RU2671848C1 - Cable input and sealing cable input module - Google Patents

Abstract

FIELD: building; electrical engineering.SUBSTANCE: invention relates to the field of construction and electrical engineering and can be used to seal single cables, pipes, ropes and similar products passing through the walls or introduced into the switching cabinets, as well as taken out from them. Cable entry sealing module includes the polymeric elastic detachable base (4) with the through cylindrical cavity (5) and the set of polymeric elastic detachable adaptive gaskets (6), at the same time, the polymer elastic detachable base is made of a cylindrical form from the polymer, whose elastic and strength properties are equal to or exceed the elastic and strength properties of detachable adaptive gaskets, and its length in the initial state exceeds the length of the package of adaptation pads. Cable gland comprises the body with the flange and the above-mentioned sealing module, which is located in its inner space.EFFECT: inventions provide for a simple and reliable seal, as well as quick and repeated installation-disassembly, changing the standard size and replacing one with another, including the cases of replacing in inaccessible places and in uncomfortable assembly conditions.11 cl, 11 dwg, 4 ex

Description

The invention relates to the field of construction and electrical engineering and can be used, as a rule, for the complete sealing of single (single) cables, pipes, cables and similar products passing through walls or inserted into wiring closets, as well as derived from them.

Known cable accessories containing covering the cable connection or branching section, a housing, a cover made of synthetic material with a sealing gasket mounted on the housing, means for mechanically securing the cover to the housing and means for mechanically securing and sealing the cable entry section into the pipe, including an elastic material seal and a nut connected to the pipe by a thread made on the outer surface of the end of the pipe and the inner surface of the nut [Description from acquisitions to the patent of the Russian Federation No. 2032260 dated 10.30.1990, IPC H02G 3/08, publ. 03/27/1995].

The main disadvantage of this cable fitting is the restriction of the cable being sealed with a single pre-set frame size.

It is known cable conduit device (the closest analogue of the cable entry), which includes a hollow elastic cuff, many elastic modular elements, each of which contains at least one passing through the channel for enclosing the cable in it and made with the possibility of separation for access from the side to said channel, wherein the modules jointly fill the hole of the elastic sleeve, wherein said hole has a shape that corresponds to the resulting external contour of the mutually tightly joined modules her, while the device further comprises a rigid sleeve, which includes, at least at one end, means for fixing the rigid sleeve in the hole in the wall, and the rigid sleeve has an inner circular flange, which abuts the elastic cuff, while the rigid sleeve has an external thread and a nut, which includes a support flange for interacting with the elastic sleeve and which has a thread configured to interact with the external thread of the rigid sleeve, the nut having a central bore stie for receiving the cable therein, and the rigid sleeve has an inner wall corresponding to the inner wall of the elastic cuff to provide a seal kabelepropusknogo device by tightening nuts [Disclosure of the invention to RF patent №2251773 from 05.10.2000, IPC H02G 3/22, publ. 05/10/2000].

The disadvantages of this conduit device are the result of the adaptation of a typical block of elastic modular elements of a common prismatic shape under a cylindrical body. This, accordingly, required the use of a variety of intermediate parts, as a result, the design of the device was significantly complicated. Comfortable and high-quality installation of the device is possible only with an ergonomic location of the wall opening from the floor level, which is not always possible.

A cylindrical seal for a cable inlet, a pipe inlet or the like is known, which is inserted into a sleeve or the like and is formed by two halves, each of which has a main part made of elastic material, forming one central opening for a cable, pipe or t .p. when the seal halves are joined together, the main parts being able to compress along the axis and expand in the radial direction by means of longitudinally arranged bolts, when the front plates and the rear plates move one direction to the other, and the outer diameter of the seal is made variable to adapt it to different installation sizes, characterized in that the outer diameter of the seal is equipped with several exfoliating sheets [Description of the invention to the patent of the Russian Federation No. 2270392 of 09/10/2002, IPC F16L 5/02, publ. 02/20/2006].

The disadvantage of this seal is the complexity of the module being sealed, which contains the possibility of fitting not only the internal diameter for the cable, etc., but also the external diameter for the cylindrical body. The installation of such a module in the housing, especially in inaccessible places, is complicated. In addition, the compression of several bolted joints spaced around the perimeter of the seal does not ensure uniformity and quality of compression of the sealed elements.

Known clip for cable entry or pipe laying, containing at least one compression element containing an elastic body having a cylindrical outer shape; at the same time, end plates are located at each end of the elastic body, and the end plates are attached to each other by means of fixing means passing through the elastic body; and fasteners that fasten the end plates to one another are screws and nuts; and each end plate contains at least two identical parts, the clip includes a central rectangular hole for receiving one or more cables or pipes or cables or pipes with surrounding sealing parts [Description of the invention to the patent of the Russian Federation No. 2282776 from 01/10/2003, IPC F16L 5/02, publ. 08/27/2006].

