CN112556540A - Method for manufacturing adjusting gasket between equipment and equipment base - Google Patents

Abstract

The invention discloses a method for manufacturing an adjusting gasket between equipment and an equipment base, which comprises the following steps: assembling a measuring device for measuring the distance between the marine equipment and the welding shim; adjusting the measuring device to enable the total height of the measuring device to be smaller than the distance between the marine equipment and the welding gasket; plugging a measuring device into a gap between the marine equipment and the welding gasket; adjusting the measuring device to enable the top of the measuring device to be in contact with the bottom of the marine equipment; and translating and taking out the measuring device, measuring the height of the measuring device, and processing and adjusting the gasket according to the measured data. The invention solves the problems of inaccurate machining size and poor machining precision of the adjusting gasket caused by large measurement error of the distance between the traditional internal diameter micrometer measuring marine equipment and the welding gasket.

Description

Method for manufacturing adjusting gasket between equipment and equipment base

Technical Field

The invention relates to the technical field of ship construction, in particular to a manufacturing method of an adjusting gasket between equipment and an equipment base.

Background

The ship construction is a complex project, hundreds of types of ship equipment are arranged on the ship, the connection modes between different ship equipment and equipment bases of the ship equipment are different due to different functions of various ship equipment, some ship equipment is in rigid connection with the equipment bases of the ship equipment through steel gaskets, some ship equipment is in soft or elastic connection with the equipment bases of the ship equipment through materials such as rubber, and other ship equipment is connected with the equipment bases of the ship equipment in a mode of pouring epoxy resin. Because the rigid connection mode adopting the steel gasket has the lowest cost and the most mature technology, most marine equipment on ships adopts the rigid connection mode.

Because the steel gasket between the marine equipment and the equipment base needs to bear the self weight of the equipment and the vibration and impact momentum in the operation process of the equipment, the strength calculation is carried out on the quantity and the size of the steel gasket. In view of the contact of steel gaskets, it is necessary to manually brush the spacer shims between the marine equipment and the equipment base to enhance contact. However, before the adjustment shim is brushed, it is necessary to precisely measure the distance between the marine equipment and the welding shim on the equipment base, then process the adjustment shim according to the distance, and finally manually brush the processed adjustment shim.

Because the requirement on the dimensional accuracy of the adjusting shim is high, the requirement on the measurement accuracy is high when the distance between the marine equipment and the welding shim is measured. At present when measuring the interval between marine equipment and the welding gasket, survey crew utilizes the internal diameter to divide centimetre to lie prone on the ground and measure, but because measuring position and measuring space are unsatisfactory, consequently measuring error is very big to lead to the machining dimension error of adjustment gasket very big.

Disclosure of Invention

In view of the above, the invention provides a method for manufacturing an adjusting shim between equipment and an equipment base, which is used for solving the problems that the machining size of the adjusting shim is not accurate and the machining precision is poor due to a large measurement error of a distance between equipment for a traditional internal diameter micrometer measuring ship and a welding shim.

A manufacturing method of an adjusting gasket between equipment and an equipment base specifically comprises the following steps:

s1, assembling a measuring device for measuring the distance between the marine equipment and a welding gasket, wherein the welding gasket is fixed on an equipment base;

the measuring device comprises a shell, a plurality of measuring mechanisms are arranged in the shell, each measuring mechanism comprises a sealing plug, a measuring assembly capable of longitudinally sliding and a compression spring arranged between the sealing plug and the measuring assembly, and a locking rod used for locking and fixing the measuring assembly is arranged on the shell;

s2, pressing the measuring components of all measuring mechanisms downwards at the same time to make the total height of the measuring device smaller than the distance between the marine equipment and the welding gasket, and locking all the measuring components by using the locking rod after the measuring device is pressed in place;

s3, plugging the measuring device into a gap between the marine equipment and the welding gasket;

s4, adjusting the measuring device to enable the top of the measuring device to be in contact with the bottom of the marine equipment;

and S5, translating and taking out the measuring device, measuring the height of the measuring device, and processing the adjusting shim according to the measured data.

Preferably, the step S5 is followed by a step S6: and brushing and grinding the machined adjusting shim.

Preferably, the casing includes the base and upwards extends a plurality of first support columns and a plurality of second support column from the top of base, second fixed orifices and third fixed orifices have transversely been seted up on the first support seat, and first fixed orifices has transversely been seted up on the second support column, all vertically offers the slip chamber that is used for placing measuring mechanism in all support columns, the bottom to the base is run through from the top of support column in the slip chamber.

