CN215908135U - Energy accumulator workstation for gas-liquid conversion - Google Patents

Abstract

The utility model discloses an energy accumulator workstation for gas-liquid conversion, which comprises a supporting device, a conversion device, a circulation device, a sealing device and an energy storage device, wherein the conversion device is connected with the supporting device through a gas-liquid conversion column, the circulation device is connected with the supporting device through a circulation guide pipe, the sealing device is connected with the conversion device through a connecting guide block, and the energy storage device is connected with the supporting device through a steel cylinder shell. The utility model realizes gas introduction through the gas inlet, realizes circulation through the circulation valve seat, realizes oil introduction through the circulation guide pipe, realizes the installation of the energy storage device through the steel cylinder shell, realizes the sealing connection of the circulation guide pipe and the steel cylinder shell through the press ring and the sealing ring, realizes the oil circulation and the cut-off through the sliding sealing plug, realizes energy transmission and storage through the gas storage leather bag, realizes the fixed connection of the circulation valve seat through the support connecting rod, realizes the internal gas pressure detection of the gas-liquid conversion column through the barometer, and realizes the gas-liquid conversion process in the gas-liquid conversion column through the side connection of the liquid column.

Description

Energy accumulator workstation for gas-liquid conversion

Technical Field

The utility model relates to a workstation, in particular to an energy accumulator workstation for gas-liquid conversion.

Background

The gas-liquid converter is a converter which converts a gas pressure signal into a hydraulic signal, the power source of the converter is compressed air, hydraulic oil is output to drive a power cylinder (hydraulic cylinder) to stably act, the converter is mainly applied to converting the output signal of a pneumatic adjusting instrument or a pneumatic manual operator into the hydraulic signal to drive a hydraulic actuator to act, and the gas-liquid converter is often integrated with the hydraulic actuator.

An accumulator is an energy storage device commonly used in hydropneumatic systems. At proper time, it converts the energy in the system into compression energy or potential energy to be stored, and when the system is needed, the compression energy or potential energy is converted into hydraulic pressure or air pressure to be released and supplied to the system again. When the system pressure is increased instantaneously, it can absorb the energy of the part to ensure the pressure of the whole system is normal.

The existing workstation is large in energy consumption during working, can generate a large amount of heat, is large in pressure fluctuation, large in damage to a device and high in maintenance and operation cost, and therefore an energy accumulator workstation for gas-liquid conversion is provided.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an energy accumulator workstation for gas-liquid conversion, which can effectively solve the problems that the workstation in the background technology has high energy consumption, can generate a large amount of heat during working, has high pressure fluctuation, has high damage to a device and has high maintenance and operation cost.

In order to achieve the purpose, the utility model adopts the technical scheme that: an energy storage ware workstation for gas-liquid conversion, includes strutting arrangement, conversion equipment, circulation device, sealing device and energy storage equipment, strutting arrangement is including connecting bottom plate, circulation disk seat and supporting rod, and a plurality of circulation disk seat surface respectively with connecting bottom plate one side surface connection, a plurality of supporting rod week side respectively with a plurality of circulation disk seat surface connections, conversion equipment includes gas-liquid conversion post and air inlet, a gas-liquid conversion post surface respectively with a plurality of circulation disk seat surface connections, an air inlet surface is connected with a gas-liquid conversion post surface, the circulation device includes circulation pipe and connection guide block, circulation pipe one end is connected with circulation disk seat surface, a plurality of a connection guide block surface respectively with a gas-liquid conversion post surface connection, sealing device includes clamping ring and sealing ring, the clamping ring surface is connected with the side face of the circulation guide pipe, the sealing ring surface is connected with the clamping ring surface, the energy storage device comprises a steel cylinder shell and a connecting seal support, the steel cylinder shell surface is connected with the sealing ring surface, the connecting seal support surface is connected with the steel cylinder shell surface.

