CN114588566A

CN114588566A - Positive pressure oxygen respirator pressure differential regulation and control type automatic oxygen supply device

Info

Publication number: CN114588566A
Application number: CN202210065943.7A
Authority: CN
Inventors: 董建国; 丁晓光; 董艳红
Original assignee: Fushun Huateng Protective Equipment Manufacturing Co ltd
Current assignee: Fushun Huateng Protective Equipment Manufacturing Co ltd
Priority date: 2022-01-20
Filing date: 2022-01-20
Publication date: 2022-06-07

Abstract

The invention relates to the technical field of personal respiratory protection, in particular to a pressure difference regulation and control type automatic oxygen supply device of a positive pressure oxygen respirator. In order to overcome the defects of the oxygen supply mode of the conventional positive pressure oxygen respirator, the invention provides the pressure difference regulation type automatic oxygen supply device of the positive pressure oxygen respirator, a wearer can continuously operate in a toxic and harmful anoxic environment without switching the oxygen supply mode, manually supplementing oxygen and limiting the operation time according to labor intensity, and the wearer can provide safe and effective respiratory protection by opening a high-pressure oxygen cylinder valve within the rated protection time and automatically supply oxygen according to the respiratory requirement in a synchronous and same amount. The invention is mainly characterized in that: the oxygen supply system and the respiration demand system are regulated and controlled by pressure difference and are supplied with oxygen synchronously and automatically according to the requirement, and the oxygen supply system is composed of a regulation and control cylinder, a pressure regulating bin, a transmission bin, an oxygen delivery bin, a control valve, a pressure regulating spring and a transmission diaphragm.

Description

Positive pressure oxygen respirator pressure differential regulation and control type automatic oxygen supply device

Technical Field

The invention relates to the technical field of personal respiratory protection, in particular to a pressure difference regulation and control type automatic oxygen supply device of a positive pressure oxygen respirator.

Background

The existing positive pressure oxygen respirator, no matter the mine uses "isolated positive pressure oxygen respirator", or should first aid with "positive pressure fire-fighting oxygen respirator", the oxygen system generally adopts "three kinds of oxygen supply methods" and sets up the structure immediately, promptly: the continuous direct supply type 'quantitative oxygen supply', the pressing plate lever touch type 'automatic oxygen supplement' and the artificial emergency type 'manual oxygen supplement' are combined to form three complicated oxygen supply modes, the reason is that none of the three modes can independently meet the oxygen supply performance required by the standard, only the 'three oxygen supply modes' are used for complementation deficiency, the system has a huge structure and is inconvenient to use and maintain, the synergy between the oxygen supply and the breathing requirement and between the three oxygen supply modes is poor, and the stability, the comfort, the convenience and the improvement of the effective protection time of the positive pressure oxygen respirator are influenced and limited.

Disclosure of Invention

In order to overcome the defects of the oxygen supply mode of the existing positive pressure oxygen respirator, the invention provides the pressure difference regulation type automatic oxygen supply device of the positive pressure oxygen respirator, which adopts the design structure that the pressure difference of an oxygen supply system and a breathing demand system is regulated and synchronously supplied with oxygen at the same amount as required, a wearer continuously operates in a toxic and harmful anoxic environment without converting the oxygen supply mode, manually supplementing oxygen and limiting the operation time according to labor intensity, safe and effective breathing protection can be provided only by opening a high-pressure oxygen cylinder valve within the rated protection time, and the oxygen supply is automatically and synchronously carried out at the same amount as required by breathing.

The technical scheme for realizing the invention is as follows: a pressure difference regulation type automatic oxygen supply device of a positive pressure oxygen respirator comprises a regulation cylinder, a pressure regulating bin, a transmission bin, an oxygen conveying bin, a control valve, a pressure regulating spring and a transmission diaphragm.

