CN116517731B - Gas cooling and dewatering equipment of gas generator set - Google Patents

Abstract

The invention discloses a gas cooling and dehydrating device of a gas generator set, which comprises a dehydrating tank, wherein a gas inlet pipe and a gas outlet pipe II are fixed on the dehydrating tank, a valve is fixedly arranged on the gas inlet pipe, a cooling tank is fixedly arranged in the dehydrating tank, a condenser and a tank body are fixedly arranged on the dehydrating tank, and the cooling tank, the condenser and the tank body are communicated through a guide pipe. The advantages are that: can absorb the water that separates out in the gas and collect, then cooperate the water catch bowl to collect the discharge to absorbing water, reduce the water that separates out and mix with the gas again for dehydration is more thorough, still can change the pressure in the dehydration box simultaneously, need not to let in the gas and adjusts, can effectually improve dehydration efficiency, can suck the gas at last, makes discharge efficiency higher.

Description

Gas cooling and dewatering equipment of gas generator set

Technical Field

The invention relates to the technical field of gas dehydration, in particular to gas cooling and dehydration equipment of a gas generator set.

Background

The gas generator is a novel efficient new energy generator which takes combustible gas such as liquefied gas, natural gas and the like as combustion matters and takes gasoline and diesel oil as engine power, and has the advantages of wide output power range, reliable and high starting and running, good power generation quality, light weight, small volume, simple maintenance, low-frequency noise and the like.

The existing warm dehydration equipment has the following defects in the specific use process: 1. the water separated out by cooling cannot be discharged, so that the dehydration efficiency is affected; 2. the pressure in the dewatering box is fixed, and the pressure in the dewatering box can be changed only by introducing fuel gas in the dewatering process, so that the fuel gas in the dewatering box is increased, and the dewatering efficiency is reduced; 3. the dehydrated fuel gas is discharged from the dehydration tank through the buoyancy of the dehydrated fuel gas, and the discharge speed is slow.

Therefore, the novel gas cooling and dehydrating equipment of the gas generator set can be adopted to solve the defects in the prior art.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a gas cooling and dehydrating device of a gas generator set.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the utility model provides a gas generator set's gas cooling dewatering equipment, includes the dehydration box, fixed case has intake pipe and blast pipe two on the dehydration box, fixed mounting has the valve in the intake pipe, fixed mounting has the cooling box in the dehydration box, fixed mounting has condenser and box on the dehydration box, be linked together through the pipe between three between cooling box, condenser and the box, fixed mounting has the pump on one of them pipe, the pump is located inside the box, fixed mounting has two water catch bowl in the dehydration box, two equal fixed mounting has a fixed frame on the water catch bowl, two equal slidable mounting has a water absorption board on the fixed frame, offer two with corresponding water absorption board matched with get on the dehydration box put the hole, two get and all have a plug on putting the hole, fixed intercommunication has the pressure regulating pipe on the dehydration box, the pressure regulating pipe is provided with a piston I in a sliding way, the piston I is provided with a push rod in a fixed way, a locking mechanism is arranged between the push rod and the pressure regulating pipe, the dewatering box is provided with an exhaust pipe II in a fixed way, the exhaust pipe II is provided with an exhaust pipe I in a fixed way, the exhaust pipe I is provided with a partition board I in a fixed way, the exhaust pipe II is provided with a partition board II, the exhaust pipe I is provided with a control mechanism I matched with the partition board I, the exhaust pipe II is provided with a control mechanism II matched with the partition board II, the exhaust pipe I is provided with a piston II in a sliding way, the piston II is provided with a connecting rod in a fixed way, the connecting rod is provided with a slide rod in a fixed way, the slide rod is provided with a sleeve in a sliding way, the sleeve is provided with a rotating shaft in a rotating way, the rotating shaft is provided with a disc in a fixed way, the dewatering box is provided with a motor in a fixed way, the motor driving end is fixedly connected with the center of the disc.

In the gas cooling and dewatering equipment of the gas generator set, the dewatering box is provided with a plurality of retaining plates matched with the water absorbing plate in a sliding mode, and a first spring is fixedly arranged between each retaining plate and the dewatering box.

In the gas cooling and dehydrating device of the gas generator set, each retaining plate is fixedly provided with a sliding block, and the dehydrating tank is provided with a plurality of sliding grooves matched with the corresponding sliding blocks.

