RU2503472C1 - Device for testing and treatment of fire hoses - Google Patents

Abstract

FIELD: fire prevention facilities.

SUBSTANCE: invention relates to auxiliary equipment for testing and treatment of fire hoses, and can be used for consistent implementation of hydraulic tests of them. The device for testing and treatment of fire hoses comprises a casing inside which a rotary drum is mounted on the racks. The casing has hinged technological doors. The drum is made in the form of two end hollow rims, which are connected by the peripheral ties. The rims are provided with connecting pipes of the processed hose and which through the tubular spokes are in communication with the hollow horizontal shaft. The shaft is connected to a rotary drive and is connected through the switch to the water supply manifold and the air compressor. The compressor pipeline is switched to the dispenser of talc container. In the air supply pipeline from the compressor a heater is installed. The outlet fitting is combined with the drain valve and is mounted on a carriage which is positioned at the distal rim of the drum. The drum ties are equipped with spring-loaded longitudinal supports. The proposed technical solution enables to increase drying capacity of fire hoses after testing and functional reliability of the device design.

EFFECT: double-sided supply of the coolant for drying of fire hoses provided removal of moisture from the material volume of the walls of the hoses due to convection in the design mode.

3 cl, 3 dwg

Description

The invention relates to fire fighting equipment, and more specifically to auxiliary equipment for testing and processing fire hoses, and can be used for sequential hydraulic testing, drying with talc.

The level of this technical field is characterized by the installation for the processing of fire hoses, described in patent RU 2416447, А62С 33/00, 2010, which is selected by technical essence and the number of matching features as the closest analogue to the proposed one.

The known installation comprises a rotary drum of the squirrel-wheel type having a hollow axis driven by an electric motor (working shaft), which is connected by means of radial hollow spokes with toroidal hollow rings - end rims equipped with supply and outlet pipes, respectively.

The hollow shaft of the drum is connected to the air compressor by a pipe, which is equipped with a mixer, where talc is placed.

The end rims are rigidly interconnected by screeds distributed around the perimeter, on which the processed sleeve is connected in turns, connected to the supply and discharge pipes of the process water.

The drum is placed in a cylindrical body, in the upper part of which slotted holes are made in the channel for removing moist air, to the condenser for preliminary drainage and then to the discharge fan, which supplies air through the air heater to the inside of the case (bottom), thus forming a closed drying circuit.

The described device is a universal unit in which fire hoses are tested successively by water pressure and drying, combined with talcification of the inner surface of dry hoses, preventing their caking and sticking during storage.

Technological water from the tank is pumped to the inlet of the hollow shaft of the drum, with the valve of the air pipe closed.

After hydraulic testing of the hoses with a given pressure, the water is drained into the body pan, and then through its drain, into the tank for subsequent use as intended.

In this installation it is possible to process linen and rubberized fire hoses of various diameters, in particular one ⌀150 mm and five ⌀51 mm interlocked with each other.

The operation of the installation is controlled from a common console.

A disadvantage of the known installation is the unsatisfactory quality of drying the inertia material of the fire hoses with a unilateral supply of heated air only from the outside, in the body volume.

This is the reason for the conditions for the active development of putrefactive processes during the storage of fire hoses that destroy the fabric of the structural cover and the waterproofing layer, and with an increase in the temperature of the coolant in the installation, intensive aging of the material of the hoses occurs with the formation of cracks, that is, loss of functionality.

In addition, the slowed-down coolant supply (not more than 4 m / s) significantly reduces the performance of preventive maintenance, and the forced use of a closed coolant preparation loop sharply increases the power consumption of the installation and the consumer test cost.

The technical problem to which the present invention is directed is to improve the quality of the production drying of fire hoses after hydraulic testing with a specific reduction in energy consumption.

