CN215861107U - High-pressure-maintaining energy-saving hydraulic station - Google Patents
High-pressure-maintaining energy-saving hydraulic station Download PDFInfo
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- CN215861107U CN215861107U CN202122126932.9U CN202122126932U CN215861107U CN 215861107 U CN215861107 U CN 215861107U CN 202122126932 U CN202122126932 U CN 202122126932U CN 215861107 U CN215861107 U CN 215861107U
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Abstract
The utility model relates to the technical field of hydraulic stations and discloses a high-pressure-maintaining energy-saving hydraulic station which comprises a device main body, wherein an opening is formed in the side wall of the device main body, sliding grooves are formed in two sides of the opening, sliding blocks are arranged on the inner sides of the sliding grooves, hinges are arranged at the bottom of the side wall of the device main body, and the hinges are connected with a cover plate. This energy-conserving hydraulic pressure station of high pressure pressurize, remove the shroud plate joint through removing the bolt, the shroud plate overturns downwards, drive down the upset through the shroud plate at the hinge, the fixture block slides backward relatively in the slide rail inboard this moment, make the fixture block can not break away from the slide rail through spacing groove joint stopper, slide to the slide rail tail end through the fixture block, the telescopic link expandes to drive the slider and moves down this moment, stop moving when the fixture block reachs the slide rail tail end, shroud plate contact ground this moment, the device main part directly stands in shroud plate top surface observation opening at the during operation workman, the monitoring device main part of being convenient for more, reached can detect the beneficial effect of the internal conditions at any time at hydraulic pressure station during operation.
Description
Technical Field
The utility model relates to the technical field of hydraulic stations, in particular to a high-pressure-maintaining energy-saving hydraulic station.
Background
The hydraulic station is also called a hydraulic pump station and is an independent hydraulic device. It supplies oil according to the step-by-step requirement. And the direction, pressure and flow of hydraulic oil flow are controlled, and the hydraulic oil flow control device is suitable for various hydraulic machines with a main machine and a hydraulic device which can be separated.
Present hydraulic pressure station in use can produce a large amount of heats, because the inside oil temperature of organism is higher, relies on the fan to be difficult to the heat dissipation, and current hydraulic pressure station leads to the inside condition to be difficult to observe and can not in time discover the old wearing and tearing of equipment simultaneously because organism outer wall seals.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Aiming at the defects of the prior art, the utility model provides a high-pressure-maintaining energy-saving hydraulic station which has the advantages of strengthening the heat dissipation and cooling functions of the hydraulic station, detecting the internal conditions at any time when the hydraulic station works and the like, and solves the technical problems.
Technical scheme
In order to realize the purpose of strengthening the heat dissipation and cooling functions of the hydraulic station and detecting the internal conditions at any time when the hydraulic station works, the utility model provides the following technical scheme: the utility model provides an energy-conserving hydraulic pressure station of high pressure pressurize, includes the device main part, device main part lateral wall sets up the opening, the opening inboard sets up the filter screen, the opening both sides set up the spout, the spout inboard sets up the slider, the slider back wall sets up the pivot, wall connection telescopic link behind the pivot, wall connection fixture block behind the telescopic link, the fixture block both sides set up the stopper, device main part lateral wall bottom sets up the hinge, hinge connection shroud, the shroud is close to opening one side and sets up the slide rail, the slide rail inboard sets up the spacing groove, spacing groove joint stopper.
Preferably, the openings are symmetrically arranged on two sides of the device body, and the openings penetrate through the side wall of the device body and are arranged in the center of the side wall of the device body.
Through above-mentioned technical scheme, through the inside and outside of opening direct intercommunication device main part, the inside high temperature that produces of device main part when the operation is direct discharges from the opening, and is further because the opening runs through device main part lateral wall for can directly maintain when the inboard spare part of device main part damages, need not unpack apart wholly.
Preferably, the filter screen movable mounting is in the inboard middle-end of opening, the filter screen still sets up the fan, fan movable mounting is just inboard to the device main part in filter screen center and output.
Through above-mentioned technical scheme, the filter screen is the common filter screen of taking the frame in market, and through filter screen four sides threaded connection or joint opening inboard, further make the opening remain ventilation function dust particle etc. that can filter air simultaneously, effectively prevent the inside deposition of device main part, can also start the fan simultaneously and carry out the cooling device main part of blowing to clear up the inside dust of device main part.
