank and described auxiliary gas tank block, connecting in the gas circuit that the gas outlet of described auxiliary gas tank is connected to described second electromagnetic valve, the 3rd electromagnetic valve, the 4th electromagnetic valve, the 5th electromagnetic valve, the 6th electromagnetic valve has the second manual ball valve.

Further, it is separately installed with relief valve on described main air accumulator and described auxiliary gas tank, when the blowing pressure of described main air accumulator or described auxiliary gas tank is more than the setting pressure of described relief valve, described relief valve automatically opens up venting and is adjusted in preset range by the pressure in described main air accumulator or described auxiliary gas tank.

Further, the air inlet pipe of described main air accumulator connecting and has the second quick plug, filter, Pressure gauge, gas is entered by the second quick plug, flows through filter and Pressure gauge, enters described main air accumulator.

The embodiment of the present invention at least has the following technical effect that or advantage:

1, owing to using remote control air relief valve and regulation air relief valve in this internal welding machine pneumatic system, this regulation air relief valve reduces pressure to preset the gas being decompressed to being passed through for controlling this far control air relief valve, to change the air motor admission pressure when opening, thus control the speed of travel of this internal welding machine, solve and prior art exists the technical problem that cannot effectively control internal welding machine walking, and then can effectively control the technique effect of the speed of internal welding machine walking.

2, owing to using between the gas outlet of main air accumulator with startup motor by being connected with the second air inlet pipeline of this first air inlet pipeline parallel connection, this second air inlet pipeline connects hand-operated valve group, this hand-operated valve group includes for controlling first manual control valve that air motor rotates clockwise and for controlling second-hand's brake control valve that air motor rotates counterclockwise, solve when power-off or undertension, by controlling hand-operated valve group, effectively control internal welding machine and walk forward or backward.

3, owing to using main air accumulator to be used in conjunction with each other with auxiliary gas tank, by the motor driving being mainly used in walking mechanism with gas of main air accumulator, auxiliary gas tank is mainly used in, with gas, other 7 cylinders that gas consumption is less, thus avoids main air accumulator because pressure declines the impact that each cylinder is released power.

4, owing to being connected magnetic switch in the gas circuit between this line-up clamp cylinder and electromagnetic valve, this magnetic switch is for detecting the state of line-up clamp cylinder, it is connected pressure switch in gas circuit between front tensioning cylinder and electromagnetic valve, this pressure switch also be able to detect this front tensioning cylinder state, it is thus possible to when each cylinder is all in normal condition, carry out next step operation, it is achieved the coordination of each pneumatic element.

5, owing to being connected quick plug between rear tensioning cylinder and electromagnetic valve, the one-way air inlet mouth of this quick plug connects gas tube, when solving that electromagnetic valve breaks down at this, the pawl that rises of rear tensioning cylinder cannot automatically retract, so, operator cannot be to the eliminating of this fault, and, internal welding machine holds out against on inner-walls of duct due to the pawl that rises, have no idea steel pipe of walking out, pipe after welding can only be separated, the normal technical problem worked below just can be carried out after getting rid of internal welding machine fault, and then can be by this gas tube, this rear tensioning cylinder is inflated by quick plug, thus the pawl that rises of tensioning cylinder is regained after controlling.

6, owing to being separately installed with relief valve on this main air accumulator and auxiliary gas tank, when the blowing pressure of this main air accumulator and auxiliary gas tank is more than the setting pressure of relief valve, this relief valve automatically opens up venting and the pressure of this main air accumulator Yu auxiliary gas tank is adjusted to preset range so that each starting element will not damage because of superpressure or explosion accident occurs.

Accompanying drawing explanation

Fig. 1 is the structural representation of internal welding machine pneumatic system in the embodiment of the present invention.

Detailed description of the invention

The embodiment of the present invention, by providing a kind of internal welding machine pneumatic system, solves and there is the technical problem that cannot effectively control internal welding machine walking in prior art, and then achieve the technique effect that can effectively control the internal welding machine speed of travel.

In order to solve above-mentioned technical problem, below in conjunction with Figure of description and specific embodiment, technique scheme is described in detail.

A kind of internal welding machine pneumatic system that the present invention provides, as shown in Figure 1, including main air accumulator 4, remote control air relief valve 11, regulation air relief valve 10, air motor, first electromagnetic valve 13, wherein, this air motor is for driving the walking mechanism of internal welding machine, concrete annexation: the gas outlet of main air accumulator 4 is connected with air motor by the first air inlet pipeline, this far control air relief valve 11 is connected on the first air inlet pipeline, this regulation air relief valve 10 one end connects remote control air relief valve 11, the other end connects the gas outlet of main air accumulator 4, it is connected between remote control air relief valve 11 and air motor and has the first electromagnetic valve 13.Concrete control principle, this first electromagnetic valve 13 is for controlling the break-make of this first air inlet pipeline, to control the opening and closing of this air motor, the gas being passed through is reduced pressure with default pressure relief value by this regulation air relief valve 10 for controlling this far control air relief valve 11, to change this air motor admission pressure when opening, thus control the speed of travel of internal welding machine.

