RU115000U1 - MOBILE INSTALLATION FOR CEMENTING OIL AND GAS WELLS, COVERING OF MOBILE INSTALLATION AND HEATING SYSTEM OF HIGH PRESSURE MOBILE INSTALLATION PUMPS - Google Patents

Abstract

1. Mobile installation for cementing oil and gas wells, consisting of a frame fixed to the chassis of a car, on which two power units are installed connected by cardan shafts with triple-plunger pumps, two measuring tanks with a common partition located above the cardan shafts, an operator platform equipped with systems control and monitoring, a tank for the preparation of grouting solutions, consisting of a mixing and averaging tanks, separated by a partition with a rotary valve in the bottom part, and two centrifugal pumps located under them, a mixing head is installed above the mixing tank, and the mixing tank in the bottom part is equipped with a branch pipe for drainage of the ready-made grouting solution, characterized in that the three-plunger pumps are installed along the frame, the drive shafts of the pumps are located parallel to the longitudinal axis of the chassis, and the housings of the drive shafts are fixed on the front walls of the pumps, a transfer box is installed on the frame behind the car cab bka, the drive shaft of which is connected by a cardan shaft to the power take-off box of the chassis engine, and the driven shafts of the transfer case are connected to the hydraulic pumps, the bottom of the blending tank is equipped with a second branch pipe for withdrawing the ready grouting solution, the suction pipelines of centrifugal pumps are connected to the outlets of the averaging tank, and the injection pipelines are connected with suction pipes of triple plunger pumps and with a mixing head, in addition, the unit is equipped with two centrifugal water supply pumps installed under the measuring tanks and a cover consisting of a fixed

Description

The utility model relates to the field of oil and gas production, and specifically to technological equipment designed for cementing oil and gas wells.

The well-known cementing machine CPT-Y4 Haliburton, consisting of equipment located on one mobile base, including a pump unit containing two power units connected to two three-plunger pumps mounted longitudinally on the frame, a measuring tank, a tank for mixing grouting mortars, is equipped mixer, water supply and recirculation centrifugal pumps, tied up by a piping system and a control and information collection system (User Guide “Cementing complex CPT- Y4 ", Haliburton, 1966)

The dimensions of the aforementioned machine in width (2.78 m) and height (4.1 m) exceed the maximum permissible sizes, respectively (2.55 m and 4 m), established by the technical regulation on the safety of wheeled vehicles, approved by the Decree of the Government of the Russian Federation of 10.09 .09, No. 270

Known mobile installation for cementing oil or gas wells (patent RU No. 2362674, IPC ЕС 5/00, ЕВВ 33/13). The installation consists of blocks placed on the frame of an automobile chassis connected by a piping system. The pump unit contains two diesel power units connected by cardan shafts with two three-plunger pumps placed on a frame across the car chassis, a measuring tank made with two compartments, located above the cardan shafts and equipped with water supply lines, a grout preparation unit, consisting of a mixing tank with mixer and averaging tank equipped with a mixer. The mixing tank with averaging capacity is made in one housing divided by a partition, which is equipped with a shutter on the bottom of the tanks. The mixing tank in the bottom is connected to the recirculation pipe, which is connected through the recirculation pump to the recirculation unit in the mixer, and the averaging tank in the bottom is made to the pipe for the outlet of the finished cement mortar. Tanks are located in the rear of the frame above the water supply and recirculation pumps and are powered from the installation's hydraulic system. The control unit includes an operator platform equipped with a monitoring and control system, and is located above the three-plunger pumps.

The disadvantages of this mobile installation are:

- during the operation of three-plunger pumps placed in a transverse arrangement, there is a lateral buildup of the car chassis, a perception that the design of the car chassis is not adapted, which leads to premature failure of the chassis;

- the increased complexity of the transmission of the connection of power units with three-plunger pumps, due to the transverse arrangement of the pumps (the first pump blocks access to the second) and the removal of power units from the pumps (measuring tanks are located between them);

- if there is one recirculation pump and one water supply pump, the efficiency and reliability of the installation decreases, and if the recirculation pump fails, the installation loses its functionality. One of the main requirements for equipment for cementing wells is reliability and reliability.

A tent tent is known that is part of the mobile installation UNBS2-600 × 70 (000 Stromneftemash, Journal of Drilling and Oil 2010 - 11/15).

Shelter consists of a fixed and movable part of the frame and a common awning of both parts of the frame. The shelter is equipped with a hydraulic actuator (four hydraulic cylinders), for folding the tent in a marching condition.