Preferably, the sliding grooves are symmetrically arranged at two ends of the side wall and located at two sides of the opening, the sliding blocks are slidably connected to the inner sides of the sliding grooves, and the rotating shaft is rotatably connected to the center of the rear wall of each sliding block.
Through above-mentioned technical scheme, driven the removal by the pivot through the slider, the slider slides in the spout inboard this moment, and further slider stops moving when reacing the spout bottom, and the below rotation is leaned on to the below along with the slider stops the pivot and drives down this moment.
Preferably, the outer axle of telescopic link output fixed connection pivot, telescopic link tail end fixed connection is in fixture block antetheca center, fixture block sliding connection is inboard in the slide rail, the stopper symmetry is installed in fixture block both sides middle-end and joint in spacing inslot side.
Through above-mentioned technical scheme, slide in the slide rail inboard through the fixture block, the fixture block moves down the slip at this moment and drives the telescopic link, and further telescopic link drives the pivot removal when removing in step.
Preferably, device main part lateral wall top still sets up the bolt, bolt output end joint in the shroud plate top, the hinge symmetry is installed in device main part lateral wall bottom both ends, the hinge is located the opening below, hinge upper leaf fixed connection shroud plate bottom surface, the shroud plate laminates in the opening outside, the slide rail symmetry is seted up in the shroud plate antetheca and is docked in the spout.
Through the technical scheme, remove the shroud plate joint through removing the bolt, further upset shroud plate downwards, drive down upset through the shroud plate at the hinge, the fixture block slides backward relatively in the slide rail inboard this moment, make the fixture block can not break away from the slide rail through spacing groove joint stopper, slide to the slide rail tail end through the fixture block, the telescopic link expandes and drives the slider and move down this moment, stop moving when the fixture block reachs the slide rail tail end, shroud plate contact ground this moment, the device main part directly stands in shroud plate top surface observation opening at the during operation workman, the monitoring device main part of being convenient for more.
Compared with the prior art, the utility model provides a high-pressure-maintaining energy-saving hydraulic station, which has the following beneficial effects:
1. this energy-conserving hydraulic pressure station of high pressure pressurize, through the direct intercommunication device main part inside and outside of opening, the inside high temperature that produces when the device main part is in the operation is direct to be discharged from the opening, it is inboard through filter screen four sides threaded connection or joint opening, further make the opening can the filtered air dust granule etc. simultaneously keeping the ventilation function, effectively prevent the inside deposition of device main part, simultaneously can also start the fan and carry out the cooling device main part of blowing, and clear up the inside dust of device main part, the beneficial effect of strengthening the hydraulic pressure station heat dissipation cooling function has been reached.
2. This energy-conserving hydraulic pressure station of high pressure pressurize, remove the shroud plate joint through removing the bolt, further upset shroud plate downwards, drive down upset through the shroud plate at the hinge, the fixture block slides backward relatively in the slide rail inboard this moment, make the fixture block can not break away from the slide rail through spacing groove joint stopper, slide to the slide rail tail end through the fixture block, the telescopic link expandes and drives the slider and move down this moment, stop moving when the fixture block reachs the slide rail tail end, shroud plate contact ground this moment, the device main part directly stands in shroud plate top surface observation opening at the during operation workman, the monitoring device main part of being convenient for more, reached and to have detected the beneficial effect of the internal conditions at any time at hydraulic pressure station during operation.
Drawings
FIG. 1 is a schematic front sectional view of the overall structure of the present invention;
FIG. 2 is a schematic side sectional view of the overall structure of the present invention;
fig. 3 is an enlarged schematic view of a in fig. 1.
