RU2661547C2 - Metering pump for the odorant supply - Google Patents

Abstract

FIELD: motors and pumps.

SUBSTANCE: invention relates to the field of metering pumps designing, in particular, metering pumps of the gas distribution stations (GDS) odorization units, serving for the odorants into the gas supply to give it an odor. Odorant supply metering pump comprises a housing with the integrated therein bellows with cavities for cyclic receiving the control gas through the solenoid valve and, accordingly, for the odorant receiving and supply into the gas supply line to the consumer through the check valves, according to the invention, three coaxially arranged bellows are located in the metering pump housing, which left-hand parts are hermetically (welded or soldered) embedded in the spacer between the housing and the cover, and the right-hand parts are equipped with guides placed in the metering pump other cover supports, at that, the cavities between the outer and middle bellows and inside the inner bellows are communicating through the openings in the spacer with the odorant receiving-supply cavity between the cover and the spacer, and the cavity between the inner bellows and the middle bellows, as well as the cavity between the external bellows and the metering pump housing through the holes in the guides are communicated with the cavity between the guides and the control gas receiving cover through the solenoid valve, wherein between the spacer and the outer bellows guide the return spring is arranged, and the inner bellows guide also has a rod arranged in the metering pump cover, at that, on the rod a movable stop is installed.

EFFECT: increase in the odorant dose per one odorant intake-supply cycle by the metering pump, as well as ensuring an accurate dose adjustment.

1 cl, 1 dwg

Description

The invention relates to the field of designing metering pumps, in particular metering pumps for odorization units of gas distribution stations (GRS), which serve to supply odorants to gas to give it a smell.

A metering pump is known for supplying an odorant (ethyl mercaptan, a mixture of mercaptans — colorless with a sharp unpleasant odor of a combustible poisonous liquid) into a gas stream to a gas distribution system containing two bodies with covers, while one of the covers of the first body is equipped with two check valves for receiving and transmitting an odorant from the cavity between the cover, the metering pump housing and the piston with lip seals, the piston of the metering pump via a rod connected to the second piston located in the second housing with the covers forming the cavities for receiving control gas (operating manual for the metering pump AGS 107.00.00.000-8 RE LLC NPP Aviagaz-Soyuz + ").

The disadvantage of the above metering pump is the possibility of leakage of odorant through seals (including due to wear) in the environment.

The closest set of essential features to the claimed technical solution is a metering pump containing a housing with an integrated bellows with cavities for cyclically receiving the control gas through an electromagnetic valve and, accordingly, for receiving and supplying an odorant to the gas stream through non-return valves. In the well-known technical solution, the issue of eliminating odorant leaks has been resolved, since there are no movable seals for odorant cavities and control gas cavities in its design (article "New Developments of Aviagaz-Soyuz + NPP LLC" to Ensure Import Substitution "by IM Khabibullin, M.G. Khabibullina, G.A. Glebov, A.I. Yakimov, publ. In the journal "Territory NEFTEGAZ" No. 9 September 2016, p. 40-41).

The disadvantage of this technical solution is the limited amount of dose provided by the bellows during its movement.

The technical task of the proposed technical solution is to increase the dose of the odorant in one cycle of receiving and supplying the odorant by the metering pump, as well as ensuring accurate dose adjustment.

The technical problem to be solved is in a metering pump for supplying an odorant containing a housing with a bellows built-in to it with cavities for cyclically receiving a control gas through an electromagnetic valve and, accordingly, for receiving and supplying an odorant to a gas supply line to a consumer through reverse valves, according to the proposed technical solution in the housing the metering pump contains three coaxially arranged bellows, the left parts of which are hermetically sealed (welding or soldering), are sealed in the spacer between the body and the cover, and the right ones are equipped with bore holes located in the supports of the other cover of the metering pump, while the cavities between the outer and middle bellows and inside the inner bellows are communicated through holes in the spacer with the receiving-supply cavity of the odorant between the cover and the spacer, and the cavity between the inner bellows and the middle bellows, as well as the cavity between the outer bellows and the metering pump housing through the openings in the guides communicates with the cavity between the guides and the cover for receiving the control gas through the solenoid valve, and between the spacer and ravlyaetsya external return spring bellows arranged also guide the internal rod has a bellows disposed in the cover of the metering pump, while on the rod a movable abutment.

The technical result of the claimed technical solution is the ability to increase the dose of the odorant in one unit without resorting to a strong increase in its size or increase in the number of metering pumps, while ensuring complete tightness of the cavities of the metering pump, eliminating the possibility of leakage of the odorant out into the environment. It is also possible to accurately adjust the dose of the odorant, which will avoid over-spending of an expensive odorant.

The analysis of known technical solutions in this technical field showed that the claimed technical solution has features that are not in the analogues, and their use in the claimed combination of essential features allows to obtain a new technical result. Therefore, the claimed technical solution meets the conditions of patentability "novelty" and "inventive step".

