CN112576368B - Combined power generation multifunctional machine - Google Patents

Abstract

The invention provides a combined power generation multifunctional machine, which comprises operation equipment, an internal combustion engine, a generator and a machine shell, wherein the machine shell comprises a first accommodating area and a second accommodating area, a plurality of operation equipment are arranged in the first accommodating area, the internal combustion engine and the generator are arranged in the second accommodating area, and the operation equipment can be separated from the first accommodating area through a sliding element and a telescopic power line and can independently use a power supply of an external socket; the second accommodation area is provided with a reversible top cover and a plurality of detachable side plates. The combined type power generation multifunctional machine operation equipment, the internal combustion engine and the generator are convenient to detach and simple to operate, can be used in various scenes, and have strong practicability.

Description

Combined power generation multifunctional machine

Technical Field

The invention belongs to the field of power generation welding machines, and particularly relates to a combined power generation multifunctional machine.

Background

The existing internal combustion engine driven power generation welding machine comprises an internal combustion engine, a generator, welding and cutting equipment (various types of welding machines, cutting machines and the like) and an air compressor, wherein some power generation welding machines are provided with a shell, the internal combustion engine, the generator, the welding and cutting equipment, the air compressor and the like are integrated in the shell, and the power generation welding machine has the function of physically separating the internal combustion engine, the welding and cutting equipment, the air compressor and the shell, but the following problems still exist in design:

(1) The physical connection and separation of the welding and cutting equipment, the air compressor and the shell adopt a bolt fixing mode, and bolts are required to be disassembled and assembled each time of separation and installation, so that the operation is complex and the time is wasted;

(2) When the internal combustion engine and the generator are assembled and disassembled, the shell, a great number of parts and bolts are required to be assembled and disassembled to lift the internal combustion engine or the generator upwards, and when the internal combustion engine and the generator are assembled and disassembled, the internal combustion engine and the generator are also required to be lifted downwards, so that time is wasted, and certain difficulty is brought to the disassembly work;

(3) The casing is provided with a plurality of doors, each door is provided with a door lock with a key locking function, and the more the door locks are, the more the cost is increased, the more keys are used in use, the management is inconvenient, and the use is troublesome.

Therefore, there is a need for a power welder that is convenient to disassemble, flexible to use, convenient to maintain, and capable of meeting the needs of multiple scenario applications.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention aims to provide a combined type power generation multifunctional machine. In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

One aspect of the invention provides a combined type multifunctional power generation machine, which comprises operation equipment, a generator, an internal combustion engine and a machine shell, wherein the machine shell comprises a first accommodating area and a second accommodating area, the operation equipment is arranged in the first accommodating area, and the internal combustion engine and the generator are connected and arranged in the second accommodating area; the first accommodating area is provided with a sliding element; the operating device is separable from the first accommodation region by the sliding element, and has a retractable power cord connected to the generator power supply or to an external outlet when the operating device is separated from the first accommodation region.

Preferably, the sliding element comprises a first sliding groove, a first guide rail and a first bottom plate; the first sliding groove is fixed in the casing, the first guide rails are arranged on two sides of the first bottom plate, the operation equipment is placed on the first bottom plate, and the operation equipment moves in the first sliding groove through the first guide rails to be embedded in the first accommodating area or separate the first accommodating area.

Preferably, the first guide rail has a certain gradient, and the first chute also has the same gradient.

Preferably, a vertical elastic hasp assembly is arranged on the first bottom plate, and comprises an elastic hook, an elastic hasp handle and a self-locking button; the first sliding groove comprises a fixed hook, and the elastic hook can be overlapped with the fixed hook.

Preferably, a first damping device is arranged between the operating device and the first bottom plate, and the first bottom plate and the operating device are locked through a first locking device.

Preferably, a bottom plate handle is arranged on the first bottom plate.

Preferably, the combined power generation multifunctional machine further comprises a rotation speed control unit, the rotation speed control unit is connected with the internal combustion engine, the operation device is connected with the rotation speed control unit, and the rotation speed control unit controls the rotation speed of the internal combustion engine according to the working state of the operation device.

Preferably, the operation device sends an operation state to the rotation speed control unit, and when the operation state of the operation device is no load, the rotation speed control unit controls the internal combustion engine to run at a low speed; when the operating state of the operating device is loaded, the rotational speed control unit controls the internal combustion engine from low-speed operation to rated rotational speed operation.

