RU104599U1 - INSTALLATION FOR DISPLACEMENT OF LONG-DIMENSIONAL LARGE-SIZED EQUIPMENT INTO VERTICAL POSITION FOR INSTALLATION INSIDE THE OBJECT FRAME, INSTALLATION FOR DISPLACEMENT OF THE SURFACE SURFACE MODULE IS REDUCED FOR OPERATION - Google Patents

Abstract

 1. Installation for removing long-sized large-sized equipment in a vertical position for installation inside the frame of an object in a vertical position, comprising a container configured to attach equipment to it and disconnect it after installing the equipment in a vertical position, means for connecting the equipment in the container with a lifting device, characterized the fact that the installation comprises a hinge device with an axis of rotation mounted at the base of the frame of the object, the container is made rigid, there is a first end section made with the possibility of installing a hinge device on the specified axis with the possibility of turning the container from horizontal to vertical position, and a second, opposite end section, provided with a stop protruding in the transverse direction behind the equipment when it is mounted in the container, the installation further comprises a mounting pad fixed in the upper part of the frame above the hinged device, provided with means for gripping the container stop and fixing the container with the equipment in Vertical, position. ! 2. Installation according to claim 1, characterized in that the container is a rigid frame structure, made on the basis that the maximum deflection of the equipment fixed in the container when it is brought up to a vertical position does not exceed 50 mm. ! 3. Installation according to claim 1, characterized in that the container contains two side walls, each of which is an I-beam longitudinal beam with shelves, and a base made of at least transverse beams mounted on the lower surfaces of the shelves of the beam beams

Description

Installation for the removal of long-sized large-sized equipment in a vertical position for installation inside the frame of the object. Installation for removing the module of the heating surface in a vertical position for installation inside the frame of the recovery boiler. Container.

This technical solution relates to the field of installation of technical equipment, in particular, to installations for the installation of waste-heat boilers for a combined cycle plant (CCGT), namely, heating surface modules (hereinafter referred to as modules) of waste-heat boilers. horizontal profile. The modules of the heating surface in separate sources are also called the blocks of the heating surface. The heating surfaces of the recovery boiler are made of pipes with an external spiral-ribbon cut-out ribbed, fastened with tube plates to modules having large longitudinal overall dimensions and weight: length from 19 m and weight from 40 t. Due to the indicated dimensions and weight, surface modules heating are unstable structures with low rigidity in the transverse direction. In horizontal profile heat recovery boilers, heating surface modules are suspended in a vertical position from the boiler’s own frame through intermediate metal structures. For installation in the boiler frame of the utilizer, these modules must be brought upright. The indicated design characteristics of the heating surface modules and the required vertical design position make the transportation and installation of these modules difficult. In particular, it is necessary to ensure such a load on the modules at which the maximum deflection of the pipes of the modules does not exceed the permissible value safe for their design. As a rule, heating surface modules are delivered to the installation area both by road and by rail in special transport frames in a horizontal position; in the design vertical position, heating surface modules are installed with three heavy-duty mounting cranes (,).

The leading global manufacturer of equipment for combined cycle power plants, including waste heat boilers, is Nooter / Eriksen (USA). The specified company also carries out the installation of its equipment and training of consumers of equipment in its installation (). In accordance with the installation diagram of the Nooter / Eriksen recovery boiler (USA) shown in the attached photographs, the installation for mounting the heating surface modules in the design vertical position inside the frame of the recovery boiler contains a container to which the module is attached, three heavy-duty mounting cranes and a fastener module to the hooking device of the cranes. The container is made with the possibility of coupling with the hooking devices of the mounting cranes and with the possibility of detaching the module from it during installation, namely, when the module is brought upright. The module in the transport frame is placed in a container, the elements of the transport frame are removed and the module is fixed in the container.

The container with the module fixed in it with the help of three mounting cranes that support the container with the module at three points (on the sides and in the center), is brought upright, brought to the operator module, which detaches the module from the container, secures the module fastening means to the hook crane device and with the help of this crane install the module in the design vertical position inside the boiler frame. Due to the fact that the container with the module is lifted when brought to the vertical position by three cranes, three support points of the container with the module are provided at the points where the container is caught by the cranes, which eliminates the deflection of the module more than the permissible value.

However, such an installation and mounting scheme for heating surface modules have limited areas of use. In particular, the rental of construction cranes of such carrying capacity is quite expensive, and in most cases in the construction area of waste heat boilers they are not at all.

