CN209742930U - Cleaning and separating system for pure water hydraulic support and pure water hydraulic support - Google Patents

Abstract

the utility model provides a pure water hydraulic support is with piece-rate system and pure water hydraulic support of decontaminating relates to hydraulic means technical field. The sewage disposal and separation system for the pure water hydraulic support comprises a water return pipeline; the purity detection sensor is used for detecting the purity of water flow in the water return pipeline; the first water drainage pipe and the second water drainage pipe are both communicated with the water return pipeline; the first control valve is used for controlling the opening and closing of the water return pipeline and the first water drainage pipe; the second control valve is used for controlling the opening and closing of the water return pipeline and the second water drainage pipe; and the control mechanism is used for adjusting the opening and closing of the first control valve and the second control valve according to the detection data of the purity detection sensor. The cleaning and separating system for the pure water hydraulic support and the pure water hydraulic support can realize control of water quality in the pure water hydraulic support, and are high in accuracy.

Description

Cleaning and separating system for pure water hydraulic support and pure water hydraulic support

Technical Field

The utility model belongs to the technical field of the hydraulic means technique and specifically relates to a pure water hydraulic support is with piece-rate system and pure water hydraulic support of decontaminating.

Background

The pure water hydraulic support is a hydraulic support taking pure water as a hydraulic working medium. In the use, after the pure water got into the hydraulic support system, because hydraulic support stand, jack, valve etc. have metal plasma for pure water hydraulic support system return water resistivity decay, and then the purity of the water that is not conform to pure water support service standard must be got rid of the system with this part of water, and the water that supplyes the requirement simultaneously just enables pure water support normal work, avoids because the rust etc. that the decay of the purity of water caused. However, in the prior art, the judgment is usually carried out by depending on experience, and the judgment result is not accurate enough.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a decontamination and separation system for a pure water hydraulic support, which solves the technical problem that the purity of pure water in the pure water hydraulic support is difficult to judge in the prior art;

The utility model aims at providing still that pure water hydraulic support is provided to the pure water purity in the pure water hydraulic support who exists among the solution prior art is difficult to the technical problem who judges.

The utility model discloses a realize like this:

the utility model provides a pure water hydraulic support is with piece-rate system of decontaminating, includes:

a water return pipe;

the purity detection sensor is connected with the water return pipeline and is used for detecting the purity of water flow in the water return pipeline;

The first drain pipe and the second drain pipe are both communicated with the water return pipeline;

The first control valve is connected with the first drainage pipe and is used for controlling the opening and closing of the water return pipeline and the first drainage pipe;

The second control valve is connected with the second water drainage pipe and is used for controlling the opening and closing of the water return pipeline and the second water drainage pipe;

And the control mechanism is electrically connected with the purity detection sensor, the first control valve and the second control valve respectively, and is used for adjusting the opening and closing of the first control valve and the second control valve according to the detection data of the purity detection sensor.

In a preferred embodiment of the present invention, the first control valve and the second control valve are solenoid valves.

in a preferred embodiment of the present invention, when the purity detection sensor detects that the purity of the water in the water flow in the water return pipe is within a preset range, the control mechanism controls the first control valve to open and controls the second control valve to close;

When the purity detection sensor detects that the purity of the water flow in the water return pipeline is out of a preset range, the control mechanism controls the first control valve to be closed and controls the second control valve to be opened.

in a preferred embodiment of the present invention, the water tank further comprises a water tank, and the water tank is communicated with the second water discharging pipe to contain the water flowing through the second control valve.

In a preferred embodiment of the present invention, the purity detection sensor is a resistivity detection sensor.

In a preferred embodiment of the present invention, the purity detection sensor is a conductivity detection sensor.

In a preferred embodiment of the present invention, the control mechanism is one of a PC, a PLC, or a single chip.

In a preferred embodiment of the present invention, the control mechanism is electrically connected to the purity detection sensor, the first control valve and the second control valve through a cable.

In a preferred embodiment of the present invention, the probe of the purity detection sensor is disposed inside the water return pipe.

A pure water hydraulic support comprises the cleaning and separating system for the pure water hydraulic support.

This kind of pure water is clean piece-rate system of decontaminating for hydraulic support, in the time of work, can utilize the purity to detect the purity of the water in the return water pipeline of purity detection sensor realization, thereby can realize utilizing control mechanism control first control valve to open and the second control valve is closed to realize that the rivers in the return water pipeline flow through first drain pipe, also can realize utilizing control mechanism control first control valve to close and the second control valve is opened and is realized that the rivers in the return water pipeline flow through the second drain pipe, thereby can realize controlling the flow direction of water according to the purity of water, thereby realize the control to the quality of water in the pure water hydraulic support, the accuracy is high.