Preferably, the measuring assembly of the measuring mechanism arranged in the first support column comprises a first sliding rod seated on the compression spring, a first measuring rod fixed on the first sliding rod, and the upper end of the first measuring rod extends out of the shell so as to abut against the bottom of the device;

the measuring assembly of the measuring mechanism arranged in the second supporting column comprises a second sliding rod located on the compression spring and a second measuring rod fixed on the second sliding rod, and the upper end of the second measuring rod extends out of the shell to abut against the bottom of the device.

Preferably, threaded grooves are formed in the tops of the first sliding rod and the second sliding rod, and a locking hole penetrates through the rod body of the first sliding rod.

Preferably, the locking hole is a kidney-shaped hole.

Preferably, the first measuring rod and the second measuring rod have the same structure, the tops of the first measuring rod and the second measuring rod are both arranged in a sphere shape, and the lower parts of the first measuring rod and the second measuring rod are both provided with external threads.

Preferably, the locking rod comprises a first locking rod and a second locking rod, the first locking rod penetrates through the third fixing hole, and the second locking rod penetrates through the first fixing hole and the second fixing hole simultaneously.

Preferably, the sliding cavity is stepped, the lower part of the sliding cavity is provided with internal threads, and the plugging plug is fixed on the lower part of the sliding cavity in a threaded manner.

The invention has the beneficial effects that:

the invention utilizes the measuring device to measure the distance between the marine equipment and the welding gasket, solves the problems of inaccurate machining size and poor machining precision of the adjusting gasket caused by large measurement error of the distance between the marine equipment and the welding gasket measured by the traditional inner diameter micrometer, improves the measurement precision of the distance between the marine equipment and the welding gasket, improves the machining precision of the adjusting gasket, and can shorten the grinding time of the adjusting gasket.

Drawings

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

Fig. 1 is a diagram of the state of use of the device of the present invention.

FIG. 2 is a schematic diagram of the structure of the device of the present invention.

Fig. 3 is a sectional view taken along line a-a in fig. 2.

Fig. 4 is a sectional view taken along line B-B in fig. 2.

Fig. 5 is a schematic structural view of the housing.

Fig. 6 is a schematic structural view of the first slide lever.

Fig. 7 is a schematic structural view of the second slide lever.

Fig. 8 is a schematic view of the plug.

The reference numerals in the figures have the meaning:

the measuring device comprises a shell, a measuring mechanism, a marine device, a welding gasket, a base, a first supporting column, a second supporting column, a first fixing hole, a second fixing hole, a third fixing hole, a sliding cavity, a sealing plug, a compression spring, a groove, a first sliding rod, a second sliding rod, a first measuring rod, a second measuring rod, a threaded groove, a locking hole, a first locking rod and a second locking rod, wherein the shell is 1, the measuring mechanism is 2, the marine device is 3, the device base is 4, the welding gasket is 5, the base is 6, the sliding cavity is 12, the sealing plug is 13, the compression spring is.

Detailed Description

For better understanding of the technical solutions of the present invention, the following detailed descriptions of the embodiments of the present invention are provided with reference to the accompanying drawings.

It should be understood that the described embodiments are only some embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The present application is described in further detail below with reference to specific embodiments and with reference to the attached drawings.

In the description of the present application, unless explicitly stated or limited otherwise, the terms "first", "second", and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; the term "plurality" means two or more unless specified or indicated otherwise; the terms "connected" and "fixed" are used in a broad sense, for example, "connected" may be a fixed connection, a detachable connection, or an integral connection; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the description of the present application, it should be understood that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described with reference to the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

The invention provides a manufacturing method of an adjusting gasket between equipment and an equipment base, which can solve the problems of inaccurate machining size and poor machining precision of the adjusting gasket caused by large measurement error of the distance between equipment for a traditional internal diameter micrometer measuring ship and a welding gasket.

The invention relates to a method for manufacturing an adjusting gasket between equipment and an equipment base, which specifically comprises the following steps:

s1, assembling a measuring device for measuring the distance between the marine equipment 3 and the welding gasket 5, wherein the welding gasket 5 is fixed on the equipment base 4;

the measuring device comprises a shell 1, wherein a plurality of groups of measuring mechanisms 2 capable of freely adjusting the height of the measuring mechanisms according to the distance between the marine equipment and a welding gasket fixed on an equipment base are arranged in the shell 1.

Specifically, the housing 1 includes a base 6 and a plurality of first and second support posts 7 and 8 extending upwardly from the top of the base 6. The second support column 8 is transversely provided with a first fixing hole 9, and the first support column 1 is transversely provided with a second fixing hole 10 and a third fixing hole 11. In this embodiment, four support columns extend from the base 6, the four support columns are respectively located at four corners of the base, two support columns on the right side are first support columns 7, and two support columns on the left side are second support columns 8; first fixed orifices 9 have all been seted up on two left support columns, have all been seted up second fixed orifices 10 and third fixed orifices 11 on two support columns on right side, and third fixed orifices 11 are located the top of second fixed orifices 10, and second fixed orifices 10 are located same height with first fixed orifices 9.

