CN113464044A

CN113464044A - Waterproof high temperature resistant oil-well rig net electric installation

Info

Publication number: CN113464044A
Application number: CN202110887699.8A
Authority: CN
Inventors: 胡雅茹
Original assignee: Individual
Current assignee: Shandong Ryo Intelligent Equipment Co ltd
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2021-10-01
Anticipated expiration: 2041-08-03
Also published as: CN113464044B

Abstract

The invention relates to a water-proof and high-temperature-proof oil rig network electric device, in particular to a water-proof and high-temperature-proof oil rig network electric device, which comprises a supporting base, a supporting frame, a collecting assembly, a switching control assembly, an opening and closing assembly and the like; the top of the supporting base is connected with a supporting frame, the supporting frame is provided with a collecting assembly, the supporting base is provided with a switching control assembly, and the supporting frame is provided with an opening and closing assembly. Through sheltering from the soft board and the cooperation of device and the board that absorbs water on it, two shelter from the soft board and will prevent that the sand screen board from sheltering from to can prevent inside the rainwater entering equipment, the board that absorbs water simultaneously can be with the steam separation in the air, thereby can further prevent that the inside net electric drill of equipment from weing, realized can playing the purpose of dampproofing effect to the inside net electric drill of equipment effectively.

Description

Waterproof high temperature resistant oil-well rig net electric installation

Technical Field

The invention relates to a water-proof and high-temperature-proof oil rig network electric device, in particular to a water-proof and high-temperature-proof oil rig network electric device.

Background

The drilling machine is a set of complex machines, it is made up of machine, unit and organization, the drilling machine drives the drilling tool to bore to the underground in the development of mineral resources, in order to obtain the mechanical equipment of the geological information of the real object, the drilling machine is also called the drilling machine, its main function is to drive the drilling tool to break the rock of the hole bottom, the drilling tool can be used for drilling and getting the rock core, detritus, gaseous state sample, liquid sample, etc., in order to find out the situation such as underground geology and mineral resources.

The grid electric drilling machine uses electricity as a drilling machine of a driving force, does not use diesel oil, and therefore can save petroleum resources, but the existing grid electric drilling machine is easy to damp when running in rainy days, so that the grid electric drilling machine is likely to break down, and the grid electric drilling machine cannot stably run due to overhigh temperature in the running process of the grid electric drilling machine, and meanwhile, sand and dust easily enter the grid electric drilling machine, and the stable running of the grid electric drilling machine can be prevented.

Disclosure of Invention

Therefore, in order to solve the above problems, it is necessary to provide a waterproof and high-temperature-resistant oil rig power grid device which can effectively protect the power grid drilling machine inside the equipment from moisture, effectively prevent the power grid drilling machine from being incapable of normal operation due to the overhigh temperature inside the equipment, and effectively prevent dust and sand, so as to solve the problems that the existing device proposed in the above background art is easily affected with damp, easily has overhigh temperature, and easily causes dust and sand to enter the equipment.

The technical scheme of the invention is as follows: the utility model provides a waterproof high temperature resistant oil-well rig net electric installation, is including supporting base, carriage, collection subassembly, switching control subassembly and the subassembly that opens and shuts, and the hookup of supporting base top has the carriage, is equipped with the collection subassembly on the carriage, is equipped with the switching control subassembly on the supporting base, is equipped with the subassembly that opens and shuts on the carriage.

Furthermore, the collecting assembly comprises a sand-proof screen frame, a sand-proof screen plate, a water drain plug, a first sliding frame, a first reset spring and a water suction plate, the top of the supporting frame is connected with the sand-proof screen frame, the sand-proof screen plate is symmetrically connected between the supporting base and the supporting frame, the water drain plug is sleeved on one side of the sand-proof screen frame, the supporting frame is connected with the first sliding frame in a sliding mode, the first sliding frame is connected with the sand-proof screen frame in a sliding mode, the first reset spring is symmetrically connected between the first sliding frame and the supporting frame, the water suction plate is symmetrically connected to the upper portion of the supporting frame, and the water suction plate is connected with the sand-proof screen plate.