Since the tent shelter is folding, ice is formed in the folds during the cold season, and when it is transferred from the transport position to the working position, the tent shelter can break. Due to the lack of doors at the tent shelter, access to the operator’s platform is difficult. The use of four hydraulic cylinders complicates the hydraulic system, and also requires synchronous control of the hydraulic cylinders when moving the tent from the transport position to the working one. In addition, the tent is made opaque, so the operator’s platform requires round-the-clock lighting.

The well-known mobile installation UNBS2-600 × 70, in which autonomous heating of the hydraulic units of high pressure pumps in the cold season is used (000 Stromneftemash, Journal of Drilling and Oil 2010 - 11/15).

The system of autonomous heating of hydroblocks consists of an exhaust system of a diesel engine (ICE), a system of supply pipelines and valves.

The disadvantages of this system of autonomous heating of the hydroblocks of the pump are the used exhaust gases, which have a high temperature of up to 300 ° C degrees. This leads to the destruction of the rubber seals on the inlet and discharge manifolds. Therefore, installation in case of destruction of rubber seals requires serious repair. In addition, the valve body is covered with soot from exhaust gases, which is a lowering factor of service and the culture of service of the installation is reduced.

The technical task of the utility model is to create a mobile unit with a longitudinal arrangement of three-plunger pumps, the overall dimensions of which correspond to the technical regulation on the safety of wheeled vehicles, approved by Government Decree No. 720 of September 10, 2009. In addition, the claimed utility model is aimed at improving the reliability and productivity of the installation, the quality of the preparation of grouting mortars, increasing the rate of mixing of the mortar into the well, creating comfortable conditions for operators to work and improving the convenience of servicing a mobile installation.

To solve the problem in a mobile installation for cementing oil and gas wells, according to a utility model, three-plunger pumps are installed along the frame, the drive shafts of the pumps are parallel to the longitudinal axis of the chassis, and the drive shaft housings are mounted on the front front walls of the pumps, a transfer case is installed on the frame behind the car cab a box, the drive shaft of which is connected by a cardan shaft to the power take-off of the chassis engine, and the driven shafts of the transfer case are connected to hydraulic pumps, the bottom the averaging tank is equipped with a second outlet pipe for the finished cement mortar, the suction pipes of centrifugal (recirculation) pumps are connected to the pipes of the averaging tank, and the discharge pipes are connected to the suction pipes of three-plunger pumps and with a mixing head, in addition, the installation is equipped with two centrifugal (water-supply) pumps under measuring tanks and a shelter consisting of a fixed frame and a roof. A through pipe is welded into the partition of the measuring tanks, the height of which is less than the height of the side walls of the tank.

The operator’s platform is connected to the installation frame by folding ladders on both sides, and the lifting ladders mounted on the frame are a continuation of the folding ladders; in addition, folding frames with lifting ladders are installed on the frame in the area of power units.

The drive for turning the tank shutter for the preparation of grouting mortar is equipped with a mechanism for fixing the opening angle, made in the form of a curved lever pivotally connected to the shutter shaft and the sector comb fixedly mounted on the tank partition, the profile of the comb grooves corresponds to the profile of the clamp made on the curved lever.

The technical problem is also achieved by the fact that the mobile installation according to the utility model is equipped with a shelter consisting of a fixed frame and a roof, while the roof has the ability to raise and lower at least a portion of the roof located above the power plants is stationary. The mechanism for lifting the rear of the roof is made in the form of two articulated four-link located on the side walls of the roof, the driving and driven links of the roof lifting mechanism are pivotally mounted on a fixed frame, the drive of the driving links is provided from hydraulic cylinders and has a stabilizer for lifting, the mechanism for lifting the front of the roof is made of two identical mechanisms mounted on a fixed frame. Both mechanisms consist of cables, one end of which is fixedly mounted in the rear of the roof to the upper plate of the side wall, and the second end of the cable is fixed in front of the roof of the lower plate of the side wall, on a fixed frame on both sides there are two guide rollers that are bent with cables. A part of the roof located above the operator’s platform and measuring tanks is made lifting, air vents are made on the side walls of the roof, and doors are installed to enter the operator’s platform on a fixed frame.

