RU2541570C2 - Artillery barrel cooling jacket control board - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention relates to artillery. Gun barrel heating control system consists on thermocouple sensor secured at barrel surface and control board composed by point-type thermometer and ON-OFF-type lever switch to define in ON-state the barrel temperature. Gun barrel temperature is measured by several vertical movable thermocouple sensors equally spaced apart at top and bottom sections of removal universal gun barrel cooling jacket.

EFFECT: higher combat readiness.

5 cl, 3 tbl, 4 dwg

Description

The invention relates to the field of combined measuring instruments for the simultaneous determination of several control parameters, for example, during universal external cooling of the artillery barrel (for short - artstvol or simply barrel) [1].

It is known that when firing, the walls of the barrel are heated and overheated, which leads to negative processes associated with: curvature of the barrel with a further decrease in range, accuracy, accuracy and accuracy of fire; with mechanical wear and a decrease in the resource and reliability of the barrel; with the possibility of a barrel explosion when fired with the death of personnel; with a forced ceasefire for 60-120 minutes in order to cool the barrel; with a significant decrease in combat effectiveness; with the real danger of detecting a firing position, destruction of the guns and all personnel on the part of the enemy, and with other negative consequences [2, 3]. It is impossible to allow heating of the outer wall of the barrel to 573K, because at this temperature, the above negative processes are already beginning to develop [1-8].

In towed barreled artillery, the critical temperature of the barrel is determined by the degree of heating of the fluid in the brake system of the barrel rollback during firing and the extension of the signal rod. In self-propelled artillery systems (self-propelled guns), a temperature sensor is used to measure the barrel heating level with the output of operational data to the device, which is located on the panel of the control and control panel.

When the towed or self-propelled artillery barrel is heated to 573K, the command “Stop shooting!” Is issued, and the silence mode is maintained for 60 minutes, the barrel temperature decreases to 373K (the possibility of continuing firing with several shells opens up), and when silent for 2-3 hours - decreases to ambient temperature (the possibility of firing opens - without limiting the number of shells) [6]. These dangerous problems disappear when using a removable universal artstvol cooling shirt [1]. It is necessary that all sections of a removable cooling jacket fit snugly against the outer surface of the artillery barrel, as an air cushion 1-5 mm in size will inhibit the process of its effective cooling [1].

Thus, it should be noted that in the samples of towed barreled artillery there is no control and control panel, including the operation of a removable cooling jacket [1]. The control system for the critical temperature of the towed artillery barrel, associated with heating the fluid in the brake barrel rollback system after firing and extending the signal rod, can be taken as a prototype.

For an analogue, one can take the control and monitoring system for heating an artillery gun self-propelled guns, which consists of a thermocouple type sensor fixedly mounted on the outer surface of the barrel, the signal from which is fed to a control and monitoring panel on which a pointer-type temperature control device (thermometer) is located, showing the actual temperature of the outer surface of the barrel at any time, and a switch of the “On - Off” type is also placed, which allows monitoring in the “On” mode [4-7].

To create a control panel and control the operation of a removable artillery barrel cooling jacket [1], it is necessary to analyze the operation of the entire system, identify the need and location of various sensors, develop a block diagram of the signal flow with data output to the control and control panel.

Analysis of the work of a removable barrel cooling jacket [1] shows that (see figure 4 in [1]) it is necessary to place:

1) pneumatic pressure sensor of the air cylinder 21 (in the left bed of artillery guns);

2) hydraulic pressure sensor corrugated capacity (corrugated container) 22 (in the left frame);

3) the gauge of the level of filling with a liquid cooler corrugated cylinder 22 (in the left frame);

4) gauges for measuring the air flow in the fan type in the inlet 18 and outlet 20 collectors;

5) gauges for measuring the flow rate of a liquid cooler type counter in the input 18 and output 20 collectors;

6) pneumatic pressure sensors in the input 18 and output 20 collectors;

7) hydraulic pressure sensors in the inlet 18 and outlet 20 collectors;

8) sensors (thermocouple type) measuring the temperature of the barrel, coolers, walls of the cooling jacket;

9) ambient temperature measuring sensor;

10) sensors of the degree of compression of the upper and lower parts of the sections of the artstvol cooling jacket when tightening lock-couplers;

11) pressure and flow sensors of liquid and air coolers in the channels of the hydraulic and pneumatic systems, as well as artstvol cooling shirts, etc.

Let us consider in more detail the new design and composition of a removable artstvol cooling shirt, shown in figure 1 and figure 2. So, figure 1 shows a structural diagram of one of the sections of the cooling jacket artstvol, where:

1 - artstvol (upper region); 2 - the outer surface of the artillery barrel (upper border); 3 - cooling channel sector of the cooling jacket (in the upper part); 4 - the outer surface of the sector of the jacket artstvol cooling (upper part); 5 - input channel of the liquid (air) cooler (above the upper sectional part); 6 - rib of the upper part of the sector of the shirt artstvol cooling; 7 - sensor (thermocouple type) measuring the temperature of the outer surface of the sector of the artstvol cooling jacket sector (upper part); 8 - sensor measuring the temperature of the liquid (air) cooler in the channel section of the artstvol cooling jacket section (in the upper part); 9 - a sensor for measuring the temperature of the outer surface of the artwork (at the upper point) - in the form of a movable spring-loaded vertical thermocouple; 10 - a sensor for measuring the temperature of the outer and final surface of the rib sector of the artstvol cooling jacket sector (in the upper part); 11 - pneumatic sensor for measuring air pressure in the channel section of the jacket artstvol cooling (in the upper part); 12 is a hydraulic sensor for measuring the pressure of the liquid cooler in the channel section of the artstvol cooling jacket section (in the upper part); 13 - sensor measuring the ambient temperature; 14 - pneumatic sensor of the fan type measuring the air flow in the channel section of the artstvol cooling jacket (in the upper part); 15 is a hydraulic sensor of the fan type measuring the flow rate of a liquid cooler in the channel of the artstvol cooling jacket (in the upper part); 16 - the right docking unit for connecting the sectional part of the inlet channel of the cooler to the artstvol cooling jacket (in the upper part); 17 - the upper part of the sector shirts cooling artstvol; 18 - the right connecting flange of the artstvol cooling jacket section (upper part); 19 - the right connecting flange of the artstvol cooling jacket section (lower part); 20 - the right sensor control buttons push-button type tight connection of both parts of the section of the jacket cooling artstvol when they are closed with locks (locks-couplers); 21 is a hydraulic sensor of the turntable type for measuring the flow rate of a liquid cooler in the channel of the section of the artstvol cooling jacket (in the lower part); 22 - the right lock-coupler closure of both parts of the section of the artstvol cooling jacket section; 23 - pneumatic sensor of the fan type measuring air flow in the channel section of the artstvol cooling jacket (in the lower part); 24 - a hydraulic sensor for measuring the pressure of the liquid cooler in the channel section of the artstvol cooling jacket section (in the lower part); 25 - pneumatic sensor for measuring air pressure in the channel section of the artstvol cooling jacket section (in the lower part); 26 - sensor (thermocouple type) measuring the temperature of the outer end surface of the rib of the artstvol cooling jacket (in the lower part); 27 - a sensor (thermocouple type) measuring the temperature of the outer surface of the artwork (in the lower part) - in the form of a movable spring-loaded vertical thermocouple; 28 - sensor (thermocouple type) measuring the temperature of the liquid (air) cooler in the channel section of the artstvol cooling jacket section (in the lower part); 29 is a sensor (thermocouple type) measuring the temperature of the outer surface of the artstvol cooling jacket section (lower part); 30 - rib of the lower part of the section of the shirt artstvol cooling; 31 - artstvol (lower region); 32 - the outer surface of the artstvol (lower border); 33 - cooling channel section of the cooling jacket (in the lower part); 34 - the outer surface of the section of the jacket artstvol cooling (lower part); 35 - left lock-coupler closing both parts of the artillery cooling jacket section; 36 - left sensor control button type tight connection of both parts of the section of the jacket for cooling artstvol when they are closed with locks-ties; 37 - the lower part of the section of the shirt artstvol cooling; 38 - the left connecting flange of the artstvol cooling jacket section (lower part); 39 - the left connecting flange of the artstvol cooling jacket section (upper part); 40 - left docking unit for connecting the sectional part of the inlet channel of the cooler to the artstvol cooling jacket (in the upper part).