This kind of pure water hydraulic support owing to can utilize pure water hydraulic support to realize the control to the quality of water in the pure water hydraulic support with the piece-rate system of decontaminating to can make when work, this kind of pure water hydraulic support can keep the stability of the purity of inside water when the water conservation.

drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a decontamination separation system for a pure water hydraulic support according to an embodiment of the present invention;

Fig. 2 is a schematic connection diagram of a control mechanism and a purity detection sensor, a first control valve and a second control valve in the cleaning and separating system for the pure water hydraulic support provided by the embodiment of the utility model.

Icon: a cleaning and separating system for the 100-pure water hydraulic support; 110-a water return pipe; 120-purity detection sensor; 130-a second control valve; 140-a second drain pipe; 150-a first drain pipe; 160-a first control valve; 170-a water tank; 180-control mechanism.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

in the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

The present embodiment provides a cleaning and separating system 100 for a pure water hydraulic support, which comprises a water return pipe 110, a purity detection sensor 120, a first drain pipe 150, a second drain pipe 140, a first control valve 160, a second control valve 130 and a control mechanism 180.

The purity detection sensor 120 is connected to the water return pipe 110, and the purity detection sensor 120 is used to detect the purity of water in the water flow in the water return pipe 110.

Particularly, in the operation, the probe of the purity detection sensor 120 may be disposed in the water return pipe 110, so that the purity of the water flow in the water return pipe 110 may be detected, and the result obtained by the detection method is more accurate.

It is also possible to use a water pipe having both ends connected to the water return pipe 110, and then to dispose the probe of the purity measuring sensor 120 in the water pipe.

In short, the purity of the water in the water flow in the water return pipe 110 may be detected by the purity detection sensor 120.

Also, in the present embodiment, both the first drain pipe 150 and the second drain pipe 140 communicate with the return pipe 110.

the water in the water return pipe 110 may flow out through the first drain pipe 150 and also through the second drain pipe 140, so that different water flows from different pipes may be realized.

Also, in the present embodiment, the first control valve 160 is connected to the first drain pipe 150, and the first control valve 160 is used to control the opening and closing of the return pipe 110 and the first drain pipe 150; the second control valve 130 is connected to the second water discharge pipe 140, and the second control valve 130 controls opening and closing of the water return pipe 110 and the second water discharge pipe 140.

When in use, if water is required to flow out through the first water discharge pipe 150, the water flowing out through the water return pipe 110 through the first water discharge pipe 150 can be realized by controlling the first control valve 160 to be opened and simultaneously controlling the second control valve 130 to be closed; if it is desired to discharge the water through the second water discharge pipe 140, the water flowing through the water return pipe 110 can be discharged through the second water discharge pipe 140 by controlling the second control valve 130 to be opened and simultaneously controlling the first control valve 160 to be closed.

in the present embodiment, the control unit 180 is electrically connected to the purity detection sensor 120, the first control valve 160, and the second control valve 130, respectively, and the control unit 180 is configured to adjust the opening and closing of the first control valve 160 and the second control valve 130 according to the detection data of the purity detection sensor 120.

When the water purifier is used, the purity detection sensor 120 transmits the purity information of the water in the water return pipe 110 to the control mechanism 180, and the control mechanism 180 can control the first control valve 160 and the second control valve 130 to open or close according to the purity detection sensor 120, so that the water flowing to the first drain pipe 150 or the second drain pipe 140 can be controlled, and the water with different water purities can be separated.

Optionally, in this embodiment, the first control valve 160 and the second control valve 130 are both solenoid valves.

The first drain pipe 150 or the second drain pipe 140 is controlled by using the solenoid valve, so that the opening and closing of the pipes can be accurately controlled, and the control mechanism 180 can be conveniently controlled.

It should be noted that, in this embodiment, the first control valve 160 and the second control valve 130 may use various commercially available electromagnetic valves that are already used in the prior art, and only need to control the opening and closing of the first drain pipe 150 and the second drain pipe 140, respectively, and do not need to work with the electromagnetic valves of specific models.

Optionally, in this embodiment, when the purity detection sensor 120 detects that the purity of the water in the water flow in the water return pipe 110 is within the preset range, the control mechanism 180 controls the first control valve 160 to be opened and controls the second control valve 130 to be closed; when the purity detection sensor 120 detects that the purity of the water flow in the water return pipe 110 is out of the preset range, the control mechanism 180 controls the first control valve 160 to be closed and controls the second control valve 130 to be opened.

