CN219559645U - Energy-saving environment-friendly high-temperature high-pressure test device - Google Patents

Abstract

The utility model provides an energy-concerving and environment-protective type high temperature high pressure test device, support upper end left side is equipped with the oil tank of heat preservation seal type, support upper end right side is equipped with the oil smoke filter through leading tobacco pipe and the inside intercommunication of oil tank upper end, the oil tank below is equipped with the heating device who is used for carrying out the heat conduction heating to the conduction oil of oil tank inside, heating device installs on the support through highly adjustable strutting arrangement, heating device, oil smoke filter and locate on the oil tank and be used for carrying out measuring temperature measuring device to its inside conduction oil all with electrical control cabinet, the rubber cylinder test frock that is equipped with the rubber cylinder is placed in the oil tank, and be located the outside supercharging device of oil tank and pass through the transfer tube and the rubber cylinder test frock intercommunication of sealing installation on the oil tank. The utility model can effectively avoid the leakage of the heat conduction oil to pollute the environment, eliminates the influence of impurity sediment formed in the long-time use process of the heat conduction oil on the heating device, and eliminates the pollution of the traditional non-sealing oil tank to the environment.

Description

Energy-saving environment-friendly high-temperature high-pressure test device

Technical Field

The utility model belongs to the technical field of test devices, and particularly relates to an energy-saving environment-friendly high-temperature high-pressure test device.

Background

At present, along with the gradual deepening of the underground petroleum exploration depth, the use requirements on underground tools are gradually improved, particularly the performance requirements on a packer, but the performance index of the packer mainly judges whether the performance index of a rubber cylinder and a high-temperature-resistant O-shaped ring arranged on the packer can meet the use conditions of high temperature and high pressure; in order to ensure the service performance of the packer, the rubber cylinder and the high-temperature-resistant O-shaped ring are required to be subjected to high-temperature and high-pressure test before entering the well, the oil tank of the conventional rubber cylinder high-temperature and high-pressure test device is formed by welding steel plates, a heating system is used for immersing a heating pipe in heat conduction oil of the oil tank to heat the heat conduction oil, and the following defects exist in the mode: (1) the welded oil tank has the risk of leakage of welding seams in the long-time heating process, and leaked heat conduction oil can pollute the environment and damage an oil tank heat insulation layer; (2) impurity deposits can be formed in the long-time use process of the heat conducting oil, and as the heating pipe is immersed in the heat conducting oil, the impurity deposits can be attached to the heating pipe to increase the load of the heating pipe so as to burn out the heating pipe; (3) the oil tank port is not sealed, and the heat conduction oil can form oil steam to be discharged into the air after being heated so as to pollute the environment; accordingly, an improvement is required for the above problems.

Disclosure of Invention

The utility model solves the technical problems that: the utility model provides an energy-concerving and environment-protective type high temperature high pressure test device adopts the sealed oil tank of heat preservation, can effectively avoid the seepage of conduction oil and pollute the environment to the heating device that is fixed in on the support through highly adjustable strutting arrangement carries out the heat conduction heating to the inside conduction oil of oil tank, has eliminated the influence of the impurity deposit that the conduction oil formed in long-time use to heating device, and is discharged after leading into the oil smoke filter with the oil smoke in the oil tank by leading the tobacco pipe into filtering, eliminates the pollution of traditional no seal oil tank to the environment, simple structure, novel conception, reasonable in design, green, safe and reliable.

The utility model adopts the technical scheme that: the utility model provides an energy-concerving and environment-protective type high temperature high pressure test device, includes the support, support upper end left side is equipped with the sealed oil tank that keeps warm, and support upper end right side is equipped with the oil smoke filter through leading tobacco pipe and the inside intercommunication of oil tank upper end, the oil smoke in the oil tank is led out from the outlet flue on oil smoke filter upper portion in leading tobacco pipe leading-in oil smoke filter and filtering the back through oil smoke filter, the oil tank below is equipped with the heating device that is used for carrying out the heat conduction heating to the conduction oil of oil tank inside, and heating device installs on the support through highly adjustable strutting arrangement, heating device, oil smoke filter and be used for carrying out measuring temperature measuring device to its inside conduction oil all with electrical control cabinet on locating the oil tank, be equipped with the rubber tube test fixture of rubber tube and place in the oil tank, and be located the outside supercharging device of oil tank and pass through seal installation and pass through the pressure transmission pipe and the rubber tube test fixture intercommunication on the oil tank.