Preferably, the strutting arrangement still includes arc board dagger and fixed snap ring, and a plurality of an arc board dagger surface is connected with a connection bottom plate surface respectively, a fixed snap ring surface is connected with a plurality of arc board daggers surface respectively, and wherein, the circulation disk seat is total two, and the circulation disk seat is used for cooperating the gas-liquid conversion post and carries out the conversion, and the supporting link is total four, and the supporting link is used for the support connection circulation disk seat, and the arc board dagger is total three, and the arc board dagger is used for supporting conversion equipment, and the connection bottom plate is used for installing strutting arrangement, and fixed snap ring is used for fixing the steel bottle shell.

Preferably, the conversion device further comprises a gas pressure meter, wherein one surface of the gas pressure meter is connected with one surface of the flow valve seat, the gas-liquid conversion column is used for gas-liquid conversion, the gas inlet is used for introducing gas, and the gas pressure meter is used for detecting the internal gas pressure of the gas-liquid conversion column.

Preferably, the circulation device further comprises a side connection liquid column, wherein one surface of the side connection liquid column is respectively connected with one surface of the plurality of connection guide blocks, the number of the connection guide blocks is two, the connection guide blocks are used for installing and connecting the side connection liquid column, the circulation guide pipe is used for connecting the circulation conversion device and the energy storage device, and the side connection liquid column is used for observing the gas-liquid conversion process.

Preferably, sealing device still includes that the annular is glued and is held in the palm and the shutoff stopper that slides, the annular is glued and is held in the palm all side and sealing ring internal surface connection, a surface and the annular of the shutoff stopper that slides are glued and are held in the palm a surface sliding fit, and wherein, the clamping ring is used for compressing tightly and circulate being connected of pipe, and the sealing ring is used for sealed being connected with the pipe that circulates, and the annular is glued and is held in the palm and be used for the installation shutoff stopper that slides, and the shutoff stopper that slides is used for switching on and cutting off.

Preferably, the energy storage device further comprises a gas storage leather bag, one surface of the gas storage leather bag is connected with one surface of the connecting seal holder, the steel cylinder shell is used for installing the internal device, the connecting seal holder is used for installing the gas storage leather bag, and the gas storage leather bag is used for storing energy through air pressure change.

Preferably, the energy storage device further comprises an inflation valve, one surface of the inflation valve is connected with one surface of the connecting sealing support, and the inflation valve is used for introducing gas.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, gas introduction is realized through the gas inlet, gas-liquid conversion is realized through the gas-liquid conversion column, circulation is realized through the circulation valve seat, oil introduction is realized through the circulation guide pipe, installation of the energy storage device is realized through the steel cylinder shell, sealing connection of the circulation guide pipe and the steel cylinder shell is realized through the compression ring and the sealing ring, oil circulation and cutoff are realized through the sliding sealing plug, energy transmission and storage are realized through the gas storage leather bag, fixed connection of the circulation valve seat is realized through the support connecting rod, internal gas pressure detection of the gas-liquid conversion column is realized through the barometer, and a gas-liquid conversion process in the gas-liquid conversion column is realized through the side connection liquid column.

Drawings

FIG. 1 is a schematic view of an overall external structure of an accumulator workstation for gas-liquid conversion according to the present invention;

FIG. 2 is a schematic external isometric view of an accumulator station for gas-liquid conversion according to the present invention;

FIG. 3 is a front view of an accumulator station for gas-liquid conversion in accordance with the present invention;

fig. 4 is a cross-sectional view of an accumulator station for gas-liquid conversion according to the present invention at fig. 3A-a.

Fig. 5 is a schematic diagram of a left and right external isometric structure of an accumulator workstation for gas-liquid conversion according to the present invention.

In the figure: 100. a support device; 110. connecting the bottom plate; 120. a flow valve seat; 130. a support link; 140. arc plate support columns; 150. fixing the snap ring; 200. a conversion device; 210. a gas-liquid conversion column; 220. an air inlet; 230. a barometer; 300. a flow-through device; 310. a flow-through conduit; 320. connecting a guide block; 330. the side edge is connected with a liquid column; 400. a sealing device; 410. pressing a ring; 420. a seal ring; 430. an annular rubber support; 440. sliding and sealing; 500. an energy storage device; 510. a steel cylinder shell; 520. connecting the sealing support; 530. a gas storage bladder; 540. an inflation valve.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

