RU147378U1 - CABLE INPUT ASSEMBLY - Google Patents

Abstract

1. A cable entry assembly comprising: a fastener which is a tubular element, wherein the above fastener comprises a first external thread, at least one connecting element, wherein each of the above connecting element contains a second external thread, a first axial hole, the second axial hole communicating with the first axial hole and aligned with it in one axis, the first conical surface formed near one end of the above first axial hole and one con the aforementioned second axial hole, and a first internal thread formed in the aforementioned first axial hole and screwed onto the above first external thread of the above fastening element; an outer cover comprising an axial through hole extending through its two opposite ends, a second conical surface formed in the above an axial through hole, and a second internal thread formed in the above axial through hole on one side relative to the above a second conical surface and screwed onto the above second external thread of one of the aforementioned connecting element; a first sealing device comprising a first sealing sleeve installed in the aforementioned mounting element and a first axial hole of one of the aforementioned connecting element and forming an axially extending first through hole and a first clamping an element installed in the above mounting element and the first axial hole corresponding to the above

Description

The technical field to which the utility model relates.

This utility model relates to cable glands and, in particular, to cable glands assembly that provide improved protection and multiple effects of sealing, air tightness, waterproof, dustproof and tensile resistance.

State of the art

After installing the cable in the control cabinet or any other junction box of the device, telephone system or network system using the cable entry, the cable may disconnect from the input or its fastening may be weakened by external force as a result of accidental cable extension, which can lead to leaks. To avoid this problem, many improved cable gland designs have been developed, described in documents such as US Patent 5,927,892, entitled “Cable Attachment for Panel,” US Patent 8,490,513, entitled “Cable Entry and O-Ring Assembly”, US Patent 8,288,667 entitled “Double cable gland and flexible conduit packing”. These existing structures comprise a fastener, a clamping element, a spacer ring, and an outer cover. The fastener is connected to the panel and forms a threaded connection to the outer cover. The clamping element is put on the gasket ring and pressed against the outer cover and wraps the gasket ring around the periphery of the inserted cable, thereby fixing the cable and protecting it from moisture and water.

However, the above existing structures have only one gasket ring that is installed between the fastener and the outer cover and wraps around the inserted cable, i.e. these existing structures produce only a single sealing effect, which is insufficient for reliable cable retention. If, after applying external force, the cable is accidentally stretched, water may leak.

According to the description of the cable entry with watertight sealing rings from US patent UD 8,490,513 and a double cable gland and flexible conduit from US patent 8,288,667, the sealing element contains a first sealing segment that is compressed to clamp on the inserted flexible conduit and a second sealing segment that is compressed to clamp on the inserted flexible conduit, which creates the effects of a two-layer seal. However, since the first sealing segment and the second sealing segment are formed in one single sealing element, the first sealing segment and the second sealing segment may be destroyed and may lose sealing properties when the flexible conduit or cable is tensioned as a result of applying external force. In fact, these structures form only one layer with a compaction effect.

In addition, when choosing a cable entry for dynamic mechanical applications, outdoor applications or applications in deep-sea environments or environments with high levels of explosion hazard, it must have a very high IP protection class (International Protection). However, the IP protection classes of the above designs are insufficient for dynamic mechanical applications or applications in deep-sea environments or environments with high levels of explosion hazard.

Thus, it is required to propose a sealing ring for cable entry, which will eliminate the above problems.

Utility Model Disclosure

This utility model has been developed in the light of the foregoing. The main objective of this utility model is to offer a cable entry assembly for attaching a cable or cable and a flexible conduit that has a number of sealing devices installed in the fastener and the connecting element; The cable gland assembly is installed between the fastener and the outer cover to provide improved protection and create multiple sealing effects, air tightness, water tightness, dustproof and tensile resistance.

Another objective of the utility model is to offer a cable entry assembly for attaching a cable or cable and flexible conduit, which has a very high IP protection class, suitable for dynamic mechanical and outdoor applications, as well as applications in deep-sea environments or environments with high explosion hazard levels.