Further, the switching control component comprises a limiting rod, a motor, a rocker arm, a sliding slotting support frame, a first limiting plate, a second limiting plate, a third limiting plate, a first slotting push frame, a compression spring, a slotting slider, a second reset spring, a sliding wedge-shaped clamping frame and a sliding limiting frame, wherein the limiting rod is connected on the first sliding frame, the motor is installed on the support base, one end of an output shaft of the motor is connected with the rocker arm, the sliding slotting support frame is connected on the top of the support base in a sliding way, the sliding slotting support frame is in limiting fit with the rocker arm, the first limiting plate is connected on one side of the sliding slotting support frame, the second limiting plate is connected on one side of the sliding slotting support frame, the third limiting plate is connected on one side of the sliding slotting support frame, the first slotting push frame is connected on the sliding way, and the compression spring is connected between the first slotting push frame and the sliding slotting support frame, the common sliding type between the second limiting plate and the third limiting plate is connected with a slotting slide block, a second reset spring is connected between the slotting slide block and the sliding slotting support frame, the sliding type on the second limiting plate is connected with a sliding wedge-shaped clamping frame, the sliding wedge-shaped clamping frame is in sliding type fit with the slotting slide block, the sliding wedge-shaped clamping frame is in contact with the first slotting push frame, the other side of the sliding slotting support frame is in sliding type connection with a sliding limiting frame, and the sliding limiting frame is in limiting fit with the first slotting push frame.

Further, the opening and closing assembly comprises a second slotting pushing frame, a first supporting frame, a swinging frame, a supporting rod, a scroll spring, a shielding soft plate, a second sliding frame, a slotting pushing frame and a connecting rod, the sliding limiting frame is connected with the second slotting pushing frame in a sliding way, the inner wall of the supporting frame is connected with the first supporting frame, the first supporting frame is connected with the swinging frame in a rotating way, the swinging frame is in limit fit with the second slotting pushing frame, the lower part of the supporting frame is symmetrically connected with the supporting rod, the scroll spring is connected with the supporting rod, the shielding soft plate is connected with the other end of the scroll spring, the shielding soft plate is wound on the supporting rod and is in contact with the sand-proof screen plate, one end of the shielding soft plate is connected with the second sliding frame, the second sliding frame is in sliding fit with the supporting frame, one of the second sliding frame is connected with the slotting pushing frame, the slotting pushing frame is connected with one of the shielding soft plate, and the slotting pushing frame is in limit fit with the swinging frame, a connecting rod is connected between the two second sliding frames and is connected with the shielding soft plate.

Further, still including the heat dissipation control subassembly, the heat dissipation control subassembly is located on supporting the base, the heat dissipation control subassembly is including sliding push away the frame, third reset spring, first spur gear, second spur gear and third spur gear, it is connected with the slip push away the frame to support the slidable on the base, it is connected with third reset spring to slide push away between frame and the support base, the last pivoted joint of slip push away frame has first spur gear, the hookup has the second spur gear on the motor output shaft, it is connected with the third spur gear to support the last pivoted joint of base.

Further, still including radiator unit, radiator unit locates on the carriage, radiator unit is including the second support frame, the third support frame, first bevel gear, first drive plate, second bevel gear, leaf frame and second drive plate, the top hookup has the second support frame in the carriage, the top hookup has the third support frame in the carriage, the rotation type is connected with first bevel gear on the second support frame, the rotation type is connected with first drive plate on the first bevel gear, the first drive plate other end is connected with the third straight gear rotary type, the rotation type is connected with second bevel gear on the second support frame, second bevel gear and first bevel gear meshing, the rotation type that distributes on the third support frame is connected with three leaf frames, one of them leaf frame and second bevel gear hookup, common rotation type is connected with the second drive plate between the three leaf frames.

The beneficial effects are that:

through sheltering from the soft board and the cooperation of device and the board that absorbs water on it, two shelter from the soft board and will prevent that the sand screen board from sheltering from to can prevent inside the rainwater entering equipment, the board that absorbs water simultaneously can be with the steam separation in the air, thereby can further prevent that the inside net electric drill of equipment from weing, realized can playing the purpose of dampproofing effect to the inside net electric drill of equipment effectively.

