CN216113431U - Joint with energy storage structure for fluid equipment - Google Patents

Abstract

The utility model discloses a connector with an energy storage structure for fluid equipment, which comprises a hydraulic pipe connector body and the energy storage structure which is arranged on the hydraulic pipe connector body and used for monitoring whether a hydraulic system leaks or not or used for auxiliary lighting of a hydraulic pipeline, wherein the energy storage structure comprises a rain-shielding and wind-shielding structure used for protecting the hydraulic pipe connector body. The utility model utilizes the energy storage structure arranged on the joint to carry out electronic monitoring, thereby not only saving energy consumption, but also ensuring the timeliness of monitoring, and being convenient for inspection and observation when some pipelines or joints in the indoor hydraulic pipelines are shielded by peripheral pipelines or hydraulic system components, and being free from carrying illumination equipment by workers, thereby facilitating the inspection work of the hydraulic system.

Description

Joint with energy storage structure for fluid equipment

Technical Field

The utility model relates to a joint for a fluid device with an energy storage structure.

Background

Fluid mechanical equipment refers to a machine which converts energy by using fluid as a working medium. Ball valves, heat exchangers, vapor samplers, MTG hoses are among the fluid devices and fittings. The hydraulic pipe joint is a part for connecting a high-pressure oil pipe and a high-pressure oil pipe in a hydraulic system. The hydraulic pipe joint can be divided into a hydraulic hose, a high-pressure ball valve, a quick joint, a ferrule type pipe joint, a welded type pipe joint, a high-pressure hose, a transition type pipe joint, a three-way type pipe joint, a non-standard type pipe joint, a flared type pipe joint, a right-angle type pipe joint, a rotary type pipe joint, a quick joint, a stainless steel pipe joint and a copper joint. When the hydraulic system is used, the problem of pipeline leakage is strictly prevented, whether oil leakage can not be found in time by manual monitoring and observation at present, and more energy is consumed by electronic monitoring; in addition, for the indoor hydraulic pipelines, some pipelines or joints are shielded by peripheral pipelines or hydraulic system components, so that the problem that the inspection and observation are inconvenient even if illumination is available exists, and the trouble that workers need to carry illumination equipment such as flashlights and the like is caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art, and provides a joint for a fluid device with an energy storage structure, wherein the energy storage structure arranged on the joint is used for electronic monitoring, so that the energy consumption is saved, the monitoring timeliness is ensured, in addition, when some pipelines or joints in indoor hydraulic pipelines are shielded by peripheral pipelines or hydraulic system components, the inspection and observation can be facilitated, workers do not need to carry lighting equipment, and the inspection work of a hydraulic system is facilitated.

In order to achieve the purpose, the utility model provides a connector with an energy storage structure for fluid equipment, which comprises a hydraulic pipe connector body and the energy storage structure which is arranged on the hydraulic pipe connector body and used for monitoring whether a hydraulic system leaks or not or used for auxiliary lighting of a hydraulic pipeline, wherein the energy storage structure comprises a rain and wind shielding structure used for protecting the hydraulic pipe connector body. The energy storage structure is used for storing other energy, is connected to the illumination of pipelines or joints which are shielded by peripheral pipelines or hydraulic system components in indoor hydraulic pipelines or is used for monitoring whether the hydraulic system leaks or not through lines when auxiliary illumination is needed, so that the energy consumption is saved, and the timeliness of monitoring is also ensured. The inspection and observation can be facilitated when some pipelines or joints in the indoor hydraulic pipelines are shielded by peripheral pipelines or hydraulic system components, workers do not need to carry lighting equipment, and the inspection work of the hydraulic system is facilitated.

The further technical scheme is that the energy storage structure comprises a photovoltaic assembly, the photovoltaic assembly is electrically connected with a controller, and the controller is respectively electrically connected with the inverter and the storage battery. The energy storage structure adopts the photovoltaic panel to store solar energy for utilization, can have certain effect of keeping out the wind and keeping out the rain to outdoor pipeline, can also collect outdoor solar energy.