In addition, the technical problem is solved by using a heating system of high-pressure three-plunger pumps consisting of an internal combustion engine, a supply pipe system and shut-off elements, in which, according to a utility model, the heating system is made in the form of a closed circuit with forced circulation of the coolant, including a jacket internal combustion engine cooling, electric pump, autonomous heater, drive part heating jacket, intake manifold jacket, shirt triplex plunger in the hydraulic pump and the hydraulically interconnected by means of supply lines for a cooling fluid. The valve body heating jacket is made in the form of drilled holes in the body of the valve body. The heater header of the intake manifold is made in the form of a sheet groove welded to the intake pipe and forms a sealed pipe with an inlet and an outlet for coolant with the outer surface of the intake pipe. The heating jacket for the drive part of the pump is made in the form of a hermetically welded tray under the case of the drive part with inlet and outlet fittings for the coolant.

The essence of the utility model is as follows. Two centrifugal pumps installed under a mixing - averaging tank perform the function of recirculating the solution and supplying it to the inlet of the three-plunger pumps. As a result, centrifugal (recirculation) pumps are paired with two three-plunger pumps two independent pump units on one chassis. And centrifugal (water-supplying) pumps located under the measuring tanks are duplicate, which doubles the survivability of the machine. During operation of the left water supply pump when water is supplied to the mixing head, the right water supply (backup) pump is used to draw water into the measuring tanks. In case of failure of the left water supply (main) pump, the right water supply (backup) is used to supply water to the mixing head. The presence of a recirculation chain, consisting of a second pipe and a second recirculation pump, allows to increase the consumption of grouting mortar and increase the reliability of the installation.

Placing along the frame of three-plunger pumps with drive shafts mounted on the front walls of the pump allows to reduce the overall size of the pump in width and install two pumps within the permitted vehicle width, significantly simplify and unify the transmission and manifold of three-plunger pumps, and also ensure reliability and durability car chassis.

The transfer case mounted on the frame allows for the installation of a larger number of hydraulic pumps and, consequently, the number of hydraulic drives that expand the functionality of the installation.

Design features of the work platform, i.e. articulating the stairs and platforms, allows you to translate them from the transport position to the working, thereby providing access, both on the right and on the left side of the installation. In this connection, there is no need to go around the installation. It also provides convenient access to the hydraulic and upper parts of each of the three-plunger pumps. As a result of this, the time required for carrying out shift and scheduled maintenance and repair of hydraulic units of pumps is reduced.

The roof provides protection against precipitation and wind and provides a comfortable environment for operators to work, and the mechanism for lifting the roof using a hydraulic drive using a system of cables and levers ensures a uniform, non-distorted rise and lowering of the roof under uneven load from snow accumulated on it. The design of the roof lifting mechanism allows for a small stroke of the hydraulic cylinder rod to raise the roof by more than four times the stroke of the rod. The use of only two hydraulic cylinders and mechanisms ensures trouble-free lifting and lowering of the roof.

To preheat three-plunger pumps at sub-zero temperatures, pre-start liquid heaters are used, while the valve body of the pump, the intake manifold and the crankcase of the drive part of the pump are heated. To heat the three-plunger pumps, the heat of the engine cooling system is used.

The drawings show a General view, the individual components of the installation, illustrating examples of the possibility of implementing the proposed solutions.

Figure 1 shows a side view of a mobile installation for cementing oil and gas wells.

Figure 2 and 3 shows a side view and top view of a three-plunger pump, respectively.

Figures 4 and 5 show conditional images of a transfer case with hydraulic pumps, side and front views, respectively.

Figure 6 is a conditional image of the installation shelter, side view. Figure 7 shows the kinematic diagram of the lifting mechanism, and lowering the lifting part of the shelter roof.

On Fig shows the drain pipe measuring tanks.

Figures 9 and 10 show a heating circuit of the receiving pipe of three-plunger pumps, a front view and a side view, respectively.

11 and 12 show a conditional image of the mechanism for fixing the angle of rotation of the valve in the tank wall for the preparation of cement mortar, side view and top view, respectively.

On Fig shows a diagram of the installation manifold.

On Fig shows a diagram of the preheating three-plunger pumps.

On Fig shows the heating circuit during operation of the three-plunger pumps.

The installation consists of two diesel power units located on frame 1 of the automobile chassis behind the car cab. Power units consist of a diesel engine 2 and an automatic transmission 3. Power units with cardan shafts (cardan shafts not shown) are connected to three-plunger pumps 4 located parallel to the longitudinal axis of the chassis, the drive shaft 5 of three-plunger pumps 4 is located on the front wall of the pump drive part. A transfer case is mounted on the frame 1 behind the car cabin, which is connected by a cardan shaft to the chassis engine power take-off (the driveshaft and chassis engine power take-off are not shown). The transfer case consists of a housing 6, in which a drive shaft 7 and three driven shafts are installed, which are connected to hydraulic pumps 8, 9, 10.