Through the cooperation of sand prevention otter board and flabellum frame and device above that, if not raining, inside the sand prevention otter board can prevent that external sand and dust from falling into equipment, can also increase the inside circulation of air speed of equipment simultaneously, if raining, the flabellum frame can rotate, the inside hot-air of equipment can flow to the external world, external cold air then can flow to equipment is inside, be favorable to the heat dissipation, reached and can prevent effectively that the inside high temperature of equipment from and lead to the unable normal operating's of net electric drill machine effect.

Through the sand prevention screen frame, outside sand and dust can not enter the inside of the sand prevention screen frame, so that equipment can be prevented from breaking down, and the sand prevention screen plate is of a net structure, so that outside sand and dust can not enter the inside of the equipment, so that an electric net drilling machine inside the equipment can stably operate, and the purpose of effectively preventing sand and dust is achieved.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a schematic view of a first partially separated body configuration of a collection assembly of the present invention.

Fig. 4 is a schematic view of a second partially separated body configuration of a collection assembly of the present invention.

FIG. 5 is a schematic diagram of a first partially-separated body structure of the switching control module according to the present invention.

FIG. 6 is a second partial physical structure diagram of the switching control module of the present invention.

Fig. 7 is a schematic perspective view of a part of the opening and closing assembly of the present invention.

Fig. 8 is a partially disassembled perspective view of the opening and closing assembly of the present invention.

Fig. 9 is a perspective view of the heat dissipation control assembly of the present invention.

Fig. 10 is a schematic perspective view of a heat dissipation assembly according to the present invention.

In the reference symbols: 1_ support base, 2_ support frame, 3_ collection assembly, 31_ sand-proof screen frame, 32_ sand-proof screen plate, 33_ drain plug, 34_ first sliding frame, 35_ first return spring, 36_ water suction plate, 4_ switching control assembly, 41_ limit rod, 42_ motor, 421_ rocker arm, 422_ sliding slotted support frame, 43_ first limit plate, 44_ second limit plate, 45_ third limit plate, 46_ first slotted push frame, 47_ compression spring, 48_ slotted slider, 49_ second return spring, 410_ sliding wedge bracket, 411_ sliding limit frame, 5_ open-close assembly, 51_ second slotted push frame, 52_ first support frame, 53_ swing frame, 54_ support rod, 55_ scroll spring, 56_ shielding soft plate, 57_ second sliding frame, 58_ slotted push frame, 59_ connection rod, 6_ heat-dissipation control assembly, 61_ sliding push frame, 62_ third return spring, 63_ first spur gear, 64_ second spur gear, 65_ third spur gear, 7_ heat dissipation assembly, 71_ second support frame, 72_ third support frame, 73_ first bevel gear, 74_ first drive plate, 75_ second bevel gear, 76_ fan blade frame, 77_ second drive plate.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example 1

A waterproof and high-temperature-resistant oil rig power grid device is shown in figures 1-10 and comprises a supporting base 1, a supporting frame 2, a collecting assembly 3, a switching control assembly 4 and an opening and closing assembly 5, wherein the supporting frame 2 is connected to the top of the supporting base 1, the collecting assembly 3 is arranged on the supporting frame 2, the switching control assembly 4 is arranged on the supporting base 1, the opening and closing assembly 5 is arranged on the supporting frame 2, and the opening and closing assembly 5 is used for preventing rainwater from entering the interior of equipment.

The collecting component 3 comprises a sand-proof screen frame 31, a sand-proof screen plate 32, a water drain plug 33, a first sliding frame 34, a first reset spring 35 and a water suction plate 36, the top of the supporting frame 2 is connected with the sand-proof screen frame 31, the sand-proof screen plate 32 is symmetrically connected between the supporting base 1 and the supporting frame 2 together, external sand and dust can be prevented from falling into the equipment through the sand-proof screen plate 32, the water drain plug 33 is sleeved on one side of the sand-proof screen frame 31, the first sliding frame 34 is connected with the supporting frame 2 in a sliding mode, the first sliding frame 34 is connected with the sand-proof screen frame 31 in a sliding mode, the first reset spring 35 is symmetrically connected between the first sliding frame 34 and the supporting frame 2 and used for driving the first sliding frame 34 to reset, the water suction plate 36 is symmetrically connected to the upper portion of the supporting frame 2, water vapor in the air can be blocked through the water suction plate 36, and the water suction plate 36 is connected with the sand-proof screen plate 32.

