CN105604878A - Heat source gas extraction device - Google Patents

Abstract

The invention discloses a heat source gas extraction device and belongs to a heat source gas mining technology. An electromagnetic coil and a magnetic field controller are installed in a protective shell of the heat source gas extraction device, and a foot stood is fixed to the lower side outside the protective shell; the electromagnetic coil is fixed to the upper side outside a supercharging shell, and the lower end of the supercharging shell is fixed to the lower end in the protective shell; a pipe-shaft type gas outlet valve, a gas inlet valve, a power spring and a magnetism-induced piston are installed in the supercharging shell, the lower end of the pipe-shaft type gas outlet valve penetrates through a center hole in one end of the upper side of the supercharging shell and then penetrates through the power spring and the magnetism-induced piston, the gas inlet valve is matched with a boss at the inner end of a gas inlet so that a heat source gas inlet channel can be sealed or opened. The heat source gas extraction device is compact in structure, small in size, high in power, strong in power, high in heat source gas extraction efficiency and low in electric energy consumption.

Description

Thermal source gas extraction device

Technical field

The present invention relates to a kind of thermal source gas extraction device of carrying to thermal source gas boosting in thermal source gas technology field.

Background technology

The extraction of traditional thermal source gas is to adopt the inflating pump compressor/heat source gas of toggle to extract, the large inefficiency of volume of the inflating pump of toggle. For this reason, we have designed the thermal source gas extraction device that volume is little, pumping efficiency is high.

Summary of the invention

A kind of utilization rate of electrical is high, manufacture and the method thereof of the thermal source gas extraction device that efficiently extracts thermal source gas in order to provide for the object that the present invention relates to.

For achieving the above object, thermal source gas extraction device of the present invention mainly comprises protecting crust, solenoid, supercharging shell, air admission hole, air intake valve, power spring, ball sealer or sealing cone, answers magnetic piston, tubular shaft type air outlet valve, field controller; Or described thermal source gas extraction device mainly comprises protecting crust, solenoid, supercharging shell, air admission hole, air intake valve, power spring, ball sealer or sealing cone, answers magnetic piston, tubular shaft type air outlet valve, field controller, electronic remote controller.

Solenoid is installed in protecting crust, and solenoid is fixed on the upper part of supercharging shell outside, and protecting crust is fixed on the outside protection solenoid of the bottom of supercharging shell; Below the outside of protecting crust, one side is fixed with foot rest, and the lower end of foot rest is lower than the position of the air admission hole of supercharging shell lower end.

The circuit that connects solenoid is connected with field controller, and the circuit of field controller is connected with insulated electric conductor, and field controller is arranged in protecting crust; Or, the circuit that connects solenoid is connected with field controller, the circuit of field controller is connected with electronic remote controller, and electronic remote controller is connected with insulated electric conductor, and the electronic signal receiver of field controller, electronic remote controller and electronic remote controller is arranged in protecting crust.

Tubular shaft type air outlet valve is installed in supercharging shell, air intake valve, power spring, answer magnetic piston, tubular shaft type air outlet valve is fixed on the centre bore of one end above of supercharging shell, the lower end of tubular shaft type air outlet valve is from the centre bore of the upper end of supercharging shell passes, enter in supercharging shell through power spring, after answering magnetic piston, enter into the one side place above that approaches air intake valve, the one side above of the lower end of tubular shaft type air outlet valve and air intake valve is gapped, below air intake valve, one side coordinates with the inner boss of the air admission hole of the lower end of supercharging shell and can seal or open the inlet channel entering in supercharging shell, power spring is arranged on the upper part of the inner chamber of supercharging shell, answers magnetic piston to be arranged on the lower part of the inner chamber of supercharging shell, and power spring is pressed in answers on magnetic piston, the part that the upper surface of supercharging shell is exposed in the upper end of tubular shaft type air outlet valve is connected with the pipeline of conveying thermal source gas by flexible pipe or hard tube.

Described protecting crust is the hollow cavity of annular, wired hole on hollow cavity; Solenoid and field controller are installed in hollow cavity, or, solenoid, field controller and electronic remote controller are installed in hollow cavity; The inner of the annular housing of hollow cavity is fixed on supercharging shell; Line hole is the hole that allows insulated electric conductor pass.

The inner chamber of described supercharging shell is cylinder, and the upper end on the center line of inner chamber has centre bore to pass supercharging shell, lower end has air admission hole to pass supercharging shell, has independently passage on the side of centre bore; Have annular boss in the inner of air admission hole, the end face of boss is sealed end, and sealed end coordinates with one side below air intake valve; Described passage can make the inner chamber that the supercharging shell of answering magnetic piston portion is installed communicate with atmosphere, reduces the working resistance while answering magnetic piston to move up and down.

In order to facilitate processing and the assembling of supercharging shell, supercharging shell from upper end or lower end segmental machining recombinant together, or from three sections of processing are punished in top and bottom, recombinant is together supercharging shell.

Described air intake valve is dull and stereotyped, below dull and stereotyped, one side is sealing surface, sealing surface coordinates with the inner annular boss of air admission hole can seal inlet channel and opening into the passage of thermal source gas, air intake valve coordinates with boss and has air passing hole in part beyond the part that seals, air passing hole be gas through via hole.