To solve these and other problems, the cable entry assembly comprises a fastener, at least one connecting element, an outer cover, a first sealing device and at least one second sealing device. The fastener is intended for installation in a given object. The fastener is a tubular element containing a first external thread. The connecting element comprises a second external thread, a first axial hole and a second axial hole aligned on one axis, a first conical surface formed in the first axial hole, and a first internal thread formed in the first axial hole. The first internal thread is screwed onto the first external thread of the fastener. The outer cover comprises an axial through hole, a second conical surface formed in the axial through hole, and a second internal thread formed in the axial through hole. The second internal thread is screwed onto the second external thread. The first sealing device is installed in the fastener and the first axial bore of the connecting element and contains a first sealing sleeve and a first clamping element worn on the first sealing sleeve. The first sealing sleeve comprises an axially extending first through hole. The second sealing device is installed in the outer cover and the second axial hole of the connecting element. The second sealing device comprises a second sealing sleeve and a second clamping element worn on the second sealing sleeve. The second sealing sleeve comprises an axially extending second through hole. The second sealing device and the first sealing device are identical and interchangeable.

When installing the cable into the cable entry assembly, the first sealing device, which is installed between the fastener and the connecting element, is compressed and wrapped around the periphery of the cable and forms the first airtight, waterproof, dustproof and tensile resistant protective layer, the second sealing device that is installed between the connecting element and outer cover, is compressed and wrapped around the periphery of the cable and forms a second airtight, waterproof, dustproof Protective and durable coating. Thus, the cable gland assembly according to the utility model has a high class of IP protection and can be suitable for dynamic mechanical and outdoor applications, as well as for use in deep-sea environments or environments with high levels of explosion hazard.

The cable entry assembly of the utility model has the advantages listed below.

Compared to standard cable entry designs, the utility model has an additional connecting element to provide improved protection and increase tensile strength. By increasing the number of connecting elements, the levels of protection and tensile strength increase accordingly.

By increasing the number of connecting elements, the level of water tightness of the cable entry assembly is increased in order to meet various industrial requirements for use in deep-sea environments.

By increasing the number of connecting elements, the level of breathability of the cable entry assembly is increased in order to meet various industrial requirements, while eliminating the disconnection of the installed cable in the event of impact.

Brief Description of the Drawings

FIG. 1 is a perspective view of a cable entry assembly;

FIG. 2 - disassembled image;

FIG. 3 is a longitudinal sectional view of a cable entry assembly;

FIG. 4 is a view of the installed cable entry assembly according to the present utility model;

FIG. 5 is a perspective view of an alternative form of cable entry assembly;

FIG. 6 is a longitudinal sectional view of the embodiment of FIG. 5;

FIG. 7 is a schematic sectional view of another alternative form of cable entry assembly.

Utility Model Implementation

With reference to FIG. 1-4 shows the cable entry assembly. The cable gland 100 assembly contains:

a fastening element 10, which is a tubular element installed in the panel 80 of the control cabinet, device, telephone cabinet or network cabinet, and contains a first external thread 11;

a connecting element 20, which contains a second external thread 21, a first axial hole 22, a second axial hole 25, which communicates and is aligned with the first axial hole 22, the first conical surface 23 formed near one end of the first axial hole 22 and one end of the second axial holes 25, and a first internal thread 24 formed in the first axial hole 22 and screwed onto the first external thread 11 of the fastener 10;

the outer cover 30, which contains a through axial hole 31 extending through its two opposite ends, a second conical surface 32 formed in the through axial hole 31, and a second internal thread 33 formed in the through axial hole 31 on one side relative to the second conical surface 32 and screwed onto the second external thread 21 of the connecting element 20;

a first sealing device 40, which comprises a first sealing sleeve 41 mounted in the fastener 10 and the first axial hole 22 of the connecting element 20 and forming an axially extending first through hole 411, and a first clamping element 42 mounted in the fastening element 10 and the first axial holes 22 of the connecting element 20 and worn on the first sealing sleeve; and

a second sealing device 50, which comprises a second sealing sleeve 51 installed in the through axial hole 31 of the outer cover 30 and the second axial hole 25 of the connecting element 20 and forming an axially extending through hole 511, and a second clamping element 52 mounted in the through axial hole 31 of the outer cover 30 and the second axial hole 25 of the connecting element 20 and worn on the second sealing sleeve 51.

The first sealing device 40 and the second sealing device 50 are identical and interchangeable.

After inserting the cable 90 through the cable entry assembly 100 during practical use, the connecting member 20 and the first sealing device 40 are located between the fastener 10 and the outer cover 30 to hold the cable 90 and create the first airtight, waterproof, dustproof and tensile protective layer, and the second sealing device 50 is pressed by the outer cover 30 to the periphery of the cable 90 to create a second airtight, waterproof, dustproof and stable th to stretch the protective layer. Thus, the cable entry assembly according to the present utility model effectively provides improved protection and multiple effects of sealing, air tightness, water tightness, dust protection and tensile resistance.

