RU2648639C1 - Respiration device - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: respiration device includes a mask with a check valve connected by a tube to a reducer and a gas cylinder. According to the invention, the apparatus between the reduction gear and the removable balloon comprises a hollow structure, in the center of which round channels are formed in the lower and upper walls, and on the side of them there is a channel with an internal thread for the threads of the reducer, and in the channel of the bottom wall of the hollow structure there is an internal thread under the cylinder with gas, with the possibility of changing the cylinder, central channel in the upper wall of the hollow structure is made in the form of conical buttons and plugs, the peaks of which in the channel are connected by a rod, to the lower surface of the upper wall of the hollow structure, the end of the leaf spring is attached, the free end thereof comprising a pointed punch located under the lower opening of the upper wall of the channel, on the upper surface of the hollow structure is fastened a lock with the top, bottom and side walls, and in the bottom wall of the lock under the button a through semicircular slot with the same distance of its concavity of the slot from the axis is made, surface of the upper wall of the lock above the slot is made with a longitudinal inclination relative to the length of the slot. Gas cylinder membrane is made on upper surface of its neck with a smaller thickness at its center. Hollow structure is made of a rigid synthetic material, and a leaf spring with a hard metal perforator. Sharp end of the perforator is located at the edge of the lower opening of the channel of the upper wall of the hollow structure with the possibility of puncturing the center of the membrane. Mask on the sides contains straps, on the free ends of which a velcro cloth clasp is made.

EFFECT: invention is aimed at the possibility of ensuring a longer oxygen saturation of blood in the prehospital stage by rapid, repeated replacement of a can of oxygen in the apparatus.

5 cl, 9 dwg

Description

The invention relates to medical equipment for breathing, and is intended primarily for use in the provision of medical care in emergency situations at the prehospital stage.

It has been established that increasing the efficiency of medical care at the prehospital stage to ensure breathing for the affected is currently becoming particularly relevant in connection with an increase in the number of emergencies of various origins [Makarov I.A., Dolzhnikov O.P., Kondratov A.V. “Problems and solutions for providing medical care to victims of road traffic accidents. The role of the disaster medicine service of the Kemerovo region in implementing the activities of the Federal Target Program “Improving Road Safety in 2006-2012” and the Law of the Kemerovo Region “On Approving the Long-Term Regional Program“ Improving Road Safety ”for 2007-2012. Kemerovo. - 2009. - p. 16". Materials of the Second Scientific and Practical Conference. Kemerovo, September 8, 2009]. The authors indicate that the severity index for accidents in the Moscow Region at the prehospital stage is 12.9%. Improving the efficiency of emergency medical services, including disaster medicine in emergency situations, largely depends on its equipping with modern means of medical care. It is known that the main factor leading to death at the prehospital stage is the severity of the lesion, which is often accompanied by traumatic shock, one of the important pathophysiological mechanisms of which is hypoxia [Erokhin I.A., Marchuk V.G., Lebedev V.F. et al. Six principles of the treatment and diagnostic process in severe combined trauma and the features of their implementation in the context of the staged treatment of the victims [Bulletin of surgery. M., 1996. - No. 5. S. 80-84]. In this regard, the possibility of timely prevention and elimination of hypoxia at the prehospital stage is of particular relevance. The existing known devices do not provide longer oxygen saturation of the blood of the injured at the prehospital stage, which prompted us to develop a new breathing apparatus.

Known oxygen cushion for supplying oxygen to the victim at the prehospital stage from a durable double rubberized fabric, containing a rubber pipe, an ebonite stopcock, a breathing funnel or mouthpiece and a loop for carrying [Kabatov Yu.F. Medical instruments, apparatus and equipment. M., Medicine, 1977, p. 180].

The disadvantage of an easily pierced oxygen cushion is its vulnerability to mechanical damage, a small capacity that does not ensure the duration of oxygen supply, and re-filling at the prehospital stage is possible if there is an additional special oxygen cylinder.

Known oxygen inhaler KI-5, including a permanent cylinder with a valve and a reducer, an oxygen supply tube and a mask with a strap [sbermed.com/catalog/details/445/index.php].

The disadvantage of this inhaler is the complexity of its design and manufacture, high cost, cumbersome, heavy weight and the impossibility after gas consumption in a cylinder of its quick, reuse.

Known lighter oxygen inhaler KI-3M, including a rigid oxygen cylinder, shut-off valve, valve, gearbox with monometer, injector, breathing bag, tube and mask [Kabatov Yu.F. Medical instruments, apparatus and equipment. M., Medicine, 1977, p. 182-183. Fig 53, pos. BUT].

The disadvantage of this inhaler is the complexity of its design and manufacture, high cost and impossibility after gas consumption in a cylinder of its quick, re-filling with oxygen.