In the above-mentioned gas power generation unit's gas cooling dehydration equipment, fixed mounting has two nuts on the dehydration box, two equal screw thread rotation is installed on the nut has a screw rod, two equal rotation is installed on the screw rod one with corresponding shutoff stopper matched with cardboard, two be connected for rotating between cardboard and the dehydration box.

In the above-mentioned gas cooling dewatering equipment of gas generating set, locking mechanical system includes sliding sleeve, inserted column and slot, fixed mounting has two sliding sleeves on the pressure regulating pipe, two equal slidable mounting has an inserted column on the sliding sleeve, a plurality of and corresponding inserted column matched with slot have been seted up on the push rod.

In the above-mentioned gas power generation unit's gas cooling dehydration equipment, two equal fixed mounting has two gleitbretter on the sliding sleeve, two all offer two with corresponding gleitbretter matched with cell body on the inserted bar.

In the above-mentioned gas cooling dehydration equipment of gas generating set, two fixed block is all fixed mounting on the inserted bar, two fixed block and corresponding sliding sleeve between all fixed mounting have a spring two.

In the above-mentioned gas cooling dehydration equipment of gas generating set, control mechanism one includes limiting plate two, traveller, spring four, hole stopper two and exhaust hole two, exhaust hole two has been seted up on the baffle one, fixed mounting has limiting plate two on the baffle one, slidable mounting has a plurality of travellers on the limiting plate two, a plurality of common fixed mounting have one with exhaust hole two matched with hole stopper two on the traveller, fixed mounting has a spring four between hole stopper two and the limiting plate two.

In the gas cooling and dewatering equipment of the gas generator set, the second control mechanism comprises a first limiting plate, a first limiting rod, a third spring, a first hole plug and a first exhaust hole, the first exhaust hole is formed in the second baffle, the first limiting plate is fixedly installed on the second baffle, a plurality of limiting rods are slidably installed on the first limiting plate, a first hole plug matched with the first exhaust hole is fixedly installed on the plurality of limiting rods, a supporting rod is fixedly installed in the second exhaust pipe, and the third spring is fixedly installed between the first hole plug and the first hole plug.

In the gas cooling and dehydrating device of the gas generator set, the sliding rod is rotatably provided with a plurality of rollers, and the sleeve is provided with two track grooves matched with the corresponding rollers.

Compared with the prior art, the invention has the advantages that:

1: through setting up the water absorption board, can absorb the collection to the water that separates out in the gas, then cooperate the water catch bowl to collect the discharge to the water that absorbs, reduce the water that separates out and mix with the gas again for the dehydration is more thorough.

2: through setting up pressure regulating pipe, piston one and push rod, can change the space in the dehydration box to this changes the pressure in the dehydration box, need not to let in the gas and adjusts, can effectually improve dehydration efficiency.

3: through setting up blast pipe one, blast pipe two, motor, slide bar, pivot, disc, piston two, can be with the gas suction in the dehydration box, for discharging through gas self buoyancy, suction discharge efficiency is higher.

In summary, the invention can absorb and collect water precipitated in the fuel gas, then collect and discharge the absorbed water by matching with the water collecting tank, reduce the mixing of the precipitated water and the fuel gas again, so that the dehydration is more thorough, simultaneously, the pressure in the dehydration tank can be changed, the adjustment by introducing the fuel gas is not needed, the dehydration efficiency can be effectively improved, and finally the fuel gas can be sucked out, so that the discharge efficiency is higher.

Drawings

The invention is described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a schematic diagram of a gas cooling and dehydrating device of a gas generator set according to the present invention;

FIG. 2 is an enlarged schematic detail side cross-sectional view of the portion of the cooler bin of FIG. 1;

FIG. 3 is an enlarged schematic detail view of the suction plate portion of FIG. 1;

FIG. 4 is an enlarged schematic detail view of portion A of FIG. 3;

FIG. 5 is an enlarged schematic detail view of the pressure regulating tube portion of FIG. 1;

FIG. 6 is an enlarged schematic detail view of a portion of the exhaust pipe of FIG. 1;

FIG. 7 is an enlarged schematic detail view of two portions of the separator of FIG. 6;

fig. 8 is an enlarged schematic detail view of the slide bar portion of fig. 6.

