KR20240000744U - Workbench equipped with ultra-precision horizontal sensor for primary pump maintenance - Google Patents

Abstract

The present invention relates to a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance. In particular, it includes a base disposed on the floor of the workshop to support the workbench; a lower plate portion installed on the upper surface of the base portion to enable angle adjustment; a high-precision horizontal sensor installed on the lower plate and measuring and displaying the level of two axes (X, Y) with respect to the lower plate; A plurality of horizontal adjustment bolts installed at the four corners of the lower plate and maintaining the pump seating portion horizontal by adjusting the horizontal angle of the lower plate in response to the tilt value detected by the ultra-precision horizontal sensor; A pump seating portion installed on the upper surface of the lower plate; and a top portion having a pump passage hole in the center and providing a work space for the worker.
Therefore, when disassembling and maintaining the primary pump used when discharging LNG from a storage tank, it can be applied to all pumps regardless of the manufacturer, and the horizontal state of the foundation is checked in response to the horizontal tilt value detected through an ultra-precision horizontal sensor. The pump can be disassembled, assembled, and maintained while maintained, and the height of the top can be freely adjusted to suit the height of the pump, ensuring worker safety.

Description

Workbench equipped with ultra-precision horizontal sensor for primary pump maintenance}

This design relates to a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance. More specifically, it can be applied to all pumps regardless of manufacturer when disassembling and servicing the primary pump used when discharging LNG from a storage tank. , it is possible to disassemble, assemble and maintain the pump while maintaining the horizontal state of the base in response to the horizontal tilt value detected through the ultra-precision horizontal sensor (Tilt Sensor), and the height of the upper plate can be freely adjusted to suit the height of the pump. It is about a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance designed to ensure worker safety.

In general, LCNG is a complex charging station that can perform both LNG and CNG charging functions at the same time. It is transported from an LNG base to an LNG tanker vehicle, passes through an unloading arm and a primary pump, and is stored in an LNG storage tank. Then, LNG fuel is delivered to the LNG vehicle. , CNG vehicles are charged with CNG by pressurizing and vaporizing LNG.

In the above charging process, LNG is charged by pressurizing the LNG transported from the storage tank at the primary pump and supplying it to the LNG dispenser.

In the CNG charging process, the LNG transported from the primary pump is pressurized to a high pressure of 25MPA in the secondary pump and sent to the vaporizer. An odorant is injected into the vaporized NG and then supplied to the CNG dispenser for charging.

The secondary pump cold end is a reciprocating piston pump designed and manufactured to be suitable for use with high-pressure, cryogenic LNG, and its housing is vacuum and insulated.

Cryogenic pumps are used in the use or transfer line of cryogenic fluids such as LNG, and work to correct the bending state of the piston due to bending of the piston or other factors during use is performed or disassembly/assembly work for exchange is performed. It comes true.

Conventionally, when disassembling and servicing a cryogenic pump, the housing was fixed in a vise, and the piston was disassembled by striking it with a hammer or rubber mallet.

Accordingly, there was a difference in the direction or force of the blow, causing damage to the housing or piston, and the shock from the blow damaged the internal parts of the pump, causing a problem that the performance of the cryogenic pump deteriorated.

As a conventional prior art to improve this, as disclosed in Korean Utility Model Registration No. 20-0472340 "Disassembly/Assembly Device for Cryogenic Pump" (registration date: 20140411), a housing provided with a flange and a reciprocating operation within the housing A disassembly/assembly device for a cryogenic pump consisting of a piston, comprising: a base on which the pump is mounted, a fixture fixed perpendicularly to the base, a pair of clamps fixed to the fixture and fixing or unfixing the flange, and A hydraulic cylinder is fixed to the top of the fixture and has a rod that reciprocates hydraulically, a rotary rod rotatably coupled to the fixture, and a support coupled to an end of the rotary rod and on which the lower end of the housing is seated. , The piston is disassembled or assembled from the housing by the operation of the rod, and the clamp is rotatably coupled to a fixing bolt rotatably coupled to the fixture, and is clamped or unclamped by a fixing nut, and is attached to the clamp. A lock handle that fixes the rotational state of the combined housing is screwed to the fixing bolt.

