CN212084320U - Compact oil-well rig electrical control room - Google Patents

Abstract

The utility model discloses a compact oil rig electrical control room, which structurally comprises a base, a machine body, an inspection door, a calling machine and a control console, wherein the base is welded with the machine body; the organism includes the shell, alarm device, radiator-grid, circuit board, dodge gate, carbon dioxide fire extinguisher, extrusion device, and alarm device inlays admittedly at the shell top, and the radiator-grid is installed at the shell top, and the circuit board is installed in the shell, dodge gate and shell activity block, the utility model discloses can independently monitor the inside temperature of organism, at first report to the police when the organism temperature is a little higher, suggestion worker high temperature on every side need cool down, if the temperature lasts to rise, then can use the carbon dioxide fire extinguisher automatically to cool down, prevents that the high temperature from making electronic component malfunctioning or conflagration emergence.

Description

Compact oil-well rig electrical control room

Technical Field

The utility model relates to a petroleum field, specificly a compact oil-well rig electrical control room.

Background

In the oil drilling, a drilling tool is driven to crush rock and drill underground, a well bore with a specified depth is drilled, and an oil extraction machine or a gas extraction machine is supplied to obtain oil or natural gas. A common petroleum drilling machine mainly comprises eight parts, namely a power machine, a transmission machine, a working machine, auxiliary equipment and the like.

The running precision of the electrical control room is required to be kept all the time when oil is mined, the environment for petroleum mining is various, internal electronic elements are easily caused to bear overhigh temperature under the high-temperature environment, the reaction is slow, even the short-circuit combustion condition occurs, and potential safety hazards are brought to petroleum mining.

SUMMERY OF THE UTILITY MODEL

To the problem, the utility model provides a compact oil-well rig electrical control room.

In order to achieve the above purpose, the present invention is realized by the following technical solution: a compact type oil rig electric control room structurally comprises a base, a machine body, an inspection door, a calling machine and a control console, wherein the base is welded with the machine body; the organism includes shell, alarm device, radiator-grid, circuit board, dodge gate, carbon dioxide fire extinguisher, extrusion device, alarm device inlays admittedly at the shell top, the radiator-grid is installed at the shell top, the circuit board is installed in the shell, dodge gate and shell activity block, carbon dioxide fire extinguisher and shell threaded connection, extrusion device is installed in the shell, alarm device is connected with the circuit board electricity, extrusion device is connected with the circuit board electricity.

Further, alarm device includes equipment shell, alarm cable, heat absorption cover, alarm resistor, electromagnetic cable, warning magnet, lamp cable, electroacoustic cable, alarm switch, alarm, emitting diode, alarm cable and equipment shell are connected admittedly, heat absorption cover and equipment shell are connected admittedly, alarm resistor installs in heat absorption cover, alarm cable passes through alarm resistor and lamp cable connection, lamp cable passes through electromagnetic cable and is connected with alarm magnet, electroacoustic cable and lamp cable one-tenth integrated into one piece, electroacoustic cable passes through alarm switch and is connected with the alarm, lamp cable and emitting diode electricity are connected, emitting diode inlays admittedly in equipment shell.

Furthermore, the extrusion device includes device shell, extrusion cable, heat conduction shell, extrusion resistance, hinders magnetic cable, electro-magnet, ignition cable, ignition switch, spark plug, separation storehouse, piston, roof, the extrusion cable is connected with device shell is set in firm, heat conduction shell and device shell welded connection, the extrusion cable passes through extrusion resistance and is connected with the magnetism resistance cable, it is connected with the electro-magnet is set in firm to hinder magnetic cable, the extrusion cable passes through ignition switch and ignition cable and is connected, the spark plug is connected with ignition cable electricity, the separation storehouse is installed in device shell, separation storehouse and piston transition fit, the piston is set in firm with the roof and is connected.

Furthermore, the alarm resistor is a negative temperature coefficient thermistor, and the higher the temperature is, the lower the resistor is.

Furthermore, the magnetism of the alarm magnet is the same as that of the alarm switch after the alarm magnet is electrified.

Furthermore, the extrusion resistor adopts a positive temperature coefficient thermistor, and the higher the temperature is, the higher the resistance is.

Furthermore, the extrusion resistor is opposite to the magnetism of the ignition switch after being electrified.

Advantageous effects

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model discloses can independently monitor the inside temperature of organism, at first report to the police when the organism temperature is a little higher, the worker high temperature around the suggestion needs the cooling, if the temperature lasts to rise, then can use the carbon dioxide fire extinguisher automatically to cool down, prevents that the high temperature from making electronic component malfunctioning or conflagration emergence.

