RU173942U1 - Spindle travel limiting device - Google Patents

Abstract

The useful model relates to the field of industry, and can be used in any units and assemblies having a shaft (rod / spindle) and drive (manual or mechanized), for example, in pipe fittings on pipelines transporting natural gas, liquefied petroleum gas, liquid petroleum products, steam, water and other media. In addition, the spindle stroke limiter can be used, for example, for ball valves, valves and other technical products where the stroke limit is required, in particular by 90 °. The spindle stroke restriction device comprises a housing with a hole and a spindle mounted in the housing in such a way that part of the spindle protrudes from the opening of the housing and is located above the hole, while the housing has at least one sector, partially overlapping its top, the spindle is made to rotate until it comes into contact with oic surface of said utility model sektora.Tehnicheskim result is an increase in the load on the spindle stroke limiting device with decreasing metal content.

Description

Spindle travel limiting device

The utility model relates to the field of industry, and can be used in any units and assemblies that have a shaft (rod / spindle) and drive (manual or mechanized), for example, in pipe fittings on pipelines transporting natural gas, liquefied petroleum gas, liquid petroleum products, steam, water and other media. In addition, the spindle travel limiter can be used, for example, for ball valves, valves and other technical products, where it is necessary to limit the working stroke, in particular by 90 °.

Known flag limiter, made in the form of a washer (http://armtorg.ru/images/news/11022011/6.jpg). The disadvantage of this limiter is the need to use a separate element that requires accurate cutting and additional operations in the manufacture and installation, as well as the formation of a notch (waste cutting operations).

Known limiter in the form of molded protrusions placed on the stock (http://valtec.ru/document/article/ball_valves.shtml). The disadvantage of the limiter is the need for additional operations for the manufacture of two protrusions, a large metal and energy consumption.

A device is known for limiting the spindle stroke (patent for utility model RU 163196, publication date 07/10/2016), comprising a handle made with a protrusion and fixed by means of a flat washer and nut on the spindle, and the spindle neck is made with a groove forming between it end surfaces angle of 90 °, while the protrusion on the handle is located at the level of the mentioned groove. The disadvantages of this device is the need for additional operations in the manufacture of the groove in the neck and the protrusion on the handle, requiring sufficient accuracy, as well as the lack of the function of limiting the stroke with the handle removed.

In addition, the problem with the operation of devices requiring limitation of the working stroke is often incorrect operation, in which the spindle (rod, shaft) is mistakenly turned against the working stroke, as a result of which the devices limiting the working stroke of the spindle cannot withstand the applied load and fail ( collapse). Therefore, the developers are faced with the task of creating devices for limiting the stroke of the spindle (rod, shaft) that can withstand the greatest possible load.

As a prototype of a utility model adopted device for limiting the spindle stroke according to patent RU 163196.

The technical problem that the utility model addresses is the creation of a spindle travel limiting device that can withstand a large load and at the same time has a reduced metal consumption in comparison with other limiters.

The technical result of the utility model is to increase the load on the device for limiting the spindle stroke while reducing its metal consumption.

An additional technical result of the utility model is the limitation of the spindle stroke in the absence of a handle.

To achieve a technical result in a device for limiting the spindle stroke, comprising a housing with an opening and a spindle installed in the housing in such a way that a part of the spindle protrudes from the opening of the housing and is located above the opening, according to a useful model, the housing has two sectors partially overlapping its opening, the spindle made with the possibility of rotation to contact with the side surfaces of these sectors.

In the particular case, to achieve a technical result, the angle between the side surfaces of the two sectors of the body is 90 degrees, the sectors of the body are milled.

The housing may have one sector, partially covering the top of its hole.

Also, to achieve a technical result, the spindle has at least one cut for contact with the side surface of the housing sector.

To achieve a technical result in the device for limiting the spindle stroke, only two details are necessary and sufficient: the spindle itself and the casing (spindle neck) with a hole for the spindle, while the casing has at least one sector (in the particular case, two sectors), partially overlapping top hole of the case.