Wherein, heating device is resistance heating furnace.

Further, the height-adjustable supporting device comprises a supporting plate, a lifting screw and a T-shaped screw sleeve, wherein the upper end of the lifting screw is fixed in the middle of the bottom surface of the supporting plate, the resistance heating furnace is detachably fixed on the supporting plate, a positioning sleeve is fixed on a bottom cover of the support, the T-shaped screw sleeve with a small diameter section being in clearance fit in the positioning sleeve is in threaded connection with the lower end of the lifting screw, a handle is fixed on the outer wall of a large diameter section of the T-shaped screw sleeve, and the lifting screw is enabled to ascend or descend by rotating the T-shaped screw sleeve through the handle.

Further, the temperature measuring device comprises a plurality of thermocouples which are distributed up and down, the thermocouple is fixed on the side wall of the oil tank in a threaded manner, and a temperature measuring contact of the thermocouple is positioned in the oil tank.

Further, the output end of the thermocouple is connected with a temperature controller arranged in the electrical control cabinet.

Further, the supercharging device comprises a booster pump and an energy accumulator, wherein a pressure inlet of the energy accumulator is communicated with the booster pump, and a plurality of air outlets of the energy accumulator are respectively communicated with each test hole of the rubber cylinder in the oil tank through pressure transmission pipes.

Further, the energy accumulator is provided with a pressure sensor connected with a computer.

Further, the oil tank comprises a cylinder pipe wall, a flange cover connected to an upper port of the cylinder pipe wall in a sealing manner and a cylinder bottom plate fixedly connected to a lower end of the cylinder pipe wall in a sealing manner, wherein the cylinder bottom plate is fixedly connected to the inside of the lower end of the cylinder pipe wall in a threaded manner, the cylinder bottom plate is welded and fixed to the cylinder pipe wall after being sealed by a high-temperature-resistant metal sealing ring and the lower end wall of the cylinder pipe wall, a through hole is formed in the middle of an upper plate surface of the flange cover, a through hole is formed in a pressure transmitting disc fixed to the flange cover after being sealed by bolts, a plurality of pressure transmitting pipes connected with the pressurizing device penetrate through threaded holes in the pressure transmitting disc, a pressure cap sleeve arranged on the pressure transmitting pipes is fixedly connected with threaded holes in the pressure transmitting disc in a threaded manner, one circle of heat insulation cotton used for conducting oil in the inside is wound on the outer wall of the cylinder pipe wall, an oil discharging port is formed in the outer wall of the lower end of the cylinder pipe wall, and the oil discharging port is plugged by a plug, and an observation window which is convenient for observing internal test conditions is formed in the outer wall of the cylinder pipe wall.

Further, a plurality of supporting legs are fixed on the upper end face of the bottom plate of the cylinder, the upper ends of the supporting legs are fixedly connected with the bottom face of the supporting plate provided with a plurality of holes on the plate face, and a rubber cylinder test tool provided with a rubber cylinder is placed on the supporting plate.

Further, be equipped with a plurality of universal wheels around the support bottom, the outside rivet welding of support is fixed with the backplate, and the backplate that the support left side is located the oil tank periphery surrounds the oil tank heat preservation position in its inside.