The technical scheme is that pressure detectors are arranged on hydraulic pipelines on two sides of the hydraulic pipe joint body respectively, the pressure detectors are electrically connected with a data processor, the data processor is electrically connected with a buzzer, and a storage battery is electrically connected with the pressure detectors, the data processor and the buzzer. The storage battery in the energy storage structure is connected with the hydraulic monitoring system and is used for monitoring the power supply of the hydraulic monitoring system, after the pressure values on the hydraulic pipelines at the two sides of the hydraulic pipe joint body detected by the pressure detector are transmitted to the data processor, if the data processor finds that the difference between the two pressure values exceeds the set value, the leakage is judged, the buzzer gives an alarm, the whole monitoring system adopts the energy storage structure to store the solar energy which is converted into the electric energy for use, the energy consumption is saved, and according to most of the use conditions, in the initial stage of putting the hydraulic system into use, because the system is put into use and the quality is in the best period, the leakage condition hardly occurs, after a period of use (when the energy storage structure stores a certain amount of solar energy and converts the solar energy into electric energy), the monitoring system starts to monitor the power, so that the setting is reasonable.

A further technical scheme is that the rain-shielding and wind-shielding structure comprises at least two glass plates which are obliquely arranged, the rain-shielding and wind-shielding structure is fixedly connected with the stand column, and the stand column is fixedly connected to the hydraulic pipe joint body. Because outdoor pipelines are difficult to be protected from strong wind or rainy weather, in order to ensure that the energy storage structure and the hydraulic pipe joint body are influenced by external force such as wind power or rainwater as little as possible, the rain-shielding and wind-shielding structure is arranged, and the service life of the utility model is prolonged.

The further technical scheme is that the energy storage structure further comprises a bulb and a switch which are connected with the storage battery, and the bulb, the switch and the storage battery are connected through electric wires. Solar energy is absorbed by the photovoltaic module and then stored in the storage battery to serve as a power supply of the auxiliary lighting circuit, the solar energy stored outdoors can be used for inspection and observation when some pipelines or joints in an indoor hydraulic pipeline are shielded by peripheral pipelines or hydraulic system parts through connecting wires, workers are not required to carry lighting equipment, and inspection work of the hydraulic system is facilitated. When auxiliary lighting is needed, the switch is turned on, the electricity of the storage battery is supplied to the bulb, and the bulb emits light to irradiate pipelines or joints shielded by peripheral pipelines or hydraulic system components.

The utility model has the advantages and beneficial effects that: the energy storage structure arranged on the joint is utilized to carry out electronic monitoring, so that energy consumption is saved, the timeliness of monitoring is guaranteed, in addition, some pipelines or joints in indoor hydraulic pipelines can be conveniently checked and observed when being shielded by peripheral pipelines or hydraulic system components, workers are not required to carry lighting equipment, and the checking work of the hydraulic system is facilitated.

The energy storage structure is used for storing other energy, is connected to the illumination of pipelines or joints which are shielded by peripheral pipelines or hydraulic system components in indoor hydraulic pipelines or is used for monitoring whether the hydraulic system leaks or not through lines when auxiliary illumination is needed, so that the energy consumption is saved, and the timeliness of monitoring is also ensured. The inspection and observation can be facilitated when some pipelines or joints in the indoor hydraulic pipelines are shielded by peripheral pipelines or hydraulic system components, workers do not need to carry lighting equipment, and the inspection work of the hydraulic system is facilitated.

The energy storage structure adopts the photovoltaic panel to store solar energy for utilization, can have certain effect of keeping out the wind and keeping out the rain to outdoor pipeline, can also collect outdoor solar energy.

The storage battery in the energy storage structure is connected with the hydraulic monitoring system and is used for monitoring the power supply of the hydraulic monitoring system, after the pressure values on the hydraulic pipelines at the two sides of the hydraulic pipe joint body detected by the pressure detector are transmitted to the data processor, if the data processor finds that the difference between the two pressure values exceeds the set value, the leakage is judged, the buzzer gives an alarm, the whole monitoring system adopts the energy storage structure to store the solar energy which is converted into the electric energy for use, the energy consumption is saved, and according to most of the use conditions, in the initial stage of putting the hydraulic system into use, because the system is put into use and the quality is in the best period, the leakage condition hardly occurs, after a period of use (when the energy storage structure stores a certain amount of solar energy and converts the solar energy into electric energy), the monitoring system starts to monitor the power, so that the setting is reasonable.