Wherein: 1. a device main body; 2. an opening; 201. filtering with a screen; 202. a fan; 3. a chute; 301. a slider; 4. a rotating shaft; 5. a telescopic rod; 6. a clamping block; 601. a limiting block; 7. a hinge; 8. covering a plate; 801. a slide rail; 802. a limiting groove; 9. and (4) a bolt.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1-3, a high-pressure-maintaining energy-saving hydraulic station comprises a device main body 1, wherein an opening 2 is formed in the side wall of the device main body 1, a filter screen 201 is arranged on the inner side of the opening 2, sliding grooves 3 are formed in the two sides of the opening 2, a sliding block 301 is arranged on the inner side of each sliding groove 3, a rotating shaft 4 is arranged on the rear wall of each sliding block 301, a telescopic rod 5 is connected to the rear wall of each rotating shaft 4, a clamping block 6 is connected to the rear wall of each telescopic rod 5, limiting blocks 601 are arranged on the two sides of each clamping block 6, a hinge 7 is arranged at the bottom of the side wall of the device main body 1, the covering plate 8 is connected with a covering plate 8, a sliding rail 801 is arranged on one side, close to the opening 2, a limiting groove 802 is arranged on the inner side of the sliding rail 801, and the limiting groove 802 is clamped with the limiting blocks 601.
Specifically, opening 2 symmetry is seted up in 1 both sides of device main part, and opening 2 runs through in 1 lateral wall of device main part and for in 1 lateral wall center of device main part, and the advantage is through opening 2 direct intercommunication 1 inside and outside of device main part, and the inside high temperature that produces of device main part 1 when the operation is direct discharges from opening 2, and is further because opening 2 runs through 1 lateral wall of device main part for can directly maintain when 1 inboard spare part of device main part damages, need not unpack apart wholly.
Specifically, filter screen 201 movable mounting is in 2 inboard middle-ends in opening, filter screen 201 still sets up fan 202, fan 202 movable mounting is just inboard to device main part 1 at filter screen 201 center and output, the advantage is that filter screen 201 is the common filter screen of taking the frame in market, 2 inboards through filter screen 201 four sides threaded connection or joint opening, further make opening 2 can filter the dust granule etc. in the air when keeping ventilation function, effectively prevent the inside deposition of device main part 1, can also start fan 202 simultaneously and carry out blast cooling device main part 1, and clear up the inside dust of device main part 1.
Specifically, 3 symmetries of spout are seted up at the lateral wall both ends and are located opening 2 both sides, 3 inboard sliding connection sliders 301 of spout, and pivot 4 rotates to be connected in slider 301 back wall center, and the advantage is driven by pivot 4 through slider 301 and moves, and slider 301 slides in 3 inboards of spout this moment, and further slider 301 stops moving when reaching 3 bottoms of spout, and it is here along with slider 301 stops pivot 4 and rotate to the below to the slant under the drive of telescopic link 5.
Specifically, the outer axle of 5 output end fixed connection pivot 4 of telescopic link, 5 tail end fixed connection of telescopic link are in 6 antetheca centers of fixture block, and 6 sliding connection of fixture block are inboard in slide rail 801, and stopper 601 symmetry is installed in 6 both sides middle-ends of fixture block and the joint is inboard in spacing groove 802, and the advantage is that slide in slide rail 801 inboard through fixture block 6, and 6 sliding drives telescopic link 5 that move down of fixture block this moment, and further telescopic link 5 drives pivot 4 when removing in step and removes.
Specifically, the top of the side wall of the device main body 1 is also provided with a bolt 9, the output end of the bolt 9 is clamped at the top of the cover plate 8, hinges 7 are symmetrically arranged at two ends of the bottom of the side wall of the device main body 1, the hinge 7 is positioned below the opening 2, the upper leaf of the hinge 7 is fixedly connected with the bottom surface of the cover plate 8, the cover plate 8 is attached to the outer side of the opening 2, and slide rails 801 are symmetrically arranged on the front wall of the cover plate 8 and are butted with the slide grooves 3. the device has the advantages that the clamping of the cover plate 8 is relieved by moving the bolt 9, the cover plate 8 is further turned downwards, the cover plate 8 is driven by the hinge 7 to turn downwards by the cover plate 8, the fixture block 6 slides backwards relatively inside the slide rails 801, the fixture block 6 cannot be separated from the slide rails 801 by clamping the limiting grooves 802, the telescopic rod 5 slides to the tail end of the slide rails 801, the slide block 301 moves downwards, the telescopic rod 6 stops moving when reaching the tail end of the slide rails 801, the cover plate 8 contacts the ground, the device main part 1 is directly stood on the top surface of the shroud plate 8 to observe the opening 2 when working, and the monitoring device main part 1 is more convenient.