The regulating cylinder is a vertical cylinder structure made of metal materials and is a pivot for regulating and controlling oxygen supply and demand, a through pressure reducing chamber is axially arranged in the cylinder, a lower opening of the cylinder is provided with an inverted concave oxygen delivery valve port, and an oxygen supply port with a threaded input interface is radially arranged on the left side of the waist of the cylinder and is communicated with the axial pressure reducing chamber to form a supply end dynamic sealing chamber channel; a breathing demand port with a threaded output interface is radially arranged on the right side of the waist of the cylinder and is isolated from the pressure reducing chamber in a right-angle partition manner, an upper air hole and a lower air hole which are parallel to and opposite to the pressure reducing chamber and are isolated from the pressure reducing chamber are arranged in the breathing demand port, the upper air hole is a pressure transmission hole, and the lower air hole is an oxygen delivery hole, so that a three-way air passage at a demand end is formed; the upper end and the lower end of the regulating cylinder are respectively provided with an external thread at the top end of the cylinder and an external thread at the bottom end of the cylinder.

The pressure regulating bin is a high-barrel-body structure made of metal materials and is a stroke bin for arranging a pressure regulating spring, external threads are cut on the outer diameter circumference of the top end of the bin and the outer diameter circumference of the bottom end of the bin, the pressure regulating port plug cover arranged on the pressure regulating bin is firmly linked with the external threads on the top end of the bin, and a spring supporting ring is arranged on the inner opening circumference of the bottom end of the bin.

The transmission bin is a flat round structure made of metal materials, is a work doing bin provided with a transmission diaphragm, and consists of an upper bowl-shaped half bin and a lower bowl-shaped half bin, wherein the closed opening of the upper half bin is provided with external threads, the closed opening of the lower half bin is provided with internal threads, and the two closed openings are combined into a whole by buckling threads; a bin body connecting port with an inner screw is arranged at the top opening of the transmission bin, and the lower end of the transmission bin is connected with an outer screw thread at the bottom end of the pressure regulating bin to form a double-bin stacking structure; the bottom opening of the transmission bin is provided with a cylinder body top end connecting opening with an inner thread, the cylinder body top end connecting opening is connected with an outer thread on the top end of the cylinder through a thread, and the seat is arranged at the upper end of the adjusting cylinder.

The oxygen delivery bin is of a flat barrel body structure with an upper opening made of metal materials, the upper opening is provided with a cylinder body bottom connecting port with internal threads and is connected with external threads at the bottom end of the cylinder body, and the oxygen delivery bin is arranged at the bottom end of the regulating cylinder body and is a one-way channel for delivering oxygen from an oxygen supply port to a respiration demand port.

The control valve is a differential pressure control and transmission execution assembly and comprises a valve rod, a pressure regulating screw block, a sealing membrane cap, a pneumatic valve cap, a connecting rod plug and a connecting rod sleeve opening; the valve rod is an upper section connecting rod, a middle section connecting rod and a lower section connecting rod which are made of metal materials, the upper end of the middle section and the upper end of the lower section are respectively provided with a connecting rod plug with external threads, the lower end of the upper section and the lower end of the middle section are respectively provided with a connecting rod sleeve opening with internal threads, and the inserting and sleeving threads are connected into a whole and vertically penetrate through the pressure regulating bin, the transmission bin, the pressure reducing chamber and the oxygen conveying bin body; the pressure regulating screw block with an internal screw hole is sleeved at the upper end of the upper section of the valve rod; the sealing membrane cap is a medium-pressure sealing part which is made of silicon rubber and can move up and down, the sealing membrane cap is covered on the upper opening of the pressure reducing chamber, the circumferential edge of the sealing membrane cap is embedded into a connecting port at the top end of the cylinder body to be pressed and airtight, and the plug of the lower section connecting rod is strung into the central position of the membrane cap to be firmly and airtightly fixed with the sleeve opening of the middle section connecting rod, so that the pressure reducing chamber is sealed and isolated from the transmission bin; the pneumatic valve cap is a movable sealing plug made of convex silicon rubber materials and is arranged at the tail end of the lower section of the valve rod and the outer end of the oxygen delivery valve port to form a movable sealing opening which is in convex-concave coupling with the oxygen delivery valve port.