Because outdoor pipelines are difficult to be protected from strong wind or rainy weather, in order to ensure that the energy storage structure and the hydraulic pipe joint body are influenced by external force such as wind power or rainwater as little as possible, the rain-shielding and wind-shielding structure is arranged, and the service life of the utility model is prolonged.

Solar energy is absorbed by the photovoltaic module and then stored in the storage battery to serve as a power supply of the auxiliary lighting circuit, the solar energy stored outdoors can be used for inspection and observation when some pipelines or joints in an indoor hydraulic pipeline are shielded by peripheral pipelines or hydraulic system parts through connecting wires, workers are not required to carry lighting equipment, and inspection work of the hydraulic system is facilitated.

Drawings

FIG. 1 is a schematic view of a fluid device coupling having an energy storage structure according to the present invention;

fig. 2 is a schematic diagram of the auxiliary lighting circuit of fig. 1.

In the figure: 1. a hydraulic pipe joint body; 2. a photovoltaic module; 3. a controller; 4. an inverter; 5. a storage battery; 6. a pressure detector; 7. a data processor; 8. a buzzer; 9. a glass plate; 10. a column; 11. a bulb; 12. and (4) switching.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 2, the present invention is a connector for a fluid device with an energy storage structure, including a hydraulic pipe connector body 1 and an energy storage structure arranged on the hydraulic pipe connector body 1 for monitoring leakage of a hydraulic system or for auxiliary lighting of a hydraulic pipeline, wherein the energy storage structure includes a rain and wind shielding structure for protecting the hydraulic pipe connector body 1. The energy storage structure comprises a photovoltaic assembly 2, the photovoltaic assembly 2 is electrically connected with a controller 3, and the controller 3 is respectively electrically connected with an inverter 4 and a storage battery 5. The hydraulic pipeline on the two sides of the hydraulic pipe joint body 1 is respectively provided with a pressure detector 6, the pressure detector 6 is electrically connected with a data processor 7, the data processor 7 is electrically connected with a buzzer 8, and the storage battery 5 is electrically connected with the pressure detector 6, the data processor 7 and the buzzer 8. The rain-shielding and wind-shielding structure comprises at least two glass plates 9 which are obliquely arranged, a stand column 10 is fixedly connected under the rain-shielding and wind-shielding structure, and the stand column 10 is fixedly connected on the hydraulic pipe joint body 1. The energy storage structure comprises a bulb 11 and a switch 12 which are connected with the storage battery 5, and the bulb 11, the switch 12 and the storage battery 5 are connected through electric wires.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the technical principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The utility model provides a fluid is joint for equipment with energy storage structure, its characterized in that, includes hydraulic pressure coupling body and sets up the energy storage structure that is used for monitoring hydraulic system whether reveals or is used for hydraulic pressure pipeline auxiliary lighting on the hydraulic pressure coupling body, including the structure of keeping out the rain and keeping out the wind that is used for protecting the hydraulic pressure coupling body in the energy storage structure.

2. The connector for a fluid device having an energy storage structure of claim 1, wherein the energy storage structure comprises a photovoltaic module, the photovoltaic module is electrically connected with the controller, and the controller is electrically connected with the inverter and the storage battery respectively.

3. The joint with the energy storage structure for the fluid equipment as claimed in claim 2, wherein the hydraulic pipes on both sides of the hydraulic pipe joint body are respectively provided with a pressure detector, the pressure detectors are electrically connected with a data processor, the data processor is electrically connected with a buzzer, and the storage battery is electrically connected with the pressure detectors, the data processor and the buzzer.

4. The joint for a fluid equipment with an energy storage structure as claimed in claim 3, wherein the rain and wind shielding structure comprises at least two inclined glass plates, and a column is fixedly connected to the lower part of the rain and wind shielding structure and fixedly connected to the body of the hydraulic pipe joint.

5. The connector for fluid equipment with energy storage structure of claim 2, wherein the energy storage structure further comprises a bulb and a switch connected with the storage battery, and the bulb, the switch and the storage battery are connected through wires.

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