In a particular embodiment, this air motor is specifically as follows two, it is the first air motor 21 and the second air motor 22, so, the first electromagnetic valve 13 can not only control the opening and closing of the first air motor 21, it is also possible to controls the opening and closing of the second air motor 22, the walking mechanism that the two air motor all connects, wherein, the first air motor 21 can control walking mechanism and keep straight on, and the second air motor 22 can control walking mechanism uplink and downlink.Walking mechanism is controlled, it is possible to more flexible controls internal welding machine activity in pipe by two air motors.

nullIt is connected between this first electromagnetic valve 13 and air motor and has fast-discharge valve，As a example by above-mentioned air motor has two，Fast-discharge valve 18 is connected respectively at the first air motor 21 two ends、19，Fast-discharge valve 16 is connected respectively at the second air motor 22 two ends、17，When the switch of connection the first air motor 21 opened by the first electromagnetic valve 13，If the first air motor 21 rotates clockwise，Then one of them fast-discharge valve 18 at these the first air motor 21 two ends is exitted，When this first air motor 21 rotates counterclockwise，Then another fast-discharge valve 19 is exitted，When the switch of connection the second air motor 20 opened by the first electromagnetic valve 13，If the second air motor 20 rotates clockwise，Then one of them fast-discharge valve 16 at these the second air motor 22 two ends is exitted，When this second air motor 20 rotates counterclockwise，Then another fast-discharge valve 17 is exitted，Therefore，The effect of fast-discharge valve is to carry out Quick air-discharge.

It is connected by the second air inlet pipeline in parallel with this first air inlet pipeline between the gas outlet and air motor of this main air accumulator 4, connecting on this second air inlet pipeline and have hand-operated valve group, this hand-operated valve group includes for controlling first manual control valve 14 that air motor rotates clockwise and for controlling second-hand's brake control valve 15 that air motor rotates counterclockwise.When power-off or undertension, internal welding machine needs walking, now, controls the walking of this internal welding machine and is controlled by this hand-operated valve group, it is possible to when avoiding power-off or undertension, the internal welding machine uncontrollable technical problem of walking.

The most also include auxiliary gas tank 9, three line-up clamp cylinders (34, 35, 36), brake cylinder 33, front tensioning cylinder 31, rear tensioning cylinder 30, the second electromagnetic valve 23 is passed through to three line-up clamp cylinders (34 in this auxiliary gas tank 9 gas outlet, 35, 36) supply, brake cylinder 33 is supplied by this auxiliary gas tank 9 gas outlet by the 3rd electromagnetic valve 24, top is stretched cylinder by the 4th electromagnetic valve 25 and is supplied 32 by this auxiliary gas tank 9 gas outlet, front tensioning cylinder 31 is supplied by this auxiliary gas tank 9 gas outlet by the 5th electromagnetic valve 26, rear tensioning cylinder 30 is supplied by this auxiliary gas tank 9 gas outlet by the 6th electromagnetic valve 27, this auxiliary gas tank 9 air inlet connects the gas outlet of main air accumulator 4.By auxiliary gas tank 9 is cooperated with main air accumulator 4 so that two air accumulators are each filled with compressed air for a whole set of pneumatic system.Main air accumulator 4 volume is big, gas-storing capacity is many, and air motor air consumption is bigger, this pneumatic system directly provides power source with main air accumulator 4 for it, and the cylinder gas consumption of 7 cylinders that auxiliary gas tank 9 connects is less, simultaneously in order to avoid main air accumulator 4 because each cylinder is released the impact of power by the decline of pressure, this pneumatic system uses auxiliary gas tank 9 to supply 7 cylinders.The normal effectively work of each cylinder can be effectively controlled by the electromagnetic valve between each cylinder above-mentioned and auxiliary gas tank 9.