Figure 2 shows the input and output manifolds of the new artstvol cooling jacket, where: 41 is the input channel of the liquid (air) cooler supply system to the artstvol cooling jacket through the inlet manifold; 42 - output manifold of the artstvol cooling jacket (upper part); 43 - pneumatic sensor for measuring air pressure in the output manifold of the artstvol cooling jacket; 44 is a hydraulic sensor for measuring the pressure of the liquid cooler in the output manifold of the artstvol cooling jacket; 45 - the upper part of the artstvol cooling shirt; 46 - cooling fin (upper part); 47 - pneumatic sensor air flow type counterclockwise; 48 - hydraulic flow sensor liquid cooler type turntable; 49 - pneumatic sensor for measuring air pressure in the inlet manifold of the cooling jacket; 50 - a hydraulic gauge for measuring the pressure of the liquid cooler in the inlet manifold of the artstvol cooling jacket; 51 - input manifold of the artstvol cooling jacket (upper part); 52 - the inner annular channel of the inlet manifold of the artstvol cooling jacket (upper part); 53 - the inner annular channel of the inlet manifold of the artstvol cooling jacket (lower part); 54 - input manifold of the artstvol cooling jacket (lower part); 55 - drain plug of a liquid (air) cooler from the intake manifold; 56 - lock-coupler closure of both parts of the input manifold of the artstvol cooling jacket; 57 - control sensor push-button type tight connection of both parts of the input manifold and this section of the cooling jacket artstvol when they are closed with locks-couplers; 58 - the lower part of the artstvol cooling jacket; 59 - cooling fin (lower part); 60 - control sensor push-button type tight connection of both parts of the output manifold and this section of the cooling jacket artstvol when they are closed with locks-couplers; 61 - lock-coupler closure of both parts of the output manifold of the artstvol cooling jacket; 62 - output manifold of the artstvol cooling jacket (lower part); 63 - drain plug of a liquid (air) cooler from the outlet manifold; 64 - hydraulic flow sensor liquid cooler type turntable; 65 - pneumatic sensor air flow type counterclockwise; 66 - output channel of the output manifold of the system for supplying liquid (air) cooler to the artstvol cooling jacket through the inlet manifold.

To ensure the operation of the remote control and control panel, a standard battery (or batteries), for example, a finger-type or rectangular (square) type, should be used.

To increase the reliability, resource, survivability and efficiency of this remote control, it is proposed to utilize the mechanical energy of the movement of the liquid and air cooler in the channels of the hydraulic and pneumatic systems for ensuring the operability of the artstvol cooling jacket, as well as in the internal channels of the cooling jacket itself - by constructive placement of all counterclockwise flow sensors on the axes type of microgenerators, the resulting electric current is proposed to direct:

a) directly to the control and control panel - with a fully discharged standard battery or in its absence - during the firing of artillery pieces;

b) into the system of recharging a standard battery when it is discharged no more than 50% and into the system for ensuring the operability of the control and monitoring panel;

c) in the electronic drive (with a serviceable regular battery) - for further use: while ensuring the operation of the control and monitoring panel during the silence of the artillery, for recharging batteries for various purposes (for cars, armored vehicles, units, radio stations, etc.), to ensure operation a starter during direct start of engines of military transport and combat vehicles and units, for recharging batteries of regular and personal flashlights of military personnel, to provide illumination at night (combat card com andira and other documents, tents of a maintenance and repair point, tents for personnel, with signal lights of the site, for example, to ensure helicopter landing, etc.).

This system of utilization of mechanical energy and converting it into electrical energy is able to work in various combat and climatic conditions, as well as in the event of malfunctions in the systems for providing art-barrel cooling.

Let us consider in more detail extreme situations and options for malfunctions in which utilization and receipt of electric current are ensured:

1) with a serviceable artstvol cooling shirt:

a) when only the hydraulic system for ensuring artstvol cooling is functioning (all microgenerators of the hydraulic system will be involved, including the cooling jacket);

b) when only the pneumatic system is functioning (all microgenerators of the pneumatic system will be involved, including the cooling jacket);

c) during the operation of both hydraulic and pneumatic systems, assuming that one of them (for example, hydraulic) ensures the operation of the cooling jacket, and the other (for example, pneumatic) provides for the replenishment of air cylinders in the left and right artillery frames, and the purge of the internal channel of the gun after firing , refueling of external air cylinders for starting diesel internal combustion engines (ICE) and other equipment and weapons; (will be involved: all microgenerators of the hydraulic system, including the cooling jacket; all microgenerators of the pneumatic system, with the exception of those located in the channels of the cooling jacket);

2) with a malfunctioning artstvol cooling shirt:

a) when only the hydraulic system for providing artstvol cooling is functioning, excluding the cooling jacket, the liquid cooler will replenish the corrugated cylinder in the left frame and then be pumped into the corrugated cylinder in the right frame and vice versa (all microgenerators of the hydraulic system will be involved, except those located at the inlet and outlet of the collectors and in the internal channels of the cooling jacket);

b) when only the pneumatic system for providing art-barrel cooling is functioning, excluding the cooling jacket, the compressed air will:

to replenish air cylinders in the left and right artillery beds, to purge the internal channel of the artillery gun after firing, to refuel external cylinders for launching diesel engine and other equipment and weapons (all microgenerators of the pneumatic system will be involved, except those located at the input and output of the collectors and in internal channels of the cooling jacket;

c) during the operation of both hydraulic and pneumatic systems for providing art-barrel cooling, excluding the cooling jacket (all microgenerators of these systems will be involved, with the exception of those located on the input and output headers, as well as in the internal channels of the art-barrel cooling jacket).

The operation of the control and monitoring panel (with a discharged standard battery or in its absence) in an emergency will be provided even when only one microgenerator functions, the utilized electric current from which will be sent directly to the panel and to the electric storage device during the firing of artillery, and in silence period of the artillery gun - the operation of the console will be provided from the electronic drive.

Based on the analysis of the operability of a universal detachable artstvol cooling jacket and possible failures, general rules for the transfer from one cooling mode to another are proposed.

1. The most effective is the forced liquid cooling mode. It can be used in the trouble-free and trouble-free operation of all mechanisms, control devices, as well as in the presence of the required amount of liquid cooler, such as diesel fuel (fuel). The transfer to the next, less effective mode - the mode of natural liquid cooling - should be carried out under conditions when: a) there is no necessary volume of liquid cooler to ensure forced convection, and the available reserves of the liquid cooler can completely fill only all the channels of the cooling jacket; b) malfunctions occurred in the system for providing forced convection of the liquid cooler - before entering the cooling jacket and - after exiting it. In both forced and natural convection of the liquid cooler, it is necessary to maintain a critical pressure zone in the cooling jacket in order to obtain the maximum possible values of the heat transfer coefficient for this liquid cooler [1].

2. The forced air cooling mode is somewhat less effective than liquid. It can be applied: in case of failure of the hydraulic system; in the absence of a liquid cooler at the firing position; during trouble-free and trouble-free operation of all mechanisms of the pneumatic system, including the cooling jacket. The transfer to the next, less efficient mode - the natural air cooling mode - should be carried out under the conditions when: a) there are malfunctions in the system for providing forced convection of air (air cooler) - before entering the cooling jacket and - after leaving it, although the latter does not plays a big role, because air after passing through the cooling jacket may be discharged into the atmosphere. To ensure the highest possible values of the heat transfer coefficients, it is necessary to maintain the maximum possible air pressure in the cooling jacket.