With this manufacture of a device for limiting the spindle stroke, there is no excess metal waste, there are no additional parts, the presence of which increases the number of joints and, therefore, backlash, which ultimately leads to a decrease in the metal consumption of the device with a higher accuracy of the limiter. The execution of the sector (s) on the spindle housing allows you to limit the angle of rotation of the spindle due to the contact of the specified sector (s) with the plane (s) of the spindle. The plane (planes) of the spindle are obtained by cutting sections of the spindle protruding above the housing. When the spindle is rotated until it touches the side surface of the housing sector (s), the contact area of the spindle with the housing sector (sectors) is created to withstand a greater load compared to other spindle stroke limiting devices, namely, in comparison with the prototype, which was also developed by the applicant. The withstanding load is determined by calculation and confirmed by experiments.

In addition, for the operation of devices in which it is necessary to limit the spindle stroke, handles attached to the spindle are usually used. And since only the spindle itself and the housing participate in limiting the spindle stroke of the claimed utility model, it becomes possible to limit the stroke even in the absence of a handle.

Patent studies did not reveal technical solutions characterized by the claimed combination of features, therefore, we can assume that the specified utility model meets the criterion of "novelty."

In addition, the proposed utility model can be manufactured on an industrial scale using standard equipment and will find application, in particular, in pipe fittings for pipelines transporting natural gas, liquefied petroleum gas, liquid petroleum products, steam, water and other media, in addition, the spindle stroke limiter can be used, for example, for ball valves, valves and other technical products where the stroke limit is necessary, in particular by 90 °, that is, it is characterized by the criterion "Industrial applicability."

The essence of the claimed technical solution is illustrated by drawings and photographs, where in FIG. 1 shows a spindle travel limiting device, front view, FIG. 2 - spindle travel limiting device, top view, in FIG. 3 - spindle stroke limiting device, general view, FIG. 4 is a spindle travel limiting device, an example of application for a ball valve, FIG. 5 - spindle stroke limiting device, photograph in assembly, FIG. 6 - spindle stroke limiting device, photograph of the housing and spindle.

The spindle stroke limiting device comprises a spindle 1 and a housing 2 with an opening for the spindle 1. The spindle housing is also called the neck of the spindle 1. Spindle 1 is made integral. The lower part of the spindle 1 is located in the hole of the housing 2. The upper part of the spindle 1 protrudes from the hole of the housing 2 and is located above the hole. The housing 2 has a sector 3, partially overlapping from above the opening of the housing 2. Sector 3 can be performed by milling or other mechanical processing. The spindle 1 is made to rotate until it contacts the side surface 4 of the indicated sector 3. The spindle 1 is made in the form of a cylinder, and may have at least one cut section 5. A slice 5 is made over the entire height of the part of the spindle 1 protruding above the housing opening 2. The slice 5 of the spindle 1 is made in such a way that when turning the spindle 1 is in contact with the specified slice 5 with the side surface 4 of the sector 3 of the housing 2.

The lower part of the spindle 1 can be completely inside the bore of the housing 2, or protrude from the bottom of the housing 2.

The cut section 5 of the spindle 1 can be obtained by milling or other mechanical processing.

In the particular case of execution, the housing 2 may have two sectors 3, partially overlapping from above the opening of the housing 2. In this case, the spindle 1 should have two cut sections 5 for contact with the side surfaces 4 of the sectors 3.

For devices in which it is necessary to limit the working stroke of the spindle by 90 °, the angle between the side surfaces of the two sectors 3 of the housing 2 is 90 °.

The overlapping area of the surfaces of 4 sectors 3 of the housing 2 and the planes 5 of the spindle 1 depends on the width of the overlap and the height of the sector 3. The overlap width depends on the width of the spindle 1 and the diameter of the bore of the housing 2, which is equal to the diameter of the spindle 1.

With a decrease in the width of the spindle 1 and an increase in the diameter of the opening of the housing 2, the overlap width increases.

