KR101173621B1 - Vaccum pump for oil vapor recovery - Google Patents

Abstract

The present invention relates to a vacuum pump for recovering steam, and more particularly, to a vacuum pump for recovering oil vapor.
The vacuum pump for recovering oil vapor according to the present invention includes a first pump case having a pumping space formed therein, a second pump case disposed at a rear side of the first pump case, and rotatably installed in a pumping space of the first pump case. A vane assembly and a pumping unit having a pump rotation shaft coupled to a center of the vane assembly; And a motor unit having a motor case coupled to a rear side of the second pump case, a motor cover coupled to a rear side of the motor case, a stator and a rotor installed in the motor case, and a motor rotating shaft coupled to a center of the rotor. do. A hollow part is formed in the second pump case, and the rear of the hollow part is sealed by the motor case of the motor unit, and the pump rotating shaft and the motor rotating shaft are fitted in the hollow part of the second pump case. It is done.

Description

Vacuum pump for oil vapor recovery {VACCUM PUMP FOR OIL VAPOR RECOVERY}

The present invention relates to a vacuum pump for recovering steam, and more particularly, to a vacuum pump for recovering oil vapor.

In general, oil storage tanks are buried underground in gas stations and oil storage stations, and a large amount of oil is stored in the oil storage tanks. The oil supply to this oil storage tank is made from the tank lorry, and a large amount of oil vapor is generated in the tank when the oil is loaded. These vapors contain toxic substances (benzene, toluene, xylene, NOX, aldehydes, etc.) that are harmful to the human body, which can cause air pollution. Accordingly, various vapor recovery apparatuses for preventing and recovering the release of vapor into the atmosphere have been disclosed.

On the other hand, various vacuum pumps are disclosed for forcibly sucking the vapor generated during the supply of oil to a vehicle through a gas tank and recovering the oil into the oil storage tank. The vacuum pump is composed of a pumping unit for sucking oil vapor and a motor for driving the pumping unit.

However, the conventional vacuum pump has a disadvantage in that the pumping unit and the motor have a complicated connection structure, and thus assembly thereof is not easy, and in particular, the sealing efficiency between the pumping unit and the motor is lowered and the pumping efficiency thereof is low.

The present invention has been made in view of the above, and an object thereof is to provide a vacuum pump for recovering oil vapor, which can improve the assemblability of the pumping unit and the motor.

In addition, an object of the present invention is to provide a vacuum pump for oil vapor recovery that can increase the pumping efficiency by significantly improving the sealing property between the pumping unit and the motor unit.

Vacuum pump for oil vapor recovery according to the present invention for achieving the above object,

A first pump case having a pumping space formed therein, a second pump case disposed at a rear side of the first pump case, a vane assembly rotatably installed in a pumping space of the first pump case, and coupled to a center of the vane assembly A pumping unit having a pump shaft; And

And a motor unit having a motor case coupled to a rear side of the second pump case, a motor cover coupled to a rear side of the motor case, a stator and a rotor installed in the motor case, and a motor rotating shaft coupled to a center of the rotor. ,

A hollow part is formed in the second pump case, and the rear of the hollow part is sealed by the motor case of the motor unit, and the pump rotating shaft and the motor rotating shaft are fitted in the hollow part of the second pump case. It is done.

The pumping space communicates with the inflow passage through which oil vapor flows and the discharge passage through which the oil vapor is discharged, and each of the inflow passage and the discharge passage communicates with the pumping space through a communication section in a predetermined area, and an arc of the communication section of the inflow passage. The distance is formed relatively smaller than the circular arc distance of the communication cross section of the discharge passage, the communication cross section of the inflow passage and the communication cross section of the discharge passage is characterized in that both sides are formed to be inclined.

The rear surface of the first pump case is open, a stepped portion is formed at a rear edge of the first pump case, a stepped portion is formed at a front edge of the second pump case, and the stepped portion of the second pump case is formed of the first stepped portion. It is fitted to the stepped side of the first pump case, characterized in that the sealing material is interposed between the stepped step of the first pump case and the stepped step of the second pump case.

