CN211178724U - Vibration device for visually observing running equipment - Google Patents

Abstract

The utility model discloses a vibration device for visually observing running equipment, which mainly comprises a base, a vibration transmission rod and a vibration display ball, and is characterized in that the base is a cylinder with the diameter of phi 5-50mm and made of strong magnet or metal and is vertically arranged at the part of the equipment to be monitored by strong magnetic attraction or welding; the vibration transmission rod is of a diameter

The length is 200-1000mm, and the material is carbon steel or notA cylindrical steel bar of stainless steel; the vibration display ball is a solid round ball with the diameter phi of 10-50mm, the outer side of the ball body is coated with colored fluorescent paint, and the thickness of the paint layer is 0.1-0.5 mm. The utility model discloses utilize vibration transmission stick transmission equipment vibration frequency, through the amplitude of fluctuation of vibration display ball, the vibration value of the online monitoring instrument equipment of vibration value is not installed in the judgement directly perceived.

Description

Vibration device for visually observing running equipment

Technical Field

The utility model relates to an operation equipment vibration detection area, concretely relates to survey operation equipment vibrating device directly perceived.

Background

At present, vibration value on-line monitoring instruments are selectively installed on running equipment in a chemical production device according to the key degree, and a method for monitoring the vibration value of the running equipment, on which part of the vibration value on-line monitoring instruments are not installed, comprises the following steps: the on-site inspection personnel utilize the handheld tool to monitor or visually judge according to the running sound of the equipment, under the working condition environment that the running equipment is arranged densely, the types are more complicated and the noise is larger, the on-site inspection personnel cannot visually judge according to the running sound of the equipment, if the on-site inspection personnel utilize the handheld tool to monitor for a long time, the physical strength and the distraction of the personnel are easily consumed, and the risk of on-site operation is increased.

SUMMERY OF THE UTILITY MODEL

For solving prior art not enough, the utility model provides an it is directly perceived to survey operation equipment vibrating device solves "operation equipment arranges comparatively intensive, the kind is comparatively numerous and diverse, under the great operating mode environment of noise, can not be according to equipment operation sound judgement directly perceived, if utilize the long-time monitoring of hand-held tool, then consume personnel's physical power easily, disperse vigor, and then increased the problem of site operation risk".

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a vibration device for visually observing running equipment mainly comprises a base, a vibration transmission rod and a vibration display ball.

The base is a cylinder with the diameter of phi 5-50mm and is made of metal such as a strong magnet or stainless steel.

Further, the lower part of the base is a plane.

Further, the middle of the upper part of the base is processed

And (4) connecting the internal threads with the hole A.

Furthermore, the base is vertically installed at the position of the equipment to be monitored in a strong magnetic attraction or welding mode.

The vibration transmission rod is of a diameter

The length is 200 and 1000mm, and the material is carbon steel or stainless steel cylindrical steel bar.

Further, external threads are respectively machined at two ends of the vibration transmission rod.

Furthermore, the lower end of the vibration transmission rod is connected with an internal thread connecting hole A in the middle of the upper part of the base through threads.

The vibration display ball is a solid round ball with the diameter phi of 10-50 mm.

Further, the lower end of the vibration display ball is processed

And (4) connecting the inner threads with the holes B.

Furthermore, the internal thread connecting hole B is connected with the upper end of the vibration transmission rod through a thread.

Furthermore, the outer side of the sphere is coated with a color fluorescent paint, and the thickness of the paint layer is 0.1-0.5 mm.

A vibration device for visually observing running equipment is used, and a using method comprises the following steps of firstly selecting a vibration transmission rod with a proper length according to the maximum wind speed of the environment where the equipment is located, wherein the selection standard is as follows: the vibration transmission rod is connected with the base, the vibration display ball and the vibration transmission rod in sequence, and the vibration display ball does not swing under the maximum wind speed of the environment where the equipment is located; then the base is vertically installed at the position of the equipment to be monitored in a strong magnetic attraction or welding mode, when the equipment is abnormal in operation and large in vibration, the vibration frequency is transmitted to the vibration display ball through the base and the vibration transmission rod, the operation condition of the equipment is visually judged through the swing amplitude of the vibration display ball, and if the vibration display ball swings obviously, the abnormal vibration value of the operation equipment can be visually judged, and the equipment is required to be stopped for checking the fault reason.

The utility model has the advantages that:

the utility model discloses utilize vibration transmission stick transmission equipment vibration frequency, through the amplitude of fluctuation of vibration display ball, the vibration value of the online monitoring instrument equipment of vibration value is not installed in audio-visual judgement has solved "running equipment arranges comparatively densely, the kind is more for under the great operating mode environment of numerous and diverse, noise, can not judge according to equipment operation sound audio-visual, if utilize the long-time monitoring of handheld instrument, then consume personnel's physical power easily, disperse vigor, and then increased the problem of site operation risk".

