阅读说明：本技术 一种智能化撬装密闭储油装置 (Intelligent skid-mounted airtight oil storage device ) 是由 刘永才 严刚 吴中华 王亮亮 李必意 乔常明 张明星 江志武 于 2021-06-11 设计创作，主要内容包括：本发明公开了一种智能化撬装密闭储油装置,包括：罐体、加热装置、干燥装置、撬装装置、接地装置和控制台；所述加热装置设置在所述罐体内,所述干燥装置设置在所述罐体的顶部,所述撬装装置和所述接地装置均设置在所述罐体的底部,所述控制台设置在所述撬装装置上,所述撬装装置上设置有固定锚,所述加热装置和所述干燥装置均与所述控制台电连接。本发明方便罐体的运输并且在任何地形上都可以使用,通过固定锚与地面进行固定连接防止发生位移,加热装置可以在天气较冷的时候进行升温操作防止冻罐,干燥装置对天然气进行干燥处理方便后续的燃烧,在罐体的底部还设置有接地装置,可以避免罐体产生静电避免爆炸事故的发生。(The invention discloses an intelligent skid-mounted closed oil storage device, which comprises: the device comprises a tank body, a heating device, a drying device, a skid-mounted device, a grounding device and a console; heating device sets up the jar is internal, drying device sets up the top of the jar body, sled dress device with earthing device all sets up the bottom of the jar body, the control cabinet sets up on the sled dress device, be provided with the anchor on the sled dress device, heating device with drying device all with the control cabinet electricity is connected. The tank body is convenient to transport and can be used on any terrain, the fixed anchor is fixedly connected with the ground to prevent displacement, the heating device can be used for heating to prevent freezing the tank in cold weather, the drying device is used for drying natural gas to facilitate subsequent combustion, and the grounding device is arranged at the bottom of the tank body to prevent the tank body from generating static electricity and avoid explosion accidents.)

1. The utility model provides an intelligent sled dress airtight oil storage device which characterized in that includes: the device comprises a tank body (1), a heating device, a drying device (4), a skid-mounted device, a grounding device and a control console (8); heating device sets up in jar body (1), drying device (4) set up the top of jar body (1), sled dress device with earthing device all sets up the bottom of jar body (1), control cabinet (8) set up on the sled dress device, be provided with on the sled dress device and fix anchor (5), heating device with drying device (4) all with control cabinet (8) electricity is connected.

2. The intelligent skid-mounted closed oil storage device according to claim 1, wherein the heating device comprises an electric heating assembly (2) and a combustion assembly (3); electric heating element (2) with combustion assembly (3) all set up the interior bottom of the jar body (1), the tip of the jar body (1) is provided with the electric heat socket, electric heating element (2) pass through the electric heat socket inserts extremely the inside of the jar body (1), electric heating element (2) are including insulating shell (21), metal casing (22) and heating rod (23), heating rod (23) set up the inside of metal casing (22), metal casing (22) intussuseption is filled with insulating oil, insulating shell (21) set up on the outer wall of metal casing (22), heating rod (23) with control cabinet (8) electricity is connected.

3. The intelligent skid-mounted closed oil storage device according to claim 2, wherein the combustion assembly (3) comprises a heat pipe (31), a combustion chamber (32) and a chimney (33); drying device (4) through blast pipe (45) with combustion chamber (32) intercommunication, the tip of the jar body (1) is provided with combustion socket, heat pipe (31) insert through combustion socket extremely the inside of the jar body (1), be provided with the nozzle on combustion chamber (32), the nozzle extends to in heat pipe (31), chimney (33) with combustion chamber (32) intercommunication, combustion chamber (32) with control cabinet (8) electricity is connected.

4. The intelligent skid-mounted closed oil storage device according to claim 3, wherein the drying device (4) comprises an air inlet pipe (41), a dryer (42), a shunt pipe (43), a water return pipe (44) and the exhaust pipe (45); intake pipe (41) with shunt tubes (43) set up respectively the both ends of desicator (42), desicator (42) pass through intake pipe (41) with the top intercommunication of the jar body (1), blast pipe (45) with wet return (44) all with shunt tubes (43) intercommunication, wet return (44) run through the top of the jar body (1) and extend to in the jar body (1), shunt tubes (43) pass through blast pipe (45) with combustion chamber (32) intercommunication, intake pipe (41) blast pipe (45) all with control cabinet (8) electricity is connected.

5. The intelligent skid-mounted sealed oil storage device according to claim 1, wherein an oil filling port (11) is arranged on the side wall of the tank body (1), an oil outlet is arranged at the top of the tank body (1), and a sewage draining outlet (12) is arranged at the bottom of the tank body (1).

6. The intelligent skid-mounted closed oil storage device according to claim 1, wherein the skid-mounted device comprises two I-shaped steel bars and a plurality of fixing anchors (5); the two I-shaped steels are respectively arranged on two sides of the tank body (1), and the fixed anchor (5) is arranged on the I-shaped steel.