In addition, most of the commissioned power units (including waste heat boilers) are mounted in the conditions of existing power plants in the extremely limited territory that has formed. At the same time, given the tight construction time, at the same time as the installation work, they carry out construction work, which further reduces the installation area. In this situation, there is no possibility of placing three large-capacity mounting cranes because of their large dimensions.

At the same time, the container used in the known installation is not a rigid element, since three cranes are used for installation, which support the frame with the module at three points and thus exclude unacceptable deflection of the module. That is, this container cannot be used for transporting the modules, as well as for lifting the module into a vertical position with one crane .. As a result, when installing the module, it is delivered to the installation site in the transport container, which is removed before installation, which increases the labor costs for installing the modules .

The basis of this technical solution is the task of creating such an installation for withdrawing long equipment, in particular, a heating surface module, to a vertical position, which would make it possible to use only one crane for installing this equipment in order to reduce the installation area and the cost of installation.

Also, the basis of this technical solution is the task of creating such a container that could be used both for installation and transportation of heating surface modules.

The problem is solved in that the installation for the withdrawal of long-sized large-sized equipment in a vertical position for fastening inside the frame of the object in a vertical position, containing a container made with the possibility of fastening equipment to it and disconnecting it when the equipment is brought into a vertical position, a means of connecting the equipment in the container with lifting device, according to the proposed technical solution, contains a hinge device with an axis of rotation mounted at the base of the object’s frame, the container is rigid, has a first end section that can be mounted on the specified axis of the hinge device with the possibility of turning the container from horizontal to vertical position, and a second, opposite end section, equipped with a stop protruding in the transverse direction behind the equipment when it is attached in the container, the installation further comprises a mounting pad fixed in the upper part of the frame, above the hinge support, provided with means for gripping the container stop and fixing the container with the equipment in an upright position.

In particular, for mounting the heating surface modules, the task is solved in that the installation for removing the heating surface module in a vertical position for mounting the module inside the utilizer boiler frame in a vertical position, comprising a container configured to attach the module to it and disconnect it when the equipment is withdrawn in the vertical position, the means of connecting the module in the container with the lifting device, according to the proposed technical solution, contains installed at the base of the boiler shell of the utilizer, the hinge device with an axis of rotation, the container is rigid, has a first end portion configured to be mounted on a specified axis of the hinge device to rotate the container from horizontal to vertical position, and a second, opposite end section provided with a stop protruding in the transverse the direction of the module when it is mounted in the container, while the installation further comprises a mounting platform, secured in the upper part of the frame, above the articulated support, nnuyu container gripping means and abutment container fixation with the module in an upright position.

The proposed set of functionally related installation mechanisms allows you to bring lengthy equipment, in particular the modules of the heating surface, in a vertical position using a single crane. This is achieved due to the fact that the container is rigid and provided with a stop, has additional support points to the crane: articulated device and mounting pad. At the same time, by means of the mounting pad, the container with the module through the stop is smoothly brought to a horizontal position and held in a vertical position to disconnect the module from the container and then transfer it to the frame of the object with the same lifting device.

It is advisable that the container be a rigid frame structure, made on the basis that the maximum deflection of the module fixed in the container when it is brought up to a vertical position does not exceed 50 mm.

The authors experimentally found that the deflection of the module less than 50 mm does not adversely affect its design.

At the same time, the authors also found that with such a stiffness of the container, it can be used as a transport container.

It is advisable that the container contains two side walls, each of which is an I-beam longitudinal beam with shelves, and a base made of at least transverse beams mounted on the lower surfaces of the shelves of the longitudinal beams, while on the specified first end section on the beams holes are made for installation on a specified axis of the hinge device.

The authors revealed that this design of the container is the most technologically advanced while ensuring the required rigidity.

In this case, the most technological is to make the container stop removable in the form of a bracket, the ends of which are fixed by a collapsible joint on longitudinal beams.

With a removable stop, it is most simple to place the module in a container. The shape of the bracket is most convenient for its connection with the installation site.

It is technologically preferable that the hinge device contains two supports mounted on a foundation at the base of the frame, each support is provided with a hinge mechanism with an axis of rotation, each of which is configured to be installed in the openings of the longitudinal beams of the container.