The switching control component 4 comprises a limiting rod 41, a motor 42, a rocker arm 421, a sliding slotted support frame 422, a first limiting plate 43, a second limiting plate 44, a third limiting plate 45, a first slotted push frame 46, a compression spring 47, a slotted slider 48, a second reset spring 49, a sliding wedge-shaped clamping frame 410 and a sliding limiting frame 411, wherein the limiting rod 41 is connected to the first sliding frame 34, the limiting rod 41 is used for extruding the slotted slider 48 to move towards the direction close to the sliding slotted support frame 422, the motor 42 is installed on the support base 1 and is used for driving the rocker arm 421 to rotate through an output shaft, one end of the output shaft of the motor 42 is connected with the rocker arm 421, the sliding slotted support frame 422 is connected to the top of the support base 1 in a sliding manner, the sliding slotted support frame 422 and an upper device thereof can reciprocate through the matching of the rocker arm 421 and the sliding slotted support frame 422 are in limiting matching with the rocker arm 421, one side of the sliding slotted support frame 422 is connected with a first limit plate 43, one side of the sliding slotted support frame 422 is connected with a second limit plate 44, one side of the sliding slotted support frame 422 is connected with a third limit plate 45, the sliding slotted support frame 422 is connected with a first slotted push frame 46 in a sliding way, a compression spring 47 is connected between the first slotted push frame 46 and the sliding slotted support frame 422, a slotted slide block 48 is connected between the second limit plate 44 and the third limit plate 45 in a sliding way, a second return spring 49 is connected between the slotted slide block 48 and the sliding slotted support frame 422, a sliding wedge-shaped clamping frame 410 is connected on the second limit plate 44 in a sliding way, the sliding wedge-shaped clamping frame 410 is used for limiting the first slotted push frame 46, the sliding wedge-shaped clamping frame 410 is matched with the slotted slide block 48 in a sliding way, the sliding wedge-shaped clamping frame 410 is contacted with the first slotted push frame 46, and the other side of the sliding slotted support frame 422 is connected with a sliding limit frame 411 in a sliding way, the sliding limiting frame 411 is in limiting fit with the first slotted pushing frame 46.

The opening and closing component 5 comprises a second slotted push frame 51, a first support frame 52, a swing frame 53, a support rod 54, a scroll spring 55, a shielding soft plate 56, a second sliding frame 57, a slotted push frame 58 and a connecting rod 59, wherein the second slotted push frame 51 is connected on a sliding limit frame 411 in a sliding way, the second slotted push frame 51 is used for driving the swing frame 53 to swing, the first support frame 52 is connected on the inner wall of the support frame 2, the swing frame 53 is connected on the first support frame 52 in a rotating way, the slotted push frame 58 and the upper device thereof can move upwards under the action of the swing frame 53, the swing frame 53 is in limit fit with the second slotted push frame 51, the support rod 54 is symmetrically connected on the lower part of the support frame 2, the scroll spring 55 is connected on the support rod 54, the shielding soft plate 56 is connected on the other end of the scroll spring 55, the shielding soft plate 56 is used for preventing rainwater from entering the inside of the device, the shielding soft plate 56 winds on the support rod 54, the shielding soft plate 56 is contacted with the sand-proof screen plate 32, one end of the shielding soft plate 56 is connected with a second sliding frame 57, the second sliding frame 57 is in sliding fit with the supporting frame 2, one second sliding frame 57 is connected with a slotting pushing frame 58, the slotting pushing frame 58 is connected with one shielding soft plate 56, the slotting pushing frame 58 is in limit fit with the swinging frame 53, a connecting rod 59 is connected between the two second sliding frames 57 together, one second sliding frame 57 can drive the other second sliding frame 57 and the device thereon to move upwards through the connecting rod 59, and the connecting rod 59 is connected with the shielding soft plate 56.

Inside net electric drill that is equipped with of equipment, if not rainy, the inside net electric drill normal operating of equipment, through sand prevention otter board 32, can prevent that external sand and dust from falling into inside the equipment, can also increase the inside circulation of air speed of equipment simultaneously, if rainy, the rainwater can fall to first carriage 34 on, first carriage 34 and the device thereupon can be downstream under the effect of gravity, first reset spring 35 can be compressed thereupon.