7. An intelligent skid-mounted closed oil storage device according to claim 6, wherein the fixing anchor (5) comprises a housing (51) and a spreading device (52); the shell (51) is arranged on the I-shaped steel and penetrates through the I-shaped steel, a through hole is formed in the top of the shell (51), a first rotating shaft (511) is arranged on the top of the shell (51), the extension device (52) is arranged in the shell (51), and the extension device (52) comprises a fixing column (521), a supporting block (522) and an extension block (523); the top of the fixed column (521) is provided with a second rotating shaft (524), the positions of the first rotating shaft (511), the through hole and the second rotating shaft (524) are corresponding, the side wall of the fixed column (521) is provided with a plurality of limiting grooves, the inner wall of each limiting groove is provided with a first limiting hole, the supporting block (522) is arranged inside the fixed column (521), the side wall of the supporting block (522) is provided with a plurality of springs, the limiting grooves are internally provided with the extension blocks (523), the extension blocks (523) are provided with rotating shaft holes, the rotating shaft holes are internally provided with third rotating shafts (525), two ends of the third rotating shafts (525) are respectively spliced with the first limiting holes, the bottom of the extension blocks (523) is provided with a first boss (526), the top of the shell (51) is provided with a rotating wheel (512), the bottom of runner (512) is provided with ka tai (513), the inside of ka tai (513) is provided with threaded rod (514), the bottom of threaded rod (514) is provided with spliced pole (515), spliced pole (515) with first rotation axis (511) are pegged graft and are passed through the through-hole runs through second rotation axis (524) and extend to the inside of fixed column (521), the bottom of spliced pole (515) with the top of supporting shoe (522) is connected.

8. The intelligent skid-mounted closed oil storage device according to claim 1, wherein the grounding device comprises a lead wire and a ground wire; the lead is arranged at the bottom of the tank body (1) and is electrically connected with the tank body (1), the ground wire is embedded underground, an introduction end (6) is arranged at the end part of the lead, an access end (7) is arranged at the end part of the ground wire, the introduction end (6) is spliced with the access end (7), the lead is electrically connected with the ground wire through the matching of the introduction end (6) and the access end (7),

the leading-in end (6) comprises a sliding sleeve (61), a connecting pipe (62), an elastic piece (63) and a fixing piece (64); the fixing part (64) is arranged on the lead, the elastic part (63) is arranged on the fixing part (64), the sliding sleeve (61) is connected with the fixing part (64) through the elastic part (63), the connecting pipe (62) is arranged at the end part of the lead, the connecting pipe (62) is positioned in the sliding sleeve (61), the side wall of the connecting pipe (62) is provided with a plurality of sliding grooves (621), a plurality of second limiting holes (622) and a plurality of clamping heads (623), the sliding grooves (621) are communicated with the end part of the connecting pipe (62), the second limiting holes (622) are positioned between the sliding grooves (621) and the clamping heads (623),

the access end (7) comprises an insertion tube (71), a limiting plate (72), a double-sided plate (73) and a second boss (74); the limiting plate (72) is arranged on the ground line, the insertion tube (71) is arranged on the limiting plate (72), a plurality of double-sided plates (73) are arranged on the side wall of the insertion tube (71), an outer boss (731) is arranged on the outer wall of each double-sided plate (73), an inner boss (732) is arranged on the inner wall of each double-sided plate (73), and the second boss (74) is arranged at the end part of the insertion tube (71);

the connecting pipe (62) is inserted into the insertion pipe (71), the inner boss (732) is clamped with the second limiting hole (622), the clamping head (623) is clamped with the second boss (74), and the outer boss (731) is clamped with the inner wall of the sliding sleeve (61).

9. The intelligent skid-mounted sealed oil storage device according to claim 3, wherein the top of the tank body (1) is provided with a pressure control device and a temperature control device, and the self-circulation inside the tank body (1) comprises the following steps

S1: when the pressure of the natural gas in the tank body (1) is overlarge, the pressure control device is triggered;

s2: the pressure control device allows natural gas to enter the drying device (4), and the natural gas is dried through the drying device (4);

s3: conveying dried natural gas into the combustion chamber (32), and simultaneously detecting the temperature of the outer wall of the tank body (1) by a temperature control device

S4: when T is_i≥T₀When the burner (32) is not opened, the natural gas is burnt in the burner (32) and discharged through a chimney (33); when T is_i<T₀When in use, the combustion chamber (32) opens the nozzle, so that the natural gas is combusted in the heat conduction pipe (31) through the nozzle of the combustion chamber (32) to heat the heat conduction pipe (31), wherein T_iIs the outer wall temperature, T, of the tank body (1)₀Is a set critical temperature needing heating; the temperature control device can be represented by the formula

ΔT＝T_i-T₀＝(Qh)/(τtS)

Calculate T_i-T₀And controlling the opening and closing of the nozzle of the combustion chamber (32) through the positive and negative values of the difference and the range of the difference, wherein Q is the limit heat flow value of the tank body (1); h is the wall thickness of the tank body (1); tau is the heat conductivity coefficient of the tank body (1); t is time; s is the section heat conduction area of the side wall of the tank body (1).

10. The intelligent skid-mounted closed oil storage device according to claim 6, wherein in order to ensure that the I-steel can effectively support the tank body (1) without fracture, when the I-steel is selected, the thickness H of the I-steel is ensured to be larger than the limit bearing thickness H of the I-steel₀I.e. H>H₀In which H is₀Can be represented by formula

Calculating and solving, wherein beta is the ratio of the length to the height of the I-steel; f is the pressure to the I-steel when the tank body (1) is full, rough calculation can be carried out according to the formula F which is rho Vg, rho is the oil density, V is the volume of the tank body (1), and g is the gravity acceleration; l is the length of the I-shaped steel; v is the Poisson's ratio of I-steel material; and delta h is the ultimate deformation in the height direction of the I-shaped steel, and E is the Young modulus of the I-shaped steel material.

Technical Field

The invention relates to the technical field of petrochemical industry, in particular to an intelligent skid-mounted sealed oil storage device.