The closest in design to the claimed apparatus for breathing is an oxygen inhaler KI-3M, which is taken as a prototype.

The technical result of the invention lies in the possibility of providing a longer saturation with oxygen of the blood of the injured at the prehospital stage by quick, repeated replacement of the can of oxygen in the apparatus.

The technical result of the invention is achieved in that the breathing apparatus includes a mask with a check valve connected by a tube to the gearbox, and a cylinder with a membrane and gas. Between the gearbox and the cylinder there is a hollow structure, in the center of which round channels are made in the lower and upper walls, and on the side of them there is a channel with an internal thread for the gearbox threads, and in the channel of the lower wall of the hollow structure there is an internal thread for a gas cylinder, cylinder change. The central channel in the upper wall of the hollow structure is made in the form of a cone-shaped button and cork, the vertices of which in the channel are connected by a rod. The end of the leaf spring is attached to the lower surface of the upper wall of the hollow structure, and its free end contains a pointed perforator. Under the lower hole of the upper channel wall, on the upper surface of the hollow structure, a latch with upper, lower and side walls is attached, and in the lower wall of the latch under the button there is a through semicircular slot with the same distance of its concavity of the slot from the axis, while the surface of the upper wall of the lock above the slot made with a longitudinal inclination relative to the length of the slot.

In a preferred embodiment, the cylinder membrane is made on the upper surface of its neck with a smaller thickness in its center.

In another preferred embodiment, the hollow structure is made of rigid synthetic material, and the leaf spring with a punch made of solid metal.

In another preferred embodiment, the sharp end of the perforator is located at the edge of the lower hole of the channel of the upper wall of the hollow structure with the possibility of puncturing the center of the membrane.

In a further preferred embodiment, the mask on the sides contains straps, at the free ends of which a velcro fastener is made.

The invention is illustrated by drawings in figures 1-9. The figure 1 shows a General view of the device from the front. In figure 2 is the same, top view. In figure 3 - detail of the device is a cylinder. In figure 4 - balloon, top view. In figure 5 - detail of the device is a hollow cover of the device in its original state, front view, in section. Figure 6 is a detail of the device is a hollow sectional view of the cylinder cover, front view. Figure 7. Detail of the device - the latch in the context, left view. Figure 8. Detail of the device - the latch in the context of the bottom view. Figure 9 - gear. The designation of the details of the apparatus in figures 1-9: 1 - cylinder; 2 - cylinder cover; 3 - button lock; 4 - cork; 5 - a hose; 6 - mask; 7 - strap; 8 - internal thread in the channel of the cover; 9 - button; 10 - a clamp; 11 - button stock; 12 - axis of the latch; 13 - external thread on the neck of the container; 14 - internal thread of the cover; 15 - upper often conical channel; 16 - lower often conical channel; 17 - leaf spring; 18 - thickening in a leaf spring; 19 - place of attachment of the leaf spring; 20 - punch; 21 - the upper surface of the latch; 22 - the bottom wall of the latch; 23 - lower horizontal surface of the upper wall of the latch 21; 24 - beveled surface of the upper wall of the retainer; 25 - Velcro fastener; 26 - concave part of the lower wall in the slot; 27 - convex part of the lower wall in the slot; 28 - end part of the slot; 29 - cylinder sealing membrane; 30 - beveled surface of the bottom of the button; 31 - gear housing; 32 - handle of the crane gear; 33 - neck of the container; 34 - gear tube to the apparatus; 35 - a tube of a reducer to a hose 5; 36 - thread on the gearbox tube, 37 - check valve.

A specific example of using the device. To prepare for use of the apparatus, the gearbox 31 with the external thread 36 is screwed into the internal thread in the channel 8 of the cover 2 of the apparatus. The free end of the hose 5 is hermetically connected to the fitting 35 of the gearbox 31. The external thread 36 of the tube 34 is screwed into the internal thread 8 of the cover 2. The retainer 3 is turned by turning to the left the beveled surface 24 of the lower surface of the retainer 3 above the upper conical plug to eliminate the pressure of the retainer on the button 9. The neck 33 of the cylinder 1 with an external thread 13 is screwed to failure into the internal thread 14 of the cover 2. The device is ready for operation. To supply oxygen to the injured person by turning the lock 3 to the right with a beveled bottom surface 24, press on the button 9, which slides along the beveled surface 24 and goes onto a flat surface 23. At the same time, the button 9 lowers the plug 4 with the rod 11 and punctures the sealing membrane 29. The lock is turned in the opposite direction left, While the leaf spring 17 raises the cork, removing the punch 20 from the punctured hole of the cylinder membrane. Gas from the cylinder went into the apparatus. We put a mask 6 on the victim’s face and clasps 25 with a strap 7 made of velcro fabric, we fix the mask on the face. The handle 32 of the gear valve let the gas into the mask 6 through the tube 5, supplying oxygen to the affected. At the end of inhalation, the mask is removed from the face of the victim. If necessary, change the cylinder unscrew the used cylinder and also screw the next cylinder. The retainer 3 is turned to the right by the beveled bottom surface 24, press the button 9, which slides along the beveled surface 24 and goes onto a flat surface 23. At the same time, the button 9 by the rod 11 lowers the plug 4 and the perforator 20 punctures the sealing membrane 29. Turn the lock to the left. While the leaf spring 17 raises the cork, removing the perforator 20 from the punctured hole of the cylinder membrane. Gas from the cylinder went into the apparatus and the victim. At the end of the treatment procedure, the mask is removed from the victim and the handle of the tap of the gearbox 32 is turned to stop the release of oxygen from the apparatus.

