CN203023151U - Air energy accumulator - Google Patents

Abstract

The utility model relates to the technical field of energy storage devices and particularly relates to an air energy accumulator. The air energy accumulator comprises a cylinder body, a ventilation pipe and a liquid level meter, wherein a sealing-head clapboard which can be used for dividing the interior of the cylinder body into an upper part and a lower part is fixedly arranged in the inner cavity of the upper part of the cylinder body, a water inlet connecting pipe is fixedly arranged on the right of the rear side of the middle part of the cylinder body, a water outlet connecting pipe is fixedly arranged on the left of the rear side of the cylinder body below the water inlet connecting pipe, and the inner ends of the water inlet connecting pipe and the water outlet connecting pipe are provided with bevel grooves. The air energy accumulator is reasonable and compact in structure, convenient to use, wide in damping pressure range due to the unique design structure of the ventilation pipe, and convenient to produce, install and use; the water inlet connecting pipe and the water outlet connecting pipe are provided with the bevel grooves inside the cylinder body with water inlets and outlets on the same side, and helical vortex is formed inside the cylinder body, so that the damping effect is excellent; and the air energy accumulator is wide in working pressure range, wide in application range of temperature of a working medium, and reliable in safety performance.

Description

The air energy-storage device

Technical field

the utility model relates to the energy storage apparatus technical field, is a kind of air energy-storage device.

Background technique

uphole steam generator is mostly used the high temperature plunger pump at present, boiler is mostly used sewage and higher temperature is arranged, the pressurization of plunger pump is that the to-and-fro motion by plunger forms, so hydraulic pressure shakiness formed, easily produce vibration, cause pipeline break, impact is produced normally, has also increased maintenance cost simultaneously.At present accumulator divides 3 types of gravitational load formula accumulators, spring-loaded accumulator, gas-loaded formula accumulator, although wherein the bladder accumulator inertia in gas-loaded formula accumulator is little, reagency is quick, installation is easy, maintenance is simple, but the working life of leather bag is long, easily corrosion, not withstand voltage, heatproof not; Although piston accumulator long service life, maintenance cost be low, it is easy, simple to operate to install, volume is large, pressure is high, high temperature resistant, react insensitive, housing and Sealing are had relatively high expectations; Although diaphragm type accumulator weight is little, be quick on the draw, pressure is little, volume is little.

Summary of the invention

the utility model provides a kind of air energy-storage device, has overcome the deficiency of above-mentioned prior art, and it can effectively solve in existing accumulator using process the problem that vibration causes pipeline break that easily produces because hydraulic pressure is unstable.

the technical solution of the utility model realizes by following measures: a kind of air energy-storage device comprises cylindrical shell, scavenge trunk and level meter, be installed with the end socket dividing plate that inner barrel can be divided into to upper inner chamber and lower inner cavity in the top of cylindrical shell, right-hand tangentially being installed with into water of the middle part of cylindrical shell rear side, take over, cylindrical shell rear side left below water inlet is taken over tangentially is installed with water outlet and takes over, be installed with inner communicating with upper inner chamber and the blind dead scavenge trunk in lower end on the end socket dividing plate, the lower end of scavenge trunk is positioned at water outlet and takes over below, on the scavenge trunk upper end tube wall of end socket dividing plate below and on the lower end tube wall of scavenge trunk, aperture is arranged respectively, the upper end of cylindrical shell is installed with vent connection, be installed with the level meter communicated with upper inner chamber and lower inner cavity respectively between the cylindrical shell of vent connection and end socket dividing plate below, be installed with air inlet system between vent connection and level meter, the lower end of cylindrical shell is installed with draining and takes over, the upper end of vent connection is installed with safety valve, draining is installed with draining control valve on taking over.

below the further optimization and/or improvements to above-mentioned model utility technological scheme:

above-mentioned air inlet system can comprise connecting tube, air inlet tube and air intake control valve, the left end of connecting tube is fixedly installed togather and communicates with vent connection, the right-hand member of connecting tube is fixedly installed togather and communicates with the upper end of level meter, be installed with air inlet tube and communicate on connecting tube, being installed with air intake control valve on air inlet tube.

the right-hand member of above-mentioned connecting tube and the upper end of level meter can be fixedly installed togather by flange, between the lower end of level meter and cylindrical shell, are installed with to install take over and communicate, and the left end of adapter and the lower end of level meter are installed and are fixedly installed togather by flange.

the inner that above-mentioned water inlet adapter and water outlet are taken over can be slope mouth shape.

can be installed with dunnage between the lower end of above-mentioned scavenge trunk and cylinder inboard wall.

can be uniformly distributed with ten apertures along the circumference on the scavenge trunk upper end tube wall of above-mentioned end socket dividing plate below, the lower end tube wall of scavenge trunk is evenly equipped with six row's apertures.

the upper cover of above-mentioned cylindrical shell can be respectively ellipse head also respectively together with barrel soldering with lower seal head.

the utility model reasonable and compact in structure, easy to use, the project organization of scavenge trunk uniqueness makes the damping pressure range more extensive, and is convenient to produce and install and use; Water inlet is taken over and the water outlet adapter is opened the slope mouth in inner barrel, and, in the homonymy turnover, in inner barrel, forms spiral vortex, makes damping effect more outstanding; And the utility model range of working pressure is high, the working medium temperature applicable range wide, Safety performance is more reliable.