Above the cardan shafts of the three-plunger pumps 4, a metering tank 11 with a common partition 12 is installed. Two centrifugal water-supplying pumps 13 (the second one not shown) are located under the metering tank 11 on the left and right (along the vehicle). Behind the three-plunger pumps 4, there is a control panel 14 and an operator platform 15. Behind the operator platform 15, a grout slurry tank 16 is installed. Tank 16 is divided by a partition into two parts. The right side of the tank with a volume of 1.4 m ³ is a mixing tank, the left side with a volume of 2.6 m ³ is a mixing tank. A mixing head 17 and a densitometer (not shown) are mounted above the mixing tank.

The averaging tank in the bottom part is equipped with two pipes for draining cement slurry (pipes not shown) and a centrifugal water supply pump 18. A centrifugal water supply pump 18 is also installed under the mixing tank (not shown). The suction pipe of the centrifugal water supply pump 18 is connected to one of the two nozzles, the other centrifugal water supply pump 18 is connected to the other nozzle. The discharge line of the left centrifugal recirculation pump 18 is connected to the suction line of the left three-plunger pump 4 and to the recirculation pipe 19 of the mixing head 17. The discharge line of the right centrifugal recirculation pump 18 is connected to the suction line of the right three-plunger pump 4 and to the recirculation pipe 17 by the mixture line 19.

The operator’s platform 15 is connected on both sides by folding ladders 20 to the frame 1, and the lifting ladders 21, pivotally mounted on the frame 1, are a continuation of the folding ladders 20. The operator’s platform 15 and the folding ladders 20 are pivotally mounted on the tank wall 16. In the area of the power units additionally installed folding platforms with lifting ladders 22.

On the frame 1, a shelter is installed, consisting of a fixed frame 23, rigidly attached to the frame 1 and a transparent roof 24 made of polycarbonate. The roof 24 consists of three parts - a fixed 25 (rigidly connected to the base of the frame), the rotary part 26 and the lifting part 27. The raised position of the lifting part 27 of the roof 24 is shown by dashed lines, solid lines show the position of the roof 24 in the lowered (transport) position. On the side walls of the roof lifting part 27, roof lifting mechanisms 24 are installed, which consist of two parts, a rear lifting mechanism and a roof lifting mechanism.

The lifting mechanism of the rear part of the roof is made in the form of a hinged four-link 28 and a swinging hydraulic cylinder 29. The driving link 30 of the mechanism is welded to the pipe 31, which is mounted for rotation in the eye of a fixed base frame 32. The driving link 30 on the opposite wall of the roof 24 is also welded to this pipe. Such a connection of the leading links ensures the synchronous operation of these mechanisms, therefore, the raising and lowering of the roof 24 occurs without distortions in the transverse direction. The leading link of the mechanism for lifting the rear of the roof 24 is pivotally connected through an intermediate link 33 with the upper strip of the side wall 34 of the roof.

The lifting mechanism of the front of the roof 24 consists of a cable 35, one end of which is welded to the upper strip of the side wall 34 in the rear of the roof (point "c"). The second end of the cable is welded in front of the side wall 34 to the lower bar (point "n"). On a fixed frame 32 of the base of the frame mounted guide rollers 36, which envelope the cable 35.

To warm the oil to the bottom of the crankcase of the drive part of the three-plunger pumps, the sump 37 is tightly welded in the area of the oil filter with inlet and outlet fittings 38. To warm up the valve body, a through hole is drilled in it, closed on both sides with threaded plugs 39 with fittings for connecting pipelines with coolant.

The measured tank 11 by a partition 12 is divided into two compartments. The volume of each compartment is 3m ³ . A drain pipe 40 is welded into the partition 12 and the bottom of the measuring tank 11, the height of which is less than the height of the side walls of the tank 11. Installing such a pipe will prevent overflow of liquid through the side walls of the tank when the latter overflows.

The chute 42 is welded to the outer surface of the pipe of the intake manifold 41 of the three-plunger pump 4 with the intake and outlet connections 43 for coolant.

