RU29470U1 - Mobile balloon system for supplying compressed air to hose breathing apparatus (options) - Google Patents

Description

MOBILE CYLINDER COMPRESSED AIR SUPPLY SYSTEM (OPTIONS)

The system is designed for storage, transportation and supply of compressed air to ensure human breathing in a breathless, toxic and smoky gas environment during maintenance of buildings, structures and production facilities, as well as during emergency rescue operations in the range of ambient temperatures from - 40 to + 60 ° С.

The closest analogues of the proposed technical solutions are the options for mobile balloon systems for supplying compressed air from the German company Dreger (Universal Airpak prospectus, published 07.1998), containing a mobile frame in which, using fixing elements, cylinders of compressed air are connected with valves connected through a reducer to a reduced hose pressure, and also having a drum mounted in supports with the possibility of rotation with a hose (extension) wound around it, which serves to connect the cylinders to the hose m breathing apparatus, which is carried by the user, while the frame has wheels for transportation and a support element for installing the frame in a vertical position, which is used when storing the system. The known system in its design has drawbacks consisting in the limited ability to quickly move the system to the place of use, while approaches to the place of use are often limited in size and not equipped, and in such cases the user is the only means of delivering the system to the place of work. The known system does not have tools that facilitate the task of prompt delivery of the system by the user through an unequipped passage to the place of work, which negatively affects

MKI 7: A 62 V 7/12

on overall performance, and also reduces reliability. In addition, this system has an unreasonably high mass, which is explained by the excessive variety of specialized structural power elements, each of which performs exactly one function.

The technical task that underlies the creation of the proposed group of technical solutions is the development of the design of a mobile system with a frame, which provides the possibility of convenient transportation of the system to the place of work and operational deployment of the system, the most simplified maintenance of the system and at the same time increased reliability of its operation in extreme situations.

The task is implemented in the proposed two structural options for the implementation of the system, providing various options for delivering the system to the place of operation.

Moreover, according to the first embodiment, with the delivery of the system to the place of operation by transporting it by users, the mobile balloon compressed air supply system comprises a mobile frame frame with wheels for transporting it, in which compressed air cylinders connected to the reducer are fixed using fixing elements, and also having a drum mounted in supports with the possibility of rotation with a drive handle and an extension hose, which serves to connect the cylinders with a hose breathing apparatus , while the frame has a support element for installing it in a vertical position. A distinctive feature of the system according to the first embodiment is that the frame frame is made in the form of a set of interconnected rigid longitudinal and transverse rod elements forming lodges for cylinders, and longitudinal rod elements are located on the sides of the frame and in its middle part between the cylinders and

the said lodgements are fixed cylinders by means of tightening belts, passed through the brackets fixed on the lodgements and fixed around the cylinders with adjustable buckles, while the drum handle is configured to form a support element for mounting the housing in a vertical position.

According to the second variant — with delivering the system to the place of operation by transferring it by users — the mobile balloon compressed air supply system comprises a mobile frame frame with means for transporting it, in which compressed air cylinders are connected to the reducer, while according to this embodiment the system has an extension hose , which serves to connect the cylinders with a hose breathing apparatus, and the cylinders are placed in lodgements, which are made in the form of additional rod elements, on an example of sections of rolled products fixed to the longitudinal core elements of the frame, in which the cylinders are fixed by means of tightening belts, passed through the brackets fixed on the tool holders and fixed around the cylinders by means of adjustable buckles, while the means of transportation include a cover covering the frame, a carrying handle and a belt for carrying the system on the shoulder, and the handle and / or belt can be mounted on a cover that can be mounted on the frame and made of soft fabric or nonwoven fabric or is rigid.

In both cases, in order to increase the efficiency of work with the mobile system, it is advisable that at least one of the tightening belts covers all the cylinders.

In addition, to improve the manufacturability of the frame, it is advisable to perform its core elements from a profile product, such as corners or pipes, mainly from aluminum alloy.

The portable system may be provided with sheet metal walls, preferably aluminum alloy.