3. The “Without Coolers” mode is the least effective and low-cost compared to the previous ones, because the internal channels of the cooling jacket are filled with ambient air at normal atmospheric pressure, and heat is removed through the outer surface of the removable cooling jacket, which is ribbed with round fins. Such a regime can be applied when: a) all systems for providing forced and natural convection of liquid and air coolers fail; b) the tightness of the cooling jacket is broken or other damage is found (for example, crushing of the cooling channels); c) the previous subparagraphs a) and b) are simultaneously fulfilled.

As an example, we consider some of the malfunctions of forced liquid cooling of artstvol, the causes of their occurrence and methods for their elimination:

1) The liquid cooler does not enter the input manifold 51 of the artstvol cooling jacket (see FIG. 2). Reasons: a) the tube of the inlet channel 41 (see FIG. 2) of section No. 1 is broken, for example, a fragment of an enemy’s shell; b) the waterproofing of intersectional docking units, for example 40, 16, is violated (see figure 1); c) the hydraulic system for creating pressure and pumping the liquid cooler during the utilization of the mechanical energy of the recoil of the barrel during the firing of artillery is violated. It is necessary: a) to eliminate the hole in the tube of the input channel 41 (see figure 2) of section No. 1 or replace the faulty tube of this section with a new one; b) check and tighten the docking intersection units; c) transfer the forced liquid cooling system to the natural one, for which purpose close the inlet and outlet taps of the cooling jacket, through the hole from the inverted hydraulic sensor 50 (see Fig. 2), add the inlet manifold 52 with a liquid cooler, screw the hydraulic sensor 50 into place, check barrel temperature, continue shooting.

2) The liquid cooler poorly (at low pressure) enters the cooling channels of section No. 3 of the artstvol cooling jacket. Reasons: a) the hydraulic connection between the connecting flanges of the section No. 2 and No. 3 of the artstvol cooling jacket has loosened; b) the rubber waterproofing sealing gasket between the connecting flanges No. 2 and No. 3 is worn or torn. Necessary: a) tighten the nuts of the connecting flanges of sections No. 2 and No. 3; b) replace the rubber waterproofing sealing gasket between the connecting flanges No. 2 and No. 3; c) put the cooling system in the mode “Without coolers”, for which close the inlet tap of the inlet channel 41 (see figure 2), transfer the flow of liquid cooler back to the corrugated container (in the corrugated cylinder) of the left or right frame, providing a transfer of coolant from one corrugated cylinder to another, bypassing the cooling jacket, which is desirable - to ensure the operation of flow sensors of the rotary type with microgenerators - to utilize the mechanical energy of the movement of the liquid cooler and turn it into an electric eskuyu or disable the hydraulic part of the mechanical energy utilization system artstvola during firing, the liquid refrigerant drained residues of the inlet and outlet manifolds through drain hole by loosening the drain plugs 55, 63 (see FIG. 2), check the temperature artstvola continue shooting.

3) The pressure in the annular channel 52, 53 (see FIG. 2) of the inlet manifold of the artstvol cooling jacket is not increased or maintained constant. Reasons: a) waterproofing is broken between the upper 51 (see figure 2) and the lower 54 parts of the inlet manifold due to the weak twist of the lock-coupler 56 (see figure 2); b) the waterproofing is broken between the upper 51 (see figure 2) and the lower 54 parts of the inlet manifold due to rupture or wear of the rubber waterproofing pad. It is necessary: a) to tighten the lock-coupler 56 (see figure 2); b) replace the rubber waterproofing gasket; c) if this is not possible, then switch the cooling system to “Without coolers” mode, check the temperature of the artillery barrel, continue shooting.

4) The surface and channels are damaged, for example, section No. 4 of the cooling jacket (or only the upper part, or only the lower part, or both parts at once) of the artwork, pressure has dropped, a liquid cooler has leaked. Reasons: a) due to a fragment of the enemy’s shell falling into section No. 4, it was broken either only the outer or the outer together with the inner wall of the cooling jacket of this section (or only the upper part, or only the lower part, or both parts); b) damage was accidentally received during improper transportation and maintenance. It is necessary: a) to replace the faulty section No. 4 with a new one from spare parts (if time and conditions allow it); b) put the cooling system in the “Without coolers” mode, check the temperature of the artillery barrel, continue shooting.

5) The pressure in the annular channel of the output manifold 42, 62 (see FIG. 2) of the artstvol cooling jacket does not increase and is not maintained constant. Reasons: a) the waterproofing between the upper 42 and lower 62 parts of the output manifold is violated due to the weak twist of the lock-coupler 61 (see figure 2); b) the waterproofing between the upper 42 and lower 62 parts of the output manifold is broken due to a gap or wear of the rubber waterproofing pad. It is necessary: a) to tighten the lock-coupler 61 (see figure 2); b) replace the rubber waterproofing gasket; c) if this is not possible, then switch the cooling system to “Without coolers” mode, check the temperature of the artillery barrel, continue shooting.

6) There is no signal from, for example, the right sensor 20 (see Fig. 1) of a push-button type (of any section). Reasons: a) the lock-coupler 22 is not tightened (see figure 1); b) the sensor 20 is out of order. It is necessary: a) to tighten the lock-coupler 22 (see figure 1) to the required level; b) replace the sensor 20 (if possible and time) or tighten the lock-coupler to the required level and continue shooting. (This malfunction is common to all cooling modes (types), both with and without chillers.)

Figure 3 presents a block diagram of a control system for controlling the operation of a removable artstvol cooling shirt, including a control and monitoring panel. All control sensors are shown, the signals from which are sent to the information collection unit. The numbering of the sections of the cooling jacket starts from the side of the muzzle brake, near which the input manifold 51 is mounted (see figure 2). The sensors located in the upper part of the section of the cooling jacket are shown in Fig. 3 in the line "top", and the sensors located in the lower part of the jacket of cooling, in the line "bottom". Sensors located on the border of the upper and lower parts of the cooling jacket are shown in figure 3 - in the center of the two lines "top", "bottom".

The following notation is accepted:

T ₁ - readings of the sensor measuring the temperature of the surface of the artstvol (for example, 9, see figure 1);

T ₂ - readings of the sensor measuring the temperature of the cooler in the channel of the artstvol cooling jacket (for example, 8, see figure 1);

T ₃ - readings of the sensor for measuring the temperature of the outer surface of the sector of the artstvol cooling jacket (for example, 7, see figure 1);

T ₄ - readings of the sensor for measuring the temperature of the outer and final surfaces of the ribs of the sector sector of the artstvol cooling jacket (for example, 10, see figure 1);

T ₅ - readings of the sensor measuring the ambient temperature (for example, 13, see figure 1);

P _{in the can.} - readings of a pneumatic air pressure sensor in the channel of the artstvol cooling jacket (for example, 11, see figure 1);

R _can. - readings of the hydraulic pressure sensor of the liquid cooler in the channel of the artstvol cooling jacket (for example, 12, see figure 1);

P _{in. call} - readings of a pneumatic air pressure sensor in the annular channel of the inlet manifold of the artstvol cooling jacket (for example, 49, see FIG. 2);

R _{x in. call} - readings of the hydraulic pressure sensor of the liquid cooler in the annular channel of the inlet manifold of the artstvol cooling jacket (for example, 50, see FIG. 2);

P _{in out. call} - readings of a pneumatic air pressure sensor in the annular channel of the output manifold of the artstvol cooling jacket (for example, 43, see FIG. 2);

R _{w call} - readings of the hydraulic pressure sensor of the liquid cooler in the annular channel of the output manifold of the artstvol cooling jacket (for example, 44, see FIG. 2);