When the water purifier is used, a range value of the purity of water is preset, if the detected value of the purity of water is within the preset range, the purity of water is satisfactory, at the moment, the control mechanism 180 controls the first control valve 160 to be opened and controls the second control valve 130 to be closed, so that water can flow out of the first water discharge pipe 150, and if the detected value of the purity of water is outside the preset range, the purity of water is unsatisfactory, at the moment, the control mechanism 180 controls the first control valve 160 to be closed and controls the second control valve 130 to be opened, so that water can flow out of the second water discharge pipe 140.

Specifically, the processor that determines whether the detected value of the purity of the water falls within the preset range may be integrated in the purity detection sensor 120, and at this time, the result detected by the purity detection sensor 120 is satisfactory or unsatisfactory, so that the control mechanism 180 only needs to control the first control valve 160 and the second control valve 130 according to the result detected by the purity detection sensor 120.

Of course, in other embodiments, a processor for determining whether the detected value of the purity of the water falls within a preset range may be integrated in the control mechanism 180, and the detected value of the purity of the water detected by the purity detection sensor 120 is the detected value of the purity of the water, and then the processor in the control mechanism 180 is used to determine whether the detected value of the purity of the water detected by the purity detection sensor 120 falls within the preset range, and if the detected value of the purity of the water falls within the preset range, the control mechanism 180 controls the first control valve 160 to be opened and the second control valve 130 to be closed, so that the water flows out of the first drain pipe 150, and if the detected value of the purity of the water falls outside the preset range, the control mechanism 180 controls the first control valve 160 to be closed and the second control valve 130 to be opened, so that the water flows out of the second drain pipe 140.

Optionally, in this embodiment, a water tank 170 is further included, and the water tank 170 is communicated with the second water discharge pipe 140 to accommodate the water flowing through the second control valve.

the water tank 170 can recycle water that meets the water purity requirement, thereby improving the water utilization efficiency.

Optionally, in this embodiment, the purity detection sensor 120 is a resistivity detection element.

The resistivity of the water is utilized to detect the purity of the water, specifically, the higher the purity of the water is, the higher the resistivity of the water is, the lower the purity of the water is, the lower the resistivity of the water is, so that a threshold value can be set, when the resistivity of the water is greater than or equal to the threshold value, the purity of the water is considered to be required, and when the resistivity of the water is less than the threshold value, the purity of the water is considered to be not required.

optionally, in this embodiment, the purity detection sensor 120 is a resistivity detection sensor.

the resistivity of the water can be detected by the resistivity detection sensor, real-time detection can be performed, the detected data can be transmitted to the control mechanism 180, and the purpose that the control mechanism 180 controls the first control valve 160 and the second control valve 130 through the resistivity of the water in the water return pipe 110 can be achieved.

of course, in this embodiment, various commercially available sensors for detecting resistivity, which are already well-established in the prior art, may be used, and only the accuracy thereof needs to meet the requirement.

Optionally, in this embodiment, the control mechanism 180 is one of a PC, a PLC, or a single chip microcomputer.

Specifically, when in use, mechanisms for control, which are already used in the prior art, such as a PC, a PLC, or a single chip microcomputer, may be adopted, and software programs of these mechanisms are set to be the prior art well known to those skilled in the art, and although these structures may not be directly utilized and software programs need to be set, such control programs for controlling the operation of a small number of mechanisms by obtaining information from one information source are well known to those skilled in the art, and therefore, detailed descriptions of the specific use method and connection mode of the control mechanism 180 are omitted in this application.

Alternatively, in the present embodiment, the control mechanism 180 is electrically connected to the purity detection sensor 120, the first control valve 160, and the second control valve 130 through cables, respectively.

The cable is utilized, so that the accurate transmission of signals can be realized, the accuracy of signal transmission can be effectively improved, and the interference of an external electromagnetic field on the signal transmission is reduced.

Of course, in other embodiments, the control mechanism 180 may also be electrically connected to the purity detection sensor 120, the first control valve 160, and the second control valve 130 by radio or other means existing in the prior art, and it is only necessary that the control mechanism 180 can receive the signal of the purity detection sensor 120 and can control the opening and closing of the first control valve 160 and the second control valve 130.

In this embodiment, the purity of water is understood to be the corrosion capability after water and metal contact, and it is generally understood that the higher the conductivity of water, the higher the corrosion capability after water and metal contact, and therefore, in the present application, the purpose of preventing metal corrosion is achieved by controlling the conductivity of water.

In summary, this kind of pure water is separation system of decontaminating 100 for hydraulic support, in the during operation, can utilize purity detection sensor 120 to realize detecting the purity of the water in return pipe 110 to can realize utilizing control mechanism 180 to control the opening and shutting of first control valve 160 and second control valve 130 to realize that the rivers in return pipe 110 flow out through first drain pipe 150 or second drain pipe 140, thereby can realize controlling the flow direction of water according to the purity of water, thereby realize the control to the quality of water in the pure water hydraulic support, the accuracy is high.