With increasing height of sector 3, the probability of destruction of spindle 1 increases. Therefore, the choice of geometry of the device for limiting the spindle stroke is carried out constructively, by calculation, but it is necessary to ensure the following conditions are met:

- when exceeding the maximum permissible torsion moment, sections of sectors 3 of housing 2 protruding above the hole must be cut;

- spindle 1 must remain in working condition, not undergo plastic deformation.

An example of a utility model.

As an example of the utility model, a device for limiting the stroke of a spindle of a ball valve is given.

The spindle stroke limiting device comprises a spindle 1 and a housing 2 with an opening for the spindle 1. The spindle 1 is made integral. The lower part of the spindle 1 is located in the hole of the housing 2. The upper part of the spindle 1 protrudes from the hole of the housing 2 and is located above the hole. The housing 2 has two sectors 3, partially overlapping the opening of the housing 2. The spindle 1 is made to rotate to contact the side surfaces 4 of these sectors 3. The spindle 1 is made in the form of a cylinder, while it has two cut sections 5. Slices 5 are made throughout the height of the part of the spindle 1, protruding above the opening of the housing 2. The slices 5 of the spindle 1 are made so that when turning the spindle 1 is in contact with the indicated cut planes 5 with the side surfaces 4 of the sectors 3 of the housing 2.

Cut sections 5 of the spindle 1 and sectors 3 of the housing 2 are obtained by milling.

On the spindle 1 there is a thread 6 under the nut, which fixes the handle 7.

The angle between the side surfaces of the two sectors 3 of the housing 2 is 90 °.

A device for limiting the spindle stroke works as follows (using the example of a device for limiting the spindle stroke of a ball valve).

The spindle 1 is installed in the hole of the housing 2 from the lower side of the housing 2. In this case, the lower part of the spindle 1 is in the hole of the housing 2, and the upper part protrudes from the hole and is located above the hole of the housing 2.

When turning the spindle 1 (in the given example, the spindle is rotated using the handle 7, in addition, any devices for bringing the spindle into motion: both manual and mechanized) can be abutted in the plane of 4 sectors 3 of the housing 2, sectors 3 are made above the level of the opening of the housing 2 and partially overlap the top of the opening of the housing 2. Due to the overlapping sectors 3 of the housing 2 with the planes 5 of the spindle 1, there is a limitation of the angle of rotation of the spindle 1 relative to the housing 2 within 90 °. In this case, the planes 5 of spindle 1 are obtained by cutting two sections of the spindle part protruding above the opening of the housing 2 of the spindle 1. As a result of rotation of the spindle 1, its upper part, located above the opening of the housing 2, in extreme positions is tightly sandwiched between the two sectors 3 of the housing 2. The contact area of the spindle 1 with sectors 3 of the housing 2, depending on the overlap width of the spindle 1 with sector 3 of the housing 2 and the height of sector 3, is selected so that the spindle travel limiting device can withstand heavy loads, including heat safety relay when faulty spindle turning against stroke.

The use in the inventive device of a housing having one or two sectors and a spindle mounted in the housing in such a way that when turning the spindle is in contact with the side surface of the specified sector (or sectors), increases the possible applied load on the device in comparison with the prototype of the utility model, and also reduces metal consumption and improves the accuracy of the device.

Claims (4)

1. A spindle stroke limiting device, comprising a housing with an opening and a spindle mounted in the housing such that a part of the spindle protrudes from the housing opening and is located above the opening, characterized in that the housing has two sectors partially overlapping its opening from above, the spindle is made with the possibility of rotation to contact with the side surfaces of these sectors. 2. The device limits the spindle stroke according to claim 1, characterized in that the angle between the side surfaces of the two sectors of the housing is 90 degrees. 3. The device limits the spindle stroke according to claim 1, characterized in that the sectors of the housing are milled. 4. The spindle stroke limiting device according to claim 1, characterized in that the spindle has two cuts for contact with the side surfaces of the housing sectors.

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