R _point. - readings of the hydraulic pressure sensor of the liquid cooler in the corrugated cylinder (in the left or right bed of the artillery gun);

P _{in point.} - readings of a pneumatic air pressure sensor in the cylinder (in the left or right bed of artillery guns);

V _{w point.} - readings of the liquid cooler level sensor in the corrugated balloon (in the left or right bed of the artillery gun);

ρ W _{to can} - readings of a pneumatic air flow sensor in the channel of the artstvol cooling jacket (for example, 14, see figure 1);

ρ W _f - readings of the hydraulic flow sensor of the liquid cooler in the channel of the artstvol cooling jacket (for example, 15, see figure 1);

ρ W _{in the input call} - readings of a pneumatic air flow sensor at the entrance to the annular channel of the inlet manifold of the artstvol cooling jacket (for example, 47, see FIG. 2);

ρ W _{w call} - readings of the hydraulic flow sensor of the liquid cooler at the entrance to the annular channel of the inlet manifold of the artstvol cooling jacket (for example, 48, see FIG. 2);

ρ W _{at the exit call} - readings of a pneumatic air flow sensor at the output of the annular channel of the output manifold of the artstvol cooling jacket (for example, 65, see FIG. 2);

ρ W _{w O. call} - readings of the hydraulic flow sensor of the liquid cooler at the outlet of the annular channel of the output manifold of the artstvol cooling jacket (for example, 64, see FIG. 2);

ρ W W _{from the score.} - readings of the hydraulic flow sensor of the liquid cooler from the corrugated balloon (in the left or right bed of the artillery gun);

ρ W _{in from a score.} - readings of the pneumatic air flow sensor from the cylinder (in the left or right bed of artillery guns);

SU (g) - a signal about the operation of a special device (SU) to create hydraulic pressure when utilizing the mechanical energy of the barrel to roll back during a shot (for example, see [1]: 16, Fig. 4; Figs. 5-7);

SU (c) - a signal about the operation of a special device (SU) to create pneumatic pressure during utilization of the mechanical energy of barrel rollback during a shot (for example, see [1]: 16, Fig. 4; Figs. 5-7);

DKPZ (l) - readings of the left sensor for monitoring the density of closure of the upper and lower parts of the section of the artstvol cooling jacket;

DKPZ (p) - readings of the right sensor for monitoring the density of closure of the upper and lower parts of the section of the artstvol cooling jacket.

From the information collection unit (see Fig. 3), all the information received goes to the information processing and analysis unit, where the following processes are carried out:

- processing and analysis of temperatures; average temperatures of external heating of the entire barrel, coolers, walls of the cooling jacket are determined;

when a barrel temperature of 500K or more is detected at least in one place (with one sensor in the section of the cooling jacket) - this information is immediately (first of all) transmitted to the next block - the command signal generating block;

- processing and analysis of information about the reliable closure of the upper and lower parts of all sections of the artstvol cooling jacket, if a signal does not arrive from at least one button-type sensor - information is immediately transmitted to the command signal generating unit;

- processing and analysis of pressure information in pneumatic and hydraulic systems, in case of unauthorized pressure drops in any unit, channel, device - information is immediately transmitted to the next block - the command signal generating block;

- processing and analysis of information about the flow rate of the liquid cooler and air in the hydraulic and pneumatic systems, if a leak is detected or the coolers do not arrive in the cooling jacket — this information is immediately transmitted to the next block — the command signal generating block;

- processing and analysis of information about the operation of a special device (SU) for creating air and hydraulic pressure during the recovery of the mechanical energy of the recoil of the barrel during a shot, in case of malfunction, for example, when a corrugated liquid (air) moving section is depressurized, - the information immediately goes to the next block generating a command signal;

- processing and analysis of information on the reconfiguration of the currently used artstvol cooling system (type) due to malfunctions, for example, a hydraulic system in preparation for switching to another artvolt cooling mode, for example, when switching from forced liquid cooling to natural liquid cooling, it is necessary: to close the taps of the inlet and outlet of the liquid cooler of the cooling jacket, having previously filled them with all the collectors and channels of all sections of the cooling jacket; create a critical pressure region; disconnect the hydraulic part of the special device for creating pressure in the hydraulic system - if it is malfunctioning, or put it into operation, excluding the cooling jacket, i.e. in the mode of pumping the liquid cooler from the corrugated balloon of the left bed to the corrugated balloon of the right bed and vice versa to ensure the operation of the flow type sensors with microgenerators to utilize the mechanical energy of movement of the liquid cooler in the channels and turn it into electrical energy, which is necessary to increase the efficiency of the remote control management and control; after these operations, a signal of readiness to transfer to another cooling mode (type) will go to the next block - the command signal generation block.

Further, from the information processing and analysis unit (see Fig. 3), all processed and analyzed information enters the command signal generating unit, where the following messages are generated, which are then sent to the control and control panel:

- “Shooting is allowed - unlimited”, when all the necessary systems, units and the cooling jacket itself function smoothly, and the barrel temperature does not rise above 423K, these may be the modes of the hydraulic system;

- “Shooting is allowed - n shots” when the cooling jacket is in forced or natural air cooling mode, as well as in the “No coolers” mode, when the barrel temperature has risen to 500K;

- “Shooting is prohibited” when: barrel temperature approached 573K; malfunctions in the hydraulic or pneumatic systems;

locks-couplers (or at least one lock-coupler) of the cooling jacket are not completely tightened; preparatory operations have not been completed when transferring the cooling system from one mode (type) to another;

- information in a constant mode for any type of cooling: temperature of artstvol; ambient temperature time to cool the barrel to the first shot; time to cool the barrel to ambient temperature; type of remote control power supply: battery, microgenerators, electric storage;

- “Faults” - briefly lists the malfunctions and shortcomings in the operation of the cooling jacket and supporting systems;

- “What to do” - briefly lists the commands for eliminating the shortcomings in the work of the cooling jacket and supporting systems, while eliminating all the shortcomings and executing the commands - a message is issued again about the shooting permission.

Figure 4 presents a structural diagram of the control panel and control the operation of a removable jacket for cooling the artillery barrel, which contains the following elements:

- in the center - lever switch “On. - off. ";

- in the upper part - the banner "Shooting is prohibited";

- in the middle part (in the left half) - all the types (types, modes) of cooling of the art-barrel used in the invention are listed, a button type switch is placed to the right of each name, a control lamp is placed to the left of each switch, over which the word "Yes" is written, and on the right - a control light and the word "No";

- in the middle part (in the right half) - the "Faults" banner, and to the right - the "What to do" banner, where each type of cooling has its own information fields (cells, windows, frames);

- at the bottom of the middle part - information windows, where at any time when the remote control is turned on, data on the temperature of the artillery bar, on the ambient temperature, on the time for cooling the barrel to the first shot, on the time for cooling the barrel to ambient temperature, on the type of power supply (from batteries, from microgenerators, from an electronic storage device);

- at the bottom - the banner "Shooting is allowed: unlimited; n - shots. "

Consider the operation of this remote in statics and dynamics.

In the static position, it is assumed that the gun is deployed at the firing position, all sections of the detachable cooling jacket are mounted on the barrel. The degree of twist of the lock-couplers must be checked on the control panel of the control and monitoring panel, for which you need to turn on the panel (turn the central lever switch to the upper “On” position). If, for example, information appears in the “Faults” sector: “the right lock-coupler of section No. 3 is not tightened”, this will mean that this lock is loose and not tightened, information should appear in the right-hand sector “What to do”: “tighten all the way. ” After elimination of this malfunction information from these sectors will disappear. Other malfunctions can be displayed on the display both in statics and in dynamics, i.e. when conducting combat or training firing. When the control panel is turned on (and any), information about the barrel temperature (it will be equal to the ambient temperature if the remote control was turned on before the start of shooting) and the ambient temperature must also be displayed. On the remaining displays in this part of the console (“Time to cool the barrel to the first shot”; “Time to cool the barrel to ambient temperature”) - will be displayed: “00 - minutes”.