Referring to fig. 1 to 5, the present invention relates to an energy storage station for gas-liquid conversion, which includes a support device 100, a conversion device 200, a circulation device 300, a sealing device 400, and an energy storage device 500, wherein the support device 100 includes a connection base plate 110, a circulation valve seat 120, and a support rod 130, a surface of the circulation valve seat 120 is connected to a surface of the connection base plate 110, a peripheral surface of the support rod 130 is connected to a surface of the circulation valve seat 120, the conversion device 200 includes a gas-liquid conversion column 210 and a gas inlet 220, a surface of the gas-liquid conversion column 210 is connected to a surface of the circulation valve seat 120, a surface of the gas inlet 220 is connected to a surface of the gas-liquid conversion column 210, the circulation device 300 includes a circulation conduit 310 and a connection guide block 320, one end of the circulation conduit 310 is connected to a surface of the circulation valve seat 120, a surface of the connection guide block 320 is connected to a surface of the gas-liquid conversion column 210, sealing device 400 includes clamping ring 410 and sealing ring 420, and clamping ring 410 a surface is connected with circulation pipe 310 week side, and a sealing ring 420 surface is connected with clamping ring 410 a surface, and energy storage device 500 includes steel bottle shell 510 and connects and seals support 520, and a steel bottle shell 510 surface is connected with a sealing ring 420 surface, connects and seals support 520 a surface and be connected with steel bottle shell 510 a surface.

Referring to fig. 1-1, the supporting device 100 further includes arc plate braces 140 and a fixing clasp 150, a surface of each of the arc plate braces 140 is connected to a surface of the connecting base plate 110, a surface of the fixing clasp 150 is connected to a surface of each of the arc plate braces 140, wherein there are two circulating valve seats 120, the circulating valve seats 120 are used for converting in cooperation with the gas-liquid converting columns 210, there are four supporting connecting rods 130, the supporting connecting rods 130 are used for supporting and connecting the circulating valve seats 120, there are three arc plate braces 140, the arc plate braces 140 are used for supporting the converting device 200, the connecting base plate 110 is used for installing the supporting device 100, and the fixing clasp 150 is used for fixing the steel cylinder shell 510.

Referring to fig. 1-1, the conversion device 200 further includes a gas pressure gauge 230, a surface of the gas pressure gauge 230 is connected to a surface of the flow valve seat 120, wherein the gas-liquid conversion column 210 is used for gas-liquid conversion, the gas inlet 220 is used for introducing gas, and the gas pressure gauge 230 is used for detecting the gas pressure inside the gas-liquid conversion column 210.

Referring to fig. 1-2, the flow-through device 300 further includes a side connection liquid column 330, one surface of the side connection liquid column 330 is connected to one surface of the plurality of connection guide blocks 320, wherein there are two connection guide blocks 320, the connection guide blocks 320 are used for installing and connecting the side connection liquid column 330, the flow-through conduit 310 is used for connecting the flow-through conversion device 200 and the energy storage device 500, and the side connection liquid column 330 is used for observing the gas-liquid conversion process.

Referring to fig. 1-4, the sealing device 400 further includes an annular rubber support 430 and a sliding plug 440, a peripheral side surface of the annular rubber support 430 is connected to an inner surface of the sealing ring 420, a surface of the sliding plug 440 is in sliding fit with a surface of the annular rubber support 430, wherein the pressing ring 410 is used for pressing and connecting the sealing ring 310, the sealing ring 420 is used for sealing and connecting the sealing ring 310, the annular rubber support 430 is used for mounting the sliding plug 440, and the sliding plug 440 is used for conducting and blocking.

Referring to fig. 1-4, the energy storage device 500 further includes a gas storage bladder 530, a surface of the gas storage bladder 530 is connected to a surface of the connecting seal 520, wherein the cylinder housing 510 is used for installing the internal device, the connecting seal 520 is used for installing the gas storage bladder 530, and the gas storage bladder 530 is used for storing energy by changing gas pressure.

Referring to fig. 1-1, the energy storage device 500 further comprises a gas filling valve 540, a surface of the gas filling valve 540 is connected with a surface of the connecting bracket 520, wherein the gas filling valve 540 is used for introducing gas.