However, in the case of cryogenic high-pressure pumps of the motor-pump integrated type, the stator is fixed to the motor housing with four fixing screws, and when replacing or processing parts of the motor housing or working to reinforce the insulation of the stator, the stator must be disassembled and then re-installed. If the flatness of the floor is poor during the assembly process, there is a risk of damage to expensive parts due to incorrect assembly or disassembly due to operator error during assembly and disassembly work.

Meanwhile, the primary pump used when discharging LNG from the storage tank is a facility that has a significant impact on the delivery of LNG from the receiving base. Therefore, in order to maintain the performance of the primary pump, it is always maintained through disassembly and maintenance when a certain operating time arrives. There is a great need for a primary pump maintenance workbench that can maintain the quality of the pump.

In particular, the precision of the measurement of the inclination can be improved, and the problems of difficulty in adjusting work efficiency and horizontal inclination due to the pump seating part being different during disassembly and assembly due to different pump specifications for each manufacturer can be solved, and the height is also different due to different pump specifications. There is an urgent need to release a primary pump maintenance workbench that can solve problems caused by workers working in an unstable position depending on the pump height.

Domestic Registered Utility Model Publication No. 20-0472340 (April 11, 2014) Domestic Registered Patent Publication No. 10-0929967 (November 26, 2009) Domestic Public Utility Model Publication No. 20-2019-0000357 (February 11, 2019) Domestic Registered Utility Model Publication No. 20-0488883 (March 25, 2019)

This invention was developed to solve all of these conventional problems. It can be applied to all pumps regardless of manufacturer during disassembly and maintenance work on the primary pump used when discharging LNG from a storage tank, and is an ultra-precision horizontal sensor. It is possible to disassemble, assemble, and maintain the pump while maintaining the horizontal state of the base in response to the horizontal tilt value detected through the pump. The height of the upper plate can be freely adjusted to suit the height of the pump, and worker safety can be ensured. The purpose is to provide a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance.

In addition, the detailed purpose of the present invention will be clearly understood and understood by experts or researchers in this technical field through the specific contents described below.

The workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance of the present invention to achieve the above-mentioned purpose includes a base disposed on the floor of the workplace to support the workbench; a lower plate portion installed on the upper surface of the base portion to enable angle adjustment; a high-precision horizontal sensor installed on the lower plate and measuring and displaying the level of two axes (X, Y) with respect to the lower plate; A plurality of horizontal adjustment bolts installed at the four corners of the lower plate and maintaining the pump seating portion horizontal by adjusting the horizontal angle of the lower plate in response to the tilt value detected by the ultra-precision horizontal sensor; A pump seating portion installed on the upper surface of the lower plate; and a top portion having a pump passage hole in the center and providing a work space for the operator.

In addition, a screw lift capable of adjusting the height of the upper plate may be further installed on the upper surface of the lower plate.

Additionally, the pump seating portion may further include a pump seating groove on one outer surface.

In addition, a hand rail to prevent the worker from falling may be further installed along the circumference of the upper surface of the upper plate.

In addition, one side of the hand rail may further include a door for workers to enter and exit.

Meanwhile, prior to this, the terms and words used in the claims for utility model registration in this specification should not be construed as limited to their usual or dictionary meanings, and the designer must use terms to explain his/her own design in the best possible way. Based on the principle that concepts can be appropriately defined, they must be interpreted with meaning and concepts consistent with the technical idea of the present design.

Therefore, the embodiments described in this specification and the configuration shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent the entire technical idea of the present invention, so at the time of filing the present application, various alternatives may be used to replace them. It should be understood that equivalents and variations may exist.