The required technical result is achieved by the fact that in the known installation for testing and processing fire hoses, comprising a casing with hinged technological doors, inside of which there is mounted a rotary drum made in the form of two end hollow rims connected by peripheral couplers equipped with connection pipes for the processed hose and which by means of tubular spokes communicate with a hollow horizontal shaft connected to a rotation drive and connected via a switch to a feed line in ode and an air compressor, the pipeline of which is connected to the talc tank dispenser, according to the invention, a heater is installed in the air supply pipe from the compressor, the outlet pipe combined with a drain valve is mounted on a carriage positioned on the distal rim of the drum, the couplers of which are equipped with spring-loaded longitudinal supports, the fact that in a casing made of heat-insulating panels, fixtures are installed.

Distinctive features of the proposed technical solution have improved the quality of more efficient drying of fire hoses after testing with water under pressure and the functional reliability of the design of the installation, convenient in operation.

The two-way supply of coolant for drying fire hoses in a gentle mode (with a temperature not exceeding 60 ° C) ensured the achievement of the specified quality of moisture removal from the volume of material of the walls of the hoses due to convection in the calculated mode.

Placing a heater in the air supply pipe from the compressor made it possible to combine mechanical removal of moisture from the inside of the sleeve with an air stream and the accompanying forced convective heat transfer at the interface of unevenly heated adjoining media, which ensured an increase in the drying efficiency with a decrease in its duration.

At the same time, the design of the installation was simplified by eliminating the regeneration of process air in a closed drying circuit and a return water line.

The fastening of the outlet pipe with a water drain valve on the carriage, movably mounted on the distal rim of the drum with the possibility of its rigid positioning, is necessary for the free adaptation of the end of the sleeves having different (within the tolerance) length, with the outlet pipe and for adjoining the processed sleeves to the drum during testing pressure and subsequent processing.

The possibility of shifting the carriage along the rim of the drum provides an additional advantage: compensation of the tension of the sleeves that swell when filled with water under pressure, and a decrease in the mechanical load on the supporting ties of the drum.

Equipping the drum couplers with spring-loaded longitudinal supports provides damping of the sleeve expansion when filling with water under pressure, absorbing the mechanical loads on the drum couplers in preparation for dynamic tests.

The execution of the casing of the insulating panels is aimed at preserving thermal energy for more efficient and productive drying of the sleeves from the outside.

Installation of lamps inside the casing improves visual monitoring of the testing of fire hoses by pressure to detect small leaks.

Therefore, each essential sign is necessary, and their combination in a stable relationship is sufficient to achieve a novelty of quality that is not inherent in the signs of disunity, that is, the technical problem posed in the invention is solved not by the sum of the effects, but by a new super-effect of the sum of the signs.

The invention is illustrated by drawings, which have a purely illustrative purpose and do not limit the scope of the claims of the totality of the features of the formula. The drawings show: in Fig.1 - General view of the installation, diagram; figure 2 is a view along arrow a in figure 1; figure 3 - movable carriage (view B).

Installation (figure 1) with dimensions of 3300 × 2250 × 2390 mm (comparable with the prototype: 3200 × 2500 × 2600 mm) is intended for testing and processing in one cycle of a different number (in the coupling) of sleeves of different diameters: 1 pc. ⌀150 mm, 2 pcs. ⌀110 mm, 3 pcs. ⌀89 mm, 4 pcs. ⌀77 mm, 5 pcs. ⌀66 mm vs 7 pcs. ⌀51 mm, which is more productive, while reducing the cycle in time by half, up to 60 min.

The installation contains mounted on the frame 1 casing of insulated panels 2, closed on top of a translucent plastic 3, in which there are two hinged doors 4.

The racks 5 of the frame 1 are supported by a horizontal hollow shaft 6, which is connected by tubular spokes 7 to two opposite hollow rims 8, rigidly connected to each other by longitudinal ties 9, forming a working drum.

On the screeds 9 equidistantly mounted supports 10, loaded with distributed springs 11.

The hollow shaft 6 is connected via a tee 12 (FIG. 2): to the pipeline 13 for supplying the main water pump 14 with a pressure of 0.8-5 kgf / cm ² and to the pipeline 15 for supplying air from the compressor 16, which communicates with the dispenser 17 of the talcum tank 18.

A heater 19 is installed on the pipe 15 between the compressor 16 and the tee 12.