When rainy weather needs to protect the network electric drilling machine in the equipment, the motor 42 is manually controlled to be started, the motor 42 is started to drive the rocker arm 421 to rotate through the output shaft, the sliding slotted support frame 422 and the device on the sliding slotted support frame 422 can reciprocate through the matching of the rocker arm 421 and the sliding slotted support frame 422, the slotted slider 48 can be contacted with the limiting rod 41 in the process of the movement of the sliding slotted support frame 422 and the device on the sliding slotted support frame 422, the limiting rod 41 can extrude the slotted slider 48 to move towards the direction close to the sliding slotted support frame 422, the second return spring 49 can be compressed accordingly, the sliding wedge-shaped clamping frame 410 can move upwards under the action of the slotted slider 48, so that the sliding wedge-shaped clamping frame 410 can not limit the first slotted pushing frame 46 any more, the compressed compression spring 47 can recover accordingly, the first slotted pushing frame 46 can move, the first slotted pushing frame 46 can drive the sliding limiting frame 411 and the device on the sliding wedge-shaped clamping frame to move downwards, the second slotted pushing frame 51 will drive the swinging frame 53 to swing, under the action of the swinging frame 53, the slotted pushing frame 58 and the device thereon will move upward, wherein one second sliding frame 57 will drive the other second sliding frame 57 and the device thereon to move upward through the connecting rod 59, and the volute spiral spring 55 will be stretched accordingly, so that the two shielding soft plates 56 will shield the sand-proof screen 32, thereby preventing the rainwater from entering the inside of the device.

In the process of resetting the sliding slotted support frame 422 and the devices thereon, the slotted slider 48 will be separated from the limiting rod 41, the slotted slider 48 will be reset under the reset action of the second reset spring 49, and the sliding wedge-shaped clamp frame 410 will be reset upwards.

If it is no longer raining, the two shielding soft plates 56 need to be retracted, so that the air circulation speed inside the device can be increased, the drain plug 33 is manually taken out, so that the water inside the sand-proof screen frame 31 can be drained, after the water is drained, the drain plug 33 is manually replaced, the first sliding frame 34 and the device thereon can be reset under the resetting action of the first reset spring 35, during the movement of the sliding slotted support frame 422 and the device thereon, the limiting rod 41 can be in contact with the first slotted push frame 46, the limiting rod 41 can push the first slotted push frame 46 to be reset, the compression spring 47 can be compressed therewith, during the movement, the first slotted push frame 46 can push the sliding wedge-shaped clamping frame 410 to move downwards, the sliding wedge-shaped clamping frame 410 can drive the slotted slide block 48 to move towards the direction close to the sliding slotted support frame 422, the second reset spring 49 can be compressed, and then the first slotted push frame 46 can be in contact with the other side of the sliding wedge-shaped clamping frame 410, the slotted slider 48 is reset along with the reset of the second reset spring 49, and the slotted slider 48 drives the sliding wedge-shaped clamp frame 410 to reset, so that the sliding wedge-shaped clamp frame 410 restricts the first slotted push frame 46 again.

When the first slot pushing frame 46 is reset, the sliding limiting frame 411 and the device thereon are reset successively, and the spiral spring 55 is reset accordingly, so that the shielding soft plate 56 does not block the sand-proof screen plate 32 any more, thereby being beneficial to increasing the air circulation speed inside the equipment.

Example 2

On the basis of embodiment 1, as shown in fig. 9 to 10, the heat dissipation control assembly 6 is further included, the heat dissipation control assembly 6 is disposed on the support base 1, the heat dissipation control assembly 6 includes a sliding push frame 61, a third return spring 62, a first spur gear 63, a second spur gear 64, and a third spur gear 65, the support base 1 is slidably connected with the sliding push frame 61, the third return spring 62 is connected between the sliding push frame 61 and the support base 1, the third return spring 62 is used for driving the sliding push frame 61 and the device thereon to return, the sliding push frame 61 is rotatably connected with the first spur gear 63, the first spur gear 63 is used for driving the third spur gear 65 and the device thereon to rotate, the second spur gear 64 is connected to an output shaft of the motor 42, and the third spur gear 65 is rotatably connected to the support base 1.