The pressure regulating spring is a cylindrical compression spring with elastic coefficient capable of fully meeting the requirement of pressure difference regulation, is arranged in the pressure regulating bin and sleeved on the upper section of the valve rod, the bottom of the spring is abutted against the spring supporting ring to form a telescopic force supporting point, and the pressure regulating screw block presses the head of the spring to set the pressure value of the pressure regulating spring through rotation.

The transmission diaphragm is an umbrella-shaped pneumatic combined component and consists of a metal push sheet with a top surface provided with a fixing hole and a silica gel moving sheet with an isosceles trapezoid peripheral surface; the transmission diaphragm is arranged in the transmission bin, the circumferential edge of the silica gel moving piece is embedded between the closed opening of the upper half bin and the closed opening of the lower half bin to be pressed and airtight, and the connecting rod plug at the upper end of the middle section of the valve rod penetrates through the metal push piece fixing hole to be locked with the connecting rod sleeve opening at the lower end of the upper section to be airtight; the transmission diaphragm drives the valve rod and the pneumatic valve cap to move according to a set pressure value by receiving the gas pressure of the breathing demand port, and the oxygen therapy valve port is opened or closed.

The invention is arranged in a main machine of the positive pressure oxygen respirator, the oxygen supply port is communicated with the medium pressure gas output interface of the pressure reducer, and the breathing demand port is communicated with the gas input interface of the gas storage device for wearing.

The working principle of the invention is as follows: the user opens the cylinder valve of the high-pressure oxygen cylinder, medium-pressure oxygen output by the pressure reducer enters the pressure reducing chamber from the oxygen supply port, the gas pressure in the pressure reducing chamber pushes the pneumatic valve cap to move downwards, the oxygen delivery valve port is opened to output low-pressure oxygen subjected to secondary pressure reduction, and the low-pressure oxygen enters the gas storage device for circular absorption through the oxygen delivery bin, the oxygen delivery hole and the breathing demand port; when the gas in the gas storage device can satisfy the pressure set value required by the respiratory cycle, namely: when the gas pressure of the breathing demand port and the pressure regulating spring set pressure value are larger than or equal to the gas pressure of the oxygen supply port, the gas pressure of the breathing demand port enters the transmission bin through the pressure conduction hole, the transmission diaphragm is pushed upwards to drive the valve rod and the pneumatic valve cap to move upwards to close the oxygen supply valve port to stop oxygen supply, and therefore a compressed oxygen source is saved; when the gas pressure of the breathing demand port and the set pressure value of the pressure regulating spring are less than the gas pressure of the oxygen supply port, the gas pressure in the pressure reducing chamber pushes away the pneumatic valve cap again to open the oxygen delivery valve port, and oxygen supply is carried out synchronously at the same amount according to the breathing demand.

The invention has the beneficial effects that: the utility model provides a malleation oxygen respirator pressure differential regulation and control formula automatic oxygen supply device, compare with current malleation oxygen respirator oxygen suppliment technique, it is numerous and numerous complicated, "three kinds of oxygen suppliment modes" that the cooperativity is not good enough to have abandoned, the design structure optimization is compact, it is convenient to use and maintain, barrier propterty promotes, the person of wearing lasts the operation in poisonous harmful oxygen deficiency environment, need not to change the oxygen suppliment mode, need not manual oxygenating, need not to press the work intensity to limit operation time, in rated protection time, only need open the high-pressure oxygen gas cylinder valve can provide safe effectual respiratory protection, according to breathing needs synchronous same volume automatic oxygen suppliment, on the basis of guaranteeing safety performance, can strengthen the adaptability and the travelling comfort of use of complex environment, and dampproofing, take precautions against earthquakes, anticorrosion, high temperature resistant, shock resistance.