Background

The oil industry field, for satisfying the demand of the oil recovery temporary storage of various oil recovery wells especially low-yield oil well, limit far away well and single well, need set up the oil storage device at the well head, but receive the not good arrangement of influence oil storage tank of topography, build brand-new oil storage station and can cause the waste again, and the phenomenon of freezing the jar can also appear in the oil tank when weather is cold, because the crude oil of extraction is mixed oil, the inside has been adulterated a large amount of gases and has been formed the high pressure easily and lead to deep-fry jar in the oil storage tank. Therefore, there is a need to provide an intelligent skid-mounted sealed oil storage device to at least partially solve the problems in the prior art.

Disclosure of Invention

In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary of the invention is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.

In order to at least partially solve the above problems, the present invention provides an intelligent skid-mounted sealed oil storage device, comprising: the device comprises a tank body, a heating device, a drying device, a skid-mounted device, a grounding device and a console; heating device sets up the jar is internal, drying device sets up the top of the jar body, sled dress device with earthing device all sets up the bottom of the jar body, the control cabinet sets up on the sled dress device, be provided with the anchor on the sled dress device, heating device with drying device all with the control cabinet electricity is connected.

Preferably, the heating device comprises an electric heating assembly and a combustion assembly; the electric heating assembly with combustion assembly all sets up the interior bottom of the jar body, the tip of the jar body is provided with the electric heat socket, electric heating assembly passes through the electric heat socket inserts extremely the inside of the jar body, electric heating assembly includes insulating shell, metal-back and heating rod, the heating rod sets up the inside of metal-back, the metal-back intussuseption is filled with insulating oil, insulating shell sets up on the outer wall of metal-back, the heating rod with the control cabinet electricity is connected.

Preferably, the combustion assembly comprises a heat pipe, a combustion chamber and a chimney; drying device pass through the blast pipe with the combustion chamber intercommunication, the tip of the jar body is provided with the burning socket, the heat pipe insert through the burning socket extremely the inside of the jar body, be provided with the nozzle on the combustion chamber, the nozzle extends to in the heat pipe, the chimney with the combustion chamber intercommunication, the combustion chamber with the control cabinet electricity is connected.

Preferably, the drying device comprises an air inlet pipe, a dryer, a shunt pipe, a water return pipe and the exhaust pipe; the intake pipe with the shunt tubes sets up respectively the both ends of desicator, the desicator passes through the intake pipe with the top intercommunication of the jar body, the blast pipe with the wet return all with the shunt tubes intercommunication, the wet return runs through the top of the jar body and extends to it is internal to jar, the shunt tubes passes through the blast pipe with the combustion chamber intercommunication, the intake pipe the blast pipe all with the control cabinet electricity is connected.

Preferably, an oil filling port is formed in the side wall of the tank body, an oil outlet is formed in the top of the tank body, and a sewage draining port is formed in the bottom of the tank body.

Preferably, the skid-mounted device comprises two I-shaped steel bars and a plurality of fixing anchors; the two I-shaped steels are respectively arranged on two sides of the tank body, and the fixing anchor is arranged on the I-shaped steel.

Preferably, the tie-down anchor comprises a housing and an extension device; the shell is arranged on the I-shaped steel and penetrates through the I-shaped steel, a through hole is formed in the top of the shell, a first rotating shaft is arranged at the top of the shell, the extension device is arranged in the shell and comprises a fixing column, a supporting block and an extension block; the fixing structure comprises a fixing column and is characterized in that a second rotating shaft is arranged at the top of the fixing column, the first rotating shaft, a through hole and the second rotating shaft are in corresponding positions, a plurality of limiting grooves are formed in the side wall of the fixing column, first limiting holes are formed in the inner wall of each limiting groove, a supporting block is arranged inside the fixing column, a plurality of springs are arranged on the side wall of the supporting block, extension blocks are arranged in the limiting grooves, rotating shaft holes are formed in the extension blocks, a third rotating shaft is arranged in each rotating shaft hole, two ends of the third rotating shaft are respectively connected with the first limiting holes in an inserting mode, a first boss is arranged at the bottom of each extension block, a rotating wheel is arranged at the top of a shell, a clamping table is arranged at the bottom of the rotating wheel, a threaded rod is arranged inside the clamping table, a connecting column is arranged at the bottom of the threaded rod, the connecting column is connected with the first rotating shaft in an inserting mode and extends to the fixing column through the through hole and penetrates through the second rotating shaft The bottom of the connecting column is connected with the top of the supporting block.

Preferably, the grounding means comprises a lead and a ground; the lead is arranged at the bottom of the tank body and is electrically connected with the tank body, the ground wire is embedded underground, the end part of the lead is provided with an introduction end, the end part of the ground wire is provided with an access end, the introduction end is spliced with the access end, the lead is electrically connected with the ground wire through the matching of the introduction end and the access end,

the leading-in end comprises a sliding sleeve, a connecting pipe, an elastic piece and a fixing piece; the fixing piece is arranged on the lead, the elastic piece is arranged on the fixing piece, the sliding sleeve is connected with the fixing piece through the elastic piece, the connecting pipe is arranged at the end part of the lead, the connecting pipe is positioned in the sliding sleeve, the side wall of the connecting pipe is provided with a plurality of sliding chutes, a plurality of second limiting holes and a plurality of clamping heads, the sliding chutes are communicated with the end part of the connecting pipe, the second limiting holes are positioned between the sliding chutes and the clamping heads,

the access end comprises an insertion pipe, a limiting plate, a double-sided plate and a second boss; the limiting plate is arranged on the ground line, the inserting tube is arranged on the limiting plate, a plurality of double-sided boards are arranged on the side wall of the inserting tube, outer bosses are arranged on the outer walls of the double-sided boards, inner bosses are arranged on the inner walls of the double-sided boards, and the second bosses are arranged at the end parts of the inserting tube;

the connecting pipe is inserted in the inserting pipe, the inner boss is clamped with the second limiting hole, the chuck is clamped with the second boss, and the outer boss is clamped with the inner wall of the sliding sleeve.