Drawings

Fig. 1 is the utility model relates to a compact oil-well rig electrical control room's schematic structure.

Fig. 2 is a schematic structural diagram of the machine body of the present invention.

Fig. 3 is a schematic structural diagram of the alarm device of the present invention.

Fig. 4 is a schematic structural diagram of the extruding device of the present invention.

In the figure: base-1, machine body-2, inspection door-3, calling machine-4, console-5, shell-A, alarm equipment-B, radiator-C, circuit board-D, movable door-E, carbon dioxide fire extinguisher-F, extrusion device-G, equipment shell-B1, alarm cable-B2, heat-absorbing cover-B3, alarm resistor-B4, electromagnetic cable-B5, alarm magnet-B6, electric lamp cable-B7, electroacoustic cable-B8, alarm switch-B9, alarm-B10, light-emitting diode-B11, equipment shell-G1, extrusion cable-G2, heat-conducting shell-G3, extrusion resistor-G4, magnetic-blocking cable-G5, electromagnet-G6, ignition cable-G7, An ignition switch-G8, a spark plug-G9, an isolation chamber-G10, a piston-G11 and a top plate-G12.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some embodiments, not all embodiments, and all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Examples

As shown in fig. 1-4, the utility model provides a compact oil-well rig electrical control room, its structure includes base 1, organism 2, inspection door 3, calling machine 4, control cabinet 5, base 1 and organism 2 welded connection, inspection door 3 and organism 2 hinged connection, calling machine 4 installs on organism 2, control cabinet 5 and organism 2 build in the solid connection; organism 2 includes shell A, alarm device B, radiator-grid C, circuit board D, dodge gate E, carbon dioxide fire extinguisher F, extrusion device G, alarm device B inlays admittedly at shell A top, radiator-grid C installs at shell A top, circuit board D installs in shell A, dodge gate E and shell A activity block, carbon dioxide fire extinguisher F and shell A threaded connection, extrusion device G installs in shell A, alarm device B is connected with circuit board D electricity, extrusion device G is connected with circuit board D electricity, alarm device B includes equipment shell B1, alarm cable B2, heat absorption cover B3, alarm resistance B4, electromagnetic cable B5, warning magnet B6, electric light cable B7, electroacoustic cable B8, alarm switch B9, alarm B10, emitting diode B11, alarm cable B2 inlays admittedly with equipment shell B1 and is connected, the heat absorption cover B3 is fixedly connected with an equipment shell B3, the alarm resistor B3 is installed in the heat absorption cover, the alarm cable B3 is connected with an electric lamp cable B3 through the alarm resistor B3, the electric lamp cable B3 is connected with an alarm magnet B3 through an electromagnetic cable B3, the electroacoustic cable B3 and the electric lamp cable B3 are integrally formed, the electroacoustic cable B3 is connected with the alarm B10 through an alarm switch B3, the electric lamp cable B3 is electrically connected with a light emitting diode B3, the light emitting diode B3 is fixedly embedded in the equipment shell B3, the extrusion device G comprises a device shell G3, an extrusion cable G3, a heat conduction shell G3, an extrusion resistor G3, a magnetic resistance cable G3, an electromagnet G3, an ignition cable G3, an ignition switch G3, a spark plug G3, a cabin 3, a piston G3 and a top plate G3, the extrusion cable G3 is connected with the device shell G3, and the insulation device is connected with the heat conduction shell 3 in a welding way, the extrusion cable G2 is connected with a magnetic resistance cable G5 through an extrusion resistor G4, the magnetic resistance cable G5 is fixedly connected with an electromagnet G6, the extrusion cable G2 is connected with an ignition cable G7 through an ignition switch G8, a spark plug G9 is electrically connected with the ignition cable G7, a separation cabin G10 is installed in a device shell G1, a separation cabin G10 is in transition fit with a piston G11, a piston G11 is fixedly connected with a top plate G12, the alarm resistor B4 adopts a negative temperature coefficient thermistor, the higher the temperature of the resistor is, the lower the temperature of the resistor is, the same as the magnetism of the alarm switch B9 after the alarm magnet B6 is electrified, the higher the temperature of the extrusion resistor G4 adopts a positive temperature coefficient thermistor, and the higher the temperature of the resistor is, the opposite to the magnetism of the ignition switch G8 after the extrusion resistor G4 is electrified.