With reference to FIG. 2-4, the fastener 10 also includes a third external thread 12 and a stop flange 13 extending peripherally between the first external thread 11 and the third external thread 12. The cable entry 100 also includes a retainer 60, which has an internal thread 61 screwed onto the third the external thread 12 of the fastener 10. After the fastener 10 is inserted into the panel 80, the stop flange 13 abuts against the panel 80 on one side and the latch is screwed onto the third external thread 12 of the fastener 10 and abuts against the panel 80 on the other side.

After installation, the thrust flange 13 and the retainer 60 respectively abut against the panel 80 from its two opposite sides, fixing the fastener 10 to the panel 80 to avoid axial displacement.

Preferably, the fastener 10 also includes a mounting groove 14 extending along its periphery between the stop flange 13 and the third external thread 12. In addition, a sealing ring 70 is placed in the mounting groove 14, which is secured between the stop flange 13 of the fastener 10 and the panel 80.

O-ring 70 is an elastic element made, for example, of rubber, and compressed between the stop flange 13 of the fastener 10 and the panel 80 to prevent water leakage.

In addition, since the o-ring 70 is installed in the installation groove 14 on one side of the stop flange 13 of the fastener 10, it will not fall out of the fastener 10 during installation.

With reference to FIG. 2 and 3, the first sealing device 40 and the second sealing device 50 may be made of an elastic material such as rubber, plastic, or silicone rubber.

With reference to FIG. 2-4, the first sealing sleeve 41 also includes an end flange 412. After putting the first clamping element 42 on the first sealing sleeve 41, one end of the first clamping element 42 abuts the end flange 412. Thus, the first clamping element 412 can be forcedly pressed and will press in the radial direction, the first sealing sleeve 41 to the periphery of the cable 90.

After putting the first clamping element 42 on the first sealing sleeve 41, the end flange 412 will effectively hold the first clamping element 42 in place.

In addition, the first sealing sleeve 41 contains a thinned section 413, made in the form of an annular recess on the periphery. The first clamping element 42 comprises a number of evenly spaced protrusions 422, respectively ending in corresponding clamping teeth 423, which engage with the thinned portion 413.

When the first clamping element 42 is radially compressed and presses the protrusions 422 against the first sealing sleeve 41, the inner wall of the first sealing sleeve 41 around the through hole 411 is tightly wound around the periphery of the cable 90, preventing the mutual sealing of the first sealing sleeve 41 and the cable 90.

Preferably, the first clamping member 42 of the first sealing device 40 also includes a beveled edge 421 located on the outer end of each clamping member 423 for supporting against the first conical surface 23 of the connecting member 20.

With reference to FIG. 4, the first conical surface 23 of the connecting element 20 rests on the tapered edge 421 of the first clamping element 42, while the first sealing sleeve 41 and the first clamping element 42 are radially compressed in the inner direction and wrap around the periphery of the cable 90.

With reference to FIG. 2-4, the second sealing sleeve 51 also includes an end flange 512. After putting the second clamping element 52 on the second sealing sleeve 51, one end of the second clamping element 52 abuts the end flange 512. Thus, the second clamping element 512 can be forcedly pressed and will press in the radial direction, the second sealing sleeve 51 to the periphery of the cable 90.

In addition, the second sealing sleeve 51 contains a thinned section 513, made in the form of an annular recess on the periphery. The second clamping element 52 contains a number of evenly spaced protrusions 522, respectively ending in corresponding clamping teeth 523, which are engaged with the thinned section 513.

When the second clamping member 52 is radially compressed and presses the protrusions 522 against the second sealing sleeve 51, the inner wall of the second sealing sleeve 51 around the through hole 511 tightly wraps around the periphery of the cable 90, preventing the second sealing sleeve 51 and the cable 90 from mutually displacing.

Preferably, the second clamping member 52 of the second sealing device 50 also comprises a beveled edge 521 located at the outer end of each clamping member 523 to support the second conical surface 32 of the outer cover 30.

The second conical surface 32 of the outer cover 30 rests on the tapered edge 521 of the second clamping member 52, while the second sealing sleeve 51 and the second clamping member 52 are radially compressed in the inner direction and wrap around the periphery of the cable 90.