In the figure: 1 dewatering box, 2 intake pipe, 3 valve, 4 cooling box, 5 condenser, 6 box, 7 pump, 8 water catch bowl, 9 water absorbing plate, 10 fixed frame, 11 butt plate, 12 sealing plug, 13 cardboard, 14 screw, 15 nut, 16 slider, 17 spout, 18 spring one, 19 pressure regulating pipe, 20 piston one, 21 push rod, 22 sliding sleeve, 23 plunger, 24 spring two, 25 fixed block, 26 slot, 27 blast pipe one, 28 piston two, 29 blast pipe two, 30 supporting rod, 31 spring three, 32 hole plug one, 33 limiting plate one, 34 baffle one, 35 connecting rod, 36 slide rod, 37 motor, 38 disc, 39 pivot, 40 limiting plate two, 41 sliding column, 42 spring four, 43 hole plug two, 44 exhaust hole two, 45 sleeve, 46 roller.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to figures 1-8, a gas cooling and dewatering device of a gas generator set comprises a dewatering box 1, wherein a case is fixed on the dewatering box 1, an air inlet pipe 2 and an air outlet pipe two 29 are arranged on the dewatering box 1, a valve 3 is fixedly arranged on the air inlet pipe 2, a cooling box 4 is fixedly arranged in the dewatering box 1, a condenser 5 and a box body 6 are fixedly arranged on the dewatering box 1, the cooling box 4, the condenser 5 and the box body 6 are communicated through pipes, a pump 7 is fixedly arranged on one pipe, the pump 7 is positioned in the box body 6, two water collecting tanks 8 are fixedly arranged in the dewatering box 1, a fixing frame 10 is fixedly arranged on the two water collecting tanks 8, a water absorbing plate 9 is slidingly arranged on the two fixing frames 10, two taking and placing holes matched with the corresponding water absorbing plate 9 are arranged on the dewatering box 1, a plugging plug 12 is plugged on the two taking and placing holes, the dewatering box 1 is fixedly communicated with a pressure regulating pipe 19, a piston 20 is slidably arranged on the pressure regulating pipe 19, a push rod 21 is fixedly arranged on the piston 20, a locking mechanism is arranged between the push rod 21 and the pressure regulating pipe 19, an exhaust pipe 29 is fixedly communicated with the dewatering box 1, an exhaust pipe 27 is fixedly communicated with the exhaust pipe 29, a partition plate 34 is fixedly arranged on the exhaust pipe 27, a partition plate II is fixedly arranged on the exhaust pipe 29, a control mechanism I matched with the partition plate 34 is arranged on the exhaust pipe 27, a control mechanism II matched with the partition plate is arranged on the exhaust pipe 29, a piston 28 is slidably arranged on the exhaust pipe 27, a connecting rod 35 is fixedly arranged on the piston 28, a slide bar 36 is fixedly arranged on the connecting rod 35, a sleeve 45 is slidably arranged on the slide bar 36, a rotating shaft 39 is rotatably arranged on the sleeve 45, a disc 38 is fixedly arranged on the rotating shaft 39, a motor 37 is fixedly arranged on the dewatering box 1, and the driving end of the motor 37 is fixedly connected with the center of a disc 38;

the following points are notable:

1. the dewatering box 1 is provided with a plurality of retaining plates 11 matched with the water absorbing plate 9 in a sliding manner, and a spring I18 is fixedly arranged between each retaining plate 11 and the dewatering box 1, so that the purpose of squeezing and dewatering water on the water absorbing plate 9 is achieved.

2. Each retaining plate 11 is fixedly provided with a sliding block 16, and the dewatering box 1 is provided with a plurality of sliding grooves 17 matched with the corresponding sliding blocks 16, so that the retaining plates 11 can slide on the dewatering box 1 more smoothly.

3. The dewatering box 1 is fixedly provided with two nuts 15, the two nuts 15 are provided with a screw 14 in a threaded rotation mode, the two screws 14 are provided with a clamping plate 13 matched with the corresponding plugging block 12 in a rotating mode, the two clamping plates 13 are connected with the dewatering box 1 in a rotating mode, and the plugging block 12 is prevented from being flushed by air pressure due to the fact that the plugging block 12 is locked.

4. The locking mechanism comprises sliding sleeves 22, inserting columns 23 and inserting grooves 26, two sliding sleeves 22 are fixedly arranged on the pressure regulating pipe 19, one inserting column 23 is slidably arranged on each sliding sleeve 22, a plurality of inserting grooves 26 matched with the corresponding inserting columns 23 are formed in the push rod 21, and the function of the locking mechanism is to fix the push rod 21, so that the pressure in the dewatering box 1 is stable.

