Disclosure of Invention
The utility model mainly solves the technical problems of incapability of centralized monitoring of a plurality of grinding machines, waste of a large amount of manpower and reduction of working efficiency.
In order to solve the technical problems, the utility model adopts a technical scheme that a hydraulic monitoring host comprises:
the box body comprises a front panel, a left side plate, a right side plate, a rear panel and a bottom panel, wherein the upper end of the front panel is hinged with the upper end of the rear panel;
the hub and the integrated shuttle valve are arranged in the box body, the hub is respectively and electrically connected with the centralized control display screen and the integrated shuttle valve, and the integrated shuttle valve is respectively connected with the hydraulic meters through oil pipes.
Preferably, the hydraulic monitoring host further comprises a remote control receiver, the remote control receiver is located in the box body, the remote control receiver is electrically connected with the hub, and the remote control receiver is used for receiving remote control signals from the remote controller and transmitting the remote control signals to the centralized control display screen through the hub.
Preferably, the bottom panel is provided with a plurality of connecting holes, and the connecting holes are used for connecting cables inside the box body with external equipment.
Preferably, the left side plate is provided with a fixing strip, the fixing strip is welded on the left side plate, and the remote control receiver is arranged on the fixing strip.
Preferably, the integrated shuttle valve member comprises an input end and a first output end, wherein the input end is provided with an input connector for connecting with the load proportion multi-way valve, the first output end is provided with a shuttle valve and an output connector, the output connector is connected with the hydraulic meter through an oil pipe, and the shuttle valve is used for displaying a larger pressure value by the hydraulic meter after comparing the pressure of hydraulic oil input by the input connector.
Preferably, the integrated shuttle valve further comprises a second output end, and the second output end is provided with a pressure sensor electrically connected with the hub and used for sensing and collecting larger pressure values and obtaining corresponding pressure data.
Preferably, the plurality of hydraulic meters includes a first hydraulic meter, a second hydraulic meter, a third hydraulic meter, a fourth hydraulic meter, and a total hydraulic meter; the centralized control display screen is located the downside middle part of front panel, and the bilateral symmetry of centralized control display screen is provided with first hydraulic gauge, second hydraulic gauge, and total hydraulic gauge is located the upside middle part of front panel, and the bilateral symmetry of total hydraulic gauge is provided with third hydraulic gauge and fourth hydraulic gauge.
Preferably, the front panel is also provided with a reset button, the reset button is arranged on the right side of the centralized control display screen, the reset button is electrically connected with the hub, and the reset button is used for recovering the working state of the hydraulic winch.
Preferably, the front panel is provided with a first control switch, a second control switch and a third control switch, the first control switch, the second control switch and the third control switch are arranged between the centralized control display screen and the total hydraulic gauge side by side, and the first control switch, the second control switch and the third control switch are respectively and electrically connected with the hub and used for controlling the starting and stopping of the equipment.
Preferably, the front panel is provided with a lock, and the lock is used for fixing the front panel and the box body.
The beneficial effects of the utility model are as follows: the working oil pressure of a plurality of grinding machines is obtained into the hydraulic monitoring host through the integrated shuttle valve, and then is output into the hydraulic meters and the centralized control display screen respectively, and the hydraulic meters and the centralized control display screen monitor the working oil pressure of the plurality of grinding machines in real time, so that the centralized monitoring of the plurality of grinding machines is realized, the manpower is saved, and the working efficiency is improved.
Detailed Description
In order that the utility model may be readily understood, a more particular description thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings. Preferred embodiments of the present utility model are shown in the drawings. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.
Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used in the description of the utility model herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used in this specification includes any and all combinations of one or more of the associated listed items.
For the description of the present utility model, the labels "front", "rear", "up", "down", "left" and "right" shown in fig. 1 are used for non-limiting purposes to facilitate understanding of this embodiment and are not intended to limit the present utility model. Wherein, the front-back direction represents the longitudinal direction, the left-right direction represents the transverse direction, and the up-down direction represents the vertical direction.
Referring to fig. 1 and 3, a hydraulic monitoring host includes a housing 1, a hub 2 disposed in the housing 1, an integrated shuttle valve member 3, and a remote control receiver 4. The case 1 includes a front panel 11, a left side panel 12, a right side panel 13, a rear panel 14, and a bottom panel 15. The upper end of the front panel 11 is hinged with the upper end of the rear panel 14, and the front panel 11 can be opened upwards, so that the overhaul and maintenance of the internal equipment of the box body 1 are facilitated. The left side plate 12, the right side plate 13, the rear panel 14 and the bottom panel 15 are formed by bending metal plates into an integral structure, the shape and the size of the left side plate 12 and the right side plate 13 are the same, and the section is trapezoidal. The bottom panel 15 of the case 1 is provided with a plurality of connection holes 151, and devices outside the case 1 can be connected with devices outside the case 1 through the connection holes 151.