It is advisable that the mounting pad had a front face facing the container to be lifted, the means for gripping and fixing the container stop contained one axis, one after the other from the front face of the mounting pad, a first support configured to support the container stop and a second support at least the first support is made with the possibility of moving around the site along the specified axis, then the specified means contains a drive device made with the possibility of connection with the second support, and about Container movement limiters.

The proposed design of the installation site is quite simple, while at the last stage it ensures smooth installation of the container in a vertical position and its holding in this position to disconnect the module from the container, eliminating the fall of the container due to gravity.

For the smooth withdrawal of the container into a vertical position, two variants of the drive device are possible, which depend on the design of the module, namely the location of the center of gravity of the container with the module on the axis of rotation of the hinge device.

For the design of the module, in which the center of gravity of the container with the module is shifted backward (in the direction opposite to the movement of the container when it is installed in a vertical position) from the axis of rotation, it is advisable that the drive device contains at least two hoists mounted on a second support, each the hoist contains at least one sling configured to grab the container stop.

For the design of the module, in which the center of gravity of the container with the module is shifted forward (towards the movement of the container when it is installed in a vertical position) from the axis of rotation, it is advisable that the drive device contains a jack installed between the first and second supports.

In the future, the proposed technical solution and the features of its application are discussed in detail with reference to the drawings, in which:

Figure 1 - installation of the mounting module of the heating surface in the process of lifting the module

Figure 2 - installation of figure 1 with a raised module, rear view

Figure 3 - container side view

Figure 4 - container of figure 3, a top view

Figure 5 - container of figure 3 with focus, side view

6 is a hinge device

Fig.7 - the hinge mechanism of the hinge device in Fig.6

Fig.8 is an installation site according to the first embodiment

Ftg. 9 - assembly site according to the second embodiment

Figure 10 - Figure 12 - installation and installation diagram of the modulating heating surface of the company Nooter / Eriksen

The installation for the installation of long technical equipment will be further described in detail on the example of its preferred implementation, namely, on the example of the installation description for the installation of the heating surface modules of the boiler, a horizontal profile utilizer for CCGT

The proposed installation installation is illustrated in Fig.1 and Fig.2. The installation comprises a rigid container 1 with a stop 11, a hinge device 2, mounted at the base of the frame 3 of the recovery boiler, an installation platform 4, mounted on the upper support 31 of the frame 3 above the hinge device 2. The container with the equipment is lifted by an assembly crane (not shown) of the required capacity .

The rigid container 1 is shown in FIG. 3 to FIG. 5.

Figure 3, Figure 4 thin lines shows placed in the container 1 module 5 of the heating surface. The container 1 is made in the form of a frame structure comprising side bearing walls 12 and a base 13 (bottom of the container 1). The top of the container is open. The side load-bearing walls 12 can be formed by two load-bearing long beams, for example, composite (e.g., welded) I-beams 121 with two shelves 122 and 123 on each, hereinafter referred to as horizontal lower and upper shelves (when the container is located in a horizontal plane). The base is formed by at least transverse beams 131 fixed to the lower surface of the lower flanges of the I-beams.

Preferably, the transverse beams 131 of the base 13 of the container 1 correspond to the tube sheets of the module 5 of the heating surface. However, for individual module designs, if this condition cannot be provided, then the transverse beams are additionally connected by additional longitudinal beams 132, and additional diagonal beams 133 can also be introduced to enhance the rigidity of the container 1.

Beams 131 - 133 of the base 13 are mounted on the lower surface of the lower horizontal shelves of the longitudinal beams in order to shift the center of gravity of the container with the module closer to the axis of rotation and thus reduce the dynamic force of the container with the module when it is brought upright when the center of gravity of the axis rotation.

The geometric dimensions and the material of the beams of the side load-bearing walls 12 and the base 13 of the container 1 are calculated by known methods from the condition that the permissible deflection value of the module fixed in the container, when put into vertical position, does not exceed 40-50 mm. The indication of the deflection condition of the module is determined by the manufacturer of the modules and is safe for module design ..

Due to the fulfillment of such a condition, the container has sufficient rigidity to bring the module into vertical position with one crane, which reduces the installation area and the cost of installation.

In addition, such a container can be used to transport heating surface modules from production, which eliminates the operation to remove the transport frame, as well as the presence of a second, transport module, and thereby simplifies and reduces the cost of installation work.

The container 1 has a first end portion 14, hereinafter referred to as the lower end portion 14, which is adapted to be mounted in the hinge device 2, and a second end portion 15, further referred to as the upper end portion 15, which is lifted upward when the container 1 with the module 5 vertical position.