Example two

The present embodiment provides a cleaning and separating system 100 for a pure water hydraulic bracket, which is substantially the same as the cleaning and separating system 100 for a pure water hydraulic bracket provided in the first embodiment, except that in the present embodiment, the purity detection sensor 120 may also employ a conductivity detection member.

The conductivity detection element can also be used for detecting the purity of the water, specifically, the higher the purity of the water, the lower the conductivity of the water, the higher the purity of the water, the lower the purity of the water, the higher the conductivity of the water, and therefore, a threshold value can be set, when the conductivity of the water is less than the threshold value, the purity of the water is considered to be required, and when the conductivity of the water is greater than or equal to the threshold value, the purity of the water is considered to be not required.

Optionally, in this embodiment, the purity detection sensor 120 is a conductivity detection sensor.

The detection of the conductivity of the water by the conductivity detection sensor can realize the detection of the conductivity of the water, and the real-time detection can be performed, and the detected data can be transmitted to the control mechanism 180, so that the control mechanism 180 can realize the purpose of controlling the first control valve 160 and the second control valve 130 through the conductivity of the water in the water return pipe 110.

In summary, this kind of pure water is separation system of decontaminating 100 for hydraulic support, in the during operation, can utilize purity detection sensor 120 to realize detecting the purity of the water in return pipe 110 to can realize utilizing control mechanism 180 to control the opening and shutting of first control valve 160 and second control valve 130 to realize that the rivers in return pipe 110 flow out through first drain pipe 150 or second drain pipe 140, thereby can realize controlling the flow direction of water according to the purity of water, thereby realize the control to the quality of water in the pure water hydraulic support, the accuracy is high.

EXAMPLE III

The embodiment provides a pure water hydraulic support, which comprises a cleaning and separating system 100 for the pure water hydraulic support.

Specifically, when in use, the return pipe 110 of the pure water hydraulic support used in the cleaning and separating system 100 and the water outlet of the pure water hydraulic support may be connected together. Therefore, the purity of the water in the water return pipeline 110 can be detected by the purity detection sensor 120 in the water return pipeline 110, and when the detection result is qualified, the purity of the water in the pure water hydraulic support can be proved to be qualified, so that the purity of the water in the pure water hydraulic support can be conveniently controlled.

finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. The utility model provides a pure water hydraulic support is with piece-rate system of decontaminating which characterized in that includes:

A water return pipe;

The purity detection sensor is connected with the water return pipeline and is used for detecting the purity of water flow in the water return pipeline;

The first drain pipe and the second drain pipe are both communicated with the water return pipeline;

the first control valve is connected with the first drainage pipe and is used for controlling the opening and closing of the water return pipeline and the first drainage pipe;

The second control valve is connected with the second water drainage pipe and is used for controlling the opening and closing of the water return pipeline and the second water drainage pipe;

And the control mechanism is electrically connected with the purity detection sensor, the first control valve and the second control valve respectively, and is used for adjusting the opening and closing of the first control valve and the second control valve according to the detection data of the purity detection sensor.

2. The clean-up separation system for a pure water hydraulic support according to claim 1, wherein the first control valve and the second control valve are both solenoid valves.

3. The cleaning and separating system for the pure water hydraulic bracket according to claim 1, wherein the control mechanism controls the first control valve to be opened and controls the second control valve to be closed when the purity detection sensor detects that the purity of the water flow in the water return pipe is within a preset range;

When the purity detection sensor detects that the purity of the water flow in the water return pipeline is out of a preset range, the control mechanism controls the first control valve to be closed and controls the second control valve to be opened.

4. The clean-up separation system for a pure water hydraulic support according to claim 3, further comprising a water tank in communication with the second drain pipe for holding water flowing through the second control valve.

5. The clean-up separation system for a pure water hydraulic mount according to claim 1, wherein the purity detection sensor is a resistivity detection sensor.

6. The clean-up separation system for a pure water hydraulic mount according to claim 1, wherein the purity detection sensor is a conductivity detection sensor.

7. The cleaning and separating system for the pure water hydraulic support according to claim 1, wherein the control mechanism is one of a PC, a PLC or a single chip microcomputer.

8. The clean-up separation system for a pure water hydraulic mount according to claim 1, wherein the control mechanism is electrically connected to the purity detection sensor, the first control valve, and the second control valve through a cable.

9. The cleaning and separating system for the pure water hydraulic bracket according to claim 1, wherein the probe of the purity detection sensor is disposed inside the water return pipe.

10. A pure water hydraulic mount comprising the cleaning and separating system for a pure water hydraulic mount according to any one of claims 1 to 9.