Preferably, the top of the tank body is provided with a pressure control device and a temperature control device, and the self-circulation step inside the tank body is as follows

S1: when the natural gas pressure in the tank body is too high, the pressure control device is triggered;

s2: the pressure control device allows natural gas to enter the drying device, and the natural gas is dried by the drying device;

s3: conveying the dried natural gas to the combustion chamber, and simultaneously detecting the temperature of the outer wall of the tank body by a temperature control device

S4: when T is_i≥T₀When the natural gas is exhausted, the nozzle is not opened in the combustion chamber, so that the natural gas is combusted in the combustion chamber and exhausted through a chimney; when T is_i<T₀When the natural gas is burnt in the heat conducting pipe, the nozzle is opened in the combustion chamber, so that the natural gas is burnt in the heat conducting pipe through the nozzle of the combustion chamber to heat the heat conducting pipe, wherein T_iIs the outer wall temperature, T, of the tank body₀Is a set critical temperature needing heating; the temperature control device can be represented by the formula

ΔT＝T_i-T₀＝(Qh)/(τtS)

Calculate T_i-T₀And controlling the opening and closing of the nozzle of the combustion chamber through the positive and negative values of the difference and the range of the difference, wherein Q is the limit heat flow value of the tank body; h is the wall thickness of the tank body; tau is the heat conductivity coefficient of the tank body; t is time; and S is the section heat conduction area of the side wall of the tank body.

Preferably, in order to ensure that the I-steel can effectively support the tank body and cannot break, the thickness H of the I-steel is ensured to be larger than the limit bearing thickness H of the I-steel when the I-steel is selected for use₀I.e. H>H₀In which H is₀Can be represented by formula

Calculating and solving, wherein beta is the ratio of the length to the height of the I-steel; f is the pressure to the I-steel when the tank body is full, rough calculation can be carried out according to the formula F which is rho Vg, rho is the petroleum density, V is the volume of the tank body, and g is the gravity acceleration; l is the length of the I-shaped steel; v is the Poisson's ratio of I-steel material; and delta h is the ultimate deformation in the height direction of the I-shaped steel, and E is the Young modulus of the I-shaped steel material.

Compared with the prior art, the invention at least comprises the following beneficial effects:

1. the intelligent skid-mounted closed oil storage device can facilitate the transportation of the tank body through the skid-mounted device and can be used on any terrain, because the skid-mounted device can be fixedly connected with the ground through the fixed anchor to prevent displacement, the heating device is also arranged in the tank body, the heating device can carry out temperature rise operation to prevent the tank from being frozen in cold weather, when the temperature is too low, mixed petroleum in the tank body can be heated through the heating device, so that the separation of gas such as natural gas in the petroleum is accelerated, meanwhile, the volatile natural gas is dried through the drying device on the top of the tank body to facilitate subsequent combustion, then the dried natural gas is conveyed into the heating device to be combusted, the heat generated by combustion is transferred into the tank body through the heating device to heat, when the heating device does not need to be started, in case pressure sensor on the jar body detects pressure and crosses defecate and open direct atmospheric release in order to reduce jar internal pressure to external release gas through the atmospheric valve on the control cabinet control jar body, still is provided with earthing device in the bottom of the jar body, can effectively avoid the jar body to produce the static electric spark, and then effectively avoids the emergence of explosion accident.

Other advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic diagram of a half-section structure of an intelligent skid-mounted sealed oil storage device.

Fig. 2 is a schematic structural diagram of a fixed anchor in the intelligent skid-mounted sealed oil storage device.

Fig. 3 is a schematic structural diagram of a rotating wheel in the intelligent skid-mounted sealed oil storage device.

Fig. 4 is a schematic structural diagram of a housing in the intelligent skid-mounted sealed oil storage device.

Fig. 5 is a schematic structural diagram of an extension device in the intelligent skid-mounted sealed oil storage device.

Fig. 6 is a schematic structural diagram of a fixing column in the intelligent skid-mounted sealed oil storage device.

Fig. 7 is a schematic structural diagram of an extension block in the intelligent skid-mounted sealed oil storage device.

Fig. 8 is a schematic structural diagram of a grounding device in the intelligent skid-mounted sealed oil storage device according to the invention.

Fig. 9 is a schematic structural diagram of an inlet end of the intelligent skid-mounted sealed oil storage device according to the invention.

Fig. 10 is a schematic structural view of an access end in the intelligent skid-mounted sealed oil storage device according to the present invention.

In the figure: 1 tank body, 11 oil filling port, 12 sewage draining port, 2 electric heating component, 21 insulating shell, 22 metal shell, 23 heating rod, 3 combustion component, 31 heat conducting pipe, 32 combustion chamber, 33 chimney, 4 drying device, 41 air inlet pipe, 42 drier, 43 shunt pipe, 44 water return pipe, 45 air outlet pipe, 5 fixed anchor, 51 shell, 511 first rotating shaft, 512 rotating wheel, 513 clamping table, 514 threaded rod, 515 connecting column, 52 extending device, 521 fixed column, 522 supporting block, 523 extending block, 524 second rotating shaft, 525 third rotating shaft, 526 first boss, 6 leading-in end, 61 sliding sleeve, 62 connecting pipe, 621 sliding chute, 622 second limiting hole, 623, 63 elastic element, 64 fixing element, 7 incoming end, 71 insertion pipe, 72 limiting plate, 73 double-sided plate, 731 outer boss, 732 inner boss, 74 second boss, 8 control table.