The side walls 12 of the container 1 (longitudinal beams) at the lower end portion 14 have a lower height, that is, are cut from the base side and holes 16 are made in them for the axis of the hinge device 2. The holes 16 are reinforced with stiffeners 17 that are welded to the longitudinal beams 121.

The container 1 is equipped with a stop 11 in the form of a transverse crossbar located above the surface of the module (when it is mounted in the container). The geometry of the stop 11 is selected from the calculation so that the crossbar deviates from the module surface by (500-600) mm. In the preferred embodiment, the stop is removable. The emphasis can be made, for example, in the form of a rectangular bracket, the ends of which are detachable by connecting to the longitudinal beams, for example, bolts. At the same time, holes (not shown) for bolts are made at the ends of the stop and on the longitudinal beams. The height of the bracket is selected from the calculation so that its transverse crossbar is located above the surface of the module (when it is located in the container) by (500-600) mm. It is also possible to perform a stop differently, for example in the form of a L-shaped element. In addition, the stop may not be removable, for example, on a swivel joint. However, this embodiment complicates the design of the container and the installation of the module in the container.

In addition, the container 1 is provided with removable transverse beams 18 for securing the module. The said transverse beams are made with the possibility of detachable connection with the side walls of the container in front of the module (in the direction from the upper end 15 of the container 1) and to the standard beams of the module 5, which are equipped with special frames 52 for the hook of the crane.

The indicated transverse beams are bolted to the upper horizontal shelves of the longitudinal beams. For example, a bolted connection may be used. In this case, these transverse beams and upper horizontal shelves of the container 1 are provided with holes (not shown) for the bolts. In addition, these transverse beams 18 can be equipped with their own eyebolts for lifting the container with the module.

The hinge device 2 is shown in Fig.6 and Fig.7 and contains two supports 21 mounted on the foundation 22 at the base of the frame 3 of the recovery boiler. Each support 21 is equipped with a hinge mechanism 23 (Fig. 7), each of which is configured to install side walls 12 (longitudinal beams) of the container 1 therein and rotate it from a horizontal to a vertical position around axis 24, which passes through holes 16 of the transverse beams and fixed in the articulated mechanism. In particular, each support has two collapsible racks 211 in which the axis 24 (bearing axis) is rotatably mounted. Racks 211 are made collapsible with the possibility of installing the side walls 12 of container 1 on the axis 24. Each rack 211 includes a bearing 212 through which axis 24 passes. Bearing 212 is closed by a cover 213 secured to the rack 211 by bolts 214. The dimensions of the bearings and their characteristics are selected depending by weight of the heating surface module.

The hinge device 2 creates the lower support point of the container 1 when it is brought upright, which allows the use of only one mounting crane that lifts the upper end of the container.

The mounting pad 4 is shown in FIG. 8 and FIG. 9. The mounting pad is installed on the upper part of the frame for the period of installation of the heating surface modules, while it is made with the possibility of operators working on it. The mounting pad 4 is fixed with brackets 41 on the vertical columns of the frame 3 of the recovery boiler, while it protrudes beyond the frame 3 of the recovery boiler (Figure 1) in a horizontal plane. One face 42 of the platform (hereinafter referred to as the front face 42) faces the vertical module 5 in the container 1. The mounting platform is formed by beams fastened together, on top of which the flooring is made. The mounting platform 4 is provided with means for gripping the stop 11 of the container 1 and fixing the container with the module in a vertical position. The specified tool contains a first support 43 and a second support 44 and a drive mechanism. Further, the indicated supports are conventionally called the stop support 43 and the traction support 44, respectively.

The supports 43 and 44 are located on the same axis, mainly perpendicular to the central longitudinal axis of the container in its vertical position, and are movable, mounted on a guide 45 fixed to the installation site. A possible embodiment of the supports in the form of sliders mounted on the guide. A possible embodiment of the traction support 44 in the form of a fixed rack. Known designs of sliders and guides may be used.

The drive mechanism is adapted to be attached to the traction support 44. Depending on the design of the module to be lifted, different drive mechanisms are used.

In one embodiment, the drive mechanism (Fig. 8) contains at least two chain hoists 46 connected to a traction support 44, each of which is equipped with slings 47 made with the possibility of fastening to the stop 11 of the container 1.