Described tubular shaft type air outlet valve comprises hollow valve body and ball sealer or sealing cone, and hollow valve body is the hollow shaft of hollow pipe-type, and the surface that hollow valve body stretches into the part in supercharging shell is the smooth face of cylinder, and the face of cylinder coordinates with the center hole of answering magnetic piston; The lower end of the hollow valve body sealed end of giving vent to anger, the give vent to anger lower surface of sealed end is inner conical surface in lower end, the upper surface of hollow valve body, the large end of inner conical surface communicates with the upper end of tubular shaft type air outlet valve, small end communicates with the lower end of tubular shaft type air outlet valve, and ball sealer or sealing cone are installed on inner conical surface; Inner conical surface coordinates with the sphere of ball sealer or coordinates with the male cone (strobilus masculinus) of sealing cone, under the effect of the gravity of ball sealer or sealing cone, can seal inner conical surface, when enter the thermal source gas of pressure from the endoporus of hollow valve body lower end, can open the sealing that inner conical surface and ball sealer or sealing bore and form passage.

The described magnetic piston of answering is columniform iron core, and there is smooth center hole at the position of the center line of columniform iron core, and the periphery of columniform iron core is smooth periphery; The annular groove that has depression in smooth center hole, annular groove is embedded with sealing ring; The annular groove that has depression on smooth periphery, annular groove is embedded with sealing ring; Center hole coordinates with the face of cylinder of hollow valve body and can O-ring cylinder, and can on the face of cylinder of hollow valve body, slide; Periphery coordinates inner chamber that can sealing type pressure shell with the inner chamber of supercharging shell, and can in the inner chamber of supercharging shell, slide.

Described field controller is to control the controller that generates an electromagnetic field of solenoid, controlling the time that electromagnetic field produces and generate an electromagnetic field the length of time and generate an electromagnetic field at every turn after to the interval time generating an electromagnetic field again for the second time.

Described solenoid is the solenoid that can generate an electromagnetic field.

Described electronic remote controller is connect and cut off the contactor generating an electromagnetic field, and comprises the switch sections and the electronic telecontrol part that switch on or off circuit, and electronic telecontrol part comprises remote controller switch and electronic signal receiver; Remote controller switch is carried for staff, is convenient to the normal work of staff's commanding apparatus and the control circuit of the equipment of cut-out; Described electronic remote controller can have also and can not have in the present invention.

Described sealing cone is cone or cone cylinder, and the periphery of cone or cone cylinder is male cone (strobilus masculinus), and male cone (strobilus masculinus) coordinates with inner conical surface.

Described ball sealer is spherosome or oval ball, and the surface of spherosome or oval ball is sphere, and the sphere of spherosome or oval ball coordinates with inner conical surface.

Described air admission hole be the thermal source gas inner chamber that enters supercharging shell through via hole, the upper end of air admission hole is that inner, lower end is outer end.

Described thermal source gas extraction device is in the process of extraction thermal source gas, and the valve of controlling air inlet neutralizes in the unidirectional non-return valve of giving vent to anger does not have return spring; While giving vent to anger, adopt the gravity of air intake valve automatically to decline return and close inlet channel and seal, adopt pressure to open the outlet passageway outside thermal source gas output supercharging shell; When air inlet, the gravity that adopts ball sealer or sealing cone automatically declines return and closes outlet passageway and seal, and adopts suction to open thermal source gas and enters the passage in supercharging shell.

In order to ensure that thermal source gas extraction device can normally work, adopt the contactor connecting with insulated electric conductor to connect connection and the cut-out of the connecting circuit of controlling solenoid.

For the thermal source gas below magnetic piston of answering that makes to answer magnetic piston can promote in supercharging shell enters tubular shaft type air outlet valve, adopt power spring as the power that promotes to answer the acting of magnetic piston.

When use, the air admission hole of thermal source gas extraction device is directly or indirectly connected with the gas outlet that produces thermal source gas apparatus. there is no remote control, directly connect the contactor that is connected with insulated electric conductor and the power-on circuit of field controller, have electronic remote controller, press the starting button of remote controller switch, electronic signal receiver receives the circuit of connecting electronic remote controller and field controller after initiating signal, the power-on circuit that field controller is connected solenoid generates an electromagnetic field, the attraction that electromagnetic field produces pulls the pressure of answering magnetic piston to overcome power spring to move up, now, the cavity below magnetic piston of answering in supercharging shell has produced pull of vacuum, pull of vacuum is inhaled moving air intake valve and is opened and air intake valve and boss are separated, thermal source gas enters after air admission hole, after the inner chamber that enters supercharging shell, enters the inner chamber of answering the supercharging shell below magnetic piston from the air passing hole of air intake valve through the boss of air admission hole the inner, while answering magnetic piston stroking upward to move to the limit position of compression power spring, the power-on circuit of field controller cutoff solenoid, magnetic field diminishes, answer magnetic piston descending and promote the thermal source gas in supercharging shell and make thermal source γ-ray emission internal pressure under the promotion of power spring, now, air intake valve is closed inlet channel under the effect of self gravitation, the inner conical surface that the thermal source gas that has pressure enters from the lower end of hollow valve body the sealed end of giving vent to anger upwards wash open with the ball sealer of the inner conical surface sealing of the sealed end of giving vent to anger or the displacement of sealing cone continuation up, enter flexible pipe or hard tube and be transported in the container of gas pipeline or transport thermal source gas through conveyance conduit from the upper end of hollow valve body. answer magnetic piston under the promotion of power spring when descending putting in place, ball sealer or sealing cone are descending under the effect of the gravity of self to be shut inner conical surface and makes gas not return to the inner chamber of supercharging shell, now, the power-on circuit that field controller is connected again solenoid generates an electromagnetic field again, so connection of circulation and cut off circuit, constantly goes out air pump and is transported in the container of gas pipeline or transport thermal source gas. taking out in the process of thermal source gas, answer magnetic piston in the time that the inner chamber of supercharging shell moves up and down, air, from the inner chamber of passage turnover supercharging shell, reduces to answer the working resistance of magnetic piston.