The rotation mechanism of the shutter 44 in the partition 45 of the tank 16 for the preparation of cement slurry consists of a shaft 46, motionlessly connected to the shutter. The shaft 46 is installed in the pipe 47, which is welded into the baffle 43 of the tank 16. At the upper end of the shaft 46, a bent lever 48 with a latch 49 is pivotally mounted. A frame 50 is mounted above the baffle 45 of the tank, on which the sector comb 51 is fixedly fixed with grooves. The profile of the grooves of the comb 51 corresponds to the profile of the latch 49.

The operation of the installation is as follows

To bring the installation into working condition, it is necessary to transfer the roof 24 from the transport position to the working one. Under the action of the rod of the hydraulic cylinder 29, the driving link 30 from the initial position (shown by solid lines), turning around axis 01, occupies the upper position (shown by dashed lines). The dimensions of the links 31 and 33 are selected so that with the full stroke of the hydraulic cylinder rod 29, the center of the hinge 02 intersects the straight line passing through the centers of the hinges 01 and 03. Under this condition, spontaneous lowering of the roof portion 27 is not possible even with a pressure drop in the hydraulic cylinders 29 and the absence of clamps the upper position of the roof portion 27. The rise of the roof portion 27 is only possible with a parallel rise of this portion along the entire length. This is provided by the lifting mechanism of the front of the roof portion 27. When lifting the rear of the roof portion 27, together with the hinge 03, the point “c”, which is connected by the cable 35 to the point “n” located on the lower strip of the side wall, moves up. As far as the point "c" rises, so does the point "n" rise.

To lower the roof portion 27, it is necessary to turn the driving link 30 in the opposite direction so that the center of the hinge 02 intersects the straight line passing through points 01 and 03. Further lowering of the roof will be spontaneous under the influence of the weight of the roof. Preparation of grouting mortar.

Dry cement from an external source is supplied to the middle pipe of the mixing head 17. Water from the measuring tank 11 by the water supplying centrifugal pumps 13 is supplied to the central pipe of the mixing head. Next, the shutter 44 is opened by turning around the horizontal axis of the lever 48, the latch 49 is removed from the first cavity of the sector comb 51 and by further turns around the vertical and horizontal axis it is transferred and fixed in the second cavity.

The grouting mortar begins to flow from the mixing tank into the averaging tank. When the shutters of the three-plunger pumps are closed, one of the centrifugal pumps 18 is turned on and the grouting solution enters the mixing head 17 and the densitometer (the densitometer is not shown) through a recirculation pipe. The presence of the mechanism of rotation of the shutter 44 at a small angle and fixing the angle of rotation allows for small volumes of cement mortar to begin density adjustment, accelerates the production of cement mortar of the desired density. Density adjustment is carried out by changing the volume of water and cement supply (flow control mechanisms are not shown). Hydraulic drive mixers - one in the mixing tank and two in the averaging tanks, mix the solution (mixers not shown). Having reached the desired density value, the shutter 44 opens completely. Having filled the mixing tank, the cement mortar through the hole in the upper part of the partition (the hole is not shown) of the tank 16 begins to flow into the averaging tank. A solution of lower density enters the averaging tank through an opening in the tank baffle, and a heavier solution enters the averaging tank through the bottom shutter 44. Having created the buffer volume of the cement slurry in the averaging tank, the preparatory stage (acceleration) is completed and the main stage begins - cementing the well. The shutters of the suction lines of the three-plunger pumps open, the pre-warmed power units and three-plunger pumps are turned on.

Then, the injection of grouting mortar into the well begins, after the required volume of grouting grout is pumped, the flow of water and cement is turned off, the remnants of the grouting grout are pumped into the well, at this the cementing of the well stops.

If the well is cemented at a negative temperature, pre-heating of the pumps is carried out, for this, before starting the three-plunger pumps, oil is heated in the drive part of the pump and the hydraulic unit by supplying coolant to the pallet 37 through the fitting 38 and to the hydraulic unit through the fitting 39 of Fig. (14).

If during the cementing of the well in the cold time an emergency or technological shutdown of the three-plunger pump was made, it is necessary to heat the intake manifold 41 so that the grout is not frozen. The intake manifold 41 is heated by passing the engine coolant through the pipe through the fitting 43, with a temperature of not more than 90 ° C, which is controlled by a thermostat installed on the power plant (Fig. 15).

Thus, the developed installation has increased productivity, reliability due to the complete duplication of pumping units. In fact, two independent pumping units are installed on one chassis. No element is used in both pump units. For the same purpose, a longitudinal symmetric installation of three-plunger pumps serves, almost all transmission and manifold elements of three-plunger pumps are interchangeable. As a result, the operational capabilities of the installation are expanded and the convenience of its operation is increased.