Compared with the prior art, the utility model has the advantages that:

1. according to the technical scheme, the heat-insulating sealed oil tank is adopted, namely, the tube wall is formed by processing an integral tube material, a tube bottom plate at the bottom of the oil tank is connected through threads, and a structure of welding and fixing after sealing by using a high-temperature-resistant metal sealing ring can effectively prevent the leakage of heat-conducting oil from polluting the environment, and the integral leakage-proof effect is good;

2. according to the technical scheme, the bottom of the oil tank is heated by adopting the resistance furnace heating, so that heat is transferred to heat conduction oil in the oil tank, the heating device and the heat conduction oil are separated, the continuous stability of the heating device is ensured, and the service life is prolonged;

3. according to the technical scheme, the oil tank with the sealing structure guides the oil fume in the oil tank into the oil fume filter through the fume guide pipe to be filtered and then discharged, so that the pollution of the traditional non-sealing oil tank to the environment is eliminated, and the environment is protected;

4. according to the technical scheme, the thermocouple, the temperature controller and the voltage regulator are connected, the temperature controller regulates the voltage regulator according to the temperature of the heat conduction oil measured by the thermocouple, so that the voltage of the resistance heating furnace is regulated, the temperature of the heat conduction oil is regulated, the power supply of the heating device is not required to be repeatedly cut off and closed, and the service life of the heating device is prolonged;

5. according to the technical scheme, the resistance heating furnace is supported by the height-adjustable supporting device arranged on the bracket, the height of the resistance heating furnace can be adjusted according to actual use conditions, the heating timeliness is ensured, and the resistance heating furnace is convenient to detach and maintain when faults occur;

6. according to the technical scheme, the observation window made of the high-temperature-resistant organic glass material is arranged on the outer wall of the upper end of the oil tank, so that the internal condition of the oil tank can be observed under the airtight condition, and the safety and reliability of the test process are ensured.

Drawings

FIG. 1 is a schematic view of the internal structure of the present utility model;

FIG. 2 is a rear view of the present utility model;

fig. 3 is a schematic perspective view of the present utility model.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described in the following with reference to fig. 1 to 3 in the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation. The inclusion of an element as defined by the phrase "comprising one does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

The energy-saving environment-friendly high-temperature high-pressure test device is shown in fig. 1-3 and comprises a support 2, wherein a heat-insulating sealed oil tank 1 is arranged on the left side of the upper end of the support 2, a smoke filter 3 communicated with the inside of the upper end of the oil tank 1 through a smoke guide pipe 4 is arranged on the right side of the upper end of the support 2, smoke in the oil tank 1 is led into the smoke filter 3 through the smoke guide pipe 4 and is filtered by the smoke filter 3 and then led out from a smoke outlet at the upper part of the smoke filter 3, a heating device for conducting heat to heat conduction oil in the oil tank 1 is arranged below the oil tank 1, the heating device is arranged on the support 2 through a height-adjustable supporting device, the heating device, the smoke filter 3 and a temperature measuring device which is arranged on the oil tank 1 and is used for measuring the temperature of the heat conduction oil in the oil tank 1 are connected with an electric control cabinet 6, a rubber cylinder test tool 21 which is arranged in the oil tank 1, and a pressurizing device arranged outside the oil tank 1 is communicated with the rubber cylinder test tool 21 through a pressure transmission pipe 5 which is arranged on the oil tank 1 in a sealing way; in the structure, the heating is adopted, so that heat is transferred to the heat conduction oil in the oil tank, the heating device and the heat conduction oil in the oil tank 1 are separated, the continuous stability of the heating device is ensured, and the service life is prolonged; the oil tank 1 with the sealing structure guides the oil fume in the oil tank 1 into the oil fume filter 3 through the fume guide pipe 4 for filtering and then discharging, so that the pollution of the traditional non-sealing oil tank to the environment is eliminated, and the environment is protected;

the specific structure of the height-adjustable supporting device is as follows: the height-adjustable supporting device comprises a supporting plate 8, a lifting screw 9 and a T-shaped screw sleeve 10, wherein the upper end of the lifting screw 9 is fixed at the middle part of the bottom surface of the supporting plate 8, the resistance heating furnace 7 is detachably fixed on the supporting plate 8, a positioning sleeve 12 is fixed on a bottom cover 11 of the support 2, the T-shaped screw sleeve 10 with a small diameter section in the positioning sleeve 12 is in clearance fit with the lower end of the lifting screw 9 in threaded connection, a handle 13 is fixed on the outer wall of a large diameter section of the T-shaped screw sleeve 10, and the lifting screw 9 is lifted or lowered by rotating the T-shaped screw sleeve 10 through the handle 13.