Next, you need to select the type (type, method, mode) of cooling, there can be 5 options. When choosing a type of cooling, for example, “Liquid - forced convection”, it is necessary to check the entire hydraulic system, including a special device (SU) for creating hydraulic pressure, connect it to the input channel 41 (see figure 2) of the system for supplying a liquid cooler to the artstvol cooling jacket through the inlet manifold 51 (see Fig. 2), connect the outlet channel 66 (see Fig. 2) with a system for draining the liquid cooler into the corrugated tanks located in the left and right artillery beds, only after that you can check on the already switched on Ulta willingness of this type of cooling to work. To do this, you need to press the button-type round switch to the right of the “Liquid” inscription, after which one of the lamps should light up: “Yes” on the left, which means that the type of cooling is ready for operation; on the right - "No", which means - unavailability, i.e. any flaws or malfunctions were found. Next, you need to press the rectangular button-type switch to the right of the inscription “Forced convection”, after which one of the bulbs should light up: “Yes” on the left, which means that the type of cooling is ready for operation; on the right - “No”, which means unavailability, i.e. any malfunctions and shortcomings were found that should appear on the “Faults” display. If at least one “No” light comes on, the banner “No shooting” will be displayed at the top of the remote control. After eliminating them, to the right of the words “Liquid - forced convection”, both bulbs should light up - “Yes”, which will mean that this type of cooling is ready for operation. When both “Yes” lamps light up, the upper banner “Shooting is prohibited” will go out (disappear) on the remote control and the lower banner “Shooting is allowed - unlimited” will be displayed. This type of cooling is recognized as the main and main, because is the most effective among the rest. It is assumed that the use of other types of artstvol cooling will occur in case of failure of the main one. Although situations may arise when it is initially possible to use, for example, the “Air cooling - forced convection” type, if the liquid cooler is not delivered to the firing position, and the corrugated cylinders were refilled in the artillery beds, they were not made in advance (at the place of the permanent deployment of the artillery unit) . In this case, it is necessary to reconfigure the hydraulic system - in pneumatic, correctly connect the input and output manifolds of the artstvol cooling jacket, after which

- make a check on the control and monitoring panel, using the switches at the inscriptions “Air,“ Forced convection ”. When at least one of the two “No” light bulbs is located, located to the right of the “Air”, “Natural Convection” inscriptions - on the right side of the panel in the “Faults”, “What to Do” sectors information will be displayed on the shortcomings and malfunctions and on how to eliminate them , and on the top panel of the remote control the banner “No shooting” will be displayed. After elimination of shortcomings and malfunctions, both “Yes” bulbs should light up, the “Shooting prohibited” banner should go out, and the lower banner “Shooting allowed - unlimited” should be displayed.

Cooling modes may also become initial: a) “Liquid - natural convection”; b) "Air - natural convection"; - for example, in case of failure of the hydraulic or pneumatic system (or both systems at the same time), for example, during transportation, maintenance, when deploying equipment at a firing position, etc., i.e. before shooting. For the "Liquid - natural convection" mode, it is necessary: to disconnect all input and output channels from the cooling jacket and install plugs; fill the internal channels of the cooling jacket with a liquid cooler and create a critical pressure zone, check the tightness of all sections of the cooling jacket, check the tightening of the lock-couplers, then press the appropriate push-button switches on the remote control, and two “Yes” lamps should light up and the lower banner will light up "Shooting is allowed - unlimited." For the “Air - natural convection” mode - it is necessary to perform the same operations, fill the cooling jacket with compressed air, set the maximum possible pressure.

The last (fifth) type of cooling of the artillery barrel “Without coolers” can initially be applied in the following cases: a) if the numbers of the artillery combat crew (soldiers and sergeants) did not have time to set up, connect and check the liquid (or air) cooling system, t .k., for example, after taking up a firing position immediately (urgently) received a command to start firing; b) if during transportation, on the march, when servicing military equipment and weapons, when deploying equipment at the firing position, defects and malfunctions were caused, for example, the internal channels of one (two, three) sections of a detachable cooling jacket that were found just before the march, on the march, when taking up a firing position and deploying artillery and equipment, before firing, and there was no time to replace the faulty sections of the cooling jacket, and the new sections themselves could not azatsya, etc.

With this type of artillery barrel cooling, the gun commander is obliged to check the fastening of all sections of the removable cooling jacket on the barrel, then check on the control and monitoring panel. For what it is necessary to turn on the remote control, press the button-type circular switch to the right of the inscription “Without coolers”. If the “Yes” light comes on, then the lower banner “Shooting is allowed - unlimited” should be displayed. If the “No” light comes on, then the upper banner “Shooting is prohibited” should be displayed, and in the “Faults”, “What to do” sectors - information should be displayed on the malfunctions and on how to eliminate them. With this type of cooling, in principle, there may be one malfunction associated with under-twisting of the coupler locks, after the elimination of which the lower banner “Shooting is allowed - unlimited” will be displayed. The remote control is turned off by moving the central switch to the lower “Off” position.

The static position of the control and control panel can also be considered to be in its standard packaging (in a box, in a briefcase) without an external cable or with a cable with batteries removed from the socket.

In dynamics, it is assumed that the control and control panel will work during the firing of artillery. The gun commander (or operator, or calculation number) is obliged to turn on the remote control every 5-10 minutes.

Consider the operation of the console in dynamics for various types of cooling of the artworks:

1) type of cooling: “Liquid - forced convection”. With this type of cooling, various situations may arise related to malfunctions in the hydraulic system. Typical and expected information will appear on the panel display in the “Faults” sector and in the “What to do” sector, which is collected and shown in table 1, as well as laid down in the block diagram of the control and monitoring system.

Upon receipt of this information, the gun commander (operator, calculation number) must act according to the following algorithm: to really assess the current situation, to choose at the moment (if the battle conditions allow) the most optimal solution based on the following logical steps:

a) we must try to quickly restore the main and most effective hydraulic system for the forced cooling of the artillery barrel during the battle, if it fails, then restore it during silence at the firing position or, during maintenance and repair, in the repair unit (in the technical area, in the park, in field conditions);

b) if it was not possible to quickly fix the malfunction, then we must try to apply the following type of cooling, in this case - “Liquid - natural convection”;

c) if for various reasons it was not possible to quickly put into operation the second type of cooling, then you need to try to apply the third: “Air - forced convection”;

d) if the battle conditions and circumstances did not allow the introduction of the third type of cooling, then we must strive to use the fourth: “Air - natural convection”; e) if it was impossible to introduce the fourth type of cooling, then it is necessary to quickly transfer to the fifth: “Without coolers”.

The real technical condition of the entire artstvol cooling system, battle conditions, rate of fire, and other factors can make the gun commander (operator or calculation number) make one single and correct decision, it is possible when you need to quickly transfer the main cooling system, for example, immediately to the fifth type: “Without coolers”.

After eliminating the deficiencies or after switching to another type of cooling, the “Yes” light should immediately light up, located to the right of the type of cooling inscription, then the lower banner “Shooting is allowed - unlimited” should be displayed.