Detailed Description

The present invention is further described in detail below with reference to the drawings and examples so that those skilled in the art can practice the invention with reference to the description.

It will be understood that terms such as "having," "including," and "comprising," as used herein, do not preclude the presence or addition of one or more other elements or groups thereof.

As shown in fig. 1 to 10, the present invention provides an intelligent skid-mounted sealed oil storage device, which includes: the device comprises a tank body 1, a heating device, a drying device 4, a skid-mounted device, a grounding device and a control console 8; heating device sets up in the jar body 1, drying device 4 sets up the top of the jar body 1, sled dress device with earthing device all sets up the bottom of the jar body 1, the control cabinet 8 sets up on the sled dress device, be provided with the fixing anchor 5 on the sled dress device, heating device with drying device 4 all with 8 electricity of control cabinet are connected.

The working principle of the technical scheme is as follows: when the temporary oil storage device is needed in an oil field, the temporary oil storage device can be delivered to a destination through a trailer, after a placement place is selected, the tank body 1 is placed on a construction site through the skid-mounted device, then the skid-mounted device is connected and fixed with the ground through the fixing anchor 5, finally the grounding device is connected with the ground and can be used, when the temporary oil storage device is used, remote control can be carried out through the control console 8, when the temperature is too low, the heating device can be started through the control console 8 to carry out heating operation on the tank body 1, when the heating device is started, mixed oil in the tank body 1 is heated through the heating device to accelerate the separation of natural gas and oil, then the volatile natural gas is dried through the drying device 4, then the heating device is used for burning, the heat generated during burning is used for heating the tank body 1, when the heating device does not need to be started, once the pressure sensor on the tank body 1 detects that the pressure is too high, the emptying valve on the tank body 1 is controlled by the control console 8 to be opened to directly release gas to the outside so as to reduce the pressure in the tank body 1.

The beneficial effects of the above technical scheme are that: through the design of the structure, the skid-mounted device can facilitate the transportation of the tank body 1 and can be used on any terrain, because the skid-mounted device can be fixedly connected with the ground through the fixing anchor 5 to prevent displacement, the heating device is also arranged in the tank body 1 and can be heated to prevent freezing the tank when the weather is cold, when the temperature is too low, the mixed petroleum in the tank body 1 can be heated through the heating device, so that the separation of the gas such as natural gas in the petroleum is accelerated, meanwhile, the volatile natural gas is dried through the drying device 4 on the top of the tank body 1 to facilitate the subsequent combustion, then the dried natural gas is conveyed into the heating device to be combusted, the heat generated by the combustion is transferred into the tank body 1 through the heating device to heat up, when the heating device does not need to be started, once the pressure sensor on the tank body 1 detects that pressure is too high, the emptying valve on the tank body 1 is controlled by the console 8 to open the emptying valve to directly release gas to the outside so as to reduce the pressure in the tank body 1, the grounding device is also arranged at the bottom of the tank body 1, so that the tank body 1 can be effectively prevented from generating static electricity to cause electric sparks, and further explosion accidents can be effectively avoided.

In one embodiment, the heating device comprises an electric heating assembly 2 and a combustion assembly 3; electric heating element 2 with combustion assembly 3 all sets up the interior bottom of the jar body 1, the tip of the jar body 1 is provided with the electric heat socket, electric heating element 2 passes through the electric heat socket inserts extremely the inside of the jar body 1, electric heating element 2 includes insulating shell 21, metal-back 22 and heating rod 23, heating rod 23 sets up the inside of metal-back 22, metal-back 22 intussuseption is filled with insulating oil, insulating shell 21 sets up on the outer wall of metal-back 22, heating rod 23 with the control cabinet 8 electricity is connected.

The working principle of the technical scheme is as follows: when the heating device is started, the heating device can be selected according to the situation, when the pressure in the tank body 1 does not need to discharge natural gas, the electric heating assembly 2 can be only started to heat the mixed oil in the tank body 1, then when the electric heating assembly 2 is heated, the heating rod 23 is used for heating, the heating rod 23 transfers the heat to the metal shell 22 through the insulating oil in the metal shell 22, then the heat is transferred to the insulating shell 21 through the metal shell 22, so that the mixed oil in the tank body 1 is heated, wherein the metal shell 22 and the inner wall of the tank body 1 are connected into a whole, an electric heating socket is formed at the communication part of the tank body 1, the electric heating rod 23 is inserted into the metal shell 22 through the electric heating socket and filled with the insulating oil, so that the heating rod 23 is actually positioned outside the tank body 1, and the risk of explosion caused by electric spark due to electric leakage is avoided, when the pressure in the tank body 1 is overlarge, the electric heating component 2 heats the mixed oil to accelerate the volatilization of the natural gas, and the volatilized natural gas enters the combustion component 3 after passing through the drying device 4 to be combusted and consumed.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, heating device has realized the intensification heating of the jar body 1 through electric heating element 2, prevent that the phenomenon of jar appears freezing when temperature is low excessively, thereby can also realize the mixed oil heating to the jar body 1 in through electric heating element 2 simultaneously and accelerate volatilizing of natural gas, and realize the pressure release to the jar body 1 in through combustion assembly 3, burn too much natural gas at combustion assembly 3 and select the heat energy that produces when burning, thereby both can select reutilization and electric heating element 2 to heat for jar body 1 together and prevent to freeze the jar, thereby also can directly discharge the external world and realize giving the effect of jar internal decompression.