Preferably, the operation device at least comprises one or a plurality of combinations of an electric welding machine, a cutting machine and an air compressor.

The invention provides a combined type multifunctional power generation machine, which comprises operation equipment, a generator, an internal combustion engine and a machine shell, wherein the machine shell comprises a top cover and a reversible top cover, the first accommodating area and the second accommodating area, the top cover is positioned above the first accommodating area, the operation equipment is arranged above the first accommodating area, the reversible top cover is positioned above the second accommodating area, the internal combustion engine and the generator are connected and arranged in the second accommodating area, the reversible top cover is provided with a hinge, and the reversible top cover is connected with the top cover through the hinge.

Preferably, the casing further comprises a chassis and a plurality of side plates, wherein the side plates are respectively provided with a detachable left maintenance door and a detachable right maintenance door, the two sides of the chassis are provided with a left clamping groove and a right clamping groove, the left maintenance door is fixed on the chassis through the left clamping groove, the right maintenance door is fixed on the chassis through the right clamping groove, and the left maintenance door and the right maintenance door are respectively provided with a left door lock and a right door lock.

Preferably, the second accommodation area further comprises a second floor, and a second damping device is included between the internal combustion engine or the generator and the second floor.

Preferably, the chassis further comprises a chassis, a first beam and a second beam are arranged on the chassis, and the first beam and the second beam are connected with the second bottom plate through second locking devices respectively.

Preferably, a first rail and a second rail are arranged between the first beam and the second beam, the first rail and the second rail are on the same plane with the first beam and the second beam, and are perpendicular to the first beam and the second beam, and the second bottom plate can slide on the first rail and the second rail.

Preferably, the casing further comprises a rear sealing plate, and the rear sealing plate and the chassis are locked through a third locking device.

Preferably, a reinforcing beam is arranged above the top cover.

Preferably, the plurality of side panels further comprises a push-pull storage box comprising a keyed door lock.

Preferably, a third track is arranged between the storage box and the casing, and the storage box can move along the third track.

Preferably, the plurality of side plates further include a roll-over door provided below the storage box, and a lower portion of the roll-over door is connected with the chassis through a hinge.

Preferably, the storage box lower part includes a baffle plate which blocks an upper part of the roll-over door.

Preferably, the operation device at least comprises one or a plurality of combinations of an electric welding machine, a cutting machine and an air compressor.

According to the combined type multifunctional power generation machine, the plurality of operation devices are arranged in the first accommodating area, the internal combustion engine and the generator are arranged in the second accommodating area, the operation devices can comprise various welding machines, cutting machines, air compressors and other different devices, the operation devices do not use a bolt fastening mode, and the operation devices are assembled and disassembled quickly without any tools, so that the assembly and disassembly time is saved, and the working efficiency is improved; the combined type multifunctional power generation machine reduces parts and bolts which are required to be disassembled for the internal combustion engine and the generator, changes the traditional disassembly mode of lifting the internal combustion engine and the generator upwards, reduces the disassembly difficulty and saves the disassembly time; the combined type power generation multifunctional machine reduces the number of door locks, reduces the cost and is more convenient to operate; in addition, because the operating equipment, the internal combustion engine and the generator can be separated from the shell, the combined type power generation multifunctional machine has diversified use scenes, the operating equipment, the internal combustion engine and the generator can be used together in one shell, the operating equipment can be separated from the internal combustion engine and the generator and also can be connected with the shell through extension lines, the operating equipment is portable equipment and can be connected with commercial power or other power supply equipment, the internal combustion engine and the generator can be independently used, and other equipment is supplied with power through sockets.