Table 1 Malfunctions What to do 1. Zero pressure in the intake manifold, leakage in the docking nodes of the upper and lower parts of the cooling jacket a) tighten the lock-coupler of the intake manifold; b) replace the waterproofing gaskets in the docking nodes of the inner annular channel of the inlet manifold 2. The lack of flow in section 34 of the cooling jacket, the formation of leaks in the wafer connection sections No. 3 and No. 4 a) tighten the nuts on the connecting flanges of sections No. 3 and No. 4; b) replace the waterproofing gasket between the connecting flanges No. 3, No. 4; c) transfer to another type of cooling: “Without coolers” 3. Lack of flow and zeroing of pressure in the lower part of section No. 3 of the cooling jacket, internal channels are broken, leakage
a) replace section No. 3 of the cooling jacket with a new one from the spare part; b) transfer to another type of cooling: “Without coolers” 4. The absence of liquid cooler in the inlet of the cooling jacket, the failure of a special device for creating air and hydraulic pressure a) transfer to another type of cooling: “Liquid - natural convection”; b) transfer to another type of cooling: “Without coolers” 5. Lack of flow and pressure of the cooler in the area: from the corrugated balloon to the inlet to the inlet of the cooling jacket, leakage, leakage of the cooler a) replace the pipelines of the hydraulic system; b) transfer to another type of cooling: - or “Liquid - natural convection”; - or “Air - forced convection”; - or "Air - natural convection"; - or “Without coolers”

2) type of cooling: "Liquid - natural convection." With this type of artstvol cooling, situations may arise related to a malfunction of the cooling jacket. The main alleged and typical malfunctions and ways to resolve them are collected and shown in table 2, as well as laid down in the block diagram of the monitoring and control system. Similar and other information will be displayed on the control panel of the control and control panel. Be sure to light up two “No” lights located to the right of the words “Liquid” and “Natural convection”, the upper banner “No shooting” will be displayed.

After troubleshooting and switching to another type of cooling, the “Yes” lamps should light up, located to the right of the words “Liquid”, “Natural convection”, the lower banner “Shooting is allowed - unlimited” should be displayed.

table 2 Malfunctions What to do 1. Pressure loss in the collectors and sections of the cooling jacket, leakage in the flange connection of sections No. 2, No. 3 a) tighten the nuts of the flange connection of sections No. 2, No. 3; b) replace the waterproofing gasket between the flanges of sections No. 2, No. 3; c) transfer to another type of cooling: “Without coolers” 2. Loss of pressure and flow in the channels of the upper part of section No. 4 of the cooling jacket, channels are punched, the formation of a leak of a cooler a) replace section No. 4 with a new spare part; b) transfer to another type of cooling: “Without coolers” 3. The absence of cooler consumption in the channels of sections No. 1, No. 4 (in the upper part), in the channels of sections No. 2, No. 3 (in the lower part), the channels are wrinkled from the outside a) replace sections No. 1, 2, 3, 4 with new ones from spare parts; b) transfer to another type of cooling: “Without coolers” 4. The presence of cooler in the cooling jacket 60% a) refuel the cooling jacket to 100% through the inlet manifold; b) transfer to another type of cooling: - or "Air - forced convection"; - or "Air - natural convection"; - or “Without coolers”

3) type of cooling: “Air - forced convection”. With this type of artstvol cooling, situations may arise associated with the pneumatic system, with the cooling jacket, etc. The main alleged and typical malfunctions and their solutions are collected and shown in table No. 3, as well as introduced into the block diagram of the control and monitoring system.

It is assumed that such information will appear on the control panel of the control and monitoring panel. If at least one malfunction occurs, two “No” lamps should light up, located to the right of the words “Air” and “Forced convection”, the upper banner “No shooting” must be displayed.

After elimination of deficiencies and malfunctions or after transferring to another type of cooling, two “Yes” lamps should light up, located to the right of the words “Air” and “Forced convection”, and the lower banner “Shooting is allowed - unlimited” should also be displayed.

Table 3 Malfunctions What to do 1. Lack of air pressure in the pneumatic system and in the cooling jacket, a special device for creating air and hydraulic pressure is faulty a) repair or replace a special device; b) transfer to another type of cooling; “Without coolers” 2. Reduced values of flow and pressure in the channel for supplying air to the cylinder in the left frame, the formation of air leakage through a crack in the supply tube a) repair or replace the supply pipe of the pneumatic system in the left bed; b) transfer to another type of cooling: - or “Air - natural convection”; - or “Without coolers” 3. Pressure and flow drops in the inner annular channel of the inlet manifold, air leak in the docking zone of the upper and lower parts of the inlet manifold a) tighten the lock-coupler on the input manifold until it stops; b) replace the waterproofing gaskets in the connecting places of the inner annular channel of the inlet manifold; c) transfer to another type of cooling: “Without coolers” 4. Pressure and flow drops in the upper part of section No. 3, rupture of cooling channels, air leak a) replace section No. 3 with a new one from spare parts; b) transfer to another type of cooling: “Without coolers” 5. Lack of flow in the upper part of section No. 2 of the cooling jacket, crushing of channels a) replace section No. 2 with a new spare part; b) transfer to another type of cooling: “Without coolers”

4) type of cooling: “Air - natural convection”. With this type of cooling, the barrel will heat up faster, information may appear:

"Shooting is allowed - n - shots", after the implementation of these shots, the top banner "Shooting is prohibited" may appear, as well as information: "Time to cool the barrel to the first shot - m - minutes" and "Time to cool the barrel to ambient temperature - x - minutes ”, two“ No ”lights come on: to the right of the words“ Air ”,“ Natural convection ”. After holding the necessary silence time for the artillery guns, the two “Yes” lamps should light up, the information will appear: below - “Shooting is allowed - n - shots” (when the barrel is cooled to a temperature of 373K) or “Shooting is allowed - unlimited” (when the barrel is cooled to ambient temperature environment). With this type of art-barrel cooling, situations may arise associated with a malfunction of the cooling jacket, etc. The air in the cooling jacket is under pressure of several tens of atmospheres. The main malfunction will be air leakage and pressure drop in the cooling jacket, on the display to the right of the inscriptions “Air”, “Natural convection” two “No” bulbs will light up, the upper banner “No shooting” will be displayed. When troubleshooting - two corresponding “Yes” bulbs will light up and the lower banner “Shooting is allowed - unlimited” will be displayed. Most likely, it will not be possible to repair the cooling jacket with refueling its internal channels with air and increasing the pressure during the battle, and the effectiveness of this type of cooling is not very different from the fifth type “Without coolers. If the pressure drops to atmospheric pressure and if the inlet and outlet channels of the cooling jacket are disconnected, then this fourth type of cooling will go into the fifth: “Without coolers”. The gun commander will only have to press the round button-type switch - to the right of the inscription: “Without coolers”.

5) type of cooling: “Without coolers”. With this type of barrel cooling, a “dry” cooling shirt with round fins practically works, so critical barrel heating will occur even earlier, at the bottom there will be a banner: “Shooting is allowed - n - shots”. After making this number of shots, the barrel temperature will be even higher, the upper banner will appear: “No shooting”, and information will also appear:

“Time to cool the barrel to the first shot - m - minutes” and “Time to cool the barrel to ambient temperature - x - minutes”, the “No” light will come on to the right of the inscription “Without coolers”. After observing the necessary silence time for the artillery gun, the barrel will cool down, the corresponding “Yes” lamp will light, the lower banner will appear: “Shooting is allowed - unlimited” if the barrel temperature is equal to the ambient temperature, or - transparency: “Shooting is allowed - n - shots”, if the barrel cooled to a temperature of 373K. With such an artstvol cooling system, only one type of malfunction is possible - a weak twist of lock-couplers on any one or several sections of the cooling jacket, information about this will appear in the "Faults" sector, and in the "What to do" sector - auxiliary information will be displayed: for example , “Tighten the left lock-coupler on section No. 2”, the “No” lamp will light up (to the right of the inscription “Without coolers”), the upper banner will light up: “Shooting is prohibited”, after eliminating this malfunction, the corresponding lamp will light up “Yes”, the lower banner will be displayed:

"Shooting is allowed - unlimited."