The specific structure of the temperature measuring device is as follows: the temperature measuring device comprises a plurality of thermocouples 14 which are distributed up and down, wherein the thermocouples 14 are fixed on the side wall of the oil tank 1 in a threaded manner, and temperature measuring contacts of the thermocouples 14 are positioned in the oil tank 1; specifically, the output end of the thermocouple 14 is connected with a temperature controller 15 in a temperature controller arranged on the electrical control cabinet 6, the heating device is connected with a power supply in the electrical control cabinet 6 through a power line, and a voltage regulator arranged on the power line and used for regulating voltage is connected with the output end of the temperature controller 15, wherein the heating device is a resistance heating furnace 7; in the structure, the connection structure of the thermocouple 14, the temperature controller 15 and the voltage regulator, the temperature controller 15 regulates the voltage regulator according to the temperature of the heat conduction oil measured by the thermocouple 14, so that the voltage of the resistance heating furnace 7 is regulated, the temperature of the heat conduction oil is regulated, the power supply of the heating device is not required to be repeatedly cut off and closed, and the service life of the heating device is prolonged; the resistance heating furnace 7 is supported by the height-adjustable supporting device arranged on the bracket 2, the height of the resistance heating furnace 7 can be adjusted according to actual use conditions, the heating timeliness is ensured, and the resistance heating furnace 7 is convenient to detach and maintain when faults occur; when the heat conduction oil reaches the rated temperature, the thermocouple 14 transmits a temperature signal to the temperature controller, the temperature controller starts the voltage regulator through the temperature controller 15, the current voltage is continuously reduced under the condition of not cutting off the power supply, the power of the resistance heating furnace 7 is reduced, the heating temperature is further reduced, after the rated temperature is maintained for a period of time, when the temperature is lower than the range value of the rated temperature, the temperature controller restarts the voltage regulator through the temperature controller 15 to raise the current voltage, the power of the resistance heating furnace 7 is raised to be continuously heated, and finally the temperature of the oil tank 1 is always kept at the range value of the rated temperature, so that the effects of constant rated temperature and electric energy saving are achieved.

The specific structure of the supercharging device is as follows: the supercharging device comprises a booster pump 16 and an energy accumulator 17, wherein a pressure inlet of the energy accumulator 17 is communicated with the booster pump 16, and a plurality of air outlets of the energy accumulator 17 are respectively communicated with each test hole of the rubber cylinder in the oil tank 1 through a pressure transmission pipe 5; specifically, the accumulator 17 is provided with a pressure sensor connected with a computer; the pressure control system applies seat sealing and seal checking pressure to the accumulator 17 through the liquid or gas booster pump 16, the accumulator 17 transmits the pressure to the rubber cylinder through the accumulator 17 with high temperature and high pressure, the accumulator 17 is provided with a pressure sensor, and the pressure sensor transmits data to a computer through a data line for detection and storage.