When the device is used, the cover plate 8 is removed from the clamping connection by the movable bolt 9, the cover plate 8 is turned downwards, the cover plate 8 is driven by the hinge 7 to turn downwards, the fixture block 6 slides backwards relatively in the inner side of the slide rail 801 at the moment, the limiting block 601 is clamped by the limiting groove 802 so that the fixture block 6 cannot be separated from the slide rail 801, the fixture block 6 slides in the inner side of the slide rail 801, the fixture block 6 slides downwards at the moment to drive the telescopic rod 5, the further telescopic rod 5 synchronously drives the rotating shaft 4 to move when moving, the fixture block 6 stops moving when reaching the tail end of the slide rail 801, the cover plate 8 contacts the ground at the moment, a worker directly stands on the top surface of the cover plate 8 to observe the opening 2, and the monitoring device main body 1 is convenient to use.
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 (6)
1. The utility model provides an energy-conserving hydraulic pressure station of high pressure pressurize, includes device main part (1), its characterized in that: device main part (1) lateral wall sets up opening (2), opening (2) inboard sets up filter screen (201), opening (2) both sides set up spout (3), spout (3) inboard sets up slider (301), slider (301) back wall sets up pivot (4), pivot (4) back wall connection telescopic link (5), wall connection fixture block (6) behind telescopic link (5), fixture block (6) both sides set up stopper (601), device main part (1) lateral wall bottom sets up hinge (7), shroud (8) are connected in hinge (7), shroud (8) are close to opening (2) one side and set up slide rail (801), slide rail (801) inboard sets up spacing groove (802), spacing groove (802) joint stopper (601).
2. The high-pressure-maintaining energy-saving hydraulic station of claim 1, characterized in that: the openings (2) are symmetrically arranged on two sides of the device body (1), and the openings (2) penetrate through the side wall of the device body (1) and are arranged at the center of the side wall of the device body (1).
3. The high-pressure-maintaining energy-saving hydraulic station of claim 1, characterized in that: filter screen (201) movable mounting is in opening (2) inboard middle-end, filter screen (201) still sets up fan (202), fan (202) movable mounting is just inboard to device main part (1) at filter screen (201) center and output.
4. The high-pressure-maintaining energy-saving hydraulic station of claim 1, characterized in that: spout (3) symmetry is seted up in the lateral wall both ends and is located opening (2) both sides, spout (3) inboard sliding connection slider (301), pivot (4) rotate to be connected in slider (301) back wall center.
5. The high-pressure-maintaining energy-saving hydraulic station of claim 1, characterized in that: outer axle of telescopic link (5) output end fixed connection pivot (4), telescopic link (5) tail end fixed connection is in fixture block (6) antetheca center, fixture block (6) sliding connection is inboard in slide rail (801), stopper (601) symmetry is installed in fixture block (6) both sides middle-end and joint in spacing groove (802) inboard.
6. The high-pressure-maintaining energy-saving hydraulic station of claim 1, characterized in that: device main part (1) lateral wall top still sets up bolt (9), bolt (9) output joint is in shroud plate (8) top, hinge (7) symmetry is installed in device main part (1) lateral wall bottom both ends, hinge (7) are located opening (2) below, hinge (7) upper leaf fixed connection shroud plate (8) bottom surface, shroud plate (8) are laminated in the opening (2) outside, slide rail (801) symmetry is seted up in shroud plate (8) antetheca and is docked in spout (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122126932.9U CN215861107U (en) | 2021-09-03 | 2021-09-03 | High-pressure-maintaining energy-saving hydraulic station |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122126932.9U CN215861107U (en) | 2021-09-03 | 2021-09-03 | High-pressure-maintaining energy-saving hydraulic station |
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Publication Number | Publication Date |
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CN215861107U true CN215861107U (en) | 2022-02-18 |
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CN202122126932.9U Active CN215861107U (en) | 2021-09-03 | 2021-09-03 | High-pressure-maintaining energy-saving hydraulic station |
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2021
- 2021-09-03 CN CN202122126932.9U patent/CN215861107U/en active Active
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