In this embodiment of the system, it is expedient to mount the cylinders on the frame frame by attaching the gearbox of this cylinder to the frame by means of an inserted threaded element and two eyes, one of which is rigidly fixed, for example, to the gearbox, and the other is mounted on the frame with the possibility of installation movements, when this reducer is rigidly fixed to the neck of the cylinder.

In this embodiment of the system, the latter is equipped with a shoulder strap and / or a handle located on the upper side of the frame with the possibility of longitudinal (relative to the frame) installation movements.

Further, in this embodiment of the system, the latter can be provided with a cover covering the mobile frame and fixed on the latter, while the cover can be hard or soft of fabric or non-woven material.

An information search carried out by the applicant showed that the mobile balloon compressed air supply system with a frame made of longitudinal and transverse core elements, mainly profile products, is simultaneously unknown as cylinder lodges, in which the latter are fixed by means of belts with adjustable buckles passing through staples on the frame, as well as in which the handle of the drum which performs the function of supporting the latter when the frame is installed in a vertical position When storage. Further, there is also no known system that would have fixing elements in the form of lodges located on the sides and between the cylinders, which can be made in the form of additional rod elements from segments of long products of profile rolling, which are rigidly fixed to longitudinal rod elements, and in which

the cylinders are fixed by means of tightening belts passed through the brackets fixed on the tool holders and fixed around the cylinders by means of adjustable buckles, while the means of transportation include a cover covering the frame, a handle for carrying the system in hand and a belt for carrying the system on the shoulder, the handle and / or belt can be fastened to the case.

The absence of technical solutions having the mentioned set of essential features allows us to conclude that technical solutions with the specified set of essential features are new, as a result of which the claimed technical solutions can be provided with legal protection as a utility model.

The proposed group of utility models is illustrated by drawings, which show:

figure 1 shows a front view of a wheeled embodiment of a mobile balloon system;

figure 2 is also a left view;

in Fig.Z-section along aa in Fig.1;

figure 4-frame of the system, a view along arrow B in figure 1;

figure 5 is a view of the system in its vertical position;

on figb shows a portable portable system, front view;

Fig.7 is also a bottom view;

on Fig.8 is also a left view;

in Fig.9-node connecting the gearbox to the frame of the system (section along DD in Fig.7);

Structurally, the system, made in accordance with the claimed utility model, represents two versions of the mobile frame: in wheeled and portable versions.

In accordance with the foregoing, the composition of the system with a mobile frame for cylinders in a wheeled version (Fig. 1) includes: a mobile frame 1 for cylinders, cylinders 2 with valves, a reducer 3, high-pressure hoses 4, reduced pressure hoses 5, connectors 6, wiring plate 7, drum 8 with hose, signaling device 9 with pressure gauge 10.

Fixation of the cylinders 2 on the frame is carried out by tightening belts 11, at least one of which covers all (two or more) cylinders.

The fixation of the first turn of the hose on the drum 8 is carried out by the clamp 12. The drum is mounted on the supports 13 and has a handle 14, which is configured to form a support element for installing the housing in a vertical position (figure 2). For this, it is located in the upper position shown in Fig. 5 along the vertical axis (i.e., in the position where the distance between the handle and the frame wheels is maximum.

A mobile frame for cylinders in a wheeled design is used to fasten the system units on it and consists of a metal (welded) frame 15 having a predominantly closed shape equipped with wheels 16 and a curved handle 17 for transporting the system.

On the front of the wiring plate, a marking plate 18 is installed.

The extension hose 19 is used to connect to the connector 6 of the hose breathing apparatus and is fixed to the handle 17 by a belt loop. The frame 15 of the frame 1 is made in the form of a set of rigid rod elements-longitudinal 20 and transverse 21, forming lodges 22 for cylinders 2. The mentioned rod elements 20 and 21 have a hollow, mainly

a tubular structure, and the longitudinal elements 20 are located along the cylinders on the sides and in the middle of the frame 1 and they have brackets 23 for tightening belts 11.