The accompanying drawing explanation

accompanying drawing 1 is looked the perspective structure schematic diagram for the master of the utility model most preferred embodiment.

accompanying drawing 2 is plan structure schematic diagram of the present utility model.

coding in accompanying drawing is respectively: 1 is cylindrical shell, and 2 is the end socket dividing plate, and 3 is the water inlet adapter, 4 take over for water outlet, and 5 is scavenge trunk, and 6 is aperture, 7 is dunnage, and 8 is vent connection, and 9 is level meter, 10 take over for draining, and 11 is safety valve, and 12 is draining control valve, 13 is connecting tube, and 14 is air inlet tube, and 15 is air intake control valve, 16 take over for installing, and 17 is upper inner chamber, and 18 is lower inner cavity.

Embodiment

the utility model is not subject to following embodiment's restriction, can determine concrete mode of execution according to the technical solution of the utility model and actual conditions.

in the utility model, for convenience of description, the description of the relative position relation of each parts is all to be described according to the Butut mode of Figure of description 1, as: the position relationship of upper and lower, left and right etc. is to determine according to the Butut direction of Figure of description.

below in conjunction with embodiment and accompanying drawing, the utility model is further described:

as shown in accompanying drawing 1,2, this air energy-storage device comprises cylindrical shell 1, scavenge trunk 5 and level meter 9, be installed with in the top of cylindrical shell 1 and cylindrical shell 1 inside can be divided into to the end socket dividing plate 2 of upper inner chamber 17 and lower inner cavity 18, take over 3 right-hand tangentially being installed with into water of the middle part of cylindrical shell 1 rear side, the cylindrical shell 1 rear side left of taking over below 3 in water inlet tangentially is installed with water outlet adapter 4, be installed with inner communicating with upper inner chamber 17 and the blind dead scavenge trunk 5 in lower end on end socket dividing plate 2, the lower end of scavenge trunk 5 is positioned at water outlet and takes over 4 belows, on the scavenge trunk 5 upper end tube walls of end socket dividing plate 2 belows and on the lower end tube wall of scavenge trunk 5, aperture 6 is arranged respectively, the upper end of cylindrical shell 1 is installed with vent connection 8, be installed with the level meter 9 communicated with upper inner chamber 17 and lower inner cavity 18 respectively between the cylindrical shell 1 of vent connection 8 and end socket dividing plate 2 belows, be installed with air inlet system between vent connection 8 and level meter 9, the lower end of cylindrical shell 1 is installed with draining and takes over 10, the upper end of vent connection 8 is installed with safety valve 11, draining is taken on 10 and is installed with draining control valve 12.The project organization of scavenge trunk 5 uniquenesses makes the damping pressure range more extensive, and is convenient to produce and install and use; Water inlet adapter 3 and water outlet are taken over 4 and are tangentially passed in and out at cylindrical shell 1 homonymy, make current at the inner spiral vortex that forms of cylindrical shell 1, have improved damping effect.

can according to actual needs, above-mentioned air energy-storage device be made further optimization and/or improvements:

as shown in accompanying drawing 1,2, air inlet system comprises connecting tube 13, air inlet tube 14 and air intake control valve 15,13 left ends of connecting tube are fixedly installed togather and communicate with vent connection 8, the right-hand member of connecting tube 13 is fixedly installed togather and communicates with the upper end of level meter 9, be installed with air inlet tube 14 and communicate on connecting tube 13, being installed with air intake control valve 15 on air inlet tube 14.

as shown in accompanying drawing 1,2, the upper end of the right-hand member of connecting tube 13 and level meter 9 is fixedly installed togather by flange, be installed with between the lower end of level meter 9 and cylindrical shell 1 to install and take over 16 and communicate, the left end of taking over 16 and the lower end of level meter 9 are installed and are fixedly installed togather by flange.Flange is easy to connect is installed on dismounting.

as shown in accompanying drawing 1,2, water inlet is taken over 3 and is slope mouth shape with the inner of water outlet adapter 4.Water inlet adapter 3 and water outlet are taken over 4 and are slope mouth shape in cylindrical shell 1 inside, and, in the homonymy turnover, at the inner spiral vortex that forms of cylindrical shell 1, make damping effect more outstanding.

as shown in accompanying drawing 1,2, be installed with dunnage 7 between the lower end of scavenge trunk 5 and cylindrical shell 1 inwall, dunnage 7 can be strengthened the stability of scavenge trunk 5 in cylindrical shell 1 inside.