The integrated shuttle valve member 3 and the remote control receiver 4 are provided on the bottom panel 15 to facilitate connection with external devices through the connection hole 151 on the bottom panel 15. Two fixing strips 121 are arranged on the left side plate 12 of the box body 1, the fixing strips 121 are welded on the left side plate 12, and two ends of the remote control receiver 4 are fixed on the two fixing strips 121.
It should be noted that, the remote control receiver 4 may be disposed on the right side plate 13 or the bottom plate 15, but the disposition position of the hub 2 and the integrated shuttle valve member 3 should be fully considered, so that the space of the box 1 is fully utilized, and meanwhile, connection of lines is facilitated. The number of connecting lines on the integrated shuttle valve member 3 is relatively large, so that the remote control receiver 4 is located as far away from the integrated shuttle valve member 3 as possible. In this embodiment, the integrated shuttle valve member 3 is disposed close to the right side plate 13, so that the remote control receiver 4 is disposed on the left side plate 12, facilitating connection of the wiring.
As shown in fig. 2, a lock 1111 is provided on the vertical surface 111 of the front panel 11, and the lock 1111 can fix the front panel 11 and the case 1 together. Considering the security of the internal equipment of the case 1, when the hydraulic monitoring host is normally used, the lockset 1111 is locked to prevent misoperation of other people, thereby affecting the normal operation of the hydraulic wringing mill. When the internal equipment of the box body 1 needs to be overhauled and maintained, the lockset 1111 is opened for maintenance, the safety of the internal equipment of the box body 1 is improved, and the safe and stable operation of the whole hydraulic winch system is ensured.
It should be noted that the lock 1111 may be disposed at other positions of the front panel 11, so long as the front panel 11 and the case 1 can be locked together.
Preferably, the inclined plane 112 of the front panel 11 is provided with a first hydraulic gauge 1121, a second hydraulic gauge 1122, a third hydraulic gauge 1123, a fourth hydraulic gauge 1124, a total hydraulic gauge 1125 and a centralized control display screen 1126, the centralized control display screen 1126 is arranged in the middle of the lower side of the inclined plane 112, the two sides of the centralized control display screen 1126 are symmetrically provided with the first hydraulic gauge 1121 and the second hydraulic gauge 1122, the total hydraulic gauge 1125 is arranged in the middle of the upper side of the front panel 11, and the two sides of the total hydraulic gauge 1125 are symmetrically provided with the third hydraulic gauge 1123 and the fourth hydraulic gauge 1124. The space of the inclined surface 112 is efficiently utilized, and the area of the front panel 11 is reduced.
Preferably, the front panel 11 is provided with a first control switch 1127, a second control switch 1128 and a third control switch 1129, and the first control switch 1127, the second control switch 1128 and the third control switch 1129 are arranged between the centralized control display screen 1126 and the total hydraulic pressure meter 1125 side by side, so that the remaining space between the centralized control display screen 1126 and the total hydraulic pressure meter 1125 is effectively utilized. The first control switch 1127, the second control switch 1128 and the third control switch 1129 are electrically connected to the hub 2, respectively, and the hub 2 is connected to a device to be controlled through the connection hole 151, thereby realizing control of the device by the control switches.
Preferably, the reset button 1120 is arranged on the front panel 11, and the reset button 1120 is arranged on the right side of the centralized control display 1126, that is, on the upper side of the second pressure gauge, so that the space of the front panel 11 is fully utilized. The reset button 1120 is electrically connected with the hub 2, the hub 2 is electrically connected with the unloading solenoid valve through the connecting hole 151, and the reset button 1120 is used for controlling the on-off of the electromagnetic unloading valve. When the reset button 1120 is pressed, the electromagnetic unloading valve is disconnected, hydraulic oil can normally pass through, and the hydraulic wringing mill resumes working.
It should be noted that, the setting position of the reset button 1120 includes, but is not limited to, the right side of the centralized control display 1126, and may also be disposed on the left side of the centralized control display 1126 or other positions of the front panel 11, so long as the connection of wires is convenient.