The air conditioner further comprises a heat dissipation assembly 7, the heat dissipation assembly 7 is arranged on the support frame 2, the heat dissipation assembly 7 is used for increasing the air circulation speed inside the equipment, the heat dissipation assembly 7 comprises a second support frame 71, a third support frame 72, a first bevel gear 73, a first transmission plate 74, a second bevel gear 75, a fan blade frame 76 and a second transmission plate 77, the second support frame 71 is connected to the inner top of the support frame 2, the third support frame 72 is connected to the inner top of the support frame 2, the first bevel gear 73 is rotatably connected to the second support frame 71, the first bevel gear 73 is used for driving the second bevel gear 75 and the device thereon to rotate, the first bevel gear 73 is rotatably connected to the first transmission plate 74, under the action of the first transmission plate 74, the first bevel gear 73 can rotate, the other end of the first transmission plate 74 is rotatably connected to the third bevel gear 65, the second support frame 71 is rotatably connected to the second bevel gear 75, the second bevel gear 75 is meshed with the first bevel gear 73, the third support frame 72 is connected with three fan blade frames 76 in a distributed rotating mode, the air circulation speed inside the equipment can be increased through rotation of the fan blade frames 76, one fan blade frame 76 is connected with the second bevel gear 75, the three fan blade frames 76 are connected with second transmission plates 77 in a rotating mode, and under the action of the second transmission plates 77, the other fan blade frames 76 can be driven to rotate by one fan blade frame 76.

In the process of downward movement of the second slotted push frame 51, the second slotted push frame 51 pushes the sliding push frame 61 and the upper device thereof to move downward, the third return spring 62 is compressed, so that the first spur gear 63 is engaged with the third spur gear 65 and the second spur gear 64, the motor 42 is started to drive the second spur gear 64 to rotate through the output shaft, the second spur gear 64 can drive the third spur gear 65 and the upper device thereof to rotate through the first spur gear 63, the first bevel gear 73 rotates under the action of the first transmission plate 74, the first bevel gear 73 drives the second bevel gear 75 and the upper device thereof to rotate, one of the fan blade frames 76 drives the other fan blade frames 76 to rotate under the action of the second transmission plate 77, and because the shielding soft plate 56 shields the sand-proof screen plate 32 at this time, the air circulation speed inside the device can be reduced, and through the rotation of the fan blade frames 76, the air circulation speed inside the device can be increased, and simultaneously, because the air is wet in rain, the water vapor in the air can be blocked through the water absorption plate 36.

In the process of resetting the second slotted push frame 51, the sliding push frame 61 and the devices thereon will reset under the resetting action of the third reset spring 62, so that the first spur gear 63 is separated from the third spur gear 65 and the second spur gear 64, and the fan blade frame 76 will stop rotating.

Finally, the motor 42 is manually controlled to stop operating, and the operation is repeated, so that the equipment can play a role of preventing water and high temperature again.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Claims

1. The utility model provides a waterproof high temperature resistant oil-well rig net electric installation which characterized in that: the automatic switching device comprises a supporting base, a supporting frame, a collecting assembly, a switching control assembly and an opening and closing assembly, wherein the supporting frame is connected to the top of the supporting base, the collecting assembly is arranged on the supporting frame, the switching control assembly is arranged on the supporting base, and the opening and closing assembly is arranged on the supporting frame.

2. The water-proof high-temperature-proof oil rig power grid device according to claim 1, characterized in that: the collecting assembly comprises a sand-proof screen frame, a sand-proof screen plate, a water drain plug, a first sliding frame, a first reset spring and a water absorbing plate, the sand-proof screen frame is connected to the top of the supporting frame, the sand-proof screen plate is symmetrically connected between the supporting base and the supporting frame, the water drain plug is sleeved on one side of the sand-proof screen frame, the first sliding frame is connected to the supporting frame in a sliding mode, the first sliding frame is connected to the sand-proof screen frame in a sliding mode, the first reset spring is symmetrically connected between the first sliding frame and the supporting frame, the water absorbing plate is symmetrically connected to the upper portion of the supporting frame, and the water absorbing plate is connected to the sand-proof screen plate.