as shown in accompanying drawing 1,2, be uniformly distributed with ten apertures 6 along the circumference on the scavenge trunk 5 upper end tube walls of end socket dividing plate 2 belows, the lower end tube wall of scavenge trunk 5 is evenly equipped with six row's apertures 6.Uniform aperture 6 facilitates the turnover of gas.

as shown in accompanying drawing 1,2, the upper cover of cylindrical shell 1 and lower seal head are respectively ellipse head and weld together with cylindrical shell 1 respectively, and like this, range of working pressure of the present utility model is high, the working medium temperature applicable range wide, Safety performance is more reliable.

above technical characteristics has formed most preferred embodiment of the present utility model, and it has stronger adaptability and best implementation result, can increase and decrease according to actual needs non-essential technical characteristics, meets the demand of different situations.

the using process of the utility model most preferred embodiment: during use, water outlet is taken over 4 and is fixedly installed togather with the entrance of plunger pump, water is taken over 3 by water inlet and is entered cylindrical shell 1 inside and be close to cylindrical shell 1 inwall rotation along tangent line, when water walks to water outlet and takes over 4 place, water is taken over 4 by water outlet and is entered plunger pump, under the pressure-acting repeatedly of plunger pump, make current at the inner rotating centrifugal state that forms of cylindrical shell 1, and in the rotating centrifugal process, air is thoroughly separated with water, gas is in the inner rising of cylindrical shell 1, by the aperture 6 on scavenge trunk 5, enter in cylindrical shell 1 top inner chamber, like this, filling gas in cylindrical shell 1 inner chamber of end socket dividing plate 2 tops, a contracting is received in the be squeezed power effect one of this portion gas, play spring effect, the utility model energy storage is maximized, alleviate vibrations, thereby play the energy-storage buffering effect, thereby obtaining more stable current takes over 4 and flows out from water outlet.

Claims (10)

1. an air energy-storage device, is characterized in that comprising cylindrical shell, scavenge trunk and level meter, be installed with the end socket dividing plate that inner barrel can be divided into to upper inner chamber and lower inner cavity in the top of cylindrical shell, right-hand tangentially being installed with into water of the middle part of cylindrical shell rear side, take over, cylindrical shell rear side left below water inlet is taken over tangentially is installed with water outlet and takes over, be installed with inner communicating with upper inner chamber and the blind dead scavenge trunk in lower end on the end socket dividing plate, the lower end of scavenge trunk is positioned at water outlet and takes over below, on the scavenge trunk upper end tube wall of end socket dividing plate below and on the lower end tube wall of scavenge trunk, aperture is arranged respectively, the upper end of cylindrical shell is installed with vent connection, be installed with the level meter communicated with upper inner chamber and lower inner cavity respectively between the cylindrical shell of vent connection and end socket dividing plate below, be installed with air inlet system between vent connection and level meter, the lower end of cylindrical shell is installed with draining and takes over, the upper end of vent connection is installed with safety valve, draining is installed with draining control valve on taking over.

2. air energy-storage device according to claim 1, it is characterized in that air inlet system comprises connecting tube, air inlet tube and air intake control valve, the left end of connecting tube is fixedly installed togather and communicates with vent connection, the right-hand member of connecting tube is fixedly installed togather and communicates with the upper end of level meter, be installed with air inlet tube and communicate on connecting tube, being installed with air intake control valve on air inlet tube.

3. air energy-storage device according to claim 2, it is characterized in that the right-hand member of connecting tube and the upper end of level meter are fixedly installed togather by flange, be installed with between the lower end of level meter and cylindrical shell to install and take over and communicate, the left end of adapter and the lower end of level meter are installed and are fixedly installed togather by flange.

4. according to claim 1 or 2 or 3 described air energy-storage devices, it is characterized in that taking over into water the inner of taking over water outlet is slope mouth shape.

5. according to claim 1 or 2 or 3 described air energy-storage devices, it is characterized in that being installed with dunnage between the lower end of scavenge trunk and cylinder inboard wall.

6. air energy-storage device according to claim 4, is characterized in that being installed with dunnage between the lower end of scavenge trunk and cylinder inboard wall.

7. according to claim 1 or 2 or 3 described air energy-storage devices, it is characterized in that being uniformly distributed with ten apertures along the circumference on the scavenge trunk upper end tube wall of end socket dividing plate below, the lower end tube wall of scavenge trunk is evenly equipped with six row's apertures.

8. air energy-storage device according to claim 6, is characterized in that being uniformly distributed with ten apertures along the circumference on the scavenge trunk upper end tube wall of end socket dividing plate below, and the lower end tube wall of scavenge trunk is evenly equipped with six row's apertures.

9. according to claim 1 or 2 or 3 described air energy-storage devices, it is characterized in that the upper cover of cylindrical shell is respectively ellipse head also respectively together with barrel soldering with lower seal head.

10. air energy-storage device according to claim 8, is characterized in that the upper cover of cylindrical shell is respectively ellipse head also respectively together with barrel soldering with lower seal head.

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