If the conditions of the battle, safety, time, the availability of spare parts and the presence of a liquid cooler allow, the gun commander must try to restore the first type of cooling: “Liquid - forced convection” - directly at the firing position or after the battle - in field or stationary repair units.

The scientific novelty of this invention are:

1) development of a constructive scheme of a control and monitoring system for the operation of a universal removable artstvol cooling shirt;

2) development (taking into account military ergonomics) of the design scheme of the remote control panel and control the operation of the following five types of artstol cooling using a universal removable cooling jacket: “Liquid - forced convection”, “Liquid - natural convection”, “Air - forced convection” , "Air - natural convection", "Without coolers";

3) development of a block diagram of the passage of signals from control sensors to a remote control panel and control the operation of a universal detachable artstvol cooling shirt;

4) development of the algorithm of actions of the gun commander (operator, calculation number) in a combat situation when various malfunctions occur in a universal detachable artstvol cooling shirt and in systems for ensuring its functioning;

5) the simultaneous monitoring and measurement of the temperature of the outer wall of the artillery barrel at several fixed points equally spaced from each other - in the upper and lower parts of the artillery barrel - with movable vertical spring-loaded thermocouple type control sensors, which allows more accurate determination of the local and average temperature of the artillery barrel heating during firing and at the period of its cooling (during the silence of the artillery gun) under various cooling modes with a universal removable cooling jacket;

6) the simultaneous monitoring and measurement of temperature in the upper and lower parts of all sections of the artstvol cooling jacket of the following structural elements, substances and the environment - to determine accurate calculations of the temporal characteristics of barrel heating during firing and its cooling during silencing of artillery guns - for various types of cooling: a) the outer surface of the artstvol; b) a liquid (air) cooler in the internal channels of the cooling jacket in conditions of forced (natural) convection; c) the outer cylindrical (intercostal) surface of the cooling jacket; d) the upper (lower) end surface of the round rib of the cooling jacket; e) the environment;

7) the simultaneous monitoring of the operation of pressure and flow sensors of liquid and air coolers in hydraulic and pneumatic systems before entering the artstvol cooling jacket, in all internal channels of its sections and after leaving it;

8) maintaining in the internal channels of all sections of the removable universal artstvol cooling jacket: critical pressure zones - with natural and forced convection of the liquid cooler - to increase the heat transfer coefficient by 2–3 times due to thermophysical properties; high pressure - with natural and forced convection of air (air cooler) - to increase the heat transfer coefficient;

9) the ability of the monitoring and control system at any time to simultaneously determine the following parameters with information displayed on the control panel of the control and monitoring panel for various cooling modes of the artboard with a removable universal cooling jacket: a) type and place of malfunctions, methods for their elimination; b) the number of permissible shots before the artillery bar is heated to a critical temperature, after which a command is issued to ban shooting; c) time for permissible barrel cooling - for a command to be allowed (continued) to fire multiple shells; d) time for cooling the barrel to ambient temperature - for the receipt of a command to permit firing unlimited; d) the density of the closure of the upper and lower parts of all sections of the universal removable jacket for cooling artstvol locks; f) a type of power supply to the control panel and control the operation of a removable universal cooling jacket;

10) the power supply of the remote control panel and control the operation of a universal removable artstvol cooling jacket not only with a standard battery (finger-type, square type), but also with the electric current obtained by utilizing the mechanical energy of the movement of coolers in the channels;

11) utilization of the mechanical energy of movement of the liquid (or air) cooler in the channels and its conversion into electrical energy - by placing microgenerators on the axes of the hydraulic (pneumatic) flowmeter sensors of the counter-type type - in the hydraulic (or pneumatic) system for providing art-barrel cooling in areas: from a special device creating hydraulic (or pneumatic) pressure during utilization of the barrel’s recoil mechanical energy during firing - before entering the artstvol cooling jacket; in the internal (upper and lower) channels of the cooling jacket; after a cooling shirt;

12) increased efficiency, reliability and survivability of the control and monitoring panel under any combat and climatic conditions, in the event of various malfunctions and deficiencies in the systems for ensuring the operation of the artstvol cooling jacket and in it itself, the ability to maintain the panel's operability: with a discharged standard battery or in the absence of it ; when firing artillery and during its silence - due to the use of an electric storage device of a recycled electric current obtained during operation of all, several or even only one microgenerator; 13) the use of an electronic storage device - not only to ensure the operability of the control and monitoring panel during firing and silence of artillery, but also for: recharging batteries for various purposes (for cars, armored vehicles, units, radio stations, etc.); ensuring the operation of the starter during direct start of the engines of military transport and combat vehicles and units; recharging the batteries of regular and personal flashlights of military personnel; providing illumination at night (combat card of the commander and other documents, tents of the maintenance and repair center, tents for personnel, signal lights of the site, for example, to ensure helicopter landing, etc.).

Based on the foregoing, it is possible to more broadly, multifaceted and more accurately describe the distinguishing features of the present invention. The control and heating control system for the artillery barrel, consisting of a thermocouple type sensor fixedly mounted on the barrel surface, and a control and control panel, consisting of a pointer type thermometer and an on / off lever switch, which allows in the “ Enabled "determine barrel temperature.

The present invention differs from the analogue in that:

- measurement of the temperature of the artboard is carried out by several vertically movable thermocouple type sensors placed at equal distances from each other in the upper and lower parts of the sections of the removable universal artstvol cooling jacket;

- at the same time, other parameters of the removable universal cooling jacket and the entire system for ensuring its operation are measured and controlled, for example, the pressure and flow rate of the liquid (air) cooler, the degree of twist of the lock-couplers to close the upper and lower parts of the sections of the cooling jacket, the temperature of the cooler in the channels of the cooling jacket , the temperature of the outer surfaces of the cooling jacket, including the end and farthest points of the round ribs, ambient temperature, fill level of the corrugated balloon liquid cooler, etc .;

- a block diagram has been created consisting of a unit for collecting information, a unit for processing and analyzing information, a unit for generating a command signal, in which signals from various sensors pass through all units, and the resulting information is displayed on the display panel of the remote control and monitoring unit of the gun (operator, calculation numbers);

- the control and monitoring panel is remote and structurally contains: five types of cooling switches with signal lights “Yes”, “No”, for example, “Liquid - forced convection”, “Liquid - natural convection”, “Air - forced convection”, “Air - natural convection ”,“ Without coolers ”; banners: in the upper part of the console - “Shooting is prohibited”, in the lower part of the panel - “Shooting is allowed: unlimited; n - shots "; in the right middle part of the console there are sectors for information: “Faults”, “What to do”; at the bottom of the middle part of the console are the banners that are constantly displayed at any time the console is turned on: “Barrel temperature average:“ t ”° C”, “Ambient temperature:“ t ”° C”, “Time for barrel cooling before the first shot:“ m ”minutes ”,“ Time to cool the barrel to ambient temperature: “x” minutes ”,“ Power supply: batteries, microgenerators, electronic storage ”;

- an algorithm has been developed for the action of the gun commander (operator, calculation number) when any malfunction is detected, which allows you to quickly and correctly choose one the most optimal and effective solution from several proposed possible measures to eliminate the emergency, including the decision to transfer to another type of cooling of the artboard, using the displayed information in the sectors of the console "Faults" and "What to do";

- the control and monitoring panel allows at any time, in any weather, during any military (training) operations, during shooting or during silence: a) to accurately control the degree of heating of the artillery barrel during shooting; b) to effectively apply various types of artstvol cooling using a removable universal cooling jacket; c) promptly receive new information about the malfunctions that have arisen and their location in the sectors of the removable universal artstvol cooling jacket and in the systems for ensuring its operation, including a monitoring and control system; d) promptly and simultaneously receive current information: about the temperature of the arbor barrel during firing, about the ambient temperature, about the time to cool the barrel to the first allowed shot, about the time to cool the barrel to ambient temperature, about the number of possible and allowed shots to the boundary and forbidden barrel heating temperature during firing (n - shots, unlimited), about the types of power supply of the console at the time of its operation; e) organize troubleshooting and repairs during the silence of the artillery at the firing position (and then in the field or stationary repair units) - for the quickest possible inclusion in the work of the main and most effective type of cooling of artstvol - when using a removable universal cooling jacket "Liquid - forced convection";