5. Two sliding sheets are fixedly installed on the two sliding sleeves 22, two groove bodies matched with the corresponding sliding sheets are formed in the two inserting columns 23, and the function of the arrangement is to limit the inserting columns 23 and prevent the inserting columns 23 from rotating.

6. The two inserting columns 23 are fixedly provided with the fixing blocks 25, the two fixing blocks 25 and the corresponding sliding sleeves 22 are fixedly provided with the springs II 24, and the effect of the arrangement is to increase the clamping force between the inserting columns 23 and the slots 26 and improve the clamping stability.

7. The first control mechanism comprises a second limiting plate 40, a sliding column 41, a fourth spring 42, a second hole plug 43 and a second exhaust hole 44, the second exhaust hole 44 is formed in the first partition plate 34, the second limiting plate 40 is fixedly installed on the first partition plate 34, a plurality of sliding columns 41 are slidably installed on the second limiting plate 40, the second hole plug 43 matched with the second exhaust hole 44 is fixedly installed on the sliding columns 41 together, the fourth spring 42 is fixedly installed between the second hole plug 43 and the second limiting plate 40, and the function of the arrangement is to plug the first exhaust pipe 27 and prevent backflow of gas exhausted from the first exhaust pipe 27.

8. The second control mechanism comprises a first limiting plate 33, a limiting rod, a third spring 31, a first hole plug 32 and a first exhaust hole, the first exhaust hole is formed in the second partition plate, the first limiting plate 33 is fixedly arranged on the second partition plate, a plurality of limiting rods are slidably arranged on the first limiting plate 33, a first hole plug 32 matched with the first exhaust hole is fixedly arranged on the limiting rods, a supporting rod 30 is fixedly arranged in the second exhaust pipe 29, a third spring 31 is fixedly arranged between the first hole plug 32 and the supporting rod 30, and the function of the second control mechanism is to seal the second exhaust pipe 29 and prevent fuel gas in the second exhaust pipe 29 from flowing back into the dehydration tank 1.

9. The sliding rod 36 is rotatably provided with a plurality of rollers 46, and the sleeve 45 is provided with two track grooves matched with the corresponding rollers 46, so that friction force is reduced, and the sleeve 45 slides on the sliding rod 36 more smoothly.

Firstly, gas is injected into a dewatering box 1 through an air inlet pipe 2, the gas quantity is controlled through a valve 3, cooling liquid condensed by a condenser 5 flows into a cooling box 4 to cool the gas, then the cooled gas is pumped by a pump 7 and returns to the condenser 5 again to be cooled, the cooled gas absorbs water through two water absorbing plates 9, once the water absorbing plates 9 absorb water and saturate, a screw 14 can be rotated, a clamping plate 13 is separated from a sealing plug 12 under the action of a nut 15, the water absorbing plates 9 can be pulled out at the moment, a resisting plate 11 can squeeze water on the water absorbing plates 9 to drop into a water collecting tank 8 in the pulling-out process, and then the water in the water collecting tank 8 is discharged;

pressure regulating of dewatering box 1: the inserted column 23 is pulled out of the slot 26, then the push rod 21 is pushed to enable the first piston 20 to move, so that the size of the space in the dewatering box 1 can be changed, the purpose of pressure regulation is achieved greatly, the inserted column 23 is loosened after the regulation is completed, and the inserted column 23 is clamped with the other slot 26 under the action of the second spring 24;

after the fuel gas is introduced, the motor 37 is started, the motor 37 drives the disc 38 to rotate, and the sleeve 45 is driven to do circular motion under the action of the rotating shaft 39, so that the sleeve 45 stretches on the slide bar 36, and simultaneously drives the connecting rod 35 and the piston II 28 to reciprocate; when the piston II 28 moves to the side far away from the partition plate I34, the piston II will press the hole plug I32 to separate from the exhaust hole I, and suck the air in the dewatering box 1 into the exhaust pipe I27; when the second piston 28 moves to the side close to the first partition 34, the second plug 43 is pressed to separate from the second exhaust hole 44, and the fuel gas in the first exhaust pipe 27 is exhausted.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (2)