Drawings

The various aspects of the present invention will become more apparent to the reader upon reading the detailed description of the invention with reference to the accompanying drawings. Wherein,

FIG. 1 is a general block diagram of a combined power generation multifunctional machine according to an embodiment of the present invention;

FIG. 2 is a schematic diagram 1 of the connection of an operating device of a combined power generation multifunctional machine with a casing according to an embodiment of the present invention;

FIG. 3 is a schematic view of the connection of the operating device and the casing of the combined power generation multifunctional machine according to an embodiment of the present invention 2;

FIG. 4 is a schematic diagram of the connection of the operating device of the combined power generation multifunctional machine with the casing 3 according to an embodiment of the present invention;

FIG. 5 is a schematic diagram 1 of the connection of an internal combustion engine, a generator and a casing of a combined power generation multifunctional machine according to an embodiment of the invention;

FIG. 6 is a schematic view of the connection of an internal combustion engine, a generator and a housing of a combined power generation multifunctional machine according to an embodiment of the present invention 2;

FIG. 7 is a schematic view of the connection of an internal combustion engine, a generator and a housing of a combined power generation multifunctional machine according to an embodiment of the present invention;

FIG. 8 is a schematic view of the connection of an internal combustion engine, a generator and a housing of a combined power generation multifunctional machine according to an embodiment of the invention 4;

fig. 9 is a schematic view 1 of a left side board structure of a combined power generation multifunctional machine according to an embodiment of the invention;

Fig. 10 is a schematic view 2 of a left side board structure of a combined power generation multifunctional machine according to an embodiment of the invention;

FIG. 11 is a schematic view of the left side board of the combined power generation multifunctional machine according to an embodiment of the invention 3;

Reference numerals illustrate:

1: operating the device; 2: an internal combustion engine; 3: a generator; 4: a housing; 5: a sliding element; 6: a socket; 7: a cart;

11: a first base plate; 12: a first guide rail; 13: a vertical elastic snap assembly;

111: a bottom plate handle;

131: an elastic hook; 132: a flexible snap handle; 133: a self-locking button; 134: a first shock absorbing device;

21: a second base plate; 22: a second shock absorbing device;

41: a left side plate; 42: a right side plate; 43: a top cover; 44: a chassis; 45: a rear sealing plate; 46: a first chute; 47: an air inlet system; 48: a lifting frame;

411: a left maintenance door; 412: push-pull storage box; 413: door lock with key; 414: a roll-over door; 415: turning over the door handle; 416: a baffle; 417: a roll-over door hinge;

421: a right maintenance door; 422: a right door lock;

431: a reversible top cover; 432: a stiffening beam; 433: a top cover hinge;

441: a first cross beam; 442: a second cross beam; 443: a limiting device; 444: a first track; 445: a second track;

451: a third locking device;

461: a fixed hook; 462: edge strips.

Detailed Description

For a more complete and thorough description of the present application, reference should be made to the accompanying drawings and the following detailed description of the application. However, it will be understood by those of ordinary skill in the art that the examples provided below are not intended to limit the scope of the present application. Furthermore, the drawings are for illustrative purposes only and are not drawn to their original dimensions.

Embodiments of various aspects of the invention are described in further detail below with reference to the drawings.

Referring to fig. 1, an overall structure diagram of a combined power generation multifunctional machine according to an embodiment of the present invention is shown; fig. 2 is a schematic diagram 1 illustrating connection between an operation device and a casing of a combined power generation multifunctional machine according to an embodiment of the present invention. One aspect of the present invention provides a combined power generation multifunctional machine, including an operation device 1, an internal combustion engine 2, a generator 3 and a casing 4, wherein the casing 4 includes a first accommodating area and a second accommodating area, the operation device 1 is installed in the first accommodating area, and the internal combustion engine 2 and the generator 3 are connected and installed in the second accommodating area; the first accommodation area is provided with a sliding element 5, in particular it may comprise a cover plate which is opened to enable the operating device 1 to be removed from the first accommodation area; the operating device 1 is separable from the first housing area by means of the sliding element 5, the operating device 1 having a telescopic power cord which is connected to the generator 3 power supply or to an external socket power supply when the operating device 1 is separated from the first housing area.

The operation device 1 may be a device that is frequently used by a welder, a cutting machine, or an air compressor, etc. of various types, and one or more operation devices 1 may be installed in the first accommodating area.

Specifically, when the operation device 1 is embedded in the first accommodating area, the retractable power cord is shortened and the power of the generator 3 is obtained through an internal socket (not labeled); when the operation device 1 separates the first accommodating area, the telescopic power cord is extended and used for obtaining the power of the generator 3 through the external socket 6, or is connected with the commercial power, another generator and other external power sources, through the design, when the operation device 1 is embedded or separated in the first accommodating area, various different power sources can be obtained through the telescopic power cord without limiting the power source of the generator 3, specifically, the telescopic power cord can be designed in various types, and in the embodiment, the spring cord is used for replacing the traditional winder design, so that the operation device 1 can be embedded in the first accommodating area more conveniently, and the workload during dismounting is reduced.