A manufacture method for thermal source gas extraction device, is characterized in that:

Protecting crust creates the hollow cavity of annular, wired hole on hollow cavity, and line hole creates the hole that allows insulated electric conductor pass; Solenoid and field controller are installed in hollow cavity, or, solenoid, field controller and electronic remote controller are installed in hollow cavity; The inner of the annular housing of hollow cavity is fixed on supercharging shell.

For convenient for assembly, during fabrication, protecting crust, from the place of middle shape maximum is divided into two parts manufacture, recombinant is together for protecting crust.

The inner chamber of supercharging shell creates cylindrical cavity, and manufacture the upper end on the center line of inner chamber has centre bore to pass supercharging shell, lower end manufacture has air admission hole to pass supercharging shell, manufactures and has independently passage on the side of centre bore; Manufacture and have annular boss in the inner of air admission hole, the end face of boss creates sealed end, and sealed end coordinates with one side below air intake valve; Described passage can make the inner chamber that the supercharging shell of answering magnetic piston portion is installed communicate with atmosphere, reduces the working resistance while answering magnetic piston to move up and down.

In order to facilitate processing and the assembling of supercharging shell, supercharging shell during fabrication, supercharging shell from upper end or lower end segmentation manufacture recombinant together, or from three sections of manufactures are punished in top and bottom, recombinant is together supercharging shell.

Air intake valve creates flat board, below dull and stereotyped, one side creates sealing surface, sealing surface coordinates with the inner boss of air admission hole can seal inlet channel and opening into the passage of thermal source gas, air intake valve coordinates with boss and has manufacture air passing hole in part beyond the part that seals, air passing hole create gas through via hole.

Tubular shaft type air outlet valve creates hollow valve body and ball sealer or sealing cone two parts, hollow valve body creates the hollow shaft of hollow pipe-type, the surface that hollow valve body stretches into the part in supercharging shell creates the smooth face of cylinder, and the face of cylinder coordinates with the center hole of answering magnetic piston; The sealed end of giving vent to anger is manufactured in the lower end of hollow valve body, lower end, the upper surface that the lower surface of sealed end is manufactured on hollow valve body of giving vent to anger creates inner conical surface, the large end of inner conical surface communicates with the upper end of tubular shaft type air outlet valve, small end communicates with the lower end of tubular shaft type air outlet valve, and ball sealer or sealing cone are installed on inner conical surface; Inner conical surface coordinates with the sphere of ball sealer or coordinates with the male cone (strobilus masculinus) of sealing cone, under the effect of the gravity of ball sealer or sealing cone, can seal inner conical surface, when enter the thermal source gas of pressure from the endoporus of hollow valve body lower end, can open the sealing that inner conical surface and ball sealer or sealing bore and form passage.

Answer magnetic piston to create columniform iron core, manufacture at the position of the center line of columniform iron core smooth center hole, and the periphery of columniform iron core creates smooth periphery; In smooth center hole, manufacture the annular groove that has depression, annular groove is embedded with sealing ring; On smooth periphery, manufacture the annular groove that has depression, annular groove is embedded with sealing ring; Center hole coordinates with the face of cylinder of hollow valve body and can O-ring cylinder, and can on the face of cylinder of hollow valve body, slide; Periphery coordinates inner chamber that can sealing type pressure shell with the inner chamber of supercharging shell, and can in the inner chamber of supercharging shell, slide.

Field controller creates controls the controller that generates an electromagnetic field of solenoid, controlling the time that electromagnetic field produces and generate an electromagnetic field the length of time and generate an electromagnetic field at every turn after to the interval time generating an electromagnetic field again for the second time.

Electronic remote controller creates to be connected and cuts off the contactor generating an electromagnetic field, and comprises the switch sections and the electronic telecontrol part that switch on or off circuit, and electronic telecontrol part comprises remote controller switch and electronic signal receiver; Described electronic remote controller can have in the present invention, also can not have.

Solenoid creates the solenoid that can generate an electromagnetic field.

Sealing cone creates cone or cone cylinder, and the periphery of cone or cone cylinder creates male cone (strobilus masculinus), and male cone (strobilus masculinus) coordinates with inner conical surface.

Ball sealer creates spherosome or oval ball, and ball sealer creates spherosome or oval ball, and the surface of spherosome or oval ball creates sphere, and sphere creates sealing surface, and sphere coordinates with inner conical surface.

Air admission hole create thermal source gas enter supercharging shell inner chamber through via hole, the upper end of air admission hole creates the inner, lower end creates outer end.

In order to ensure that thermal source gas extraction device can normally work, adopt the contactor connecting with insulated electric conductor to connect connection and the cut-out of the connecting circuit of controlling solenoid.

For the thermal source gas below magnetic piston of answering that makes to answer magnetic piston can promote in supercharging shell enters tubular shaft type air outlet valve, adopt power spring as the power that promotes to answer the acting of magnetic piston.