After describing the structural elements and components of the cable entry assembly, the distinctive characteristics and advantages of the cable entry assembly will be presented.

With reference to FIG. 4, while connecting the cable entry assembly to the cable 90, the cable 90 is respectively inserted through the through hole 31 of the outer cover 30, the second through hole 511 of the second sealing sleeve 51, the first through hole 411 of the first sealing sleeve 41 and the fastener 10, after which the outer cover 30 tightly tightens (by turning the outer cover 30 towards the connecting element 20), and the second conical surface 32 of the outer cover 30 is pressed against the beveled edge 521 of the second clamping element 52 of the second pack a filling device 50, as a result of which the second sealing sleeve 51 is radially compressed in the inner direction, and the second sealing sleeve 51 is twisted around the periphery of the cable 90.

Then, the connecting element 20 is tightly tightened (by turning the connecting element 20 towards the fastening element 10), and the first conical surface 23 of the connecting element 20 is pressed against the beveled edge 421 of the first clamping element 42 of the first sealing device 40, as a result of which the first sealing sleeve 41 is radially is compressed inwardly, and the first sealing sleeve 41 is wound around the periphery of cable 90.

Thus, the cable 90 is compressed by the first sealing sleeve 41 and the second sealing sleeve 51, which prevents it from being displaced relative to the cable entry assembly, and thus the utility model provides improved protection and multiple effects of sealing, air tightness, water tightness, dustproofness and tensile strength.

In addition to the protection provided by the fastener 10 and the outer cover 30, the cable 90 is also reliably protected by the connecting element 20, i.e. The utility model provides a large area for cable protection over a long length.

In general, the use of the connecting element and sealing devices in the cable entry assembly provides improved protection and multiple effects of sealing, air tightness, water tightness, dustproofness and tensile strength. Similarly to the principle of "pulling" water, which many use when pulling a rope, a relatively large force is created. The utility model uses a variety of sealing devices to improve the effects of sealing, air tightness, water tightness, dust resistance and tensile strength. Thus, the utility model may be suitable for dynamic mechanical applications, outdoor applications, as well as applications in deep-sea environments or environments with high levels of explosion hazard.

It should be noted that the utility model offers a design with external amplification to provide a high class of GR protection and eliminate the disadvantages of existing structures with internal amplification, which allows the use of the cable entry assembly in severe weather and deep sea environments.

With reference to FIG. 5 and 6, the user can add a connecting element 20 and a second sealing device 50 to the cable entry assembly to meet various requirements for industrial applications.

In an alternative form of utility model, two connecting elements 20 and two sealing devices 50 are used in the cable entry assembly. These two connecting elements 20 form a threaded connection to each other using the second external thread 21 and the first internal thread 24. These two second sealing devices 50 respectively attached to the through hole 31 of the outer cover 30 and the second axial hole 25 of the connecting element 20. Thus, this embodiment provides protection from three layers with effects uhonepronitsaemosti, waterproof, dustproof and anti-tensile strength. In addition, the fastening order of two connecting elements 20 or two second sealing devices 50 is interchangeable.

In another alternative form of the utility model, three connecting elements 20 and three sealing devices 50 are used in the cable entry assembly. These three connecting elements 20 form a threaded connection between them by means of a second external thread 21 and a first internal thread 24. These three second sealing devices 50 respectively attached to the through hole 31 of the outer cover 30 and the second axial hole 25 of the connecting element 20. Thus, this embodiment provides protection from four layers with effective ktami air tightness, waterproof, dustproof and anti-tensile strength. In addition, the mounting order of the three connecting elements 20 or three second sealing devices 50 is interchangeable.

In yet another alternative form of utility model, as shown in FIG. 7, the first clamping member 42 is formed on the inner side of the first external thread 11 of the fastener 10, i.e. the first external thread 11 and the first clamping element 42 are integrally formed. Thus, this embodiment reduces the number of components and reduces installation costs.

In addition, in the embodiment shown in FIG. 7, a second clamping member 52 is formed on the inner side of the second external thread 21 of the connecting member 20, i.e. the second external thread 21 and the second clamping element 52 are made integrally, which reduces the number of components and reduces installation costs.