Referring to fig. 2, a schematic diagram 1 of connection between an operation device and a casing of a combined power generation multifunctional machine according to an embodiment of the invention is shown; fig. 3 is a schematic diagram 2 showing connection between an operation device and a casing of a combined power generation multifunctional machine according to an embodiment of the present invention.

In the present embodiment, the sliding element 5 includes a first chute 46, a first rail 12 and a first bottom plate 11; the first sliding groove 46 is fixed in the casing 4, the first guide rails 12 are installed on two sides of the first bottom plate 11, the operation device 1 is placed on the first bottom plate 11, and the operation device 1 moves in the first sliding groove 46 through the first guide rails 12 to embed the first accommodating area or separate the first accommodating area.

In this embodiment, the first rail 12 has a certain gradient, and the first sliding groove 46 also has the same gradient, and specifically, the first sliding groove 46 having the same gradient may completely wrap the first rail 12, and enable the first rail 12 to automatically clamp the first sliding groove 46.

In this embodiment, a vertical elastic buckle assembly 13 is disposed on the first base plate 11, and the vertical elastic buckle assembly 13 includes an elastic hook 131, an elastic buckle handle 132, and a self-locking button 133; the first sliding groove 46 includes a fixing hook 461 and a side strip 462, and the elastic hook 131 may overlap with the fixing hook 461, specifically, the side strip 462 is used to press the first rail 12, so as not to separate the first rail 12 upwards.

In this embodiment, a first damping device 134 is included between the operating device 1 and the first base plate 11, and the first base plate 11 and the operating device 1 are locked by a first locking device, specifically, the first damping device 134 is any type of element or material capable of absorbing shock and impact, and is rubber in this embodiment; the first locking means are various types of fasteners, in this embodiment bolts.

In this embodiment, the first base plate 11 is provided with a base plate handle 111.

Referring to fig. 4, a schematic diagram 3 of connection between an operation device and a casing of a combined power generation multifunctional machine according to an embodiment of the present invention is shown, and a process of installing and detaching the operation device 1 is further described in detail:

(1) When the operation device 1 is installed, the first bottom plate 11 is pushed to move into the casing 4 (in the direction a shown in fig. 4), the first guide rail 12 slides into the first sliding groove 46, and the first guide rail 12 and the first sliding groove 46 have certain gradients, and the edge strips 462 are designed on the first sliding groove 46, so that when the first bottom plate 11 moves into a certain position into the casing 4, the first bottom plate is automatically stopped and clamped; to prevent the first chassis 11 from sliding out under external force or gravity (when the frame is inclined), the elastic hooks 131 of the vertical elastic snap members 13 on the first chassis 11 and the fixing hooks 461 on the first sliding grooves 46 are overlapped, in particular, the elastic snap handles 132 are pulled, and when the elastic snap handles 132 are perpendicular to the first sliding grooves 46, the elastic hooks 131 of the vertical elastic snap members 13 are locked with the fixing hooks 461 on the first sliding grooves 46; the snap handle 132 on the vertical snap assembly 13 is automatically locked due to the self-locking button 133 on the vertical snap assembly 13.

(2) When the operation device 1 is detached, the self-locking button 133 is pressed, the elastic hook 131 is released, the elastic hook 131 and the fixing hook 461 are separated, the first base plate handle 111 is pulled outwards, and the operation device 1 is taken out.

In this embodiment, the combined power generation multifunctional machine further includes a rotation speed control unit (not shown) connected to the internal combustion engine 2, the operation device 1 is connected to the rotation speed control unit, and the rotation speed control unit controls the rotation speed of the internal combustion engine 2 according to the operation state of the operation device 1.

In the present embodiment, the operation device 1 sends the operation state to the rotation speed control unit, which controls the internal combustion engine 2 to run at a low speed when the operation state of the operation device 1 is no load; when the operating state of the operating device 1 is loaded, the rotational speed control unit controls the internal combustion engine 2 from a low-speed operation to a rated rotational speed operation.