According to a second embodiment, shown in FIG. 9, the drive mechanism is made in the form of a jack 48 mounted between the traction and locking bearings 43 and 44. In addition, the mounting platform 4 is provided with stops 49 for moving the stop 11 of the container 1, which can be moved along the lines, perpendicular to the crossbar of the stop 11 of the container 1, and spaced relative to the center of the specified crossbar of the stop 11 of the container 1. The stops 49 can be made, for example, in the form of vertical posts Mounting pad 4 (its front face 42) and the pivot device 2 is arranged in such a way relative to each other that, when the container 1 with the module is brought up to a vertical position, when it is positioned at an angle of 10-15 ° (5-10) to the vertical axis (that is, until the module is fully installed in a vertical position) 11 of the container 1 was located above the mounting platform 4 and and abuts against the locking support 43.

The calculation of such an arrangement of the mounting pad and hinge can be carried out by known methods. The specified condition is also taken into account when determining the profile and dimensions of the stop 11 of the container 1.

In this case, the locking support 43 is made in such a way that when the container 1 is at an angle (5 ° -10 °) to the vertical axis, the emphasis 11 of the container 1 abuts against the locking support 43 of the mounting platform 4 (Position II in FIG. 1, FIG. 8 and Fig. 9).

The mounting platform 4 with supports 43 and 44 and the drive mechanism allows you to smoothly bring the container 1 with the module 5 to a vertical position (Position III in Fig. 1, Fig. 8 and Fig. 9), thereby eliminating the fall of the container 1 with the module under the action of force gravity back (in the direction opposite to the direction of lifting) or forward (in the direction of lifting), and also ensures that the container with the module is held upright to disconnect the module from the container.

The authors established the following main preferred dimensions of the components of the installation installation for the module of the heating surface of the boiler of the utilizer P-133 CHPP-26 of MOSENERGO OJSC.

Container 1: side walls 12 are formed by longitudinal beams of an I-section 1.5 m high, 23 m long, base: transverse, additional longitudinal and transverse beams of I-beams - 40B2, additional transverse beams for fastening the module - I-beams 40B2.

Hinge device: bases 1,6x5,5 m, axle diameter - 150 mm.

Installation site: size 6.4mx5.2 m, height of supports - 0.5 m.

The experiments conducted by the authors showed that with the specified basic parameters of the installation devices, the deflection of the heating surface module was 40 mm, that is, a value that does not adversely affect the module (requirement of the module manufacturers)

The installation of the modules of the heating surfaces in the frame of the recovery boiler is as follows

In a preferred embodiment, the heating surface module 5 is delivered from production to the installation area by road or rail in the container 1 described above.

Moreover, the module 5 is already in production fixed in the container with the help of additional removable transverse beams, which are bolted to the side longitudinal beams of the container and the standard beams of the module, which are equipped with special frames 52 for the hook of the crane.

A variant is possible when the module arrives in the factory transport frame. In this case, the module is placed in the container 1 in the transport frame, freed from the elements of this frame and the module is fixed to the container 1.

In a preferred embodiment, the installation for mounting modules contains at least three containers 1, one of which with the module is in the installation area, the second is in production for loading a new module, the third is in the vehicle.

At the base of the frame 3 of the boiler of the utilizer, hinge supports 21 are installed on the foundation 22, and the mounting platform 4 is fixed on the vertical supports of the frame 3.

The container 1 with module 5, using a special device containing rail tracks (not shown), is delivered from the unloading zone and to the installation zone (not shown). A mounting crane (not shown) brings the lower end 14 of the container 1 to the hinge device 2 and secures it. For fastening the container 1 in the hinge device 2, the hinge device racks 211 are disassembled (the covers 213 are removed), each hole 16 of the container 1 is installed opposite the axis sockets of each hinge mechanism, the axes 24 are passed through the holes 16 of the container 1 and fixed with bolts 214 in the racks 211, which are then assembled into position.

An abutment 11 is attached to the container 1, for example with bolts. The emphasis 11 can be fixed on the container 1 before installing the container in the hinge device 2.

In Fig.1, the position of the container 1 with the module ready for lifting is marked as I.

The gripping device 6 (shown conventionally by a line in the drawing) of an assembly crane (not shown) is connected to the eyelets 52 of module 5 (or container 1).

At the mounting site 4, the traction support 44 is diverted to an extremely distant position from the front face 42 of the platform 4 and is locked. The locking support 43 is diverted to a predetermined distance from the traction support 44 to the front face 42 and is not locked.