The system provides for the possibility of connecting an additional breathing apparatus to the cylinders, which makes it possible to work together. When storing the system, its frame 1 can be installed, as mentioned above, in a vertical position in which the drum handle (in the upper position) serves as a support for the system.

The composition of the system with a mobile frame for portable cylinders (Fig. 6) also includes: a mobile frame 1 with tool holders 22 for containers 2, a reducer 3, high pressure hoses 4, a pressure reducing hose 5 with a tee, connectors 6, a wiring plate 7 , the signaling device 9 with a manometer 10. Fixation of the cylinders on the mobile frame 1 is carried out by tightening belts 11. The lodges 22 in this embodiment are formed by additional supporting rod elements 24, rigidly fixed to the longitudinal rod elements 20 of the frame. The rod elements 20 and 21, as well as additional supporting rod elements 24, are made mainly of aluminum alloy in the form of pieces of products, mainly of profile rolled products, for example, a corner, or from a tube. These elements can be made, for example, horseshoe-shaped and are located mainly in a plane perpendicular to the longitudinal rod elements.

The extension hose 19 is used to connect to a connector mounted on the top panel of the breathing apparatus frame. An extension hose is stored wound on at least one bracket 25, preferably of a U- or L-shape (not shown).

In such an embodiment of the system, the frame serves to fasten the nodes of the system on it and can be made in the form of a container with walls 26 of sheet metal, mainly aluminum alloy, attached to the rod elements 20 and 21 of the frame 1. The frame can be placed in a cover covering it 27, which may be hard or soft — made of fabric or non-woven material. The frame is equipped with a handle 28 for carrying in the hand, while it is possible to adjust the movement of the handle along the frame in the longitudinal direction in order to balance the system when using the handle. The movements are carried out by moving the handle 28 along the longitudinal grooves or along the corresponding holes (not shown) in the upper wall 26. To carry the system on the shoulder there is a belt 29.

In both versions of the system, the cylinder is designed to store the working supply of compressed air and is, for example, a metal vessel reinforced with fiberglass.

The cylinder neck has a tapered thread through which a shut-off valve with a reducer 3 is screwed into the cylinder. When storing the cylinder with a valve separately from the breathing apparatus, a plug is screwed into the valve.

Reducer 3 (piston, balanced type) is designed to convert high (primary) air pressure in the cylinder into low (secondary) pressure. In addition, in accordance with this embodiment of the system, the gear housing can be one of the elements for securing the cylinders to the frame 1-by means of an inserted connecting unit: in the form of lugs 31 and 32 connected by a threaded element 30 (bolt) (Fig. 9), one of which is connected with the gear housing 3, and the other with the frame 1, while one of the eyelets, mainly connected to the frame 1, has the possibility of installation movements (usually angular in the vertical plane

symmetry of the cylinder), and the other is rigidly connected, respectively, with the reducer 3. This node is one attachment point (fulcrum) for the cylinder in the lodgement, while the second fulcrum is the lodgement, which in this case is made in the form of one pair (and not two) additional supporting rod elements 24 located on both sides of the balloon in its tail.

Connector 6 is used to connect to the system according to any of the options for a hose breathing apparatus with compressed air, for example, with a backup cylinder. The system contains a connector to which the breathing apparatus is directly connected, as well as a filter, a safety valve, a hose and an alarm device (not shown in the drawing).

The system (in both versions) works as follows.

When the valves are opened (Fig. 10), air under high pressure enters from the cylinders 2 through high-pressure hoses 4 to the wiring plate 7, the filter of the reducer 3, to the high-pressure cavity A and then to the reduced pressure cavity B, where a constant reduced pressure is maintained regardless of inlet pressure changes.

From the cavity B of the gearbox, air enters through the low pressure hose 5 into the wiring plate 7, and then to the connector 6 and into the hose of the drum 8.

A hose breathing apparatus (not shown) is connected directly to the system connectors, or through an extension hose 19 (to connector 6).

To control the air supply in the cylinders, air from the high-pressure cavity A and from the low-pressure cavity B enters the pressure gauge 10 and then to the alarm device. When the working air supply in the cylinders is exhausted, the alarm whistle turns on

devices warning with an audible signal that only the reserve air supply remained in the cylinders.