The specific structure of the oil tank 1 is as follows: the oil tank 1 comprises a cylindrical pipe wall 1-1, a flange cover 1-2 which is connected with the upper end opening of the cylindrical pipe wall 1-1 in a sealing way, and a cylindrical bottom plate 1-3 which is fixedly connected with the lower end of the cylindrical pipe wall 1-1 in a sealing way, wherein the cylindrical bottom plate 1-3 is fixedly connected with the inside of the lower end of the cylindrical pipe wall 1-1 in a threaded way, is welded and fixed on the cylindrical pipe wall 1-1 after being sealed with the lower end wall of the cylindrical pipe wall 1-1 through a high-temperature resistant metal sealing ring, a through hole is formed in the middle of the upper plate surface of the flange cover 1-2, the through hole cover is sealed through a pressure transmitting disc 1-4 which is fixed on the flange cover 1-2 through bolts after being sealed, a plurality of pressure transmitting pipes 5 connected with the pressurizing device are arranged through threaded holes on the pressure transmitting disc 1-4, the pressure cap sleeve 18 arranged on the pressure transmission pipe 5 is fixedly connected with screw threads of the screw thread hole on the pressure transmission disc 1-4, the outer wall of the cylindrical pipe wall 1-1 is wound with a circle of heat insulation cotton 1-7 used for heat insulation of internal heat conduction oil, an oil drain port is formed in the outer wall of the lower end of the cylindrical pipe wall 1-1, the oil drain port is plugged by the plug 1-8, an observation window 1-9 convenient for observing the internal test condition is formed in the outer wall of the upper end of the cylindrical pipe wall 1-1, and the inner condition of the oil tank 1 is conveniently observed under the airtight condition by arranging the observation window 1-9 made of high-temperature-resistant organic glass material on the outer wall of the upper end of the oil tank 1, so that the safety and reliability of the test process are ensured; specifically, the upper end face of the bottom plate 1-3 of the cylinder is fixedly provided with a plurality of supporting legs 1-5, the upper ends of the supporting legs 1-5 are fixedly connected with the bottom face of a supporting plate 1-6 provided with a plurality of holes on the plate face, and a rubber cylinder test tool 21 provided with a rubber cylinder is placed on the supporting plate 1-6; in the structure, the heat-insulating sealed oil tank 1 is adopted, namely, the cylindrical pipe wall 1-1 formed by processing the whole pipe material is adopted, the cylindrical bottom plate 1-3 at the bottom of the oil tank is connected through threads and is welded and fixed after being sealed by using the high-temperature-resistant metal sealing ring, the environment pollution caused by leakage of heat conducting oil can be effectively avoided, and the integral leakage-proof effect is good.

The bottom of the support 2 is provided with a plurality of universal wheels 19 all around, a guard plate 20 is fixed outside the support 2 in a rivet welding mode, and the guard plate 20 positioned on the periphery of the oil tank 1 on the left side of the support 2 surrounds the heat-insulating part of the oil tank 1 inside the oil tank.

The installation process comprises the following steps:

1) Welding square tubes with various lengths according to the requirements of the drawing to form a bracket 2, installing and fixing a table top on the bracket assembly 2, welding and fixing a floor board at the lower part of the bracket assembly 2, and installing universal wheels 19 through the floor board;

2) The cylinder bottom plate 1-3 in the cylinder pipe wall 1-1 is connected through threads and sealed by using a high-temperature-resistant metal sealing ring, and finally the cylinder bottom plate 1-3 and the cylinder pipe wall 1-1 are welded to ensure reliable sealing;

3) Holes are uniformly distributed in the supporting plate 1-6, and the supporting plate 1-6 and the supporting plate are welded and fixed on the lower cylinder bottom plate 1-3 through a plurality of supporting legs, and the holes in the supporting plate 1-6 can ensure that heat conduction oil in the oil tank 1 is uniformly heated;

4) The oil tank 1 is fixed on the bracket 2 by welding;

5) The outside of the oil tank 1 is wound with a circle of heat preservation cotton to preserve heat of the heated heat conduction oil inside;

6) The resistance heating furnace 7 is fixed on the supporting plate 8 by bolts, the upper end of the lifting screw 9 is welded at the central position of the supporting plate 8, finally the lifting screw 9 is arranged in a rotatable T-shaped screw sleeve 10 on a bottom cover 11 at the bottom of the bracket 2 in a threaded manner, the resistance heating furnace 7 is lifted to a proper height by rotating a handle 13 at the upper end of the T-shaped screw sleeve 10, and the resistance heating furnace 7 can be lowered by reverse rotation so as to be convenient to detach;

7) The outside of the high-temperature test device is riveted and welded by a guard plate, so that the aesthetic property of the high-temperature test device is ensured;

8) The thermocouple 14 is arranged on the side wall of the oil tank 1 and is fixedly sealed by threads and a high-temperature sealing ring;

9) The oil smoke filter 3 is fixed on the bracket 2 by using screws, then the smoke guide pipe 4 is connected to the oil smoke filter 3 from the oil tank 1, the stubble connecting position of the smoke guide pipe 4 is sealed by connecting threads with high-temperature sealant, so that oil smoke is led out from the upper part of the oil tank 2 and enters from the bottom of the oil smoke filter 3, and is led out from a smoke outlet at the upper part of the oil smoke filter 3 after being filtered by the oil smoke filter 3;