The distance to which the locking support 42 is retracted is determined by known calculation methods and empirically, provided that when the container 1 with the module is positioned at an angle (5 ° -10 °) to the vertical axis, the stop 11 of the container 1 abuts against the locking support 43 of the mounting platform 4.

In particular, for the structure, the parameters of which are described above, the locking support 43 is diverted from the traction by 2,000.00 mm.

The lifting of the container 1 with the module is carried out by one mounting crane. In this case, the gripping device 6 of the mounting crane is connected to the eyelets 52 of the module 5 (or container).

At the same time, the upper end 15 of the container 1 is lifted, and the lower end 14 is supported and rotated in the hinge device 2.

With a mounting crane, lift the upper end 15 of the container 1 with the module to a position where the stop 11 of the container 1 hangs over the mounting platform 4 and abuts the stop support 43. In this case, the container 1 with the module is at an angle (5 ° -10 °) to the vertical axis (Position II in FIG. 1 of FIG. 8 and FIG. 9)

Further, the process of outputting the container 1 with the module to the vertical position (Position III in FIG. 1 of FIG. 8 and FIG. 9) depends on the design of the module, namely the location of the center of gravity of the container 1 with the module relative to the axis of rotation of the container with the module in the hinge device.

If the center of gravity of the container with the module is shifted back (in the opposite direction to the container when it is installed in a vertical position) from the specified rotation axis, the operators on the mounting platform 4 attach chain hoists 46 with slings 47 to the towing support 44. Fasten the slings 47 of the drive mechanism to the container stop 11 and, adjusting the chain hoists 46, the operators withdraw (pull) the container 1 to a horizontal position in which it is unfastened and held by the stops 49, in which the container stop 11 rests. This eliminates the possibility of the container with the module falling under the influence of gravity backward (in the opposite direction to the lifting direction), and it is also possible to hold the container with the module in a vertical position to disconnect the module from the container.

Next, the operators disconnect the module from the container and transfer the module to the frame with a mounting crane.

When the center of gravity is shifted forward (in the direction of movement of the container) from the axis of rotation of the container 1, the operators install on the mounting platform 4 between the locking and traction bearings 43, 44 a jack 48, which, gradually lowering, slowly move the locking support 43, which rests on the stop 11 container 1, and thus provide a smooth installation of the container with the module in a vertical position in which it is held by stops 49, which abuts the stop 11 of the container to disconnect the module from the container.

This eliminates the possibility of falling container with the module under the action of gravity forward (in the direction of lifting), and also provides the ability to hold the container with the module in a vertical position to disconnect the module from the container.

Next, the operators disconnect the module from the container and transfer the module to the frame with a mounting crane.

It should be noted that, as a rule, operators know the characteristics of the container with the module (the location of the center of gravity relative to the axis of rotation of the container with the module in the hinge device) before starting installation, and, accordingly, the selection and installation of the drive mechanism on the mounting platform (hoist or jack) _ carried out in advance.

The described installation and mounting scheme of the heating surface module can also be used for installation of other equipment that has similar overall characteristics.

The above examples of the preferred implementation of the utility model, containing indications of individual embodiments, do not exhaust the possible changes and additions that are obvious to a person skilled in the art that do not affect the essence of the technical solution described by the formula of the utility model.

Claims (21)