Solenoid is installed in protecting crust, and solenoid is fixed on the upper part of supercharging shell outside, and protecting crust is fixed on the outside protection solenoid of the bottom of supercharging shell, below the outside of protecting crust, one side is fixed with foot rest, and the lower end of foot rest is lower than the position of the air admission hole of supercharging shell lower end. the circuit that connects solenoid is connected with field controller, and the circuit of field controller is connected with insulated electric conductor, and field controller is arranged in protecting crust, or, the circuit that connects solenoid is connected with field controller, the circuit of field controller is connected with electronic remote controller, and electronic remote controller is connected with insulated electric conductor, and the electronic signal receiver of field controller, electronic remote controller and electronic remote controller is arranged in protecting crust. tubular shaft type air outlet valve is installed in supercharging shell, air intake valve, power spring, answer magnetic piston, tubular shaft type air outlet valve is fixed on the centre bore of one end above of supercharging shell, the lower end of tubular shaft type air outlet valve is from the centre bore of the upper end of supercharging shell passes, enter in supercharging shell through power spring, after answering magnetic piston, enter into the one side place above that approaches air intake valve, the one side above of the lower end of tubular shaft type air outlet valve and air intake valve is gapped, below air intake valve, one side coordinates with the inner boss of the air admission hole of the lower end of supercharging shell and can seal or open the inlet channel entering in supercharging shell, power spring is arranged on the upper part of the inner chamber of supercharging shell, answers magnetic piston to be arranged on the lower part of the inner chamber of supercharging shell, and power spring is pressed in answers on magnetic piston, the part that the upper surface of supercharging shell is exposed in the upper end of tubular shaft type air outlet valve is connected with the pipeline of conveying thermal source gas by flexible pipe or hard tube.

Compact conformation, the volume of thermal source gas extraction device of the present invention are little, power is large, powerful, and the efficiency that extracts thermal source gas is high, and power consumption is low; The market prospects of industrialization are good, commercial value is high, manufacture and use all very convenient.

Brief description of the drawings

Fig. 1 and Fig. 2 are the overall structure schematic diagrames of thermal source gas extraction device.

Shown in figure: supercharging shell 1, answer magnetic piston 2, power spring 3, hollow valve body 4, ball sealer or sealing cone 5, solenoid 6, protecting crust 7, air admission hole 9, foot rest 11, air passing hole 12, air intake valve 13.

Detailed description of the invention

Thermal source gas extraction device of the present invention mainly comprises protecting crust 7, solenoid 6, supercharging shell 1, air admission hole 9, air intake valve 13, power spring 3, ball sealer or sealing cone 5, answers magnetic piston 2, tubular shaft type air outlet valve, field controller; Or comprise protecting crust 7, solenoid 6, supercharging shell 1, air admission hole 9, air intake valve 13, power spring 3, ball sealer or sealing cone 5, answer magnetic piston 2, tubular shaft type air outlet valve, field controller, electronic remote controller.

Solenoid 6 is installed in protecting crust 7, and solenoid 6 is fixed on the upper part of supercharging shell 1 outside, and protecting crust 7 is fixed on the outside protection solenoid 6 of the bottom of supercharging shell 1; Below the outside of protecting crust 7, one side is fixed with foot rest 11, and the lower end of foot rest 11 is lower than the position of the air admission hole 9 of supercharging shell 1 lower end.

The circuit that connects solenoid 6 is connected with field controller, and the circuit of field controller is connected with insulated electric conductor, and field controller is arranged in protecting crust 7; Or, the circuit that connects solenoid 6 is connected with field controller, the circuit of field controller is connected with electronic remote controller, and electronic remote controller is connected with insulated electric conductor, and the electronic signal receiver of field controller, electronic remote controller and electronic remote controller is arranged in protecting crust 7.

Tubular shaft type air outlet valve is installed in supercharging shell 1, air intake valve 13, power spring 3, answer magnetic piston 2, tubular shaft type air outlet valve is fixed on the centre bore of one end above of supercharging shell 1, the lower end of tubular shaft type air outlet valve is from the centre bore of the upper end of supercharging shell 1 passes, enter in supercharging shell 1 through power spring 3, after answering magnetic piston 2, enter into the one side place above that approaches air intake valve 13, the one side above of the lower end of tubular shaft type air outlet valve and air intake valve 13 is gapped, below air intake valve 13, one side coordinates with the inner boss of the air admission hole 9 of the lower end of supercharging shell 1 and can seal or open the inlet channel entering in supercharging shell 1, power spring 3 is arranged on the upper part of the inner chamber of supercharging shell 1, answers magnetic piston 2 to be arranged on the lower part of the inner chamber of supercharging shell 1, and power spring 3 is pressed in answers on magnetic piston 2, the part that the upper surface of supercharging shell 1 is exposed in the upper end of tubular shaft type air outlet valve is connected with the pipeline of conveying thermal source gas by flexible pipe or hard tube.

Protecting crust 7 creates the hollow cavity of annular, wired hole on hollow cavity, and line hole creates the hole that allows insulated electric conductor pass; Solenoid 6 and field controller are installed in hollow cavity, or, solenoid 6, field controller and electronic remote controller are installed in hollow cavity; The inner of the annular housing of hollow cavity is fixed on supercharging shell 1.

For convenient for assembly, during fabrication, protecting crust 7, from the place of middle shape maximum is divided into two parts manufacture, recombinant is together for protecting crust 7.