10 The oil drain port on the outer circle of the oil tank 1 is plugged by a plug 1-8, and heat conduction oil is added into the oil tank 1;

11 A rubber tube test tool 21 with the rubber tube and high temperature and high pressure resistance is adjusted into the oil tank 1, and the lower end of the pressure transmission tube 5 is arranged on the rubber tube test tool 21 and is communicated with a test hole of the rubber tube;

12 The outer circle of the flange cover 1-2 is provided with a high-temperature resistant sealing ring, the flange cover 1-2 is arranged on the oil tank 1, the pressure transmitting disc 1-4 provided with the high-temperature resistant sealing ring on the outer circle is arranged on the flange cover 1-2, the upper ends of the pressure transmitting tubes 5 penetrate out of three threaded holes on the pressure transmitting disc 1-4, and the positioning sleeve 12 arranged on the pressure transmitting tubes 5 is fixed on the pressure transmitting disc 1-4 through threads so as to seal the pressure transmitting discs;

13 Connecting pressure test pipelines with the same number as the pressure transmission pipes 5 from the energy accumulator 17, connecting the pressure test pipelines with the pressure transmission pipes 5 at corresponding positions, and connecting one pipeline from the other end of the energy accumulator 17 with the booster pump 16;

14 A pressure sensor is arranged on the accumulator 17, a data line on the data acquisition system is connected with the pressure sensor, and finally the data acquisition system is connected with a computer to detect and store the pressure of the rubber cylinder test tool 21;

15 Fixing the electrical control cabinet 6 on the bracket 2 by using screws, connecting a power line of the resistance heating furnace 7 to the electrical control cabinet 6, and connecting the power line from the electrical control cabinet 6 to a main power switch; and (5) finishing the installation.

Starting a power supply, setting a rated temperature on an operation panel of a temperature controller 15 of an electrical control cabinet 6, starting a switch of a resistance heating furnace 7, heating conduction oil in an oil tank 1, detecting the temperature of the conduction oil by a thermocouple 14, transmitting data to the operation panel of the temperature controller 15 of the electrical control cabinet 6, and starting a voltage regulator in the electrical control cabinet 6 to regulate the current and voltage of the resistance heating furnace 7 after the temperature rises to the rated temperature, so that the power of the resistance heating furnace 7 is reduced, and the temperature of the conduction oil in the oil tank 1 is kept in the rated temperature range;

after heating the heat conduction oil to the rated temperature, as the inside of the high-temperature test device (namely the oil tank 1) is airtight, a large amount of oil smoke can be generated by mixing the heat conduction oil and air, the oil smoke can be led into the oil smoke filter 3 through the smoke guide pipe 4 connected with the upper part of the oil tank 1, colorless and odorless pollution-free gas is formed after being filtered by the oil smoke filter 3, and is discharged through a smoke outlet at the upper end of the oil smoke filter 3.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (10)

1. Energy-concerving and environment-protective type high temperature high pressure test device, its characterized in that: including support (2), support (2) upper end left side is equipped with heat preservation sealed type oil tank (1), and support (2) upper end right side is equipped with oil smoke filter (3) through leading tobacco pipe (4) and the inside intercommunication of oil tank (1) upper end, oil smoke in oil tank (1) is led in oil smoke filter (3) through leading tobacco pipe (4) and is derived from the outlet on oil smoke filter (3) upper portion after oil smoke filter (3) filtration, oil tank (1) below is equipped with the heating device who is used for carrying out the heat conduction heating to the conduction oil of oil tank (1) inside, and heating device installs on support (2) through highly adjustable strutting arrangement, heating device, oil smoke filter (3) and locate on oil tank (1) and be used for carrying out measuring temperature measuring device with electrical control cabinet (6) to the inside conduction oil, and glue drum test fixture (21) that are equipped with glue drum place in oil tank (1), and be located the outside supercharging device of oil tank (1) and pass through seal installation and carry out pressure tube (5) test (21) intercommunication on oil tank (1).

2. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 1, wherein: the heating device is a resistance heating furnace (7).

3. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 2, wherein: the height-adjustable supporting device comprises a supporting plate (8), a lifting screw (9) and a T-shaped screw sleeve (10), wherein the upper end of the lifting screw (9) is fixed at the middle part of the bottom surface of the supporting plate (8), the resistance heating furnace (7) is detachably fixed on the supporting plate (8), a positioning sleeve (12) is fixed on a bottom cover (11) of the support (2), the T-shaped screw sleeve (10) which is arranged in the positioning sleeve (12) in a clearance mode is in threaded connection with the lower end of the lifting screw (9), a handle (13) is fixed on the outer wall of a large-diameter section of the T-shaped screw sleeve (10), and the lifting screw (9) is lifted or lowered by rotating the T-shaped screw sleeve (10) through the handle (13).

4. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 1, wherein: the temperature measuring device comprises a plurality of thermocouples (14) which are distributed up and down, the thermocouples (14) are fixed on the side wall of the oil tank (1) in a threaded mode, and temperature measuring contacts of the thermocouples (14) are located inside the oil tank (1).

5. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 4, wherein: the output end of the thermocouple (14) is connected with a temperature controller arranged in the electrical control cabinet (6).

6. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 1, wherein: the supercharging device comprises a booster pump (16) and an energy accumulator (17), wherein a pressure inlet of the energy accumulator (17) is communicated with the booster pump (16), and a plurality of air outlets of the energy accumulator (17) are respectively communicated with each test hole of the rubber cylinder in the oil tank (1) through a pressure transmission pipe (5).

7. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 6, wherein: the energy accumulator (17) is provided with a pressure sensor connected with a computer.

8. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 1, wherein: the oil tank (1) comprises a tubular pipe wall (1-1), a flange cover (1-2) which is connected with the upper end opening of the tubular pipe wall (1-1) in a sealing way, and a tubular bottom plate (1-3) which is fixedly connected with the lower end of the tubular pipe wall (1-1) in a sealing way, wherein the tubular bottom plate (1-3) is fixedly connected with the inside of the lower end of the tubular pipe wall (1-1) through threads, the flange cover (1-2) is fixedly welded on the tubular pipe wall (1-1) after being sealed with the lower end wall of the tubular pipe wall (1-1) through a high-temperature-resistant metal sealing ring, a through hole is formed in the middle of the upper plate surface of the flange cover (1-2), a transmission pressure plate (1-4) which is fixedly connected with the flange cover through bolts is used for sealing the through hole, a plurality of transmission pressure pipes (5) which are connected with the pressurizing device penetrate through threaded holes on the transmission pressure plate (1-4), a cap sleeve (18) which is arranged on the transmission pressure plate (5) is fixedly connected with the threaded holes on the threaded hole on the transmission pressure plate (1-4), the outer wall (1-1) of the tubular pipe wall is wound on the tubular pipe wall (1-1) through a through hole, the middle part of the flange cover (1-2) is used for sealing the heat insulation oil drain port (1) and the heat insulation plug (1) is used for sealing the upper end of the heat insulation pipe 1-1, the outer wall of the upper end of the cylindrical pipe wall (1-1) is provided with an observation window (1-9) which is convenient for observing the internal test condition.

9. The energy-saving and environment-friendly high-temperature and high-pressure test device according to claim 8, wherein: the upper end face of the barrel bottom plate (1-3) is fixedly provided with a plurality of supporting legs (1-5), the upper ends of the supporting legs (1-5) are fixedly connected with the bottom face of a supporting plate (1-6) with a plurality of holes formed in the plate face, and a barrel test tool (21) with a barrel is placed on the supporting plate (1-6).

10. The energy-saving and environment-friendly high-temperature and high-pressure test device according to any one of claims 1 to 9, wherein: the novel oil tank is characterized in that a plurality of universal wheels (19) are arranged around the bottom of the support (2), a guard plate (20) is fixed outside the support (2) through rivet welding, and the guard plate (20) positioned on the periphery of the oil tank (1) on the left side of the support (2) surrounds the heat-insulating part of the oil tank (1) inside the oil tank.