All vertically offer the slip chamber 12 that is used for placing measuring mechanism in the all support columns on the base 6, slip chamber 12 runs through to the bottom of base from the top of support column. The sliding cavity 12 is in a step shape, and the lower part of the sliding cavity 12 is provided with an internal thread.

A measuring mechanism 2 is arranged in the sliding chamber 12 of each support column.

Each measuring device 2 comprises a closure plug 13, a longitudinally slidable measuring assembly, a compression spring 14 arranged between the closure plug 13 and the measuring assembly.

The sealing plug 13 is fixed at the lower part of the sliding cavity 12 in a threaded manner, a groove 15 is formed in the sealing plug 13, a compression spring 14 is placed in the groove 15, and the measuring assembly is pressed on the compression spring 14.

The structure of the measurement assembly mounted in the first support column 7 is slightly different from the structure of the measurement assembly mounted in the second support column 8.

The measuring assembly of the measuring mechanism arranged in the first support column 7 comprises a first sliding rod 16 which is seated on the compression spring 14, a first measuring rod 18 which is fixed on the first sliding rod 16, the upper end of the first measuring rod 18 projecting from the housing 1 so as to abut against the bottom of the marine device 3. The top of the first sliding rod 16 is formed with a threaded groove 20, and a locking hole 21 penetrates through the rod body, in this embodiment, the locking hole 21 is a kidney-shaped hole. The top of the first measuring rod 18 is provided with a spherical shape and the lower part is provided with an external thread.

The measuring assembly of the measuring mechanism arranged in the second support column 8 comprises a second sliding rod 17 which is seated on the compression spring 14, a second measuring rod 19 which is fixed on the second sliding rod 17, the upper end of the second measuring rod 19 projecting from the housing 1 so as to abut against the bottom of the marine device 3. The second sliding bar 17 is provided with a screw groove 20 only at the top. The second measuring rod 19 has the same structure as the first measuring rod 18, and has a spherical top and an external thread on the bottom.

Since the measuring assembly of each measuring mechanism is seated on the compression spring 14, the height of the entire device can be adjusted by pressing the corresponding measuring assembly to move it up and down in the corresponding sliding cavity 12, so that the height of the device matches the distance between the marine equipment and the soldering pad. After the height of the device is adjusted in place, the measuring components of each measuring mechanism are locked and positioned by the locking rods.

The locking rods comprise a first locking rod 22 and a second locking rod 23, the first locking rod 22 is arranged in the third fixing hole 11 in a penetrating mode, and the second locking rod 23 simultaneously penetrates through the first fixing hole 9 and the second fixing hole 10. When each measuring mechanism is locked, the first locking rod 22 is inserted into the third fixing hole 11 of the first support column 7 and the end part of the first locking rod abuts against the first measuring rod 18 in the first support column 7; the second locking lever 19 is simultaneously passed through the first fixing hole 9 and the second fixing hole 10 and has its end abutted on the second slide lever 17 in the second support column 8.

The steps of assembling the measuring device are:

first, each measuring mechanism is assembled: screwing the first measuring rod 18 into the thread groove of the first sliding rod 16, screwing the second measuring rod 19 into the thread groove of the second sliding rod 17, wherein the first measuring rod 18 and the second measuring rod 19 are not screwed to the bottom, and a distance of four to five thread pitches is reserved between the bottoms of the first measuring rod 18 and the second measuring rod 19 and the bottoms of the corresponding thread grooves;

then, inserting each measuring component into the corresponding sliding cavity 12 from the bottom of the shell 1, then respectively plugging a compression spring 14 into each sliding cavity 12, and after the compression springs 14 are plugged, fixing the plugging plugs 13 at the lower parts of the sliding cavities 12 in a threaded manner;

finally, the first locking lever 22 is inserted into the third fixing hole 11 of the first support column 7 with its end abutting on the first measuring rod 18 in the first support column 7, and the second locking lever 23 is simultaneously inserted through the first fixing hole 9 and the second fixing hole 10 with its end abutting on the second slide rod 17 in the second support column 8.

And S2, pressing the measuring components of all the measuring mechanisms downwards at the same time to enable the total height of the measuring device to be smaller than the distance between the marine equipment and the welding gasket, and locking all the measuring components by using the locking rods after the measuring devices are pressed in place.

Specifically, the measuring assemblies in the four supporting columns are all pressed down by about 10mm with force, and then the first locking rod 22 and the second locking rod 23 are tightened to lock the measuring assemblies in the four supporting columns in position, namely, the height of the whole device is locked.