In a particular embodiment, using three line-up clamp cylinders (34,35,36) to be able to ensure to be directed at pipeline joint-seam like clockwork, these three line-up clamp can uniform three points on corresponding circumference.Magnetic switch (38,39,40) is connected in gas circuit between each line-up clamp cylinder and the second electromagnetic valve 23, this magnetic switch is used for detecting in line-up clamp cylinder piston position to judge cylinder state, only when the magnetic switch state on three line-up clamp cylinders is all normal, just can carry out operation below, avoid misoperation, damage the situation of device.In magnetic switch detection line-up clamp cylinder, piston position is particularly as follows: when in three line-up clamp cylinders, piston has one to be not on normal condition, the state of the magnetic switch that magnetic switch that this line-up clamp cylinder is corresponding is corresponding with other line-up clamp cylinder is the most different, such as, the piston having a line-up clamp cylinder is in compressive state, corresponding magnetic switch is in opening, the piston of other two line-up clamp cylinders is not at compressive state, corresponding magnetic switch is in closure state, magnetic switch is in the line-up clamp cylinder that closure state shows and is in normal operating conditions, now, it is able to detect that a line-up clamp cylinder is not on normal condition.Only when all of magnetic switch (38,39,40) is in closure state, guarantee all of line-up clamp cylinder (34,35,36) is in normal condition.

It is connected in gas circuit between this front tensioning cylinder 31 and the 5th electromagnetic valve 26 and has pressure switch 37, this pressure switch 37 for judging the state of this front tensioning cylinder by detecting the pressure of this front tensioning cylinder, pressure switch 37 specifically includes sensing pressure components and parts and controls switch, this pressure switch 37 is by sensing pressure components and parts detection cylinder pressure size, the state of this front tensioning cylinder is judged according to pressure sizes values, thus when force value reaches preset pressure value, open and control switch, it is achieved pneumatic action.Ensure only when this front tensioning cylinder 31 is in normal-pressure situations, just control normal operating pneumatic so that collaborative work between each cylinder.

It is connected the first quick plug 29 between rear tensioning cylinder 30 and the 6th electromagnetic valve 27, the one-way air inlet mouth of this first quick plug 29 connects gas tube, this first quick plug 29 is specially check valve, under normal circumstances, will not discharge from this first quick plug 29 from rear tensioning cylinder 30 gas out, when the piston rod of rear tensioning cylinder 30 has no idea to return due to the fault of the 6th electromagnetic valve 27, can be inflated to this rear tensioning cylinder 30 from the gas tube that this first quick plug 29 connects by outside, thus piston rod is return, so, the rear tensioner pawl of internal welding machine the most no longer withstands on the steel pipe inner wall welded, no longer tensioner.

The above-mentioned description being the work to each cylinder that auxiliary gas tank 9 connects and carrying out, below the segmentation between main air accumulator 4 and auxiliary gas tank 9 is overhauled and be described, it is connected between main air accumulator 4 and auxiliary gas tank 9 and has first manual ball valve 6, when closing this first manual ball valve 6, gas circuit between main air accumulator 4 and auxiliary gas tank 9 being blocked, connecting in the gas circuit that the gas outlet of auxiliary gas tank 9 connects the second electromagnetic valve the 23, the 3rd electromagnetic valve the 24, the 4th electromagnetic valve the 25, the 5th electromagnetic valve the 26, the 6th electromagnetic valve 27 has the second manual ball valve 28.So, by being closed by first manual ball valve 6, a whole set of gas circuit is divided into not connected two section, it is possible to the gas circuit of main air accumulator 4 supply and the gas circuit of auxiliary gas tank 9 supply are disconnected, it is achieved segmentation is overhauled.At this auxiliary gas tank 9 gassy, if needing this auxiliary air passage is overhauled, then can open this second manual ball valve 28, exit, exit complete, can overhaul, which save the waiting time, also improve efficiency.

Main air accumulator 4 is provided with relief valve 5, auxiliary gas tank 9 is provided with relief valve 8, when the blowing pressure of this main air accumulator 4 or auxiliary gas tank 9 is more than the setting pressure of relief valve, this relief valve automatically opens up venting and is adjusted in preset range by the pressure in this main air accumulator 4 or auxiliary gas tank 9.Make each pneumatic element will not damage because of superpressure or explosion accident occurs.

Connecting in the air inlet pipe of main air accumulator 4 and have the second quick plug 1, filter 2, Pressure gauge 3, gas is entered by the second quick plug 1, flows through filter 2 and Pressure gauge 3, finally enters this main air accumulator 4.Thus ensure to enter the pure of the gas in this main air accumulator 4, meanwhile, Pressure gauge 3 can show gas pressure situation.

It is also associated with oil sprayer 12 between main air accumulator 4 and remote control air relief valve 11, it is connected between auxiliary gas tank 9 with the second electromagnetic valve the 23, the 3rd electromagnetic valve the 24, the 4th electromagnetic valve the 25, the 5th electromagnetic valve the 26, the 6th electromagnetic valve 27 and has oil sprayer 22, use this oil sprayer, lubricating oil is carried out atomization and injects in air stream, need the position of lubrication along with compressed air flows into, thus reach the purpose of lubrication.It is connected between first manual ball valve 6 with auxiliary air reservoir 9 and has check valve 7 so that the gas in auxiliary gas tank 9 can not flow back in main air accumulator 4.