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

wherein 1, the base 2, the vibration transmission rod 3, the vibration display ball

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

a vibration device for visually observing running equipment mainly comprises a base 1, a vibration transmission rod 2 and a vibration display ball 3. The base 1 is a cylinder with the diameter of phi 5mm and is made of a strong magnet; the lower part of the base 1 is a plane, and the middle of the upper part of the base 1 is processed

And (4) connecting the internal threads with the hole A. The vibration transmission rod 2 has a diameter

The length of the cylindrical steel bar is 200mm, and the cylindrical steel bar is made of carbon steel; and external threads are respectively processed at two ends of the vibration transmission rod 2, and the lower end of the vibration transmission rod 2 is connected with the internal thread connecting hole A in the middle of the upper part of the base 1 through threads. The vibration display ball 3 is a solid round ball with the diameter phi of 10mm, the outer side of the ball body is coated with colored fluorescent paint, and the thickness of the paint layer is 0.1 mm; machining at the lower end of the vibration display ball 3

The internal thread connecting hole B is connected with the upper end of the vibration transmission rod 2 through threads.

Example 2:

a vibration device for visually observing running equipment mainly comprises a base 1, a vibration transmission rod 2 and a vibration display ball 3. The base 1 is a cylinder with the diameter of phi 50mm and is made of stainless steel; the lower part of the base 1 is a plane, and the middle of the upper part of the base 1 is processed

And (4) connecting the internal threads with the hole A. The vibration transmission rod 2 is a cylindrical steel bar with the diameter of 8mm and the length of 1000mm and is made of stainless steel; and external threads are respectively processed at two ends of the vibration transmission rod 2, and the lower end of the vibration transmission rod 2 is connected with the internal thread connecting hole A in the middle of the upper part of the base 1 through threads. The vibration display ball 3 is a solid ball with the diameter phi of 50mm, the outer side of the ball body is coated with colored fluorescent paint, and the thickness of the paint layer is 0.5 mm; machining at the lower end of the vibration display ball 3

The internal thread connecting hole B is connected with the upper end of the vibration transmission rod 2 through threads.

Example 3:

a vibration device for visually observing running equipment mainly comprises a base 1, a vibration transmission rod 2 and a vibration display ball 3. The base 1 is a cylinder with the diameter of phi 20mm and is made of metal such as a strong magnet or stainless steel; the lower part of the base 1 is a plane, and the middle of the upper part of the base 1 is processed

And (4) connecting the internal threads with the hole A. The vibration transmission rod 2 has a diameter

The length of the cylindrical steel bar is 500mm, and the cylindrical steel bar is made of stainless steel; and external threads are respectively processed at two ends of the vibration transmission rod 2, and the lower end of the vibration transmission rod 2 is connected with the internal thread connecting hole A in the middle of the upper part of the base 1 through threads. The vibration display ball 3 is a solid round ball with the diameter phi of 20mm, the outer side of the ball body is coated with colored fluorescent paint, and the thickness of the paint layer is 0.2 mm; machining at the lower end of the vibration display ball 3

The internal thread connecting hole B is connected with the upper end of the vibration transmission rod 2 through threads.

The use method of the vibration device for visually observing the operating equipment in the three embodiments comprises the following steps: firstly, a vibration transmission rod 2 with a proper length is selected according to the maximum wind speed of the environment where the equipment is located, and the selection criteria are as follows: the vibration display device is sequentially connected with a base 1, a vibration transmission rod 2 and a vibration display ball 3, and does not swing under the maximum wind speed of the environment where the device is located; then install base 1 through strong magnetism actuation or welding mode perpendicularly at the position that equipment needs to monitor, when equipment operation is unusual, the vibration is big partially, and vibration frequency transmits to vibration display ball 3 through base 1, vibration transmission stick 2, through vibration display ball 3's swing range audio-visual judgement equipment operation condition, if vibration display ball 3 takes place obvious swing, then can audio-visual judgement this operation equipment vibration value unusual, need the parking inspection equipment trouble reason. The three embodiments above visually judge the vibration value of the on-line vibration value monitoring instrument device without installing through the swing amplitude of the vibration display ball, and solve the problem that the operation device cannot be visually judged according to the operation sound of the device under the working condition environment with dense arrangement, various types and high noise, and if the handheld tool is used for monitoring for a long time, the physical strength and the distraction of personnel are easily consumed, and the risk of field operation is increased.

Although the present invention has been described with reference to the accompanying drawings, it is not intended to limit the scope of the present invention, and those skilled in the art should understand that various modifications or variations that can be made by those skilled in the art without inventive work are still within the scope of the present invention.

Claims (4)

1. A vibration device of visual observation operation equipment mainly comprises a base, a vibration transmission rod and a vibration display ball, and is characterized in that the base is a cylinder with the diameter of phi 5-50mm and is made of a strong magnet or metal and droops in a strong magnetic attraction or welding modeThe device is directly arranged at the position of the equipment to be monitored; the vibration transmission rod is of a diameter

The length is 200 and 1000mm, and the material is carbon steel or stainless steel cylindrical steel bar; the vibration display ball is a solid round ball with the diameter phi of 10-50mm, the outer side of the ball body is coated with colored fluorescent paint, and the thickness of the paint layer is 0.1-0.5 mm.

2. The visual observation and operation equipment vibration device according to claim 1, wherein the lower part of the base is a plane, and the middle of the upper part of the base is processed

And (4) connecting the internal threads with the hole A.

3. The vibration device of visual observation operating equipment according to claim 1, wherein external threads are respectively machined at both ends of the vibration transmission rod, and the lower end of the vibration transmission rod is connected with an internal thread connecting hole A in the middle of the upper part of the base through threads.

4. The visual observation operation equipment vibration device according to claim 1, wherein the lower end of the vibration display ball is processed

The inner threaded connecting hole B is connected with the upper end of the vibration transmission rod through threads.

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