Referring to fig. 5, a schematic diagram 1 of connection between an internal combustion engine, a generator and a casing of a combined power generation multifunctional machine according to an embodiment of the invention; FIG. 6 is a schematic view of the connection of an internal combustion engine, a generator and a housing of a combined power generation multifunctional machine according to an embodiment of the present invention 2; FIG. 7 is a schematic diagram 3 of the connection of an internal combustion engine, a generator and a housing of a combined power generation multifunctional machine according to an embodiment of the invention.

Another aspect of the present invention provides a combined power generation multifunctional machine, including an operation device 1, an internal combustion engine 2, a generator 3, and a casing 4, where the casing 4 includes a top cover 43, a reversible top cover 431, a first accommodating area, and a second accommodating area, the top cover 43 is located above the first accommodating area, the operation device 1 is installed in the first accommodating area, the reversible top cover 431 is located above the second accommodating area, the internal combustion engine 2 and the generator 3 are connected and installed in the second accommodating area, the reversible top cover 431 is provided with a hinge 433, and the reversible top cover 431 and the top cover 43 are connected through the hinge 433.

In this embodiment, the casing 4 further includes a chassis 44, a plurality of side plates, specifically, the side plates generally refer to sealing plates on the left and right sides of the casing 4, and may be used to isolate the operating device 1, the internal combustion engine 2, the generator 3 and the outside, the side plates are configured to be quickly detachable for repairing the internal combustion engine 2, the generator 3, in this embodiment, the side plates are a left side plate 41 and a right side plate 42, the left side plate 41 and the right side plate 42 are respectively provided with a detachable left maintenance door 411 and a right maintenance door 421, left clamping grooves (not labeled) and right clamping grooves (not labeled) are provided on two sides of the chassis 44, the left maintenance door 411 is fixed on the chassis 44 through the left clamping grooves, the right maintenance door 421 is fixed on the chassis 44 through the right clamping grooves, and the left maintenance door 411 and the right maintenance door 421 are respectively provided with a left door lock (not labeled) and a right door lock 422, specifically, and the left door lock 422 is a pressing door lock.

In this embodiment, the left maintenance door 411 may be disposed at any position of the left side plate 41, the right maintenance door 421 may be disposed at any position of the right side plate 42, or only a single side of the left maintenance door may be provided.

In this embodiment, the second accommodating area further includes a second bottom plate 21, and a second damping device 22 is included between the internal combustion engine 2 or the generator 3 and the second bottom plate 21, and specifically, the second damping device 22 is any type of element or material capable of absorbing shock and impact, and is rubber in this embodiment.

In this embodiment, the chassis is provided with a first beam 441 and a second beam 442, the first beam 441 and the second beam 442 are respectively connected with the second bottom plate 21 through a second locking device, specifically, the first beam 441 further includes a limiting device 443, the limiting device 443 performs a limiting function, when the internal combustion engine 2 and the generator 3 are pushed inwards to a certain position, the internal combustion engine 2 and the generator 3 are blocked by the limiting device 443 and cannot move continuously, and in this position, the second locking device is just aligned, and the second locking device is fixed to connect the first beam 441, the second beam 442 and the second bottom plate 21.

In this embodiment, a first rail 444 and a second rail 445 are disposed between the first beam 441 and the second beam 442, the first rail 444 and the second rail 445 are on the same plane with the first beam 441 and the second beam 442, and are perpendicular to the first beam 441 and the second beam 442, and the second bottom plate 21 can slide on the first rail 444 and the second rail 445.

In this embodiment, the housing 4 further includes a rear sealing plate 45, and the rear sealing plate 45 is locked with the chassis 44 by a third locking device 451.

In this embodiment, a reinforcing beam 432 is disposed above the top cover 43.

Referring to fig. 8, a schematic diagram 4 of connection between an internal combustion engine, a generator and a casing of a combined power generation multifunctional machine according to an embodiment of the present invention is shown, and a disassembly process of the internal combustion engine 2, the generator 3 is further specifically described:

(1) The reversible top cover 431 is turned over to the reinforcement beam 432, the right door lock 422 is pressed down and the right maintenance door 421 is removed, and the left door lock is pressed down and the left maintenance door 411 is removed.

(2) The rear closure plate 45 and the third locking means 451 of the chassis 44 are removed and the rear closure plate 45 is removed.