Drawings

FIG. 1 is a schematic cross-sectional view of a pressure-difference-controlled automatic oxygen supply device for a positive-pressure oxygen respirator

FIG. 2 is a schematic diagram of a pressure-difference-controlled automatic oxygen supply device for a positive-pressure oxygen respirator

In the figure: 1 regulation and control cylinder, 2 pressure regulating bin, 3 transmission bin, 4 oxygen delivery bin, 5 control valves, 6 pressure regulating springs, 7 transmission diaphragms, 8 decompression chamber, 9 oxygen delivery valve port, 10 oxygen supply port, 11 breathing demand port, 12 pressure transmission hole, 13 oxygen delivery hole, 14 cylinder top external threads, 15 cylinder bottom external threads, 16 pressure regulating port blanking cover, 17 spring support ring, 18 upper half bin closing port, 19 lower half bin closing port, 20 bin body connecting port, 21 cylinder body top connecting port, 22 cylinder body bottom connecting port, 23 valve rod, 24 pressure regulating screw block, 25 sealing membrane cap, 26 pneumatic valve cap, 27 connecting rod plug, 28 connecting rod sleeve port, 29 metal push sheet, 30 silica gel movable sheet, 31 pressure reducer gas output interface and 32 gas storage device gas input interface.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1: the utility model provides an automatic apparatus of oxygen supply of malleation oxygen respirator pressure differential regulation and control formula, adopts the design structure that oxygen supply system and breathing demand system pressure differential regulation and control, synchronous same volume automatic oxygen suppliment as required, comprises regulation and control cylinder 1, pressure regulating storehouse 2, transmission storehouse 3, oxygen therapy storehouse 4, control valve 5, pressure regulating spring 6 and transmission diaphragm 7.

The regulating cylinder 1 is a vertical cylinder structure made of metal materials and is a pivot for regulating and controlling oxygen supply and demand, a through decompression chamber 8 is axially arranged in the cylinder, the lower opening of the cylinder is provided with an inverted concave oxygen delivery valve port 9, an oxygen supply port 10 with a threaded input interface is radially arranged on the left side of the waist of the cylinder and is communicated with the axial decompression chamber 8 to form an oxygen supply end dynamic seal chamber channel; a breathing demand port 11 with a threaded output interface is radially arranged on the right side of the waist of the cylinder and is isolated from the decompression chamber 8 at a right angle, an upper air hole and a lower air hole which are parallel to, opposite and isolated from the decompression chamber 8 are arranged in the breathing demand port 11, the upper air hole is a pressure transmission hole 12, the lower air hole is an oxygen delivery hole 13, and a demand end three-way air passage is formed; the upper end and the lower end of the regulating cylinder 1 are respectively provided with a cylinder top end external thread 14 and a cylinder bottom end external thread 15.

The pressure regulating bin 2 is a high-cylinder structure made of metal materials, is a stroke bin for accommodating a pressure regulating spring 6, external threads are cut on the outer diameter circumference of the bin top end and the bin bottom end, the pressure regulating port plug cover 16 and the bin top end external thread are firmly linked, and a spring supporting ring 17 is arranged on the inner opening circumference of the bin bottom end.

The transmission chamber 3 is a flat round structure made of metal material, is a work chamber for installing the transmission diaphragm 7, and is composed of an upper bowl-shaped half chamber and a lower bowl-shaped half chamber, the upper half chamber joint 18 is provided with external threads, the lower half chamber joint 19 is provided with internal threads, and the two joints are combined by connecting buckling threads; a bin body connecting port 20 with an inner thread is arranged at the top opening of the transmission bin 3, and the lower end of the bin body connecting port is connected with an outer thread at the bottom end of the pressure regulating bin 2 to form a double-bin stacking structure; the bottom opening of the transmission bin 3 is provided with a cylinder body top end connecting opening 21 with an inner thread, the cylinder body top end connecting opening is connected with an outer thread 14 on the top end of the cylinder in a threaded mode, and the seat is arranged at the upper end of the adjusting cylinder 1.

The oxygen delivery bin 4 is a flat barrel body structure with an upper opening made of metal materials, a cylinder body bottom end connecting port 22 with internal threads is arranged at the upper opening, is connected with external threads 15 at the bottom end of the cylinder body through threads, is arranged at the bottom end of the regulating cylinder 1, and is a one-way channel for conveying oxygen from the oxygen supply port 10 to the breathing demand port 11.