As described above, according to the workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance of the present invention, an ultra-precision sensor capable of measuring the By increasing the precision of the inclination measurement, measures can be taken to ensure that the impeller can be assembled within the horizontal tolerance (5/100 mm), which has the effect of minimizing vibration during pump operation and improving maintenance quality for long-term operation.

also. In this design, a pump passage hole is formed in the center of the upper plate, and a pump mounting groove is formed on one side of the pump mounting portion, thereby solving the problem of difficult work efficiency and horizontal inclination due to different pump mounting portions during disassembly and assembly due to different pump specifications for each manufacturer. This has the advantage of being able to service all pumps with a single pump mounting part.

In addition, in this design, the height of the upper plate can be freely adjusted through a screw lift, so it is possible to solve problems that occur due to the worker working in an unstable position depending on the pump height due to different pump specifications and different heights, allowing the worker to achieve optimal performance. This has the effect of allowing the pump to be disassembled and assembled more safely in a working environment.

In addition, in this design, by installing an additional hand rail along the upper circumference of the top plate, it is possible to prevent the worker from falling, and the safety of the worker can be ensured when working at heights of 1,200 to 1,500 mm when assembling the pump. It is a very useful device.

Other effects of the present invention will be readily apparent and understood by experts or researchers in the technical field through the specific details described below or during the process of implementing the present invention.

Figure 1 is a perspective view of a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present design is applied.
Figure 2 is a side view of a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present invention is applied.
Figure 3 is a plan view of the lower plate of the workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present invention is applied.
Figure 4 is a perspective view of the pump seating portion of the workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present design is applied.

Since the present invention can make various changes and have various forms, specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific disclosed form, and should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention.

Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another. For example, a first component may be named a second component without departing from the scope of the present invention, and similarly, the second component may also be named a first component.

The terms used in this application are only used to describe specific embodiments and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as “comprise” or “have” are intended to designate the presence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification, but are not intended to indicate the presence of one or more other features or It should be understood that this does not exclude in advance the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as generally understood by a person of ordinary skill in the technical field to which the present invention pertains.

Terms defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and unless clearly defined in the present application, should not be interpreted as having an ideal or excessively formal meaning. No.

Hereinafter, with reference to the attached drawings, the operating conditions according to each configuration, including preferred embodiments according to the present invention, will be described in detail as follows.

Figure 1 shows a perspective view of a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present invention is applied, Figure 2 shows a side view of a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present invention is applied, and Figure 3 shows the present invention. It shows a top view of the lower plate of a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present design is applied, and Figure 4 shows a perspective view of the pump seating portion of a workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which the present design is applied.

According to this, the workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance to which an embodiment of the present invention is applied is largely composed of a base part (1), a lower plate part (2), and an ultra-precision horizontal sensor (3), as shown in Figure 1 and Figure 4. , includes a plurality of horizontal adjustment bolts (4), a pump seating portion (5), and an upper plate portion (7).

In addition, the present invention may further include a screw lift (6) and a hand rail (8).

At this time, the base portion 1 is formed by cutting a relatively thick metal plate to a predetermined area in consideration of various loads applied from the top, and is placed on the floor of the workshop where the primary pump is to be maintained and is placed on a workbench. It performs the function of supporting the first-wave pump and workers to be maintained, including.

In addition, the lower plate 2 is installed on the upper surface of the base 1 to enable adjustment of the horizontal angle, allowing the worker to adjust the horizontal inclination of the workbench through a plurality of horizontal adjustment bolts 4, which will be described later. It performs the function of allowing

In addition, the ultra-precision horizontal sensor 3 is fixedly installed on the upper surface of the lower plate 2 and performs the function of measuring and displaying the horizontality of two axes (X, Y) with respect to the lower plate 2.

At this time, horizontal sensors can be divided into several types depending on their purpose: horizontal sensors at right angles to the Earth's gravity, tilt sensors that measure the degree of inclination of an object from the center of gravity, ships, etc. There are rolling sensors to detect shaking and inclinometers to measure angles, and various mechanical structures are used depending on the purpose.

Because semiconductor sensors have a resolution limit of about 0.1° (degree) to 0.01 in mathematical precision, their use in industrial precision is limited, but for general purposes, they have the advantage of being small and standardized for use in robots, games, smartphones, etc. Sensors are suitable and are widely used.