The significance of the differences between the claimed breathing apparatus and the selected prototype lies in the fact that the implementation between the gearbox and the cylinder of the hollow structure, in the center of which the round channels are made in the lower and upper walls, provides a compact structure and ease of use. The presence in the design of the channel with an internal thread for the thread of the gearbox ensures reliable fixation of the gearbox. The implementation in the channel of the lower wall of the hollow structure with an internal thread for the gas cylinder provides the ability to quickly replace the used cylinder, and the duration of the supply of oxygen mixture to the patient. Performing at the free end of the spring a pointed perforator located at the lower hole of the upper channel wall, provides its spontaneous direction to the center of the smallest thickness of the cylinder membrane and its perforation. Attaching to the upper surface of the hollow retainer structure with upper, lower and side walls facilitates access to it. The execution in the lower wall of the latch of the through semicircular slot under the button with the same distance of the concavity of the slot from the axis allows it to rotate, which can serve as a fuse or starter of the oxygen mixture in the design of the apparatus. The execution of the surface of the upper wall of the retainer above the slot with a longitudinal inclination relative to the length of the slot allows movements of the right and left to adjust the vertical position of the conical buttons and plugs. The cylinder membrane on the upper surface of its neck has a smaller thickness in its center, which contributes to the perforation of the membrane with less effort. The location of the sharp end of the perforator at the edge of the lower hole of the channel of the upper wall of the hollow structure ensures the exact direction of the perforator in the center of the membrane of the cylinder. The manufacture of a hollow structure from rigid synthetic material simplifies its manufacture and reduces cost. Making a slot with a concave and beveled surface allows the latch to be used as a start of a dosed supply of an oxygen mixture and as a safety lock for a spontaneous start. Performing a mask with straps and fasteners made of Velcro fabric allows you to customize them to a specific head size, which expands the possibilities of using the mask for different patients.

Thus, the use of a compact device by the ability to quickly, repeatedly replace the spray can with oxygen in the apparatus provides the possibility of longer saturation with oxygen of the blood of the affected pre-hospital stage. The application of the invention is possible in peacetime in the Ministry of Emergency Situations in emergency situations associated with road traffic accidents, emergency situations in mines, natural disasters, and in military field medicine.

Claims (5)

1. The breathing apparatus, comprising a mask with a check valve, connected by a tube to the gearbox, and a gas cylinder, characterized in that between the gearbox and the removable cylinder contains a hollow structure, in the center of which in the lower and upper wall are made round channels, and on the side of there is a channel with an internal thread for the thread of the gearbox, and in the channel of the lower wall of the hollow structure there is an internal thread for a cylinder with gas, with the possibility of changing the cylinder, the central channel in the upper wall of the hollow structure is made in the shape of a cone prominent buttons and plugs, the vertices of which in the channel are connected by a rod, the end of a leaf spring is attached to the lower surface of the upper wall of the hollow structure, its free end contains a pointed perforator located under the lower hole of the upper wall of the channel, a latch is attached to the upper surface of the hollow structure with the upper , bottom and side walls, and in the bottom wall of the latch under the button, a through semicircular slot is made with the same distance of its concavity of the slot from the axis, while st latch over the top wall is formed with a slot inclined with respect to the longitudinal length of the slot. 2. The apparatus according to claim 1, characterized in that the cylinder membrane is made on the upper surface of its neck with a smaller thickness in its center. 3. The apparatus according to claim 1, characterized in that the hollow structure is made of rigid synthetic material, and the leaf spring with a punch made of solid metal. 4. The apparatus according to claim 1, characterized in that the sharp end of the perforator is located at the edge of the lower hole of the channel of the upper wall of the hollow structure with the possibility of puncturing the center of the membrane. 5. The apparatus according to claim 1, characterized in that the mask on the sides contains straps, at the free ends of which a velcro fastener is made.

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