The invention is illustrated in figure 1, which shows a structural diagram of a metering pump for supplying an odorant.

The metering pump for supplying an odorant consists of body 1, three bellows coaxially placed in it: 2 - internal, 3 - medium and 4 - external. Steel bellows are hermetically sealed (welding or soldering) in a spacer 5 placed between the body 1 and cover 6. On the other (right) side, the inner bellows 2 are hermetically connected to the guide 7, and the middle bellows 3 and the outer bellows 4 are hermetically connected to the guide 8. Both guides 7 and 8 can move along the supports 9 of the cover 10 of the metering pump. The cavity 11 between the outer 4 and the middle 3 bellows and the cavity 12 of the inner bellows 2 through the holes 13 and 14 in the spacer 5 are in communication with the cavity 15 between the cover 6 and the spacer 5. This cavity 15 is used to receive and feed the odorant through the check valves 16 and 17, respectively .

The cavity 18 between the inner bellows 2 and the middle bellows 3, as well as the cavity 19 between the outer bellows 4 and the housing 1 through openings 20, 21 and 22 in the guides 7 and 8 are communicated with a cavity 23 between these guides and the cover 10, which serves to receive the control gas from the solenoid valve 24 through line 25. Line 26 is the control gas supply line, and line 27 with the check valve 28 serves to discharge gas into the low pressure line. Between the spacer 5 and the guide 7 is placed a return spring 29, which duplicates the elasticity of the steel bellows 3 and 4 to return them to their original position in the cycle of receiving the odorant. The movable stop 30 on the rod 31 is used to accurately adjust the dose of the odorant.

The metering pump for the supply of odorant works as follows. In the initial state, when the power supply is removed from the solenoid valve 24, the control gas from the cavity 23 along lines 25 and 27 and the non-return valve 28 are discharged to the low pressure line, due to which the bellows 2, 3 and 4 due to their elasticity, and the bellows 4 and 3 additionally due to the spring 29, are shifted to the right, and the cavity 15, 11 and 12 through the check valve 16 and the holes 13 and 14 are filled with an odorant.

When applying power to the solenoid valve 24, the control gas from the supply line 26 through line 25 enters through the cavity 23 and then through the openings 20, 22 and 21 in the cavity 19 and 18 of the bellows, compressing them. The odorant is extruded from the cavities 11, 12 and 15 through the check valve 17 into the gas supply line to the consumer. In this case, the check valve 16 closes the inlet of the odorant.

The dose of the odorant supplied is determined by the volume of the cavities 11 and 12, and the required number of doses and the odorant consumption is determined by the number of cycles for turning on the electromagnetic valve 24. To fine-tune the dose by moving the movable stop 30, set the necessary movement of the bellows 2 to the left to reduce the volume of the cavity 12 of this bellows in the cycle of the odorant or moving the bellows to the right to increase the volume of the cavity 12 in the same cycle.

The technical result achieved in the claimed technical solution is ensured due to the fact that three coaxially arranged bellows in the metering pump housing for supplying an odorant can increase the odorant dose in one unit without resorting to a strong increase in its size or an increase in the number of metering pumps due to the fact that the left parts of the bellows are hermetically sealed (welding or soldering) in the spacer between the body and the cover, and the right parts are provided with guides placed in the supports of the other cover of the metering pump, In this case, the cavities between the outer and middle bellows and inside the inner bellows are communicated through holes in the spacer with the odorant receiving-supply cavity between the cover and the spacer, and the cavity between the inner bellows and the middle bellows, as well as the cavity between the outer bellows and the metering pump body, through the openings in the guides are in communication with the cavity between the guides and the cover for receiving the control gas through the solenoid valve, thereby ensuring a complete tightness of the metering pump for supplying an odorant, and the presence of Vision abutment on the stock rail inner bellow, placed in the cover of the metering pump for supplying odorant enables accurate dosage adjustment odorant.

Claims (2)

1. A dosing pump for supplying an odorant, comprising a housing with an integrated bellows with cavities for cyclically receiving a control gas through an electromagnetic valve and, respectively, for receiving and supplying an odorant to a gas supply line to a consumer through non-return valves, characterized in that in the pump housing three coaxially located bellows are placed on the dispenser, the left parts of which are hermetically sealed (welding or soldering) are sealed in the spacer between the body and the cover, and the right ones are equipped with guides placed in the supports of the other pump cover - ozator, while the cavities between the outer and middle bellows and inside the inner bellows are communicated through openings in the spacer with the receiving-supply cavity of the odorant between the cover and the spacer, and the cavity between the inner bellows and the middle bellows, as well as the cavity between the outer bellows and the metering pump housing through the openings in the guides communicated with the cavity between the guides and the cover for receiving the control gas through the solenoid valve, and between the spacer and the guide of the external bellows placed return ins. 2. A metering pump for supplying an odorant according to claim 1, characterized in that the guide of the internal bellows has a rod located in the cover of the metering pump, and a movable stop is installed on the rod.

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