The system is planned to be implemented in various versions with various types and number of cylinders (as a rule, from 1 to 4).

To remove (install) the cylinders in the places formed by the lodgements, it is enough to disconnect (attach) the hoses, loosen (create) the tension of the belts in the buckles and remove (install) the cylinders. In the case of fastening the cylinders to the frame using a gearbox and a threaded connection, the element 30 of the latter is introduced into the combined holes of the eyes 31 and 32, and then the aforementioned operations with belts are carried out. Before operating the system according to the embodiment with a portable system including a handle 28, it is advisable to install the latter in the longitudinal direction relative to the frame (using grooves or holes) so that it is in a nearby area relative to the line of action of the weight of the system.

Thus, the claimed system provides the ability to quickly transport it to the place of work by the user himself, as well as simple and quick replacement or installation of cylinders. Another feature of the system is the ability to connect several users with individual breathing apparatus to it. The design of the system also makes it possible to provide the latter with a stable vertical position — which is important when operating and storing the system in confined spaces.

USEFUL MODEL FORMULA

1.Mobile balloon system for supplying compressed air to hose breathing apparatus, containing a frame frame with wheels for moving the system by the user, in the lodgements of which compressed air cylinders are fixed using tightening belts, an extension hose designed to connect the cylinders through a reducer with a pressure gauge, an emergency signaling device air supply and hose breathing apparatus, means for laying and storing the extension hose, made in the form installed in the supports with the possibility rotation of the drum with a drive handle, and a support for stationary installation of the system, characterized in that the frame frame is made in the form of a set of interconnected rigid longitudinal and transverse rod elements forming cradles for cylinders, and the longitudinal rod elements are located on the sides and in the frame the middle part between the cylinders, while the said longitudinal rod elements are provided with brackets through which tightening straps extend, covering the cylinders and intended for fastening latter in the housings by means of adjustable clamps, and the drum is adapted to handle the support during the formation of the frame arrangement in a vertical position.

2. The system according to claim 1, characterized in that the core elements of the frame frame are made tubular.

3. The system according to claim 1, characterized in that the cylinders are fixed on the lodgements with two tightening belts, at least one of which covers two cylinders.

4. A mobile balloon system for supplying compressed air to hose breathing apparatus, containing a frame frame with means for moving the system by the user, in the lodgements of which compressed air cylinders are fixed using tightening belts, an extension hose designed to

connection of cylinders through a reducer with a manometer, emergency air supply indicator and hose breathing apparatus, means for laying and storing an extension hose, characterized in that the frame frame is made in the form of a spatial set of rigidly connected rigid longitudinal and transverse rod elements, and the cylinder lodgements are formed from separate additional support rods rigidly fixed to the longitudinal core elements of the frame and designed for laying cylinders, while Allon in housings secured by tightening straps with buckles regulatory extending through longitudinal rod fixed on the bracket elements, and said moving means includes a handle for carrying the system in hand and / or belt system to be worn on the shoulder.

5. The system according to claim 4, characterized in that the cylinders are fixed on the lodgements with one or two tightening belts, in this case at least one of the said belts covers all cylinders.

6. The system according to claim 4, characterized in that for each cylinder it is rigidly connected to the gearbox, which is connected to the frame frame by means of an inserted threaded element and two eyes fixed respectively to the gearbox and frame frame, while one of the eyes is rigidly fixed and the other with the possibility of installation movements when fixing the cylinder.

7. The system according to claim 4, characterized in that the means for laying and storing the extension hose for connecting with cylinders and a hose breathing apparatus is made in the form of U- or G-shaped brackets mounted on a frame frame.

9. The system according to claim 4, characterized in that the said rod elements are made of a profile product, mainly a corner.

10. The system according to p. 4 or 9, characterized in that the said rod elements are made of aluminum alloy.

11. The system according to p. 4 or 9, characterized in that the said walls of the frame frame are made of sheets of aluminum alloy.

12. The system according to claim 4, characterized in that the transfer handle is located in the projection zone of the center of gravity of the system on the horizontal axis.