An accommodation groove is formed in the front center of the first pump case, one end of the motor rotation shaft and the support bearing are rotatably received in the accommodation groove, and the through hole is formed in the center of the second pump case. The pump rotating shaft passes through, the periphery of the through hole is formed with the first and second sealing member receiving groove and the bearing receiving groove, the first and second sealing member receiving groove is sealed in the bearing, the bearing receiving groove is supported It is characterized in that the bearing is accommodated.

A step is formed at the front edge of the motor case, the step of the motor case is fitted to the rear edge of the second pump case, an annular groove is formed at the periphery of the step, and the sealing member is installed at the annular groove. It is characterized by.

According to the present invention as described above, a predetermined interval is formed between the second pump case and the motor case by the hollow portion of the second pump case, the fitting groove of the pump rotation shaft and the fitting projection of the motor rotation shaft in the hollow portion. By combining, there is an advantage that the assembly is greatly improved.

In addition, the present invention has a structure in which the hollow portion of the second pump case is coupled to the motor case sealingly, the sealing property of the pumping space of the first pump case is greatly improved, so that the vacuum suction of the oil vapor is more smoothly made There is an advantage to improve the recovery efficiency.

1 is a view showing a state in which the vacuum pump for oil vapor recovery according to the present invention is installed on the oil storage tank side.
2 is a cross-sectional view showing a vacuum pump for recovering steam according to an embodiment of the present invention.
3 is a cross-sectional view taken along line AA of FIG. 2.
4 is a cross-sectional view taken along line BB of FIG. 3.
5 is an enlarged view illustrating an enlarged portion C of FIG. 2.
6 is an enlarged view illustrating an enlarged portion D of FIG. 2.
FIG. 7 is an enlarged view illustrating an enlarged portion E of FIG. 2.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 1, the oil vapor recovery vacuum pump 100 according to the present invention is installed on the lubricator (3) side, the recovery passage (1a) and the recovery passage of the oil storage tank (2) of the fuel tank (1) It is connected to the (2a) side, and thereby it is comprised so that the oil vapor | steam which generate | occur | produces at the time of oil fueling in the gasoline gun 1 to the oil storage tank 2 may be comprised.

2 to 7 is a view showing a vacuum pump for recovering oil vapor according to an embodiment of the present invention.

As shown, the vacuum pump 100 for recovering steam according to the present invention includes a pumping unit 10 and a motor unit 20 for driving the pumping unit 10.

The pumping unit 10 includes a first pump case 11 having a pumping space 11a formed therein, a second pump case 12 disposed on a rear surface of the first pump case 11, and a first pump case 11. It includes a vane assembly (15) rotatably installed in the pumping space (11a) of the pump shaft 16 coupled to the center of the vane assembly (15).

The first pump case 11 has a pumping space 11a formed therein, the pumping space 11a is formed in a circular shape, and the center line p2 of the pumping space 11a is the center line of the first pump case 11. Eccentric from (p1).

As shown in FIG. 3, an inflow passage 17 through which oil vapor is introduced and a discharge passage 18 through which oil vapor is discharged communicate with the pumping space 11a, and a recovery passage of the main oil gun 1 is introduced into the inflow passage 17. 1a is connected, and a recovery passage 2a of the oil storage tank 2 is connected to the discharge passage 18.

Each of the inflow passage 17 and the discharge passage 18 communicates with the pumping space 11a in a predetermined area through respective communication sections 17a and 18a. The arc distance w1 of the communication cross section 17a of the inflow passage 17 is formed to be relatively smaller than the arc distance w2 of the communication cross section 18a of the discharge passage 18, thereby communicating the inflow passage 17. The end face 17a has a smaller area than the communication end face 18a of the discharge passage 18. As a result, the discharge capacity of the vapor can be increased, thereby increasing the recovery efficiency of the vapor.