The inner chamber of supercharging shell 1 creates cylindrical cavity, and manufacture the upper end on the center line of inner chamber has centre bore to pass supercharging shell 1, lower end manufacture has air admission hole 9 through supercharging shell 1, manufactures and has independently passage on the side of centre bore; Manufacture and have annular boss in the inner of air admission hole 9, the end face of boss creates sealed end, and sealed end coordinates with one side below air intake valve 13; Described passage can make the inner chamber that the supercharging shell 1 of answering magnetic piston 2 parts is installed communicate with atmosphere, reduces the working resistance while answering magnetic piston 2 to move up and down.

In order to facilitate processing and the assembling of supercharging shell 1, supercharging shell 1 during fabrication, supercharging shell 1 from upper end or lower end segmentation manufacture recombinant together, or from three sections of manufactures are punished in top and bottom, recombinant is together supercharging shell 1.

Air intake valve 13 creates flat board, below dull and stereotyped, one side creates sealing surface, sealing surface coordinates with the inner boss of air admission hole 9 can seal inlet channel and opening into the passage of thermal source gas, air intake valve 13 coordinate with boss and in part beyond the part that seals, have the air passing hole 12 of manufacture, air passing hole 12 create gas through via hole.

Tubular shaft type air outlet valve creates hollow valve body 4 and ball sealer or sealing cone 5 two parts, hollow valve body 4 creates the hollow shaft of hollow pipe-type, the surface that hollow valve body 4 stretches into the part in supercharging shell 1 creates the smooth face of cylinder, and the face of cylinder coordinates with the center hole of answering magnetic piston 2; The sealed end of giving vent to anger is manufactured in the lower end of hollow valve body 4, lower end, the upper surface that the lower surface of sealed end is manufactured on hollow valve body 4 of giving vent to anger creates inner conical surface, the large end of inner conical surface communicates with the upper end of tubular shaft type air outlet valve, small end communicates with the lower end of tubular shaft type air outlet valve, and ball sealer or sealing cone 5 are installed on inner conical surface; Inner conical surface coordinates with the male cone (strobilus masculinus) of ball sealer or sealing cone 5, under the effect of the gravity of ball sealer or sealing cone 5, inner conical surface be can seal, inner conical surface and ball sealer when enter the thermal source gas of pressure from the endoporus of hollow valve body 4 lower ends, can be opened or sealing is bored 5 sealing and forms passage.

Answer magnetic piston 2 to create columniform iron core, manufacture at the position of the center line of columniform iron core smooth center hole, and the periphery of columniform iron core creates smooth periphery; In smooth center hole, manufacture the annular groove that has depression, annular groove is embedded with sealing ring; On smooth periphery, manufacture the annular groove that has depression, annular groove is embedded with sealing ring; Center hole coordinates with the face of cylinder of hollow valve body 4 and can O-ring cylinder, and can on the face of cylinder of hollow valve body 4, slide; Periphery coordinates inner chamber that can sealing type pressure shell 1 with the inner chamber of supercharging shell 1, and can in the inner chamber of supercharging shell 1, slide.

Field controller creates controls the controller that generates an electromagnetic field of solenoid 6, controlling the time that electromagnetic field produces and generate an electromagnetic field the length of time and generate an electromagnetic field at every turn after to the interval time generating an electromagnetic field again for the second time.

Electronic remote controller creates to be connected and cuts off the contactor generating an electromagnetic field, and comprises the switch sections and the electronic telecontrol part that switch on or off circuit, and electronic telecontrol part comprises remote controller switch and electronic signal receiver; Described electronic remote controller can have in the present invention, also can not have.

Solenoid 6 creates the solenoid 6 that can generate an electromagnetic field.

Sealing cone 5 creates cone or cone cylinder, and the periphery of cone or cone cylinder creates male cone (strobilus masculinus), and male cone (strobilus masculinus) coordinates with inner conical surface.

Ball sealer 5 creates spherosome or oval ball, and ball sealer creates spherosome or oval ball, and the surface of spherosome or oval ball creates sphere, and sphere creates sealing surface, and sphere coordinates with inner conical surface.

Air admission hole 9 create thermal source gas enter supercharging shell 1 inner chamber through via hole, the upper end of air admission hole 9 creates the inner, lower end creates outer end.

In order to ensure that thermal source gas extraction device can normally work, adopt the contactor connecting with insulated electric conductor to connect connection and the cut-out of the connecting circuit of controlling solenoid 6.

In order to make the magnetic piston 2 thermal source gas below of answering of answering magnetic piston 2 can promote in supercharging shell 1 enter tubular shaft type air outlet valve, adopt power spring 3 as the power that promotes to answer magnetic piston 2 to do work.

Described thermal source gas extraction device is in the process of extraction thermal source gas, and the valve of controlling air inlet neutralizes in the unidirectional non-return valve of giving vent to anger does not have return spring; While giving vent to anger, adopt the gravity of air intake valve 13 automatically to decline return and close inlet channel and seal, adopt pressure to open the outlet passageway outside thermal source gas output supercharging shell 1; When air inlet, the gravity that adopts ball sealer or sealing cone 5 automatically declines return and closes outlet passageway and seal, and adopts suction to open thermal source gas and enters the passage in supercharging shell 1.