Although preferred embodiments of the present invention have been described, but those skilled in the art once know basic creative concept, then these embodiments can be made other change and amendment.So, claims are intended to be construed to include preferred embodiment and fall into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification without deviating from this to the present invention

Bright spirit and scope.So, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (10)

1. an internal welding machine pneumatic system, it is characterised in that including main air accumulator, far control air relief valve, regulation air relief valve, air motor, the first electromagnetic valve, described air motor is for driving the walking mechanism of internal welding machine；

The gas outlet of described main air accumulator is connected with described air motor by the first air inlet pipeline, described remote control air relief valve is connected on described first air inlet pipeline, described regulation air relief valve one end connects described remote control air relief valve, the other end connects the gas outlet of described main air accumulator, is connected and has the first electromagnetic valve between described remote control air relief valve and described air motor；

Described first electromagnetic valve is for controlling the break-make of described first air inlet pipeline, to control the opening and closing of described air motor, the gas being passed through is reduced pressure with default pressure relief value by described regulation air relief valve for controlling described remote control air relief valve, to change the described air motor admission pressure when opening, thus control the speed of travel of described internal welding machine.

Internal welding machine pneumatic system the most according to claim 1, it is characterised in that be also associated with fast-discharge valve between described first electromagnetic valve and described air motor.

Internal welding machine pneumatic system the most according to claim 1, it is characterized in that, it is connected by the second air inlet pipeline in parallel with described first air inlet pipeline between the gas outlet of described main air accumulator and described air motor, described second air inlet pipeline connects and has hand-operated valve group, described hand-operated valve group to include for controlling first manual control valve that described air motor rotates clockwise and for controlling second-hand's brake control valve that described air motor rotates counterclockwise.

Internal welding machine pneumatic system the most according to claim 1, it is characterized in that, also include auxiliary gas tank, three line-up clamp cylinders, brake cylinder, cylinder is stretched on top, front tensioning cylinder, rear tensioning cylinder, three line-up clamp cylinders are supplied by described auxiliary gas tank gas outlet by the second electromagnetic valve, brake cylinder is supplied by described auxiliary gas tank gas outlet by the 3rd electromagnetic valve, top is stretched cylinder by the 4th electromagnetic valve and is supplied by described auxiliary gas tank gas outlet, front tensioning cylinder is supplied by described auxiliary gas tank gas outlet by the 5th electromagnetic valve, rear tensioning cylinder is supplied by described auxiliary gas tank gas outlet by the 6th electromagnetic valve, described auxiliary gas tank air inlet connects the gas outlet of described main air accumulator.

Internal welding machine pneumatic system the most according to claim 4, it is characterised in that be connected magnetic switch in the gas circuit between described each line-up clamp cylinder and described second electromagnetic valve, described magnetic switch is for detecting the state of described line-up clamp cylinder.

Internal welding machine pneumatic system the most according to claim 4, it is characterized in that, being connected in gas circuit between described front tensioning cylinder with described 5th electromagnetic valve and have pressure switch, described pressure switch for judging the state of described front tensioning cylinder by detecting the pressure of described front tensioning cylinder.

Internal welding machine pneumatic system the most according to claim 4, it is characterised in that be connected between described rear tensioning cylinder with described 6th electromagnetic valve and have the first quick plug, the one-way air inlet mouth of described first quick plug connects gas tube.

Internal welding machine pneumatic system the most according to claim 4, it is characterized in that, connect between described main air accumulator and auxiliary gas tank and have first manual ball valve, when closing described first manual ball valve, gas circuit between described main air accumulator and described auxiliary gas tank being blocked, connecting in the gas circuit that the gas outlet of described auxiliary gas tank is connected to described second electromagnetic valve, the 3rd electromagnetic valve, the 4th electromagnetic valve, the 5th electromagnetic valve, the 6th electromagnetic valve has the second manual ball valve.

Internal welding machine pneumatic system the most according to claim 3, it is characterized in that, it is separately installed with relief valve on described main air accumulator and described auxiliary gas tank, when the blowing pressure of described main air accumulator or described auxiliary gas tank is more than the setting pressure of described relief valve, described relief valve automatically opens up venting and is adjusted in preset range by the pressure in described main air accumulator or described auxiliary gas tank.

Internal welding machine pneumatic system the most according to claim 1, it is characterized in that, the air inlet pipe of described main air accumulator connects the second quick plug, filter, Pressure gauge, and gas is entered by the second quick plug, flow through filter and Pressure gauge, enter described main air accumulator.