In one embodiment, the combustion assembly 3 comprises a heat pipe 31, a combustion chamber 32 and a chimney 33; drying device 4 through blast pipe 45 with combustion chamber 32 communicates, the tip of the jar body 1 is provided with burning socket, heat pipe 31 insert through burning socket to the inside of the jar body 1, be provided with the nozzle on the combustion chamber 32, the nozzle extends to in the heat pipe 31, chimney 33 with combustion chamber 32 communicates, combustion chamber 32 with the control cabinet 8 electricity is connected.

The working principle of the technical scheme is as follows: when the combustion assembly 3 is started, natural gas enters the combustion chamber 32 from the drying device 4 through the exhaust pipe 45 for combustion, at this time, the nozzles on the combustion chamber 32 can be controlled through the console 8, when the heat energy generated by combustion is required to be secondarily utilized, the nozzles on the combustion chamber 32 are opened, so that the burning flame can heat the heat conduction pipe 31 through the nozzles, thereby enabling the heat conduction pipe 31 to realize the operation of heating the tank body 1, the connection mode of the heat conduction pipe 31 is the same as that of the metal shell 22 of the electric heating assembly 2, and is also directly connected on the inner wall of the tank body 1, and a combustion socket is formed at the connection position, the combustion chamber is connected with the heat conduction pipe 31 through the combustion socket, thereby enabling the combustion chamber 32 and the nozzles to be completely positioned outside the tank body 1, the tank body 1 cannot explode due to combustion, when only the pressure reduction operation of the tank body 1 is carried out, the nozzles are in a closed state, the flame in the combustion chamber 32 does not enter the heat transfer pipe 31, and the heat transfer pipe 31 is not heated, but the flame is simply combusted in the combustion chamber 32 and the heat is released through the chimney 33, and when the concentration of the natural gas in the tank 1 is not high, the flame can be directly discharged through the chimney 33 without being combusted in the combustion chamber 32, and the pressure reduction operation can be performed.

The beneficial effects of the above technical scheme are that: through the design of the structure, the heat conduction pipe 31 is connected with the tank body 1 into a whole, so that the combustion chamber 32 and the nozzle are independent outside the tank body 1, explosion caused by the fact that mixed oil in the tank body 1 contacts with a fire source can be effectively avoided, meanwhile, heat transfer between the combustion chamber 32 and the heat conduction pipe 31 becomes controllable through the arrangement of the nozzle, and therefore the combustion assembly 3 can achieve the heating function of the tank body 1 to prevent the tank freezing phenomenon, and can also consume natural gas in the tank body 1 through the combustion chamber 32 to further reduce the pressure in the tank body 1, and combustion in the combustion chamber 32 or direct discharge to the outside through the chimney 33 can be selected according to the concentration of the natural gas in the tank body 1.

In one embodiment, the drying device 4 includes an intake pipe 41, a dryer 42, a bypass pipe 43, a return pipe 44, and the exhaust pipe 45; the intake pipe 41 with the shunt tubes 43 sets up respectively the both ends of desicator 42, desicator 42 passes through intake pipe 41 with the top intercommunication of the jar body 1, the blast pipe 45 with wet return 44 all with the shunt tubes 43 intercommunication, wet return 44 runs through the top of the jar body 1 and extends to in the jar body 1, the shunt tubes 43 pass through blast pipe 45 with combustion chamber 32 intercommunication, intake pipe 41 blast pipe 45 all with the control cabinet 8 electricity is connected.

The working principle of the technical scheme is as follows: because the oil that comes from the oil well is the mixed oil, impurity such as natural gas and water has been adulterated, in order to make the natural gas can burn in combustion chamber 32, need dry the natural gas, when will carrying out the drying, intake pipe 41 and blast pipe 45 can be opened to control cabinet 8, be provided with deoiling equipment such as silk screen demister on intake pipe 41 and filter the natural gas, then the natural gas can enter into desicator 42 and dry, the natural gas can be with liquid incombustible impurity separation such as water in desicator 42, the reposition of redundant personnel operation through shunt tubes 43 makes liquid impurity such as water can get back to the inside of jar body 1 again through wet return 44, and dry natural gas then can enter into combustion chamber 32 through blast pipe 45 and carry out subsequent burning.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, the switch of control cabinet 8 through control intake pipe 41 and blast pipe 45, thereby the atmospheric pressure size in the control jar body 1, the natural gas is through the filtration of deoiling equipment before getting into desicator 42, can avoid other impurity to enter into desicator 42, cause the reduction of drying efficiency, liquid impurity in the natural gas can be separated in desicator 42, and carry out the gas in shunt tubes 43, liquid reposition of redundant personnel, the natural gas enters into combustion chamber 32 through blast pipe 45, and liquid impurity then gets back to jar body 1 again through wet return 44 in, thereby avoid additionally setting up liquid recovery's device, simultaneously because the simple filtration that only goes through deoiling equipment and desicator 42 of intake pipe 41 does not pass through the purification, consequently directly discharge liquid impurity and can cause the waste of the energy.