The working principle of the utility model is as follows:

referring to fig. 1-5, in the present invention, gas is introduced into a gas-liquid conversion column 210 from a gas inlet 220, converted into oil in the gas-liquid conversion column, and then enters a cylinder housing 510 along a flow conduit 310 through a flow valve seat 120, a press ring 410 and a seal ring 420 work together to hermetically connect the flow conduit 310 with the cylinder housing 510, the oil pushes up a sliding plug 440 and enters the cylinder housing 510, the oil compresses the gas in the gas storage bladder 530 as the oil pressure gradually increases and is greater than the internal gas pressure of the gas storage bladder 530, and the energy is transferred to the gas in the bladder, when the oil is sucked away by a gas device in the station, the oil pressure drops sharply, and at the moment, the compressed gas expands to return the accumulated energy to the oil, so as to increase the pressure of the oil and reduce the damage to the device.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an energy storage ware workstation for gas-liquid conversion, includes strutting arrangement (100), conversion equipment (200), circulation device (300), sealing device (400) and energy storage device (500), its characterized in that: the supporting device (100) comprises a connecting bottom plate (110), a circulation valve seat (120) and a supporting connecting rod (130), wherein a plurality of surfaces of the circulation valve seat (120) are respectively connected with one side surface of the connecting bottom plate (110), a plurality of surfaces of the supporting connecting rod (130) are respectively connected with one surfaces of a plurality of circulation valve seats (120), the conversion device (200) comprises a gas-liquid conversion column (210) and a gas inlet (220), one surface of the gas-liquid conversion column (210) is respectively connected with one surface of the plurality of circulation valve seats (120), one surface of the gas inlet (220) is connected with one surface of the gas-liquid conversion column (210), the circulation device (300) comprises a circulation guide pipe (310) and a connecting guide block (320), one end of the circulation guide pipe (310) is connected with one surface of the circulation valve seat (120), and a plurality of surfaces of the connecting guide block (320) are respectively connected with one surface of the gas-liquid conversion column (210), sealing device (400) include clamping ring (410) and sealing ring (420), clamping ring (410) a surface is connected with circulation pipe (310) week side, a sealing ring (420) surface and clamping ring (410) a surface are connected, energy storage device (500) include steel bottle shell (510) and connect to seal and hold in the palm (520), steel bottle shell (510) a surface and sealing ring (420) a surface are connected, connect to seal and hold in the palm (520) a surface and steel bottle shell (510) a surface connection.

2. The accumulator station for gas-liquid conversion according to claim 1, characterized in that: the supporting device (100) further comprises arc plate supporting columns (140) and a fixing clamping ring (150), wherein one surface of each arc plate supporting column (140) is connected with one surface of the connecting base plate (110) respectively, and one surface of the fixing clamping ring (150) is connected with one surface of each arc plate supporting column (140) respectively.

3. The accumulator station for gas-liquid conversion according to claim 1, characterized in that: the conversion device (200) further comprises a gas pressure gauge (230), and one surface of the gas pressure gauge (230) is connected with one surface of the circulating valve seat (120).

4. The accumulator station for gas-liquid conversion according to claim 1, characterized in that: the circulating device (300) further comprises a side connecting liquid column (330), and one surface of the side connecting liquid column (330) is respectively connected with one surface of the plurality of connecting guide blocks (320).

5. The accumulator station for gas-liquid conversion according to claim 1, characterized in that: the sealing device (400) further comprises an annular rubber support (430) and a sliding plug (440), the peripheral side face of the annular rubber support (430) is connected with the inner surface of the sealing ring (420), and one surface of the sliding plug (440) is in sliding fit with one surface of the annular rubber support (430).

6. The accumulator station for gas-liquid conversion according to claim 1, characterized in that: the energy storage device (500) further comprises a gas storage leather bag (530), and one surface of the gas storage leather bag (530) is connected with one surface of the connecting seal support (520).

7. The accumulator station for gas-liquid conversion according to claim 1, characterized in that: the energy storage device (500) further comprises an air charging valve (540), and one surface of the air charging valve (540) is connected with one surface of the connecting seal holder (520).

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