Semiconductor horizontal sensors with acceleration values are also applied as three-dimensional spatial position sensors through mathematical calculations. However, horizontal sensors made of semiconductors calculate the flow of physical properties in a small space (capacitance space inside the semiconductor). There is a limit to the resolution of the measurement due to the uncertainty principle, in which the error range increases (the noise area expands) the more precisely the measurement is made.

As a precision sensor with a physical structure, an ultra-precision tilt sensor capable of measuring angles down to 0.00001° (10 millionths of a degree) is created by combining materials with stable physical properties and electrons. The physical properties are based on cutting-edge technology. There is an ionic liquid (Supported Ionic Liquid), which is a liquid substance that conducts electricity and has the unique property of not reacting with other substances at all or evaporating as an electrolyte made by it.

Physical properties are classified according to viscosity, current resistance, and chemical solvents. As it is a cutting-edge material technology with a very high price, the precision horizontal sensor is an important core sensor in the industry.

For long-term tilt monitoring of large structures or ground piles in civil engineering, precise measurements must be made to predict the center of gravity. They are also used as samples to calculate the microbehavior of the ground, and are used in bridges, tunnels, roads, and ports. , serves as a central sensor in SOC projects across social structures such as railways and airports.

The horizontal sensor is a basic sensor for measuring and monitoring the micro-tilt of a structure over a long period of time. It must not change basic physical properties, is designed to ensure the stability of the electronic circuit, and an ionic liquid with excellent recovery properties must be selected. .

It is a material that satisfies these conditions by creating an internal arc pattern in a ceramic package made by American company AOSI and completely sealing and filling it with a volatile electrolyte material.

To create a precision horizontal sensor based on sensor core material made of electrolyte material, a volatile ionic liquid, a PC program and AD system for electronic circuit configuration, design, production, and measurement (not shown) are required.

Meanwhile, the plurality of horizontal adjustment bolts (4) are installed at the four corners of the lower plate portion (2), and the operator adjusts the leveling bolts (4) in response to the tilt value detected by the ultra-precision horizontal sensor (3). By controlling the amount of tightening, the horizontal angle of the lower plate portion 2 is adjusted to maintain the pump seating portion 5, which will be described later, horizontally.

In this way, the worker precisely measures the inclination of the lower plate part (2) through the ultra-precision horizontal sensor (3), and then adjusts the plurality of horizontal adjustment bolts (4) to the inclination of the pump seating part (5) of the barrel. Precision can be increased, and measures can be taken to enable assembly within the impeller horizontal tolerance (5/100mm), thereby minimizing vibration during pump operation and improving maintenance quality that enables long-term operation.

In addition, the pump seating portion 5 is provided with a pump seating groove 51 on one outer surface, as shown in FIG. 4, to safely and accurately seat the lower part of the pump to be maintained, and has a pump seating groove 51 on the upper surface of the lower plate portion 2, as shown in FIGS. 1 to 12. In the installed state as shown in Figure 3, it performs the function of ensuring that the pump subject to maintenance is safely seated in an exactly vertical direction without being tilted in any direction.

In addition, the upper plate portion 7 has a pump passage hole 71 in the center, and when installed to be height-adjustable on the upper surface of the screw lift 6, which will be described later, not only provides a work space for the operator, but also provides a work space for the pump seating portion. It performs the function of safely fixing the outer surface of the pump subject to maintenance, which is seated in (5).

In this way, in the present invention, a pump passage hole 71 is formed in the center of the upper plate 7, and a pump seating groove 51 is formed on one side of the pump seating portion 5, so that pump specifications differ depending on the manufacturer, so that the pump can be disassembled. Not only does it solve the problem of difficulty in maintaining work efficiency and horizontal tilt due to incorrect pump mounting parts during assembly, but it also makes it possible to service all pumps with one pump mounting part (5).