In addition, the communication cross-section 17a of the inflow passage 17 and the communication cross-sections 17a and 18a of the discharge passage 18 are inclined at both sides 17b and 18b, as shown in FIG. You can make the flow more smoothly.

An accommodating groove 11b is formed in a central portion of the front surface of the first pump case 11, and one end of the rotating shaft 16 and the support bearing 36 may be rotatably accommodated in the accommodating groove 11b. The rear surface of the first pump case 11 is open, and as shown in FIG. 5, a step 11c is formed at the rear edge of the first pump case 11.

The second pump case 12 is coupled to close the rear surface of the first pump case 11, and a stepped portion 12c is formed at the front edge of the second pump case 12 as shown in FIGS. 2 and 5. As shown in FIGS. 2 and 5, the step 12c of the second pump case 12 is fitted to the step 11c of the first pump case 11, and in particular, the step of the first pump case 11. A sealing material 31 such as an O-ring is interposed between the 11c and the stepped portion 12c of the second pump case 12, so that the pumping space 11a of the first pump case 11 has a sealing property. Is improved.

As shown in FIG. 2 and FIG. 6, the second pump case 12 has a through hole 12a formed at a central portion thereof, and a pump rotation shaft 16 penetrates through the through hole 12a. In the periphery of 12a, the 1st and 2nd sealing material accommodation grooves 13a and 13b and the bearing accommodation groove 13c are formed. The sealing material 32, such as an O-ring, is accommodated in the 1st sealing material accommodating groove 13a, and the retainer 34 which supports the sealing material 33 is accommodated in the 2nd sealing material accommodating groove 13b. In addition, the bearing bearing groove 13c accommodates the support bearing 35, and the support bearing 35 rotatably supports one side of the pump rotation shaft 16. The sealing materials 33 and 34 greatly improve the sealing property of the pumping space 11a of the first pump case 11.

The hollow part 12b is formed in the 2nd pump case 12, and the rear part of the hollow part 12b of the 2nd pump case 12 is sealed by the motor case 21 of the motor unit 20 mentioned later. do.

The vane assembly 15 includes a rotor 15a rotatably installed in the pumping space 11a and a plurality of vanes 15b radially disposed on an outer circumferential surface of the rotor 15a.

The pump rotation shaft 16 is coupled to the center of the rotor 15a of the vane assembly 15, and in particular, the pump rotation shaft 16 may be firmly coupled to the center of the rotor 15a through a key 16b.

The pump rotation shaft 16 is positioned on the same axis as the first and second pump cases 11 and 12, and one end of the pump rotation shaft 16 is accommodated in the receiving groove 11b side of the first pump case 11. One end of the pump rotation shaft 16 is rotatably supported by the support bearing 36.

A fitting groove 16a is formed at the other end of the pump rotating shaft 16, and a motor rotating shaft 26 to be described later is fitted to the fitting groove 16a of the rotating shaft 16.

The motor unit 20 includes the motor case 21, the motor cover 22 coupled to the rear of the motor case 21, the stator 23 and the rotor 24 installed in the motor case 21, and the rotor 24. It includes a motor rotating shaft 26 coupled to the center.

As shown in FIGS. 2 and 7, the motor case 21 has a step 21a formed at the front edge thereof, and the step 21a of the motor case 21 is disposed at the rear edge of the second pump case 12. Is fitted. An annular groove 21b is formed around the stepped portion 21a, and a sealing material 37 is provided in the annular groove 21b. Accordingly, the sealing member 37 is interposed between the rear edge of the second pump case 12 and the stepped portion 21a to improve the sealing property of the hollow part 12b of the second pump case 12.

In the motor case 21, a stepper 23 and a rotor 24 are installed, and a motor rotation shaft 26 is coupled to the center of the rotor 24, and the motor rotation shaft 26 includes one or more support bearings 37, 38) is supported by rotation.