Referring to fig. 4 and 5, the integrated shuttle valve member 3 includes an input port 31, a first output port 32, and a second output port 33, the input port 31 is provided with one total pressure input joint 311 and eight partial pressure input joints 312, the total pressure input joint 311 is provided in the middle of the front end of the input port 31, and the eight partial pressure input joints 312 are provided in two rows behind the total pressure input joint 311. The total pressure input connector 311 and the eight partial pressure input connectors 312 are respectively connected with a load proportion multi-way valve through oil pipes, the load proportion multi-way valve is correspondingly connected with a hydraulic motor, the total pressure input connector 311 collects the total pressure of the system into the integrated shuttle valve member 3, and the eight partial pressure input connectors 312 collect the working pressure of the eight hydraulic motors into the integrated shuttle valve member 3.
The first output end 32 is provided with four shuttle valves 321, four partial pressure output joints 322 and a total pressure output joint 323, the four shuttle valves 321 are arranged on the left side of the first output end 32 side by side, the four partial pressure output joints 322 are arranged on the right side of the four shuttle valves 321 side by side, and the total pressure output joint 323 is arranged in the middle of the front end of the first output end 32. The second output 33 is provided with a total pressure sensor 331 and four partial pressure sensors 332, the total pressure sensor 331 being arranged at the forefront of the second output, the total pressure sensor 331 being followed by the four partial pressure sensors 332.
After comparing the oil pressures of the corresponding partial pressure input joints 312, the four shuttle valves 321 output a larger pressure value to the corresponding partial pressure output joint 322 and the partial pressure sensor 332, and the hydraulic oil taken by the total pressure input joint 311 is output to the total pressure output joint 323 and the total pressure sensor 331, respectively. The four partial pressure output joints 322 are respectively and correspondingly connected with the first hydraulic gauge 1121, the second hydraulic gauge 1122, the third hydraulic gauge 1123 and the fourth hydraulic gauge 1124 through oil pipes, and the total pressure output joint 323 is connected with the total hydraulic gauge 1125 through oil pipes to display the pressure value in the corresponding hydraulic gauge. The total pressure sensor 331 and the four partial pressure sensors 332 are respectively and electrically connected with the centralized control display screen 1126 through the hub 2, the total pressure sensor 331 and the four partial pressure sensors 332 convert pressure signals into electric signals, the electric signals are output to the centralized control display screen 1126, and the centralized control display screen 1126 monitors the working pressure of the eight hydraulic motors and the total system pressure.
It should be noted that, because the working states of the wringing mill are different, the wringing mill is divided into a lifting wringing mill unit and an amplitude changing wringing mill unit, in this embodiment, the lifting wringing mill unit includes two lifting wringing mills and two lifting tail frames, and the amplitude changing wringing mill unit includes two amplitude changing wringing mills and two amplitude changing tail frames, which are respectively connected with eight hydraulic motors in one-to-one correspondence. When the lifting winch set works, the amplitude winch set does not work, the working oil pressure of a hydraulic motor corresponding to the amplitude winch set is 0, and the working oil pressure of the hydraulic motor corresponding to the lifting winch set is greater than 0, so that after comparison and output through a shuttle valve 321, four hydraulic meters display the working oil pressures of the hydraulic motors corresponding to the two lifting winch sets and the two lifting tail frames, and the four pressure sensors acquire the working oil pressures of the hydraulic motors corresponding to the two lifting winch sets and the two lifting tail frames. When the variable amplitude grinding machine group works, the same principle is adopted, so that each hydraulic motor does not need to correspond to a hydraulic meter and a pressure sensor, and the centralized monitoring of a plurality of grinding machines is realized while the hydraulic meter and the pressure sensors are reduced.
Therefore, the utility model discloses a hydraulic monitoring host machine, wherein working oil pressures of a plurality of grinding machines are taken into the hydraulic monitoring host machine through an integrated shuttle valve member and then are respectively output into a plurality of hydraulic meters and a centralized control display screen, and the hydraulic meters and the centralized control display screen monitor the working oil pressures of the plurality of grinding machines in real time, so that the centralized monitoring of the plurality of grinding machines is realized, the manpower is saved, and the working efficiency is improved.
The foregoing is only illustrative of the present utility model and is not to be construed as limiting the scope of the utility model, and all equivalent structural changes made by the present utility model and the accompanying drawings, or direct or indirect application in other related technical fields, are included in the scope of the present utility model.