13. The system according to claim 4, characterized in that the transfer handle is mounted with the possibility of longitudinal installation movements.

14. The system according to claim 4, characterized in that it is provided with a cover covering the mobile frame and mounted on the latter.

15. The system according to p. 14, characterized in that the cover is made of soft fabric or non-woven material.

16. The system according to p. 14, characterized in that the cover is made rigid.

MOBILE BOLOGNA system supplied compressed air

Claims (16)

1. Mobile balloon system for supplying compressed air to hose breathing apparatus, containing a frame frame with wheels for moving the system by the user, in the lodgements of which compressed air cylinders are fixed with tightening belts, an extension hose designed to connect the cylinders through a reducer with a pressure gauge, an emergency signaling device air supply and hose breathing apparatus, means for laying and storing the extension hose, made in the form of installed in supports with the possibility rotation of the drum with a drive handle, and a support for stationary installation of the system, characterized in that the frame frame is made in the form of a set of interconnected rigid longitudinal and transverse rod elements forming cradles for cylinders, and the longitudinal rod elements are located on the sides and in the frame the middle part between the cylinders, while the said longitudinal rod elements are provided with brackets through which tightening straps extend, covering the cylinders and intended for fastening latter in the housings by means of adjustable clamps, and the drum is adapted to handle the support during the formation of the frame arrangement in a vertical position. 2. The system according to claim 1, characterized in that the core elements of the frame frame are made tubular. 3. The system according to claim 1, characterized in that the cylinders are fixed on the lodgements with two tightening belts, at least one of which covers two cylinders. 4. A mobile balloon system for supplying compressed air to hose breathing apparatus, containing a frame frame with means for moving the system by the user, in the lodgements of which compressed air cylinders are fixed using tightening belts, an extension hose designed to connect the cylinders through a reducer with a pressure gauge, an emergency signaling device air supply and hose breathing apparatus, means for laying and storing the extension hose, characterized in that the frame frame is made in the form of a strange set of rigidly connected rigid longitudinal and transverse rod elements, and the cylinder lodgements are formed of separate additional supporting rods rigidly fixed to the longitudinal core elements of the frame and intended for laying the cylinders, while the cylinders in the lodgements are fixed by means of tightening belts with adjusting buckles passing through the brackets fixed on the longitudinal rod elements, and the said means of movement include a handle for transferring the system to the hands and / or the belt system worn on the shoulder. 5. The system according to claim 4, characterized in that the cylinders are fixed on the lodgements with one or two tightening belts, in this case at least one of the said belts covers all cylinders, 6. The system according to claim 4, characterized in that for each cylinder it is rigidly connected to the gearbox, which is connected to the frame frame by means of an inserted threaded element and two eyes fixed respectively to the gearbox and frame frame, while one of the eyes is rigidly fixed and the other with the possibility of installation movements when fixing the cylinder. 7. The system according to claim 4, characterized in that the means for laying and storing an extension hose for connecting to cylinders and a hose breathing apparatus is made in the form of U- or G-shaped brackets mounted on a frame frame. 8. The system according to claim 4, characterized in that the frame frame is provided with walls made of sheet material fixed to said core elements and located on the upper, lower, side and rear sides of the frame. 9. The system according to claim 4, characterized in that the said rod elements are made of a profile product, mainly a corner. 10. The system according to claim 4 or 9, characterized in that the said rod elements are made of aluminum alloy. 11. The system according to claim 4 or 9, characterized in that the said walls of the frame frame are made of sheets of aluminum alloy. 12. The system according to claim 4, characterized in that the transfer handle is located in the projection zone of the center of gravity of the system on the horizontal axis. 13. The system according to claim 4, characterized in that the handle for the transfer is mounted with the possibility of longitudinal installation movements. 14. The system according to claim 4, characterized in that it is provided with a cover covering the mobile frame and mounted on the latter. 15. The system of claim 14, wherein the cover is made of soft fabric or non-woven material. 16. The system according to 14, characterized in that the cover is made rigid.