And S3, plugging the measuring device into a gap between the marine equipment and the welding gasket.

The measuring device is mounted with the first locking lever 22 and the second locking lever 23 facing outwards.

And S4, adjusting the measuring device to enable the top of the measuring device to be in contact with the bottom of the marine equipment.

Specifically, the step of adjusting the measuring device is:

after the measuring device is installed in place, the first locking rod 22 and the second locking rod 23 are unscrewed, so that the measuring assembly moves upwards under the action of the resilience force of the compression spring 14, and the measuring rod of the measuring assembly is propped against the bottom of the marine equipment;

then, after the measuring device is moved slightly to ensure that the first measuring rod and the second measuring rod are not clamped, the first locking rod 22 and the second locking rod 23 are screwed down again, and the measuring device is adjusted in place.

And S5, translating and taking out the measuring device, measuring and recording the height of the measuring device by using an inner diameter micrometer, namely measuring the distance value from the top of all the first measuring rod and the second measuring rod to the bottom of the shell respectively, and processing and adjusting the gasket according to the measured data.

In order to ensure the contact degree of the adjusting shim, the corresponding adjusting shim is brushed and ground.

In this embodiment, a weld pad having a 1:50 outward wedge-shaped opening is welded to the equipment base, so that the first measuring rod and the second measuring rod have different heights when the device of the present invention is removed from between the marine equipment and the equipment base.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (9)

1. A manufacturing method of an adjusting gasket between equipment and an equipment base is characterized by comprising the following steps:

s1, assembling a measuring device for measuring the distance between the marine equipment and a welding gasket, wherein the welding gasket is fixed on an equipment base;

the measuring device comprises a shell, a plurality of measuring mechanisms are arranged in the shell, each measuring mechanism comprises a sealing plug, a measuring assembly capable of longitudinally sliding and a compression spring arranged between the sealing plug and the measuring assembly, and a locking rod used for locking and fixing the measuring assembly is arranged on the shell;

s2, pressing the measuring components of all measuring mechanisms downwards at the same time to make the total height of the measuring device smaller than the distance between the marine equipment and the welding gasket, and locking all the measuring components by using the locking rod after the measuring device is pressed in place;

s3, plugging the measuring device into a gap between the marine equipment and the welding gasket;

s4, adjusting the measuring device to enable the top of the measuring device to be in contact with the bottom of the marine equipment;

and S5, translating and taking out the measuring device, measuring the height of the measuring device, and processing the adjusting shim according to the measured data.

2. The method for manufacturing a spacer for adjusting the distance between a device and a device base of claim 1, wherein the step S5 is followed by the step S6: and brushing and grinding the machined adjusting shim.

3. The manufacturing method of the adjusting gasket between the equipment and the equipment base according to claim 1, wherein the casing comprises a base and a plurality of first supporting columns and a plurality of second supporting columns which extend upwards from the top of the base, a second fixing hole and a third fixing hole are transversely formed in the first supporting base, a first fixing hole is transversely formed in the second supporting column, sliding cavities for placing the measuring mechanism are longitudinally formed in all the supporting columns, and the sliding cavities penetrate from the top of the supporting columns to the bottom of the base.

4. The method of claim 3, wherein the measuring assembly of the measuring mechanism disposed in the first support column comprises a first sliding rod seated on the compression spring, a first measuring rod fixed to the first sliding rod, and an upper end of the first measuring rod protrudes from the housing to abut against the bottom of the device;

the measuring assembly of the measuring mechanism arranged in the second supporting column comprises a second sliding rod located on the compression spring and a second measuring rod fixed on the second sliding rod, and the upper end of the second measuring rod extends out of the shell to abut against the bottom of the device.

5. The method of claim 4, wherein the first and second sliding rods have threaded grooves at the top thereof, and the first sliding rod has a locking hole formed therethrough.

6. The method of claim 5, wherein the locking hole is a slotted hole.

7. The method as claimed in claim 4, wherein the first and second measuring rods have the same structure, the top of the first and second measuring rods are disposed in a spherical shape, and the lower of the first and second measuring rods are disposed with external threads.

8. The method as claimed in claim 3, wherein the locking rod includes a first locking rod and a second locking rod, the first locking rod is inserted into the third fixing hole, and the second locking rod is inserted into the first fixing hole and the second fixing hole.

9. The method for manufacturing the adjusting gasket between the equipment and the equipment base according to claim 3, wherein the sliding cavity is in a step shape, the lower part of the sliding cavity is provided with internal threads, and the blocking plug is fixed on the lower part of the sliding cavity in a threaded manner.

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