In one embodiment, an oil filling port 11 is arranged on the side wall of the tank body 1, an oil outlet is arranged at the top of the tank body 1, and a sewage draining port 12 is arranged at the bottom of the tank body 1.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of above-mentioned structure, be provided with oil filler point 11 on the lateral wall and can make things convenient for the workman to operate, the top of the jar body 1 is provided with the oil-out, can jar internal gas pressure can upwards discharge through the pipeline with mixing oil when the oil-out is opened, is provided with drain 12 simultaneously in the bottom of the jar body 1 and can will subside the impurity discharge in jar body 1 bottom.

In one embodiment, the skid-mounted device comprises two i-beams and a plurality of the fixing anchors 5; the two I-shaped steels are respectively arranged on two sides of the tank body 1, and the fixed anchor 5 is arranged on the I-shaped steel.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of the structure, the two I-shaped steels are respectively arranged on the two sides of the tank body 1 to support the tank body 1, and meanwhile, the I-shaped steels are provided with the fixing anchors 5 penetrating to the ground, so that the oil storage device can enhance the fixing effect through the fixing anchors 5 no matter what landforms the oil storage device is arranged on.

In one embodiment, the tie-down anchor 5 comprises a housing 51 and a spreading device 52; the shell 51 is arranged on the I-shaped steel and penetrates through the I-shaped steel, a through hole is formed in the top of the shell 51, a first rotating shaft 511 is arranged on the top of the shell 51, the extension device 52 is arranged in the shell 51, and the extension device 52 comprises a fixed column 521, a supporting block 522 and an extension block 523; the top of the fixed column 521 is provided with a second rotating shaft 524, the positions of the first rotating shaft 511, the through hole and the second rotating shaft 524 are corresponding, the side wall of the fixed column 521 is provided with a plurality of limiting grooves, the inner wall of each limiting groove is provided with a first limiting hole, the supporting block 522 is arranged inside the fixed column 521, the side wall of the supporting block 522 is provided with a plurality of springs, the limiting grooves are internally provided with the extension blocks 523, the extension blocks 523 are provided with rotating shaft holes, the rotating shaft holes are internally provided with third rotating shafts 525, two ends of the third rotating shafts 525 are respectively inserted into the first limiting holes, the bottom of the extension blocks 523 is provided with a first boss 526, the top of the shell 51 is provided with a rotating wheel 512, the bottom of the rotating wheel 512 is provided with a clamping table 513, and the inside of the clamping table 513 is provided with a threaded rod 514, a connecting column 515 is arranged at the bottom of the threaded rod 514, the connecting column 515 is inserted into the first rotating shaft 511 and extends to the inside of the fixed column 521 through the through hole penetrating through the second rotating shaft 524, and the bottom of the connecting column 515 is connected with the top of the supporting block 522.

The working principle of the technical scheme is as follows: when the oil storage device is placed at an installation site, the rotating wheel 512 is screwed, the rotating wheel 512 rotates through the first rotating shaft 511 connected with the bottom of the clamping table 513, the rotating wheel 512 drives the threaded rod 514 to move in the vertical direction when rotating, the threaded rod 514 drives the connecting column 515 to move up and down together when moving, the connecting column 515 moves up and down along the axes of the first rotating shaft 511, the through hole, the second rotating shaft 524 and the fixed column 521, the fixed column 521 and the supporting block 522 are driven to move up and down when moving, when the supporting block 522 extends out of the fixed column 521, the extending block 523 on the fixed column 521 is pushed out by the spring on the supporting block 522, the extending block 523 rotates and opens by taking the third rotating shaft 525 as the shaft, the first boss 526 arranged at the bottom of the extending block 523 is embedded into the soil layer when the extending block 523 is opened, so that the fixed anchor 5 is hooked in the soil layer, thereby realizing the fixing function to the I-shaped steel.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, realize the control to extension piece 523 through runner 512, the bottom of extension piece 523 makes extension piece 523 can become the shape of barb because be provided with first boss 526 after opening to increase the atress with the soil layer through the extension piece 523 that expands, realize the barb and then make the anchor 5 can adapt to various topography and landform through first boss 526, and have enough strong land holding capacity to realize the fixed to the I-steel.

In one embodiment, the grounding means comprises a lead and a ground; the lead wire is arranged at the bottom of the tank body 1 and is electrically connected with the tank body 1, the ground wire is embedded underground, the end part of the lead wire is provided with an introduction end 6, the end part of the ground wire is provided with an access end 7, the introduction end 6 is spliced with the access end 7, the lead wire is electrically connected with the ground wire through the matching of the introduction end 6 and the access end 7,

the leading-in end 6 comprises a sliding sleeve 61, a connecting pipe 62, an elastic piece 63 and a fixing piece 64; the fixing part 64 is arranged on the lead, the elastic part 63 is arranged on the fixing part 64, the sliding sleeve 61 is connected with the fixing part 64 through the elastic part 63, the connecting pipe 62 is arranged at the end part of the lead, the connecting pipe 62 is positioned in the sliding sleeve 61, a plurality of sliding grooves 621, a plurality of second limiting holes 622 and a plurality of clamping heads 623 are arranged on the side wall of the connecting pipe 62, the sliding grooves 621 are communicated with the end part of the connecting pipe 62, the second limiting holes 622 are positioned between the sliding grooves 621 and the clamping heads 623,

the access end 7 comprises a cannula 71, a limiting plate 72, a double-sided plate 73 and a second boss 74; the limiting plate 72 is arranged on the ground, the insertion tube 71 is arranged on the limiting plate 72, a plurality of double-sided boards 73 are arranged on the side wall of the insertion tube 71, an outer boss 731 is arranged on the outer wall of each double-sided board 73, an inner boss 732 is arranged on the inner wall of each double-sided board 73, and the second boss 74 is arranged at the end part of the insertion tube 71;

the connecting pipe 62 is inserted into the insertion pipe 71, the inner boss 732 is clamped with the second limiting hole 622, the clamp 623 is clamped with the second boss 74, and the outer boss 731 is clamped with the inner wall of the sliding sleeve 61.