In the above-described various embodiments of the utility model, when connecting the cable entry 100 assembly and cable 90, the cable 90 is inserted in the corresponding order through the through hole 31 of the outer cover 30 into the second sealing device 50, the connecting element 20, the first sealing device 40 and the fastening element 10. After inserting the cable 90 through the cable gland 100 assembly, the connecting element 20 is rotated to press the second sealing device 50 to the periphery of the cable 90. The principle of sealing and nd sealing device 50 are the same as in the first sealing device 40.

Thus, by increasing the number of connecting elements 20 and second sealing devices 50, the utility model enhances the effects of sealing, air tightness, water tightness, dust protection and tensile resistance, allowing the cable entry assembly to be used in harsh weather, deep sea environments or environments with high levels of explosiveness.

Thus, the utility model offers a cable entry assembly that has the following functions and advantages:

1. Protection class 100% -IP68 makes the cable entry assembly suitable for underwater use.

2. Cable entry assembly provides enhanced protection against typhoons and hurricanes.

3. The cable gland assembly provides dynamic waterproof effects.

4. The cable gland assembly removes water resistance and tensile resistance restrictions.

5. The cable gland assembly meets UL safety standard, according to which the vibration of cable clamps and plugs cannot exceed 0.6 mm.

6. The proper waterproof effect of the cable gland assembly is suitable for use in deep water environments or environments with high levels of explosion hazard to protect against exposure to gas and water.

Despite the fact that specific embodiments of the utility model have been described in detail for explanatory purposes, various modifications and improvements can be made without deviating from the essence and scope of the utility model. Accordingly, the utility model is not limited except for the attached formula of the utility model.

Claims (18)