The control valve 5 is a pressure difference control and transmission execution assembly and consists of a valve rod 23, a pressure regulating screw block 24, a sealing membrane cap 25, a pneumatic valve cap 26, a connecting rod plug 27 and a connecting rod sleeve opening 28; the valve rod 23 is an upper section connecting rod, a middle section connecting rod and a lower section connecting rod which are made of metal materials, the upper end of the middle section and the upper end of the lower section are respectively provided with a connecting rod plug 27 with external threads, the lower end of the upper section and the lower end of the middle section are respectively provided with a connecting rod sleeve opening 28 with internal threads, and the plug and sleeve threads are connected into a whole and vertically penetrate through the pressure regulating bin 2, the transmission bin 3, the pressure reducing chamber 8 and the oxygen delivery bin 4; the pressure regulating screw block 24 with an internal screw hole is sleeved at the upper end of the upper section of the valve rod 23; the sealing membrane cap 25 is a medium-pressure sealing part which is made of silicon rubber and can move up and down, the sealing membrane cap is covered on the upper opening of the pressure reducing chamber 8, the circumferential edge of the sealing membrane cap is embedded into the connecting port 21 at the top end of the cylinder body to be pressed and airtight, the lower section connecting rod plug 27 is connected into the central position of the membrane cap in series and is firmly and airtightly fixed with the sleeve opening 28 of the middle section connecting rod, so that the pressure reducing chamber 8 is sealed and isolated from the transmission bin 3; the pneumatic valve cap 26 is a movable sealing plug made of convex silicon rubber material and is arranged at the tail end of the lower section of the valve rod 23 and the outer end of the oxygen delivery valve port 9 to form a movable sealing type opening and closing port which is in convex-concave coupling with the oxygen delivery valve port 9 through the pneumatic valve cap 26.

The pressure regulating spring 6 is a cylindrical compression spring with elastic coefficient capable of fully meeting the requirement of pressure difference regulation, is arranged in the pressure regulating bin 2 and is sleeved on the upper section of the valve rod 23, the bottom of the spring is abutted against the spring supporting ring 17 to form a telescopic force supporting point, and the pressure regulating screw block 24 presses the head of the spring to set the pressure value of the pressure regulating spring 6 through rotation.

The transmission diaphragm 7 is an umbrella-shaped pneumatic combined component and consists of a metal push sheet 29 with a fixed hole on the top surface and a silica gel movable sheet 30 with an isosceles trapezoid peripheral surface; the transmission diaphragm 7 is arranged in the transmission chamber 3, the circumferential edge of the silica gel moving plate 30 is embedded between the upper half chamber closing opening 18 and the lower half chamber closing opening 19 for pressing and air tightness, and the connecting rod plug 27 at the upper end of the middle section of the valve rod 23 passes through the fixing hole of the metal push plate 29 to be locked with the connecting rod sleeve opening 28 at the lower end of the upper section for air tightness; the transmission diaphragm 7 receives the gas pressure of the breathing demand port 11, and drives the valve rod 23 and the pneumatic valve cap 26 to move according to a set pressure value, so as to open or close the oxygen delivery valve port 9.

The above parts are combined, assembled and connected to form the pressure difference regulating automatic oxygen supply device.

As shown in fig. 2: the utility model provides an automatic apparatus of oxygen supply of malleation oxygen respirator pressure differential regulation and control formula, from last to down by pressure regulating storehouse 2, transmission storehouse 3, regulation and

control cylinder

1 and 4 perpendicular silk in oxygen therapy storehouse even the combination constitute, regulation and control cylinder 1 left side sets up oxygen supply port 10, the right side sets up respiratory demand port 11, whole appearance is "palace lantern" framework, design compact structure.

The invention is simply and quickly assembled with the main machine of the positive pressure oxygen respirator, and can be worn and used only by communicating the oxygen supply port 10 with the medium pressure gas output interface 31 of the pressure reducer and communicating the breathing demand port 11 with the gas input interface 32 of the gas storage device.