The working principle of the technical scheme is as follows: after the oil storage device is arranged, a ground wire is arranged on the ground at a proper position, and an access end 7 on the ground wire is connected with an inlet end 6 of a lead wire at the bottom of the tank body 1, so that the tank body 1 realizes the effect of grounding, when the leading-in end 6 and the leading-in end 7 are inserted, firstly, the sliding sleeve 61 of the leading-in end 6 is slid upwards to the limit position to fully compress the elastic piece 63, the connecting tube 62 is then inserted into the insertion tube 71, the inner bosses 732 on the double-sided plate 73 slide along the sliding grooves 621 on the connecting tube 62, then the inner boss 732 is clamped with the second limit hole 622, at this time, the clamp 623 can just be clamped with the inner wall of the second boss 74, then, release sliding sleeve 61, receive the effect of elastic component 63, sliding sleeve 61 can return the normal position, thereby the connection of leading-in 6 and access end 7 can be accomplished in the joint to the inner wall and the outer boss 731 of sliding sleeve 61 in the in-process that sliding sleeve 61 resets.

The beneficial effects of the above technical scheme are that: through the design of above-mentioned structure, set up the ground wire according to topography and landform subaerial, and be connected through incoming end 6 of incoming end 7 with the lead wire, thereby make jar body 1 ground connection, so alright avoid jar body 1 static and then the electric spark appears and lead to jar body 1 explosion when long-time the use appears, the ground wire separately sets up the restriction that can make earthing device disregard topography and landform with the lead wire, do not worry that the ground wire is too short enough not to ground or the overlength leads to mixed and disorderly, sliding sleeve 61 can effectively protect the leakproofness between incoming end 6 and the incoming end 7 to prevent that the entering of rainwater from leading to the earthing device damage simultaneously.

In one embodiment, the top of the tank 1 is provided with a pressure control device and a temperature control device, and the self-circulation step inside the tank 1 is as follows

S1: when the pressure of the natural gas in the tank body 1 is overlarge, the pressure control device is triggered;

s2: the pressure control device allows natural gas to enter the drying device 4, and the natural gas is dried through the drying device 4;

s3: conveying the dried natural gas into the combustion chamber 32, and simultaneously detecting the temperature of the outer wall of the tank body 1 by a temperature control device

S4: when T is_i≥T₀In the meantime, the combustion chamber 32 does not open the nozzle, so that the natural gas is combusted inside the combustion chamber 32 and discharged through the chimney 33; when T is_i<T₀At this time, the combustion chamber 32 opens the nozzle, so that the natural gas is combusted in the heat transfer pipe 31 through the nozzle of the combustion chamber 32 to heat the heat transfer pipe 31, wherein T_iIs the outer wall temperature, T, of the tank body 1₀Is a set critical temperature needing heating; the temperature control device can be represented by the formula

ΔT＝T_i-T₀＝(Qh)/(τtS)

Calculate T_i-T₀And controlling the opening and closing of the nozzle of the combustion chamber 32 through the positive and negative values of the difference and the range of the difference, wherein Q is the limit heat flow value of the tank body 1; h is the wall thickness of the tank body 1; tau is the heat conductivity coefficient of the tank body 1; t is time; and S is the section heat conduction area of the side wall of the tank body 1.

The working principle and the beneficial effects of the technical scheme are as follows: can the inside pressure value of real-time supervision jar body 1 through accuse pressure equipment avoid pressure too big, when needs decompression, can burn after the natural gas drying, in order to avoid causing the energy extravagant, need temperature control device to carry out real-time supervision to the outer wall of jar body 1 and then confirm whether the nozzle that needs open combustion chamber 32 carries out the reutilization to the heat of burning, avoid in time leading to freezing jar, frying jar and energy extravagant because of manual monitoring.

In one embodiment, in order to ensure that the I-steel can effectively support the tank body 1 without breaking,when the I-shaped steel is selected, the thickness H of the I-shaped steel is ensured to be larger than the limit bearing thickness H of the I-shaped steel₀I.e. H>H₀In which H is₀Can be represented by formula

Calculating and solving, wherein beta is the ratio of the length to the height of the I-steel; f is the pressure to the I-steel when the tank body 1 is full, rough calculation can be carried out according to the formula F which is rho Vg, rho is the oil density, V is the volume of the tank body 1, and g is the gravity acceleration; l is the length of the I-shaped steel; v is the Poisson's ratio of I-steel material; and delta h is the ultimate deformation in the height direction of the I-shaped steel, and E is the Young modulus of the I-shaped steel material.

The working principle and the beneficial effects of the technical scheme are as follows: through the design of the structure, the thickness of the I-steel can be selected according to the volume of the tank body 1, the width of the I-steel is generally the same as the thickness size, the I-steel with different thicknesses can be selected for the tank bodies 1 with different volumes through calculation according to a formula, the problem that the oil storage device is difficult to hoist due to the fact that the selected I-steel is too large in size is avoided, and meanwhile, the phenomenon that the fixing anchor 5 on the I-steel is crushed and cannot be taken out due to the fact that the fixing anchor 5 is pressed to deform by the tank body 1 when the I-steel is too small in size and used for a long time is also avoided.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the invention and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; may be mechanically coupled, may be electrically coupled or may be in communication with each other; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

While embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.