The working principle of the present invention is explained as follows: when the control room is operated, a control console 5 is used for controlling, in a high-temperature environment, heat generated by a circuit board D is added, the heat is accumulated, the temperature in the machine body 2 is gradually increased, the temperature is absorbed by a heat absorption cover B3 of alarm equipment B at the moment of changing the temperature and is transmitted to an alarm resistor B4, the resistance of the alarm resistor B4 is continuously reduced, when the temperature is high to a certain degree, the resistance of the alarm resistor B4 is reduced to a certain degree, the current transmitted to an alarm magnet B6 is greatly increased, a falling alarm switch B9 is pushed upwards, an electroacoustic cable B8 is led to be communicated, the alarm B10 gives out sound, a light emitting diode B11 emits lights with different colors to play a warning role, if the temperature is not treated by a person after the warning, when the temperature continuously rises to reach dangerous temperature, an extrusion device G starts to operate, a heat conduction shell G3 in the extrusion device G transmits the temperature to an extrusion resistor G4, the resistance of the extrusion resistor G4 becomes high, so that the current sent to the electromagnet G6 is reduced, the ignition switch G8 cannot be absorbed, the ignition switch G8 is communicated with the extrusion cable G2 and the ignition cable G7, an electric spark is generated by a spark plug G9, the gas in the isolation bin G10 is ignited, the gas is combusted to generate thrust, huge extrusion force is generated, the piston G11 is pushed upwards, meanwhile, the top plate G12 is driven, the top plate G12 moves upwards to extrude the handle of the carbon dioxide fire extinguisher F, a large amount of solid carbon dioxide is sprayed out, the carbon dioxide is sublimated around the circuit board D, a large amount of heat is absorbed, the temperature of the carbon dioxide fire extinguisher F is greatly reduced, and the temperature is.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (3)

1. The utility model provides a compact oil-well rig electrical control room, its structure includes base (1), organism (2), inspection door (3), calling machine (4), control cabinet (5), its characterized in that:

the base (1) is connected with the machine body (2) in a welding mode, the inspection door (3) is connected with the machine body (2) in a hinged mode, the calling machine (4) is installed on the machine body (2), and the control console (5) is fixedly connected with the machine body (2) in an embedded mode;

organism (2) include shell (A), alarm device (B), radiator-grid (C), circuit board (D), dodge gate (E), carbon dioxide fire extinguisher (F), extrusion device (G), alarm device (B) is embedded at shell (A) top, radiator-grid (C) is installed at shell (A) top, circuit board (D) is installed in shell (A), dodge gate (E) and shell (A) activity block, carbon dioxide fire extinguisher (F) and shell (A) threaded connection, extrusion device (G) is installed in shell (A), alarm device (B) is connected with circuit board (D) electricity, extrusion device (G) is connected with circuit board (D) electricity.

2. The compact oil rig electrical control room of claim 1, wherein: the alarm device (B) comprises a device shell (B1), an alarm cable (B2), a heat absorption cover (B3), an alarm resistor (B4), an electromagnetic cable (B5), an alarm magnet (B6), an electric lamp cable (B7), an electroacoustic cable (B8), an alarm switch (B9), an alarm (B10) and a light emitting diode (B11), wherein the alarm cable (B2) is fixedly connected with the device shell (B1), the heat absorption cover (B3) is fixedly connected with the device shell (B1), the alarm resistor (B4) is installed in the heat absorption cover, the alarm cable (B2) is connected with the electric lamp cable (B7) through the alarm resistor (B4), the electric lamp cable (B7) is connected with the alarm magnet (B6) through the electromagnetic cable (B5), the electric lamp cable (B8) and the electric lamp cable (B7) are integrated, and the electric lamp cable (B8) is connected with the alarm magnet (B10) through the electroacoustic switch (B9), the electric lamp cable (B7) is electrically connected with a light emitting diode (B11), and the light emitting diode (B11) is embedded in the equipment shell (B1).

3. The compact oil rig electrical control room of claim 1, wherein: the extrusion device (G) comprises a device shell (G1), an extrusion cable (G2), a heat-conducting shell (G3), an extrusion resistor (G4), a magnetic resistance cable (G5), an electromagnet (G6), an ignition cable (G7), an ignition switch (G8), a spark plug (G9), an isolation bin (G10), a piston (G11) and a top plate (G12), wherein the extrusion cable (G2) is fixedly connected with the device shell (G1), the heat-conducting shell (G3) is connected with the device shell (G1) in a welding way, the extrusion cable (G1) is connected with the magnetic resistance cable (G1) through the extrusion resistor (G1), the magnetic resistance cable (G1) is fixedly connected with the electromagnet (G1), the extrusion cable (G1) is connected with the ignition cable (G1) through the ignition switch (G1), the spark plug (G1) is electrically connected with the ignition cable (G1), and the isolation bin (G1) is installed in the device shell (1), the separation cabin (G10) is in transition fit with a piston (G11), and the piston (G11) is fixedly connected with a top plate (G12).

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