A fitting protrusion 26a is formed at one end of the motor rotating shaft 26, and the fitting protrusion 26a is fitted to the fitting groove 16b side of the pump rotating shaft 16. In particular, the fitting projection 26a of the motor rotation shaft 26 and the fitting groove 16b of the pump rotation shaft 16 are pumped as they are configured to be fitted in the hollow portion 12b of the second pump case 12. The assemblability of the unit 10 and the motor unit 20 can be greatly improved.

The motor cover 22 is coupled to the rear surface of the motor case 21, and an accommodating groove 22a is formed in the inner center of the motor cover 22, and a support bearing 37 is installed in the accommodating groove 22a. . Accordingly, the other end of the motor rotation shaft 26 is rotatably supported by the support bearing 37 in the receiving groove 22a. The motor cable 27 is connected to the motor cover 22 side.

According to the present invention as described above, a predetermined interval is formed between the second pump case 12 and the motor case 21 by the hollow portion 12b of the second pump case 12, the hollow portion 12b The fitting groove 16a of the pump rotating shaft 16 and the fitting protrusion 26a of the motor rotating shaft 26 are fitted therein, and thus, assemblability thereof is greatly improved.

In addition, according to the present invention, since the hollow part 12b of the second pump case 12 is configured to be sealingly coupled to the motor case 21, the pumping space 11a of the first pump case 11 may be formed. The sealability is greatly improved, so that vacuum suction of the vapor is more smoothly performed, thereby improving the recovery efficiency of the vapor.

10: pumping unit 11: the first pump case
12: second pump case 15: vane assembly
16: pump rotating shaft
20: motor unit 21: motor case
22: motor cover 23: stator
24: rotor 26: moto rotary shaft

Claims (5)

A first pump case having a pumping space formed therein, a second pump case disposed at a rear side of the first pump case, a vane assembly rotatably installed in a pumping space of the first pump case, and coupled to a center of the vane assembly A pumping unit having a pump shaft; And
And a motor unit having a motor case coupled to a rear side of the second pump case, a motor cover coupled to a rear side of the motor case, a stator and a rotor installed in the motor case, and a motor rotating shaft coupled to a center of the rotor. ,
The hollow part is formed in the second pump case, the rear of the hollow part is sealed by the motor case of the motor unit, the pump rotation shaft and the motor rotation shaft is fitted in the hollow portion of the second pump case,
The pumping space communicates with the inflow passage through which oil vapor flows and the discharge passage through which the oil vapor is discharged, and each of the inflow passage and the discharge passage communicates with the pumping space through a communication section in a predetermined manner, and an arc of the communication section of the inflow passage. The distance is formed relatively smaller than the circular arc distance of the communication cross section of the discharge passage, the communication cross section of the inlet passage and the communication cross section of the discharge passage is characterized in that both sides of the inclined vacuum pump for recovery of the steam. delete The method of claim 1,
The rear surface of the first pump case is open, a stepped portion is formed at a rear edge of the first pump case, a stepped portion is formed at a front edge of the second pump case, and the stepped portion of the second pump case is formed of the first stepped portion. The first pump case is fitted on the stepped side, the vacuum pump for oil vapor recovery, characterized in that the sealing material is interposed between the stepped step of the first pump case and the second step. The method of claim 1,
An accommodation groove is formed in the front center of the first pump case, and one end of the motor shaft and the support bearing are rotatably received in the accommodation groove.
The second pump case has a through hole formed in a central portion thereof, a pump rotation shaft penetrates through the through hole, first and second seal member receiving grooves and a bearing receiving groove are formed around the through hole. The sealing member is accommodated in the second sealing member receiving groove, the support pump is accommodated in the bearing receiving groove, the vacuum pump for recovering steam. The method of claim 1,
A step is formed at the front edge of the motor case, the step of the motor case is fitted to the rear edge of the second pump case, an annular groove is formed at the periphery of the step, and the sealing member is installed at the annular groove. Vacuum pump for recovering steam, characterized in that.

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