When use, the air admission hole of thermal source gas extraction device is directly or indirectly connected with the gas outlet that produces thermal source gas apparatus. there is no remote control, directly connect the contactor that is connected with insulated electric conductor and the power-on circuit of field controller, have electronic remote controller, press the starting button of remote controller switch, electronic signal receiver receives the circuit of connecting electronic remote controller and field controller after initiating signal, the power-on circuit that field controller is connected solenoid 6 generates an electromagnetic field, the attraction that electromagnetic field produces pulls the pressure of answering magnetic piston 2 to overcome power spring 3 to move up, now, the cavity below magnetic piston 2 of answering in supercharging shell 1 has produced pull of vacuum, pull of vacuum is inhaled moving air intake valve 13 and is opened and air intake valve 13 and boss are separated, thermal source gas enters after air admission hole, after the inner chamber that enters supercharging shell 1, enters the inner chamber of answering the supercharging shell 1 below magnetic piston 2 from the air passing hole 12 of air intake valve 13 through the boss of air admission hole 9 the inners, while answering the up limit position that moves to compression power spring 3 of magnetic piston 2, the power-on circuit of field controller cutoff solenoid 6, magnetic field diminishes, answer magnetic piston 2 descending and promote the thermal source gas in supercharging shell 1 and make thermal source γ-ray emission internal pressure under the promotion of power spring 3, now, air intake valve 13 is closed inlet channel under the effect of self gravitation, the inner conical surface that the thermal source gas that has pressure enters from the lower end of hollow valve body 4 sealed end of giving vent to anger upwards wash open with the ball sealer of the inner conical surface sealing of the sealed end of giving vent to anger or 5 displacements of sealing cone continuation up, enter flexible pipe or hard tube and be transported in the container of gas pipeline or transport thermal source gas through conveyance conduit from the upper end of hollow valve body 4.

Answer magnetic piston 2 under the promotion of power spring 3 when descending putting in place, descendingly under the effect of ball sealer or sealing cone 5 gravity at self inner conical surface is shut and made gas not return to the inner chamber of supercharging shell 1, now, the power-on circuit that field controller is connected again solenoid 6 generates an electromagnetic field again, so connection of circulation and cut off circuit, constantly goes out air pump and is transported in the container of gas pipeline or transport thermal source gas. Taking out in the process of thermal source gas, answer magnetic piston 2 in the time that the inner chamber of supercharging shell 1 moves up and down, air, from the inner chamber of passage turnover supercharging shell 1, reduces to answer the working resistance of magnetic piston 2.

Claims (3)

1. a thermal source gas extraction device, is characterized in that: described thermal source gas extraction device comprises protecting crust, solenoid, supercharging shell, air admission hole, air intake valve, power spring, sealing cone, answers magnetic piston, tubular shaft type air outlet valve, field controller;

Solenoid is installed in protecting crust, and solenoid is fixed on the upper part of supercharging shell outside, and protecting crust is fixed on the outside protection solenoid of the bottom of supercharging shell; Below the outside of protecting crust, one side is fixed with foot rest, and the lower end of foot rest is lower than the position of the air admission hole of supercharging shell lower end;

The circuit that connects solenoid is connected with field controller, and the circuit of field controller is connected with insulated electric conductor, and field controller is arranged in protecting crust;

Tubular shaft type air outlet valve is installed in supercharging shell, air intake valve, power spring, answer magnetic piston, tubular shaft type air outlet valve is fixed on the centre bore of one end above of supercharging shell, the lower end of tubular shaft type air outlet valve is from the centre bore of the upper end of supercharging shell passes, enter in supercharging shell through power spring, after answering magnetic piston, enter into the one side place above that approaches air intake valve, the one side above of the lower end of tubular shaft type air outlet valve and air intake valve is gapped, below air intake valve, one side coordinates with the inner boss of the air admission hole of the lower end of supercharging shell and can seal or open the inlet channel entering in supercharging shell, power spring is arranged on the upper part of the inner chamber of supercharging shell, answers magnetic piston to be arranged on the lower part of the inner chamber of supercharging shell, and power spring is pressed in answers on magnetic piston, the part that the upper surface of supercharging shell is exposed in the upper end of tubular shaft type air outlet valve is connected with the pipeline of conveying thermal source gas by flexible pipe or hard tube,

Described protecting crust is the hollow cavity of annular, and wired hole on hollow cavity, is provided with solenoid and field controller in hollow cavity; The inner of the annular housing of hollow cavity is fixed on supercharging shell; Line hole is the hole that allows insulated electric conductor pass;

The inner chamber of described supercharging shell is cylinder, and the upper end on the center line of inner chamber has centre bore to pass supercharging shell, lower end has air admission hole to pass supercharging shell, has independently passage on the side of centre bore; Have annular boss in the inner of air admission hole, the end face of boss is sealed end, and sealed end coordinates with one side below air intake valve; Described passage can make the inner chamber that the supercharging shell of answering magnetic piston portion is installed communicate with atmosphere, reduces the working resistance while answering magnetic piston to move up and down;

In order to facilitate processing and the assembling of supercharging shell, supercharging shell from upper end or lower end segmental machining recombinant together, or from three sections of processing are punished in top and bottom, recombinant is together supercharging shell;

Described air intake valve is dull and stereotyped, below dull and stereotyped, one side is sealing surface, sealing surface coordinates with the inner annular boss of air admission hole can seal inlet channel and opening into the passage of thermal source gas, air intake valve coordinates with boss and has air passing hole in part beyond the part that seals, air passing hole be gas through via hole;