In addition, another embodiment of the workbench of the present invention may include a screw lift 6 further installed between the upper surface of the lower plate 2 and the lower surface of the upper plate 7.

The screw lift 6 is widely used in lifts installed in auto repair shops, etc. to raise and lower heavy objects within a certain height range. The screw lift 6 is installed in an automobile repair shop, etc., and is widely used in lifts that allow heavy objects to be raised and lowered within a specified height range. Correspondingly, its height is variable and it performs the function of adjusting the height of the upper plate part (7).

Therefore, the height of the upper plate 7 can be freely adjusted through the screw lift 6, so the problem that occurs due to the worker working in an unstable position depending on the pump height due to different pump specifications and different heights can be solved. Therefore, workers can disassemble and assemble the pump more safely in an optimal working environment.

In addition, in another embodiment of the workbench of the present invention, a hand rail (8) is further installed along the circumference of the upper surface of the upper plate part (7) to prevent the worker from falling, but on one side of the hand rail (8) It may further include installing a door 81 for worker entry and exit.

In this way, in another embodiment of the present invention, a hand rail (8) equipped with a door (81) is further installed along the upper circumference of the top plate (7), thereby preventing the worker from falling, thereby preventing the pump from falling. During assembly work, the safety of workers can be ensured when working at heights of 1,200 to 1,500 mm.

In addition, although not shown, a clamp for fixing the pump may be further installed on the upper plate 7.

This clamp for fixing the pump is installed on the outside of the body of the pumps subject to maintenance, which is seated on the upper part of the pump seating portion 5 provided with the pump seating groove 51 through the pump passage hole 71 of the upper plate portion 7. Can be safely fixed to the upper plate 7 regardless of the diameter.

In addition, an automatic pump height detection sensor and control unit that automatically detects the height of the primary pump subject to maintenance are installed, and a screw drive motor is installed in the screw lift, and the control unit automatically detects the pump height. It may further include automatically adjusting the driving direction and rotation speed of the screw driving motor according to the height of the primary pump to be maintained as detected through the detection sensor.

Therefore, the height of the upper plate can be automatically adjusted to a height appropriate for the height of the primary pump to be maintained, thereby ensuring convenience and accuracy in pump maintenance.

As described above, the present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and changes can be made without departing from the spirit and scope of the present invention.

Therefore, since it can be implemented in various other forms without departing from the technical idea or main features, the embodiments of the present invention are merely examples in all respects and should not be construed as limited, and can be implemented with various modifications.

That is, although the detailed description of the present invention described above has been described with reference to preferred embodiments of the present invention, a person skilled in the art or having ordinary knowledge in the relevant technical field can It will be understood that the present invention can be modified and changed in various ways without departing from the spirit and technical scope of the present invention.

1: base
2: Lower plate
3: Ultra-precision horizontal sensor
4: Horizontal adjustment bolt
5: Pump seating portion 51: Pump seating groove
6: screw lift
7: Upper plate 71: Pump passage groove
8: hand rail 81: door

Claims (4)

a foundation disposed on the floor of the workplace to support the workbench;
a lower plate portion installed on the upper surface of the base portion to enable angle adjustment;
a high-precision horizontal sensor installed on the lower plate and measuring and displaying the level of two axes (X, Y) with respect to the lower plate;
A plurality of horizontal adjustment bolts installed at the four corners of the lower plate and maintaining the pump seating portion horizontal by adjusting the horizontal angle of the lower plate in response to the tilt value detected by the ultra-precision horizontal sensor;
A pump seating portion installed on the upper surface of the lower plate; A workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance, including a top plate with a pump passage hole in the center and providing a work space for the worker.
In claim 1,
A workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance, further comprising a screw lift capable of adjusting the height of the upper plate on the upper surface of the lower plate.
In claim 1,
The pump seating part,
A workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance that further includes a pump seating groove on one outer surface.
In claim 1.
The upper part,
A workbench equipped with an ultra-precision horizontal sensor for primary pump maintenance, which further includes a door on one side and a hand rail installed along the circumference of the upper surface to prevent the worker from falling.