Claims

1. The utility model provides an automatic apparatus of oxygen supply of malleation oxygen respirator pressure differential regulation and control formula which characterized by: the oxygen supply system and the respiration demand system are regulated and controlled by adopting a pressure difference and are synchronously supplied with oxygen according to the same quantity as required, and the oxygen supply system is composed of a regulation and control cylinder (1), a pressure regulating bin (2), a transmission bin (3), an oxygen delivery bin (4), a control valve (5), a pressure regulating spring (6) and a transmission diaphragm (7); the regulating cylinder (1) adopts a vertical cylinder structure and is a hub for regulating and controlling oxygen supply and demand, the pressure regulating bin (2) adopts a high cylinder structure and is a stroke bin for arranging a pressure regulating spring (6), the transmission bin (3) adopts a flat cylinder structure and is a work doing bin for arranging a transmission diaphragm (7), the oxygen conveying bin (4) adopts an upper open flat barrel structure and is an oxygen conveying one-way air passage, the control valve (5) is an execution component for pressure difference control and transmission, the pressure regulating spring (6) is a cylindrical compression spring, and the transmission diaphragm (7) is an umbrella-shaped pneumatic component; from top to bottom in proper order with pressure regulating storehouse (2), transmission storehouse (3), regulation and control cylinder (1), defeated oxygen storehouse (4) perpendicular silk even combination, run through control valve (5) perpendicularly in pressure regulating storehouse (2), transmission storehouse (3), decompression thorax (8) and defeated oxygen storehouse (4) internal, arrange pressure regulating spring (6) in pressure regulating storehouse (2) locking, transmission diaphragm (7) and arrange in transmission storehouse (3) and link firmly airtightly.

2. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: the regulating cylinder (1) is axially provided with a decompression chamber (8) and an inverted concave oxygen delivery valve port (9), one radial side is provided with an oxygen supply port (10) communicated with the axial decompression chamber (8), the other radial side is provided with a respiration demand port (11) which is separated and isolated from the decompression chamber (8) at a right angle, and the respiration demand port (11) is internally provided with a pressure transmission guide hole (12) and an oxygen delivery hole (13) which are parallel, opposite and isolated from the decompression chamber (8); the upper end and the lower end are respectively provided with an air cylinder top end external thread (14) and an air cylinder bottom end external thread (15).

3. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: external threads are cut on the outer diameter of the two ends of the pressure regulating bin (2) in the circumferential direction, the pressure regulating port plug cover (16) is buckled on a top port thread and is firmly linked, and a spring supporting ring 17 is arranged on the inner port of the bottom end in the circumferential direction.

4. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: the transmission bin (3) is formed by connecting an upper half bin closing opening (18) and a lower half bin closing opening (19) through buckling threads, is connected with the vertical threads of the pressure reduction bin (2) at the lower end of the transmission bin, and is connected with the vertical threads of the regulating cylinder (1) at the upper end of the transmission bin.

5. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: the upper opening of the oxygen conveying bin (4) is vertically hung at the bottom of the regulating cylinder (1) through a wire.

6. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: the control valve (5) is composed of a valve rod (23), a pressure regulating screw block (24), a sealing membrane cap (25), a pneumatic valve cap (26), a connecting rod plug (27) and a connecting rod sleeve opening (28), the pneumatic valve cap and the connecting rod sleeve opening (28) are connected into a whole through the connecting rod plug (27), the sealing membrane cap (25) is arranged at the upper opening of the pressure reducing chamber (8) to be pressed for air tightness, and the pneumatic valve cap (26) and the oxygen delivery valve opening (9) form a movable sealing opening in convex-concave coupling.

7. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: the pressure regulating spring (6) is arranged in the pressure regulating bin (2) and is sleeved with the valve rod (23), the bottom of the pressure regulating spring is abutted against the spring supporting ring (17) to form a telescopic force supporting point, and the pressure regulating screw block (24) presses the pressure regulating spring (6) to rotate for a set pressure value.

8. The automatic oxygen supply device of the positive pressure oxygen respirator differential pressure regulation and control type as claimed in claim 1, wherein: the transmission diaphragm (7) consists of a metal push sheet (29) and a silica gel moving sheet (30) and is arranged in the transmission bin (3), the silica gel moving sheet (30) is hermetically pressed with the half bin close opening (18) and the lower half bin close opening (19), and the metal push sheet (29) is locked with the valve rod (23) and can be linked.