Described tubular shaft type air outlet valve comprises hollow valve body and sealing cone, and hollow valve body is the hollow shaft of hollow pipe-type, and the surface that hollow valve body stretches into the part in supercharging shell is the smooth face of cylinder, and the face of cylinder coordinates with the center hole of answering magnetic piston; The lower end of the hollow valve body sealed end of giving vent to anger, the give vent to anger lower surface of sealed end is inner conical surface in lower end, the upper surface of hollow valve body, the large end of inner conical surface communicates with the upper end of tubular shaft type air outlet valve, small end communicates with the lower end of tubular shaft type air outlet valve, and sealing cone is installed on inner conical surface; Inner conical surface coordinates with the male cone (strobilus masculinus) of sealing cone, under the effect of the gravity of boring in sealing, can seal inner conical surface, can open inner conical surface and form passage with the sealing of sealing cone when enter the thermal source gas of pressure from the endoporus of hollow valve body lower end;

The described magnetic piston of answering is columniform iron core, and there is smooth center hole at the position of the center line of columniform iron core, and the periphery of columniform iron core is smooth periphery; The annular groove that has depression in smooth center hole, annular groove is embedded with sealing ring; The annular groove that has depression on smooth periphery, annular groove is embedded with sealing ring; Center hole coordinates with the face of cylinder of hollow valve body and can O-ring cylinder, and can on the face of cylinder of hollow valve body, slide; Periphery coordinates inner chamber that can sealing type pressure shell with the inner chamber of supercharging shell, and can in the inner chamber of supercharging shell, slide;

Described field controller is to control the controller that generates an electromagnetic field of solenoid, controlling the time that electromagnetic field produces and generate an electromagnetic field the length of time and generate an electromagnetic field at every turn after to the interval time generating an electromagnetic field again for the second time;

Described solenoid is the solenoid that can generate an electromagnetic field;

Described sealing cone is cone or cone cylinder, and the periphery of cone or cone cylinder is male cone (strobilus masculinus), and male cone (strobilus masculinus) coordinates with inner conical surface;

Described air admission hole be the thermal source gas inner chamber that enters supercharging shell through via hole, the upper end of air admission hole is that inner, lower end is outer end;

Described thermal source gas extraction device is in the process of extraction thermal source gas, and the valve of controlling air inlet neutralizes in the unidirectional non-return valve of giving vent to anger does not have return spring; While giving vent to anger, adopt the gravity of air intake valve automatically to decline return and close inlet channel and seal, adopt pressure to open the outlet passageway outside thermal source gas output supercharging shell; When air inlet, the gravity that adopts sealing cone automatically declines return and closes outlet passageway and seal, and adopts suction to open thermal source gas and enters the passage in supercharging shell;

When use, the air admission hole of thermal source gas extraction device is directly or indirectly connected with the gas outlet that produces thermal source gas apparatus, the contactor that connection is connected with insulated electric conductor and the power-on circuit of field controller, the power-on circuit that field controller is connected solenoid generates an electromagnetic field, the attraction that electromagnetic field produces pulls the pressure of answering magnetic piston to overcome power spring to move up, now, the cavity below magnetic piston of answering in supercharging shell has produced pull of vacuum, pull of vacuum is inhaled moving air intake valve and is opened and air intake valve and boss are separated, thermal source gas enters after air admission hole, after the inner chamber that enters supercharging shell through the boss of air admission hole the inner, enter the inner chamber of answering the supercharging shell below magnetic piston from the air passing hole of air intake valve, while answering magnetic piston stroking upward to move to the limit position of compression power spring, the power-on circuit of field controller cutoff solenoid, magnetic field diminishes, answer magnetic piston descending and promote the thermal source gas in supercharging shell and make thermal source γ-ray emission internal pressure under the promotion of power spring, now, air intake valve is closed inlet channel under the effect of self gravitation, the inner conical surface that the thermal source gas that has pressure enters from the lower end of hollow valve body the sealed end of giving vent to anger upwards wash open with the sealing cone displacement of the inner conical surface sealing of the sealed end of giving vent to anger continuation up, enter flexible pipe or hard tube and be transported in the container of gas pipeline or transport thermal source gas through conveyance conduit from the upper end of hollow valve body, answer magnetic piston under the promotion of power spring when descending putting in place, sealing cone is descending under the effect of the gravity of self to be shut inner conical surface and makes gas not return to the inner chamber of supercharging shell, now, the power-on circuit that field controller is connected again solenoid generates an electromagnetic field again, so connection of circulation and cut off circuit, constantly goes out air pump and is transported in the container of gas pipeline or transport thermal source gas, taking out in the process of thermal source gas, answer magnetic piston in the time that the inner chamber of supercharging shell moves up and down, air, from the inner chamber of passage turnover supercharging shell, reduces to answer the working resistance of magnetic piston.

2. thermal source gas extraction device according to claim 1, is characterized in that: in order to ensure that thermal source gas extraction device can normally work, adopt the contactor connecting with insulated electric conductor to connect connection and the cut-out of the connecting circuit of controlling solenoid;

For the thermal source gas below magnetic piston of answering that makes to answer magnetic piston can promote in supercharging shell enters tubular shaft type air outlet valve, adopt power spring as the power that promotes to answer the acting of magnetic piston;

Compact conformation, the volume of described thermal source gas extraction device are little, power is large, powerful, and the efficiency that extracts thermal source gas is high, and power consumption is low; The market prospects of industrialization are good, commercial value is high, manufacture and use all very convenient.