(3) The second locking means between the second bottom plate 21 and the first and second beams 441, 442 are removed, the second bottom plate 21 is pulled outwards and slid on the first and second rails 444, 445 until the second bottom plate 21 is moved onto the trolley 7 without removing the air intake system 47 and the lifting frame 48.

Fig. 9 is a schematic diagram 1 of a left side board structure of a combined power generation multifunctional machine according to an embodiment of the invention; fig. 10 is a schematic view 2 of a left side board structure of a combined power generation multifunctional machine according to an embodiment of the invention; fig. 11 is a schematic view of a left side board structure of a combined power generation multifunctional machine according to an embodiment of the invention 3.

In this embodiment, the plurality of side panels further comprise a push-pull storage box 412, and the storage box 412 includes a keyed door lock 413.

In this embodiment, a third track (not labeled) is disposed between the storage box 412 and the housing 4, and the storage box 412 is movable along the third track.

In this embodiment, the plurality of side plates further includes a roll-over door 414, the roll-over door 414 is disposed under the storage box 412, the roll-over door 414 includes a handle 415, and a lower portion of the roll-over door 414 is connected to the chassis 44 through a hinge 417.

In this embodiment, the lower portion of the storage box 412 includes a shutter 416, and the shutter 416 blocks the upper portion of the roll-over door 414.

The opening process of the storage box 412 and the roll-over door 414 is described in further detail below:

(1) When the storage box 412 is locked by the door lock 413, the baffle 416 blocks the roll-over door 414, and the roll-over door 414 cannot be opened downwards, i.e., the baffle 416 can lock the roll-over door 414, and the door lock is not required to be arranged on the roll-over door 414.

(2) Opening the door lock 413, pulling the storage box 412 out, simultaneously separating the baffle 416 below the storage box 412 from the roll-over door 414, pulling the handle 415 on the roll-over door 414 downwards, and turning the roll-over door 414 downwards to open.

In this embodiment, the operation device 1 includes at least one of an electric welding machine, a cutting machine, and an air compressor.

In the present embodiment, the power cord of the operation device 1 is a spring cord.

In this embodiment, the combined power generation multifunctional machine further includes an internal socket and an external socket 6, the internal socket and the external socket 6 are installed in the housing 4, and the generator 3 provides power to the internal socket or the external socket 6.

According to the combined type multifunctional power generation machine, the operation equipment can be independently separated, and the combined type multifunctional power generation machine is fastened with the machine shell without using a bolt fastening mode, so that the combined type multifunctional power generation machine is fast in disassembly and assembly without any tool, the disassembly and assembly time is saved, and the working efficiency is improved; the combined type multifunctional power generation machine reduces parts and bolts which are required to be disassembled for the internal combustion engine and the generator, changes the traditional disassembly mode of lifting the internal combustion engine and the generator upwards, reduces the disassembly difficulty and saves the disassembly time; the combined type power generation multifunctional machine reduces the number of door locks, reduces the cost and is more convenient to operate; in addition, because the operating equipment, the internal combustion engine and the generator can be separated from the shell, the combined type power generation multifunctional machine has diversified use scenes, the operating equipment, the internal combustion engine and the generator can be used together in one shell, the operating equipment can be separated from the internal combustion engine and the generator and also can be connected with the shell through extension lines, the operating equipment is portable equipment and can be connected with commercial power or other power supply equipment, the internal combustion engine and the generator can be independently used, and other equipment is supplied with power through sockets.

It should be understood that the foregoing examples of the present application are merely illustrative of the present application and not limiting of the embodiments of the present application, and that various other changes and modifications can be made by those skilled in the art based on the foregoing description, and the present application is not intended to be exhaustive of all of the embodiments, and all obvious changes and modifications that come within the scope of the application are defined by the following claims. All documents mentioned in this disclosure are incorporated by reference in this disclosure as if individually incorporated by reference.