Claims (12)

1. Mobile installation for cementing oil and gas wells, consisting of a frame fixed to the chassis of the car, on which two power units are mounted, connected by cardan shafts with three-plunger pumps, two metering tanks with a common partition located above the cardan shafts, an operator platform equipped with systems control and control tank for the preparation of grouting mortars, consisting of mixing and averaging tanks, separated by a partition with a rotary shutter in the bottom, and two cent of reliable pumps located below them, a mixing head is installed above the mixing tank, and the averaging tank in the bottom is equipped with a nozzle for draining the finished cement slurry, characterized in that the three-plunger pumps are installed along the frame, the drive shafts of the pumps are parallel to the longitudinal axis of the chassis, and the housing leading shafts are mounted on the front walls of the pumps, a transfer box is installed on the frame behind the car cab, the drive shaft of which is connected to the power take-off by a cardan shaft of the landing gear of the chassis, and the driven shafts of the transfer case are connected to hydraulic pumps, the bottom of the averaging tank is equipped with a second outlet pipe for the finished cement slurry, the suction pipes of centrifugal pumps are connected to the branches of the homogenizing tank, and the discharge pipes are connected to the suction pipes of a three-plunger pump, and also the mixture , the installation is equipped with two centrifugal water supply pumps installed under the measuring tanks and a shelter consisting of the frame and the roof, and the heating system of the high-pressure three-plunger pumps. 2. A mobile unit for cementing oil and gas wells according to claim 1, characterized in that a through pipe is welded into the partition of the measuring tanks, the height of which is less than the height of the side walls of the tank. 3. The mobile installation for cementing oil and gas wells according to claim 1, characterized in that the operator’s platform is connected on both sides to the installation frame by folding ladders, and the climbing ladders mounted on the frame are a continuation of the folding ladders, in addition, on the frame in In the area of power units, folding platforms with folding stairs are installed. 4. The mobile installation for cementing oil and gas wells according to claim 1, characterized in that the actuator for turning the shutter of the tank for the preparation of grouting mortar is equipped with a mechanism for fixing the opening angle, made in the form of a curved lever pivotally connected to the shutter shaft and the sector comb fixedly fixed on the tank partition, the profile of the grooves of the comb corresponds to the profile of the latch made on a bent lever. 5. Shelter of a mobile installation, consisting of a fixed frame, an awning and equipped with a hydraulic drive, characterized in that the roof is fixed on the fixed frame with the possibility of raising and lowering, at least the part of the roof located above the power plants is stationary, the rear lifting mechanism the roof is made in the form of two articulated four-link located on the side walls of the roof, the leading and driven links of the roof lifting mechanism are pivotally mounted on a fixed frame, the drive of the leading links is carried out wish to set up on the cylinders and has a stabilizer lifting mechanism for lifting the front roof part is formed of two identical mechanisms mounted on the stationary frame. 6. Shelter according to claim 5, characterized in that both of the front lift mechanism consists of cables, one end of which is fixedly mounted in the rear of the roof to the upper plate of the side wall, and the second end of the cable is fixed in the front of the roof to the lower plate of the side wall , on fixed frames on both sides, two guide rollers are installed, which are enveloped by cables. 7. Shelter according to claim 5, characterized in that the part of the roof located above the operator’s platform and measuring tanks is made lifting. 8. Shelter according to claim 5, characterized in that the air vents are made on the side walls of the roof, and doors are installed to enter the operator’s platform on a fixed frame. 9. The heating system of three-plunger high-pressure pumps of a mobile installation, including an internal combustion engine, a supply pipe system and shut-off elements, characterized in that the heating system is made in the form of a closed loop with forced circulation of the coolant, including the cooling jacket of the internal combustion engine, an electric pump , autonomous heater, heating jacket for the drive part, heating jacket for the intake manifold, heating jacket for the three-plunger body valve owls and hydraulically interconnected by supply lines for a cooling fluid. 10. The heating system according to claim 9, characterized in that the heating jacket of the valve body is made in the form of drilled channels in the body of the valve body. 11. The heating system according to claim 9, characterized in that the heating jacket of the receiving manifold is made in the form of a sheet groove welded to the receiving pipe and forming an airtight pipe with an inlet and an outlet for coolant with the outer surface of the intake pipe. 12. The heating system according to claim 9, characterized in that the heating jacket of the drive part of the pumps is made in the form of a hermetically welded tray under the case of the drive part with inlet and outlet fittings for coolant.