3. a manufacture method for thermal source gas extraction device, is characterized in that:

Protecting crust creates the hollow cavity of annular, wired hole on hollow cavity, and line hole creates the hole that allows insulated electric conductor pass; Solenoid and field controller are installed in hollow cavity; The inner of the annular housing of hollow cavity is fixed on supercharging shell;

For convenient for assembly, during fabrication, protecting crust, from the place of middle shape maximum is divided into two parts manufacture, recombinant is together for protecting crust;

The inner chamber of supercharging shell creates cylindrical cavity, and manufacture the upper end on the center line of inner chamber has centre bore to pass supercharging shell, lower end manufacture has air admission hole to pass supercharging shell, manufactures and has independently passage on the side of centre bore; Manufacture and have annular boss in the inner of air admission hole, the end face of boss creates sealed end, and sealed end coordinates with one side below air intake valve; Described passage can make the inner chamber that the supercharging shell of answering magnetic piston portion is installed communicate with atmosphere, reduces the working resistance while answering magnetic piston to move up and down;

In order to facilitate processing and the assembling of supercharging shell, supercharging shell during fabrication, supercharging shell from upper end or lower end segmentation manufacture recombinant together, or from three sections of manufactures are punished in top and bottom, recombinant is together supercharging shell;

Air intake valve creates flat board, below dull and stereotyped, one side creates sealing surface, sealing surface coordinates with the inner boss of air admission hole can seal inlet channel and opening into the passage of thermal source gas, air intake valve coordinates with boss and has manufacture air passing hole in part beyond the part that seals, air passing hole create gas through via hole;

Tubular shaft type air outlet valve creates hollow valve body and sealing cone two parts, hollow valve body creates the hollow shaft of hollow pipe-type, the surface that hollow valve body stretches into the part in supercharging shell creates the smooth face of cylinder, and the face of cylinder coordinates with the center hole of answering magnetic piston; The sealed end of giving vent to anger is manufactured in the lower end of hollow valve body, lower end, the upper surface that the lower surface of sealed end is manufactured on hollow valve body of giving vent to anger creates inner conical surface, the large end of inner conical surface communicates with the upper end of tubular shaft type air outlet valve, small end communicates with the lower end of tubular shaft type air outlet valve, and sealing cone is installed on inner conical surface; Inner conical surface coordinates with the male cone (strobilus masculinus) of sealing cone, under the effect of the gravity of boring in sealing, can seal inner conical surface, can open inner conical surface and form passage with the sealing of sealing cone when enter the thermal source gas of pressure from the endoporus of hollow valve body lower end;

Answer magnetic piston to create columniform iron core, manufacture at the position of the center line of columniform iron core smooth center hole, and the periphery of columniform iron core creates smooth periphery; In smooth center hole, manufacture the annular groove that has depression, annular groove is embedded with sealing ring; On smooth periphery, manufacture the annular groove that has depression, annular groove is embedded with sealing ring; Center hole coordinates with the face of cylinder of hollow valve body and can O-ring cylinder, and can on the face of cylinder of hollow valve body, slide; Periphery coordinates inner chamber that can sealing type pressure shell with the inner chamber of supercharging shell, and can in the inner chamber of supercharging shell, slide;

Field controller creates controls the controller that generates an electromagnetic field of solenoid, controlling the time that electromagnetic field produces and generate an electromagnetic field the length of time and generate an electromagnetic field at every turn after to the interval time generating an electromagnetic field again for the second time;

Solenoid creates the solenoid that can generate an electromagnetic field;

Sealing cone creates cone or cone cylinder, and the periphery of cone or cone cylinder creates male cone (strobilus masculinus), and male cone (strobilus masculinus) coordinates with inner conical surface;

Air admission hole create thermal source gas enter supercharging shell inner chamber through via hole, the upper end of air admission hole creates the inner, lower end creates outer end;

In order to ensure that thermal source gas extraction device can normally work, adopt the contactor connecting with insulated electric conductor to connect connection and the cut-out of the connecting circuit of controlling solenoid;

For the thermal source gas below magnetic piston of answering that makes to answer magnetic piston can promote in supercharging shell enters tubular shaft type air outlet valve, adopt power spring as the power that promotes to answer the acting of magnetic piston;

Solenoid is installed in protecting crust, and solenoid is fixed on the upper part of supercharging shell outside, and protecting crust is fixed on the outside protection solenoid of the bottom of supercharging shell, below the outside of protecting crust, one side is fixed with foot rest, and the lower end of foot rest is lower than the position of the air admission hole of supercharging shell lower end, the circuit that connects solenoid is connected with field controller, and the circuit of field controller is connected with insulated electric conductor, and field controller is arranged in protecting crust, tubular shaft type air outlet valve is installed in supercharging shell, air intake valve, power spring, answer magnetic piston, tubular shaft type air outlet valve is fixed on the centre bore of one end above of supercharging shell, the lower end of tubular shaft type air outlet valve is from the centre bore of the upper end of supercharging shell passes, enter in supercharging shell through power spring, after answering magnetic piston, enter into the one side place above that approaches air intake valve, the one side above of the lower end of tubular shaft type air outlet valve and air intake valve is gapped, below air intake valve, one side coordinates with the inner boss of the air admission hole of the lower end of supercharging shell and can seal or open the inlet channel entering in supercharging shell, power spring is arranged on the upper part of the inner chamber of supercharging shell, answers magnetic piston to be arranged on the lower part of the inner chamber of supercharging shell, and power spring is pressed in answers on magnetic piston, the part that the upper surface of supercharging shell is exposed in the upper end of tubular shaft type air outlet valve is connected with the pipeline of conveying thermal source gas by flexible pipe or hard tube.