1. A cable entry assembly comprising: a fastener which is a tubular element, wherein the above fastener comprises a first external thread; at least one connecting element, each of the above connecting elements comprising a second external thread, a first axial hole, a second axial hole communicating with the first axial hole and aligned with it in one axis, the first conical surface formed near one end of the aforementioned first an axial hole and one end of the aforementioned second axial hole, and a first internal thread formed in the aforementioned first axial hole and screwed onto the aforementioned first plank the thread of the above mounting element; an outer cover comprising an axial through hole extending through its two opposite ends, a second conical surface formed in the above axial through hole, and a second internal thread formed in the above axial through hole from one side relative to the above second conical surface and screwed onto the above second an external thread of one of the aforementioned connecting element; a first sealing device comprising a first sealing sleeve installed in the aforementioned fastening element and a first axial hole of one of the aforementioned connecting element and forming an axially extending first through hole, and a first clamping element installed in the above fixing element and a first axial hole of the corresponding above-mentioned connecting element and worn on the above first sealing sleeve; and at least one second sealing device, wherein each of the above second sealing devices comprises a second sealing sleeve mounted in an axial through hole of the aforementioned outer cover and a second axial hole of one of the aforementioned connecting element and forming an axially extending second through hole, and a second clamping an element mounted in an axial through hole of the aforementioned outer cover and worn on the aforementioned second sealing sleeve wherein each of the aforementioned second sealing devices is identical and interchangeable with respect to the aforementioned first sealing devices. 2. The cable entry assembly according to claim 1, wherein the aforementioned fastener also comprises a third external thread and a stop flange extending peripherally between the above first external thread and the above third external thread; the cable entry assembly also includes a latch screwed onto a third external thread of the above fastener to secure the above fastener to a predetermined external object. 3. The cable entry assembly according to claim 2, wherein the aforementioned first sealing sleeve of the aforementioned first sealing device comprises an end flange and a thinned portion; the above-mentioned first clamping element is put on the aforementioned first sealing sleeve and abuts against the end flange of the aforementioned first sealing sleeve, while the first clamping element contains a number of evenly spaced protrusions correspondingly ending in the corresponding clamping tooth, which engages with a specified portion of the above-mentioned first sealing sleeve . 4. The cable entry assembly according to claim 3, wherein the aforementioned first clamping element of the aforementioned first sealing device also comprises a beveled edge located at the outer end of each protrusion and abutting against the aforementioned first conical surface of the corresponding aforementioned connecting element. 5. The cable entry assembly according to claim 4, wherein at least the aforementioned connecting element is provided in an amount equal to 2, and the above two connecting elements form a threaded connection by screwing a second external thread of one of the above two connecting elements into the first internal thread of the other of the above two connecting elements; at least one of the aforementioned second sealing devices is provided in an amount equal to 2, and these two second sealing devices are respectively installed in the aforementioned outer cover and the second axial hole of each of the aforementioned connecting elements. 6. The cable entry assembly according to claim 4, wherein the above connecting element is provided in an amount of more than 3, and these above connecting elements form a threaded connection by screwing a second external thread of one of the above connecting elements into the first internal thread of the other of the above connecting elements; at least one of the above second sealing device is provided in an amount of more than 3, and these second sealing devices are installed in the aforementioned outer cover and a second axial hole of each of the aforementioned connecting element. 7. The cable entry assembly according to claim 2, wherein the second sealing sleeve of each of the aforementioned second sealing devices comprises an end flange and a thinned portion; the second clamping element of each of the above-mentioned second sealing devices is put on the corresponding second second sealing sleeve and abuts against the end flange of the corresponding above-mentioned second sealing sleeve, while the second clamping element contains a number of evenly spaced protrusions, respectively ending in a corresponding clamping tooth, which engages with a thinned portion of the corresponding second second sealing sleeve. 8. The cable entry assembly according to claim 7, wherein at least the aforementioned connecting element is provided in an amount equal to 2, and the above two connecting elements form a threaded connection by screwing a second external thread of one of the above two connecting elements into the first internal thread of the other of the above two connecting elements; at least one of the aforementioned second sealing devices is provided in an amount equal to 2, and these two second sealing devices are respectively installed in the aforementioned outer cover and the second axial hole of each of the aforementioned connecting elements. 9. The cable entry assembly according to claim 7, wherein the above connecting element is provided in an amount of more than 3, and these above connecting elements form a threaded connection by screwing a second external thread of one of the above connecting elements into the first internal thread of the other of the above connecting elements; at least one of the aforementioned second sealing devices is provided in an amount of more than 3, and these second sealing devices are installed in the aforementioned outer cover and the second axial bore of each of the aforementioned connecting elements. 10. The cable entry assembly of claim 7, wherein the second clamping member of each of the aforementioned second clamping devices also includes a beveled edge located at the outer end of each protrusion to support the aforementioned second conical surface of the aforementioned outer cover. 11. The cable entry assembly according to claim 10, wherein at least the above connecting element is provided in an amount equal to 2, and the above two connecting elements form a threaded connection by screwing a second external thread of one of the above two connecting elements into a first internal thread of the other of the above two connecting elements; at least one of the aforementioned second sealing devices is provided in an amount equal to 2, and these two second sealing devices are respectively installed in the aforementioned outer cover and the second axial hole of each of the aforementioned connecting elements. 12. The cable entry assembly of claim 10, wherein the above connecting element is provided in an amount of more than 3, and these above connecting elements form a threaded connection by screwing a second external thread of one of the above connecting elements into the first internal thread of the other of the above connecting elements; at least one of the aforementioned second sealing devices is provided in an amount of more than 3, and these second sealing devices are installed in the aforementioned outer cover and the second axial bore of each of the aforementioned connecting elements. 13. The cable entry assembly according to claim 10, wherein the aforementioned first clamping element is integrally formed with the aforementioned fastener on the inside with respect to the first external thread of the aforementioned fastener. 14. The cable entry assembly of claim 10, wherein the above second clamping member is integrally formed with one of the aforementioned connecting members from the inside relative to the second external thread of the corresponding above mentioned connecting member. 15. The cable entry assembly according to claim 1, wherein at least the above connecting element is provided in an amount equal to 2, and the above two connecting elements form a threaded connection by screwing a second external thread of one of the above two connecting elements into the first internal thread of the other of the above two connecting elements; at least one of the aforementioned second sealing devices is provided in an amount equal to 2, and these two second sealing devices are respectively installed in the aforementioned outer cover and the second axial hole of each of the aforementioned connecting elements. 16. The cable entry assembly according to claim 1, wherein the above connecting element is provided in an amount of more than 3, and these above connecting elements form a threaded connection by screwing a second external thread of one of the above connecting elements into the first internal thread of the other of the above connecting elements; at least one the above second sealing device is provided in an amount of more than 3, and these second sealing devices are installed in the above outer cover and the second axial hole of each of the above connecting element. 17. The cable entry assembly according to claim 16, wherein the aforementioned first clamping element is integrally formed with the aforementioned fastener on the inside with respect to the first external thread of the aforementioned fastener. 18. The cable entry assembly according to claim 16, wherein the above second clamping member is integrally formed with one of the aforementioned connecting members from the inside relative to the second external thread of the corresponding above mentioned connecting member.

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