- uninterrupted power supply of the control and monitoring panel during firing and during silence of the artillery is provided by: a) replaceable standard batteries (finger-type or rectangular (square) type);

b) the electric current obtained by utilizing the mechanical energy of movement of the liquid cooler (or air) through the channels of the hydro-pneumatic systems, through the internal channels of the artillery cooling jacket - by placing them in the hydraulic and pneumatic counter-type flow meters, on the shafts of which one microgenerator is constructively installed; c) in emergency situations - by electric current from several or even only from one microgenerator; moreover, the resulting electric current can be used: directly to ensure the operation of the remote control (with a discharged standard battery or in its absence); to recharge a standard battery; for storage in an electric drive with further consumption during a period of silence for: recharging batteries for various purposes (for cars, armored vehicles, units, radio stations, etc.), ensuring the operation of starters when the engines of military transport and combat vehicles and units are directly started, charging regular batteries and personal flashlights of military personnel, providing illumination at night (combat commander’s map and other documents, tents for the maintenance and repair center, tents for personnel, signal and site lights, for example, to ensure helicopter landing, etc.).

This invention will increase combat readiness, combat effectiveness, invulnerability, survivability, safety, combat effectiveness, resource and cost-effectiveness of the existing and promising domestic artillery.

List of sources of information

1. Altunin V.A., Monda V.A. Artillery barrel with universal external cooling // Patent for the invention of the Russian Federation No. 2458305. Bull. No.22 of 08/10/2012

2. Klochkov A.S., Korolkov N.N., Muzychenko V.Ya. and other Foundations of the device and the design of guns and ammunition of ground artillery (Textbook). M .: Military Publishing. 1976. 459 p.

3. Orlov B.V., Larman E.K., Malikov V.G. Arrangement and design of artillery barrels. M .: Publishing house "Engineering", 1975. 432 p.

4. Altunin V.A., Monda V.A. The main directions of creating systems for monitoring thermal processes during firing of barrel artillery // Sat. Mater. doc. 21st All-Russian. interuniversity. scientific and technical conf. "Electromechanical and intracameral processes in power plants, jet acoustics and diagnostics, instruments and methods for monitoring the natural environment, substances, materials and products." Sec No. 4: “Problems of diagnostics of modern technosystems”. Kazan: Publishing House "Fatherland", 2009. 4. 1. P.321-322.

5. Monda V.A., Altunin V.A. Development of control systems for promising artillery systems of ground, aviation and space based // Mater. doc. 3 International scientific and technical conf. “Modern technologies and materials are a key link in the revival of the domestic aircraft industry.” “Aerospace technologies, modern materials and equipment” (“AUTO-2010”). Sec No. 4: “Problems of managing facilities and processes in the aerospace industry. Application of information technology. " Kazan: Publishing House "Helicopter", 2010. V.2. S.298-311.

6. Altunin V.A., Monda V.A. Development of constructive schemes for liquid and gas artillery // Proceedings of 45 readings on the development of the scientific heritage and the development of ideas of K.E. Tsiolkovsky. RAS. IEEE RAS. RACC. Sec No. 2: "Problems of rocket and space technology." (Kaluga, September 14-16, 2010). Kazan: Publishing House "Center for Operational Printing". 2011. S.211-226.

7. Altunin V.A., Monda V.A., Yanovskaya M.L. The development of new structural schemes for barrel artillery based on critical heat loads // Mater. 6 International scientific and technical conf. "Problems and prospects for the development of aviation, land transport and energy." ("ANTE - 2011"). Kazan: Publishing House of KNITU - KAI named after A.N. Tupolev, 2011.V.2, S.625-629.

8. Altunin K.V., Altunin V.A., Galimov F.M., Gortyshov Yu.F., Dresvyannikov F.N., Obukhova L.A., Platonov E.N., Shchigolev A.A., Demidenko V.P., Monda V.A., Yanovskaya M.L. Development of sensors and control systems for abnormal thermal processes in power plants using liquid hydrocarbon fuels and coolers // Proceedings of the 8th seminar of young scientists and specialists of the academician of the Russian Academy of Sciences V.E. Alemasov “Problems of heat and mass transfer and hydrodynamics in power engineering”. Sec No. 4: “Diagnostics, reliability and durability of power equipment components”. National Committee for Heat and Mass Transfer of the Russian Academy of Sciences. Kazan Scientific Center of the Russian Academy of Sciences. Research Center for Energy Problems, KazSC RAS (AKADEMENERGO). Institute of Mechanics and Mechanical Engineering, KazSC RAS. Academy of Sciences of the Republic of Tatarstan. Kazan National Research Technical University A.N. Tupolev - KAI (KNITU-KAI). Kazan State Energy University (KSEU). (October 16-18, 2012). Kazan: KSEU Publishing House, 2012. S.491-496.

Claims (5)

1. The control and monitoring system for heating the artillery barrel, consisting of a thermocouple type sensor mounted on the surface of the barrel, and the control and monitoring panel, consisting of a pointer type thermometer and an on-off lever switch, which allows to determine barrel temperature, characterized in that the temperature of the artillery barrel is measured by several vertically movable thermocouple-type sensors placed at equal distances from each other hnih and lower parts of removable sections Universal Gun Barrel cooling jacket. 2. The control and monitoring system according to claim 1, characterized in that the operation parameters of the removable universal cooling jacket and the entire system for ensuring its operation are measured and monitored at the same time, for example, pressure and flow rate of a liquid or air cooler, the degree of twist of the locks - the upper and the lower parts of the sections of the cooling jacket, the temperature of the cooler in the channels of the cooling jacket, the temperature of the outer surfaces of the cooling jacket, including the end and outermost points of the round ribs, ambient temperatures ayuschey medium filling level corrugated container with liquid coolant. 3. The control and monitoring system according to claim 1, characterized in that a block diagram is created consisting of an information collection unit, an information processing and analysis unit, a command signal generating unit, in which the signals from the sensors pass through all the blocks, and the resulting information It is displayed on the board of the remote control and control panel of the gun commander, operator, calculation number. 4. The control and monitoring system according to claim 1, characterized in that the control and monitoring panel is remote and structurally contains: switches of five types of cooling with signal lights “Yes”, “No”, for example, “Liquid - forced convection”, “ Liquid - natural convection ”,“ Air - forced convection ”,“ Air - natural convection ”,“ Without coolers ”; banners: in the upper part of the console - “Shooting is prohibited”, in the lower part of the panel - “Shooting is allowed: unlimited; n - shots "; in the right middle part of the console there are sectors for information: “Faults”, “What to do”; at the bottom of the middle part of the console are the banners that are constantly displayed when the console is turned on: “Barrel temperature average:“ t ”° C”, “Ambient temperature:“ t ”° C”, “Time for barrel cooling before the first shot:“ m ”minutes ”,“ Time to cool the barrel to ambient temperature: “x” minutes ”,“ Power supply: batteries, microgenerators, electronic storage ”. 5. The control and monitoring system according to claim 4, characterized in that the uninterrupted power supply to the control and monitoring panel during firing and during the silence of the artillery gun is provided by: replaceable standard batteries; the electric current obtained by utilizing the mechanical energy of the movement of the liquid cooler or air through the channels of the hydro-pneumatic systems, through the internal channels of the artillery barrel cooling jacket by placing hydraulic and pneumatic counter-flow meters in them, on the shafts of which one microgenerator is structurally installed; in emergency situations - by electric current from several or even only from one microgenerator.

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