Claims (18)

1. The combined type multifunctional power generation machine comprises operation equipment, a generator, an internal combustion engine and a machine shell, and is characterized in that the machine shell comprises a first accommodating area and a second accommodating area, the operation equipment is arranged in the first accommodating area, and the internal combustion engine and the generator are connected and arranged in the second accommodating area; the first accommodating area is provided with a sliding element; the operating device is separable from the first accommodation area by the sliding element, the operating device having a retractable power cord connected to the generator power supply or to an external outlet when the operating device is separated from the first accommodation area;

The sliding element comprises a first sliding groove, a first guide rail and a first bottom plate; the first sliding groove is fixed in the shell, the first guide rails are arranged on two sides of the first bottom plate, the operation equipment is placed on the first bottom plate, and the operation equipment moves in the first sliding groove through the first guide rails to embed the first accommodating area or separate the first accommodating area;

The first guide rail has a certain gradient, and the first sliding groove also has the same gradient;

The first bottom plate is provided with a vertical elastic hasp assembly, and the vertical elastic hasp assembly comprises an elastic hook, an elastic hasp handle and a self-locking button; the first sliding groove comprises a fixed hook, and the elastic hook can be overlapped with the fixed hook.

2. The combined power generation multifunctional machine according to claim 1, wherein a first damping device is arranged between the operation device and the first base plate, and the first base plate and the operation device are locked through a first locking device.

3. The combined power generation multifunctional machine according to claim 1, wherein a floor handle is arranged on the first floor.

4. The combined power generation multifunctional machine according to claim 1, further comprising a rotation speed control unit, wherein the rotation speed control unit is connected to the internal combustion engine, the operation device is connected to the rotation speed control unit, and the rotation speed control unit controls the rotation speed of the internal combustion engine according to an operation state of the operation device.

5. The combined power generation multifunctional machine according to claim 4, wherein the operation device sends an operation state to the rotation speed control unit, and when the operation state of the operation device is no load, the rotation speed control unit controls the internal combustion engine to operate at a low speed; when the operating state of the operating device is loaded, the rotational speed control unit controls the internal combustion engine from low-speed operation to rated rotational speed operation.

6. The combined power generation multifunctional machine according to claim 1, wherein the operation device comprises at least one or a combination of a plurality of electric welding machines, cutting machines and air compressors.

7. The combined power generation multifunctional machine according to claim 1, wherein the casing comprises a top cover, a reversible top cover, the top cover is located above the first accommodating area, the reversible top cover is located above the second accommodating area, the reversible top cover is provided with a hinge, and the reversible top cover is connected with the top cover through the hinge.

8. The multifunctional combined power generation machine according to claim 7, wherein the casing further comprises a chassis and a plurality of side plates, wherein the side plates are respectively provided with a detachable left maintenance door and a detachable right maintenance door, the two sides of the chassis are provided with a left clamping groove and a right clamping groove, the left maintenance door is fixed on the chassis through the left clamping groove, the right maintenance door is fixed on the chassis through the right clamping groove, and the left maintenance door and the right maintenance door are respectively provided with a left door lock and a right door lock.

9. The combined power generation multifunctional machine according to claim 7, wherein the second accommodation area further comprises a second base plate, and wherein a second damping device is included between the internal combustion engine or the generator and the second base plate.

10. The combined power generation multifunctional machine according to claim 9, wherein the housing further comprises a chassis, and the chassis is provided with a first cross beam and a second cross beam, and the first cross beam and the second cross beam are respectively connected with the second bottom plate through a second locking device.

11. The combined power generation multifunctional machine according to claim 10, wherein a first rail and a second rail are arranged between the first beam and the second beam, the first rail and the second rail are on the same plane with the first beam and the second beam, and are perpendicular to the first beam and the second beam, and the second bottom plate can slide on the first rail and the second rail.

12. The combination power generation multifunctional machine of claim 10, wherein the housing further comprises a rear seal plate, wherein the rear seal plate is locked with the chassis by a third locking device.

13. The combined power generation multifunctional machine according to claim 7, wherein a stiffening beam is arranged above the top cover.

14. The combination power generation multifunctional machine of claim 8, wherein the plurality of side panels further comprise a push-pull storage box comprising a keyed door lock.

15. The combined power generation multifunctional machine according to claim 14, wherein a third track is arranged between the storage box and the machine shell, and the storage box can move along the third track.

16. The combination power generation multifunctional machine according to claim 15, the plurality of side plates further comprising a roll-over door provided below the storage box, a lower portion of the roll-over door being connected to the chassis by a hinge.

17. The combination power generation multifunctional machine of claim 16, wherein the storage box lower portion includes a baffle that blocks an upper portion of the roll-over door.

18. The combined power generation multifunctional machine according to claim 7, wherein the operation device comprises at least one or a combination of a plurality of electric welding machines, cutting machines and air compressors.