3. The water-proof high-temperature-proof oil rig power grid device according to claim 2, characterized in that: the switching control component comprises a limiting rod, a motor, a rocker arm, a sliding slotting support frame, a first limiting plate, a second limiting plate, a third limiting plate, a first slotting push frame, a compression spring, a slotting slider, a second reset spring, a sliding wedge-shaped clamping frame and a sliding limiting frame, wherein the limiting rod is connected to the first sliding frame, the motor is installed on a support base, one end of an output shaft of the motor is connected with the rocker arm, the top of the support base is connected with the sliding slotting support frame in a sliding mode, the sliding slotting support frame is in limiting fit with the rocker arm, one side of the sliding slotting support frame is connected with the first limiting plate, one side of the sliding slotting support frame is connected with the second limiting plate, one side of the sliding slotting support frame is connected with the third limiting plate, the sliding slotting push frame is connected to the sliding slotting support frame in a sliding mode, the compression spring is connected between the first slotting push frame and the sliding slotting support frame, and the slotting slider is connected between the second limiting plate and the third limiting plate, a second reset spring is connected between the grooving sliding block and the sliding grooving supporting frame, a sliding wedge-shaped clamping frame is connected to the second limiting plate in a sliding mode, the sliding wedge-shaped clamping frame is matched with the grooving sliding block in a sliding mode, the sliding wedge-shaped clamping frame is in contact with the first grooving pushing frame, a sliding limiting frame is connected to the other side of the sliding grooving supporting frame in a sliding mode, and the sliding limiting frame is matched with the first grooving pushing frame in a limiting mode.

4. The water-proof high-temperature-proof oil rig power grid device according to claim 3, characterized in that: the opening and closing assembly comprises a second slotting push frame, a first support frame, a swing frame, a support rod, a scroll spring, a shielding soft plate, a second sliding frame, a slotting push frame and a connecting rod, wherein the sliding limiting frame is connected with the second slotting push frame in a sliding way, the inner wall of the support frame is connected with the first support frame, the first support frame is connected with the swing frame in a rotating way, the swing frame is in limit fit with the second slotting push frame, the lower part of the support frame is symmetrically connected with the support rod, the scroll spring is connected with the support rod, the shielding soft plate is connected with the other end of the scroll spring, the shielding soft plate is wound on the support rod and is in contact with the sand-proof screen plate, one end of the shielding soft plate is connected with the second sliding frame, the second sliding frame is in sliding fit with the support frame, one of the second sliding frame is connected with the slotting push frame, the slotting push frame is connected with one of the shielding soft plate, and the slotting push frame is in limit fit with the swing frame, a connecting rod is connected between the two second sliding frames and is connected with the shielding soft plate.

5. The water-proof high-temperature-proof oil rig power grid device according to claim 4, characterized in that: still including heat dissipation control assembly, heat dissipation control assembly locates on supporting the base, heat dissipation control assembly pushes away the frame including sliding, third reset spring, first straight-tooth gear, second straight-tooth gear and third straight-tooth gear, support the sliding connection on the base and push away the frame, the sliding pushes away and is connected with the sliding and pushes away the frame with supporting and is connected with third reset spring between the base, the last rotation type of sliding pushes away the frame and is connected with first straight-tooth gear, the hookup has the second straight-tooth gear on the motor output shaft, the last rotation type of supporting the base is connected with the third straight-tooth gear.

6. The water-proof high-temperature-proof oil rig power grid device according to claim 5, characterized in that: still including radiator unit, radiator unit locates on the carriage, radiator unit is including the second support frame, the third support frame, first bevel gear, first drive plate, second bevel gear, flabellum frame and second drive plate, the top hookup has the second support frame in the carriage, the top hookup has the third support frame in the carriage, the last rotation type of second support frame is connected with first bevel gear, the rotation type is connected with first drive plate on the first bevel gear, the first drive plate other end is connected with third straight gear rotary type, the rotation type is connected with second bevel gear on the second support frame, second bevel gear and first bevel gear meshing, the rotation type that distributes on the third support frame is connected with three flabellum frames, one of them flabellum frame and second bevel gear hookup, common rotation type is connected with the second drive plate between the three flabellum frames.