1. Installation for removing long-sized large-sized equipment in a vertical position for installation inside the frame of an object in a vertical position, comprising a container configured to attach equipment to it and disconnect it after installing the equipment in a vertical position, means for connecting the equipment in the container with a lifting device, characterized the fact that the installation comprises a hinge device with an axis of rotation mounted at the base of the frame of the object, the container is made rigid, there is a first end section made with the possibility of installing a hinge device on the specified axis with the possibility of turning the container from horizontal to vertical position, and a second, opposite end section, provided with a stop protruding in the transverse direction behind the equipment when it is mounted in the container, the installation further comprises a mounting pad fixed in the upper part of the frame above the hinged device, provided with means for gripping the container stop and fixing the container with the equipment in Vertical, position. 2. Installation according to claim 1, characterized in that the container is a rigid frame structure, made on the basis that the maximum deflection of the equipment fixed in the container when it is brought up to a vertical position does not exceed 50 mm. 3. Installation according to claim 1, characterized in that the container contains two side walls, each of which is an I-beam longitudinal beam with shelves, and a base made of at least transverse beams mounted on the lower surfaces of the shelves of the beams of the side walls , while on the specified first end portion on the side walls made holes for installation on the specified axis of the hinge device. 4. The installation according to claim 1, characterized in that the emphasis of the container is removable in the form of a bracket, the ends of which are detachable mounted on the side walls of the container. 5. Installation according to claim 1, characterized in that the hinge device contains two supports mounted on a foundation at the base of the frame of the object, each support is equipped with a hinge mechanism with an axis of rotation, each of which is configured to be installed in the openings of the container beams. 6. Installation according to claim 1, characterized in that the mounting platform has a front face facing the container to be lifted, the means for gripping and fixing the container stop comprises first support mounted on the same axis from the front face of the mounting platform, which can be supported on the container stop, and the second support, at least the first support is arranged to move along the site along the specified axis, then the specified tool contains a drive device configured to connect to second support, and container movement stops. 7. Installation according to claim 6, characterized in that the drive device contains at least two hoists mounted on a second support, each hoist containing at least one sling configured to capture the stop of the container. 8. Installation according to claim 6, characterized in that the drive device comprises a jack mounted between the first and second supports. 9. Installation for removing the module of the heating surface in a vertical position for installing the module inside the frame of the recovery boiler in a vertical position, comprising a container configured to attach the module to it and disconnect it when the module is brought into a vertical position, means for connecting the module in the container with a lifting device , characterized in that it contains a hinge device with an axis of rotation mounted at the base of the utilizer boiler frame, the container is rigid, has a first end a current configured to be mounted on a specified axis of the hinge device to rotate the container from horizontal to vertical, and a second opposite end portion provided with a stop protruding in the transverse direction behind the module when it is mounted in the container, the installation further comprising parts of the frame above the hinge device mounting pad, equipped with a means of gripping the stop of the container and fixing the container with the module in a vertical position. 10. Installation according to claim 9, characterized in that the container is a rigid frame structure, made with the expectation that the maximum deflection of the module fixed in the container when it is brought up to a vertical position does not exceed 50 mm. 11. Installation according to claim 9, characterized in that the container contains two side walls, each of which is an I-beam longitudinal beam with shelves, and a base made of at least transverse beams mounted on the lower surfaces of the shelves of the longitudinal beams of the side walls, while on the specified first end portion on the side walls made holes for installation on the specified axis of the hinge devices. 12. Installation according to claim 9, characterized in that the emphasis of the container is removable in the form of a bracket, the ends of which are detachable on the side walls. 13. Installation according to claim 9, characterized in that the hinge device contains two supports mounted on a foundation at the base of the frame, each support is provided with a hinge mechanism with an axis of rotation, each of which is configured to be installed in the openings of the side walls of the container. 14. The installation according to claim 9, characterized in that the mounting platform has a front face facing the container to be lifted, the means for gripping and fixing the container stop comprises first support mounted on the same axis from the front face of the mounting platform, which can be supported on the container stop, and the second support, at least the first support is arranged to move along the site along the specified axis, then the specified tool contains a drive device configured to connect with Torah support. 15. Installation according to 14, characterized in that the drive device contains at least two hoists mounted on a second support, each hoist containing at least one sling, made with the possibility of gripping the stop of the container. 16. The apparatus of claim 14, wherein the drive device comprises a jack mounted between the first and second supports. 17. Installation according to claim 9, characterized in that it contains three containers. 18. The container for the module of the heating surface, made with the possibility of attaching to it a module of the heating surface and its detachment in the output in a vertical position, containing two side walls and a base, characterized in that it is rigid and is a frame structure made from the calculation, that the maximum deflection of the module fixed in the container when it is brought upright does not exceed 50 mm. 19. The container according to p. 18, characterized in that it has a first end section made with the possibility of installation on the axis of the hinged device of the installation with the possibility of rotation of the container from horizontal to vertical position, and a second opposite end section provided with a stop protruding in the transverse direction for the module when it is mounted in the container. 20. The container according to p. 18, characterized in that each side wall is an I-beam longitudinal beam with shelves, and the base is made of at least transverse beams mounted on the lower surfaces of the shelves of the specified longitudinal beams, while on the first end section on the side walls made holes for installation on the axis of the hinge device. 21. The container according to p. 18, characterized in that the emphasis is removable in the form of a bracket, the ends of which are attached to the transverse beams at the end portion of the container.