In the tee mounted ball valve 20, switched by a handle.

On the opposite side, the shaft 6 is connected with an electric drive of its rotation.

One of the spokes 7 of the rim 8 is connected to the inlet pipe 21 for switching the test sleeve, the other end of which is connected to the drain pipe 22 (Fig.3), mounted on the carriage 23, movably mounted on the distal rim 8.

The carriage 22 is positioned by means of a threaded stopper 24.

The drain pipe 22 is equipped with a ball valve 25, which serves to drain the air when filling the test sleeve with water.

In frame 1, an inclined bottom 26 is made, in the corner of which a branch pipe that is discharged into the sewer is closed and closed by a stopper 27.

On the rack 5, a heater 28 is installed, the air supplied inside the installation, which is discharged into the atmosphere from above through an open opening of the plastic hemisphere 3.

Panels 2 have mounted luminaires 29.

Installation is controlled by remote control 30.

The installation for hydraulic testing of fire hoses, their subsequent drying and talcing of the inner surface as follows.

Through the open doors 4 of the casing, the test fire hose is connected to the inlet pipe 21 on the rim 8 of the drum, after which, turning it reversely against the direction of the working movement, the winding of the sleeve (coupling of the sleeves) is carried out in tight turns.

The second end of the sleeve is connected to the drain pipe 22, for which the carriage 23 is moved along the rim 8 in the access area.

After connecting, the position of the carriage 23 is fixed with a threaded stopper 24.

Pressure tests are carried out with closed doors 4 and with lights 29 on.

When filling the sleeve with water, the ball valve 25 on the pipe 22 remains open for bleeding air, after which the valve 25 is closed.

The hydraulic pump 14 supplies water from the main line through the pipe 13 to the hollow shaft 6, while the ball valve 25 closes the pipe 15. Process water through the hollow spokes 7 and the rim 8 enters the test sleeve and fills it in 90 s to a maximum pressure of 24 kgf / cm ² .

After conducting a water pressure test, the hydraulic pump 14 is turned off and the valve 25 is opened on the pipe 22 to drain the water into the pan 26.

Then, by turning the ball valve 20 of the tee 12, the pipeline 15 is switched to the hollow shaft 6 to supply compressed air from the compressor 16, which is heated in the heater 19 along the way.

At the same time, inside the casing, to the rotating drum, from the bottom of the wound fire hose, hot air is supplied from the heater 28, which blows the sleeve from the outside.

At the end of drying, the cam batcher 17 is turned, which from the container 18 gradually feeds the talcum powder into the stream of air supplied to the processed sleeve, where it is dispersed and settles, covering the inner surface of the sleeve.

The treated fire hose is removed by the reverse procedure when the drum rotation drive is turned off.

Next, the work cycle is repeated for the new sleeve.

Tests of the prototype of the proposed installation have practically confirmed the achievement of the best performance indicators for the quality of drying of fire hoses after hydraulic testing for functionality with higher productivity and lower energy consumption, which allows us to recommend it for serial production for delivery to customers.

A comparative analysis of the proposed technical solution with the identified analogues of the prior art, from which the invention does not explicitly follow for a specialist in fire fighting equipment, showed that it is unknown, and taking into account the possibility of manufacturing an installation for testing and drying fire hoses in an existing machine-building industry, we can conclude compliance with patentability criteria.

Claims (3)

1. Installation for testing and processing fire hoses, comprising a casing with hinged technological doors, inside which a rotary drum is mounted on the racks, made in the form of two end hollow rims connected by peripheral ties, equipped with connection pipes for the processed hose and which are connected with hollow horizontal spokes a shaft connected to a rotation drive and connected via a switch to a water supply line and an air compressor, the pipeline of which commutes I talc dispenser container, characterized in that the air supply from the compressor mounted heater pipe, outlet pipe, combined with a drain cock is fixed on the carriage to be positioned at the distal rim of the drum, which is equipped with spring-loaded tie longitudinal supports. 2. Installation according to claim 1, characterized in that the casing is made of insulating panels. 3. The installation according to claim 1, characterized in that the lamps are installed in the casing.

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