1. The utility model provides a gas cooling dewatering equipment of gas generating set, includes dewatering box (1), its characterized in that, fixedly mounted has intake pipe (2) and blast pipe two (29) on dewatering box (1), fixedly mounted has valve (3) on intake pipe (2), fixedly mounted has cooling box (4) in dewatering box (1), fixedly mounted has condenser (5) and box (6) on dewatering box (1), be linked together through the pipe between three between cooling box (4), condenser (5) and box (6), fixedly mounted has pump (7) on one of them pipe, pump (7) are located inside box (6), inside fixedly mounted of dewatering box (1) has two water catch bowl (8), two equal fixed mounting has a fixed frame (10) on water catch bowl (8), two equal slidable mounting has a water absorption board (9) on fixed frame (10), offer two and correspond between water absorption board (9) and get hole, two on dewatering box (1) take place hole (19) on the plug (20) and install on the plug (20), a locking mechanism is arranged between the push rod (21) and the pressure regulating pipe (19), an exhaust pipe II (29) is fixedly communicated with the dewatering box (1), an exhaust pipe I (27) is fixedly communicated with the exhaust pipe II (29), a partition plate I (34) is fixedly arranged on the exhaust pipe I (27), a partition plate II is fixedly arranged on the exhaust pipe II (29), a control mechanism I matched with the partition plate I (34) is arranged on the exhaust pipe I (27), a control mechanism II matched with the partition plate II is arranged on the exhaust pipe II (29), a piston II (28) is slidably arranged on the exhaust pipe I (27), a connecting rod (35) is fixedly arranged on the piston II (28), a slide rod (36) is fixedly arranged on the connecting rod (35), a sleeve (45) is slidably arranged on the slide rod (36), a rotating shaft (39) is rotatably arranged on the sleeve (45), a disc (38) is fixedly arranged on the rotating shaft (39), a motor (37) is fixedly arranged on the dewatering box (1), and the driving end (37) of the motor is fixedly connected with the center of the disc (38). A plurality of retaining plates (11) matched with the water absorbing plate (9) are slidably arranged on the dewatering box (1), and a first spring (18) is fixedly arranged between each retaining plate (11) and the dewatering box (1); a sliding block (16) is fixedly arranged on each abutting plate (11), and a plurality of sliding grooves (17) matched with the corresponding sliding blocks (16) are formed in the dewatering box (1); two nuts (15) are fixedly arranged on the dewatering box (1), a screw (14) is rotatably arranged on each nut (15), a clamping plate (13) matched with a corresponding sealing plug (12) is rotatably arranged on each screw (14), and the two clamping plates (13) are rotatably connected with the dewatering box (1); the locking mechanism comprises sliding sleeves (22), inserting columns (23) and inserting grooves (26), two sliding sleeves (22) are fixedly arranged on the pressure regulating pipe (19), one inserting column (23) is slidably arranged on each sliding sleeve (22), and a plurality of inserting grooves (26) matched with the corresponding inserting columns (23) are formed in the push rod (21); a fixed block (25) is fixedly arranged on each of the two inserting posts (23), and a second spring (24) is fixedly arranged between each of the two fixed blocks (25) and the corresponding sliding sleeve (22); the first control mechanism comprises a limiting plate II (40), sliding columns (41), four springs (42), a hole plug II (43) and an exhaust hole II (44), the first partition plate (34) is provided with the exhaust hole II (44), the first partition plate (34) is fixedly provided with the limiting plate II (40), the limiting plate II (40) is slidably provided with a plurality of sliding columns (41), the sliding columns (41) are fixedly provided with the hole plug II (43) matched with the exhaust hole II (44), and the four springs (42) are fixedly arranged between the hole plug II (43) and the limiting plate II (40); the control mechanism II comprises a first limiting plate (33), limiting rods, a third spring (31), a first hole plug (32) and a first exhaust hole, the first exhaust hole is formed in the second partition plate, the first limiting plate (33) is fixedly installed on the second partition plate, a plurality of limiting rods are slidably installed on the first limiting plate (33), a first hole plug (32) matched with the first exhaust hole is fixedly installed on the limiting rods together, a supporting rod (30) is fixedly installed in the second exhaust pipe (29), and the third spring (31) is fixedly installed between the first hole plug (32) and the supporting rod (30); the sliding rod (36) is rotatably provided with a plurality of rollers (46), and the sleeve (45) is provided with two track grooves matched with the corresponding rollers (46).

2. The gas cooling and dewatering equipment of a gas generator set according to claim 1, wherein two sliding sheets are fixedly installed on two sliding sleeves (22), and two slots matched with the corresponding sliding sheets are formed on two inserting columns (23).