The disadvantage of this clip is that the elastic case is made with a number of longitudinal holes for the passage of tightening screws. Such a design is difficult to assemble in inaccessible uncomfortable conditions, and the presence of many screws does not allow for uniform crimping of many rectangular sealed parts inside which cables and pipes are located. And to seal one pipe or one cable, such a cage design is unreasonably complex.

A compressible seal is known comprising two compressible substrates surrounding cables, wires or pipes located directly in an opening in a wall or other structural partition forming this wall, or in a frame, said two substrates and a compressing device in said opening or said frame, a barrier is formed, and compressible bases contain one component from the group comprising at least one peelable layer to fit the diameter of the cable or pipe located in the axial groove of each compressible base, and peelable layer located around each compressible base to fit its outer diameter to the inner diameter of the hole, while adjacent peelable layers are attached to each other by mechanical fasteners with the ability to reinstall the removed layer [Utility model description to the patent of the Russian Federation No. 110163 of 01.02. 2010, IPC F16L 5/02, H02G 3/22, publ. 11/10/2011].

The presence of mechanical fasteners between adjacent peelable layers cannot provide spatial fixation of all seal elements to each other, since fixing the layers in the axial direction does not guarantee their radial fixation, which is most critical when assembling the seal in inaccessible places and in uncomfortable conditions. The use of special fasteners for attaching peeling layers to each other significantly increases the complexity of their installation and dismantling, while the quality of the assembly cannot be guaranteed.

The closest in terms of the function of the claimed sealing module is a cable entry sealing module comprising a detachable prismatic base with at least one through cylindrical cavity and a set of detachable adaptive gaskets, while the through cylindrical cavity of each of the paired elements of the detachable base includes a fixing blind cavity and each of the paired elements of detachable adaptive gaskets is made voluminous in the form of an elastic thin-walled semi-cylindrical sk shells with their own fixing deaf cavity, repeating in shape its protruding part fixing the deaf cavity of each of the paired elements of the detachable base, or fixing the deaf cavity of the adjacent paired element of the adjacent detachable adaptive pad, while the cross-section of the through cylindrical cavity of the detachable base, including equipped with a detachable adaptive gasket, corresponds to the cross section of the cable being sealed [Description of the invention to the patent of the Russian Federation No. 2551891 of 02.28.2014, IPC H02G 3/22, F16L 5/02, publ. 06/10/2015]. In addition, the fixing blind cavity of the through cylindrical cavity of each of the paired elements of the detachable base or the fixing blind cavity of each pair of elements of the detachable adaptation gasket are made in the form of elements of cylindrical surfaces limited along their sides by parallel planes and along the length of the chamfers; detachable adaptive gaskets are equipped with marking elements of the recommended cable diameter; the through cylindrical cavities of each of the paired elements of the detachable base are equipped with a maximum number of detachable adaptive gaskets and a plug that imitates a cable section made in the form of an element of a cylindrical surface limited along its sides by parallel planes and along the length of the chamfers.

This sealing module can only be used with a rectangular cable entry and the corresponding compression mechanism for its compression. This is very inconvenient when wiring single cables, pipes, etc. The complex, conditionally rectangular, design of the cable entry and compression mechanism for servicing such a sealing module requires its structural development, moreover, the parametric reserve of the module allows not only to improve its design, but also to create new cable entry based on it.

The problem to be solved by a group of inventions related by a single concept and the technical result achieved is to create a new single cable entry equipped with its own sealing module, which together provide simple reliable sealing and fixing of cables, wires, pipes, cables, lines and similar sealing elements to the wall , wiring closet and similar structures, as well as their rapid and multiple installation-dismantling, changing the size and replacing one with another, including in small tight places and uncomfortable assembly conditions.

To solve the problem and achieve the claimed technical result in the sealing module of the cable entry, including a polymer elastic split base with a through cylindrical cavity and with a set of polymer elastic split adaptive gaskets, and the through cylindrical cavity of each of the paired elements of the split base includes at least one fixing blind cavity, and each of the paired elements of detachable adaptation gaskets is made voluminous in the form of a thin-walled half-cylinder eggshell with at least one own fixing blind cavity, repeating in shape its protruding part corresponding to the locking blind cavity of each of the paired elements of the detachable base, or the corresponding fixing blind cavity of the adjacent paired element of the adjacent detachable adaptation gasket, while the cross-section of the through cylindrical cavity detachable base, including equipped with at least one detachable adaptive gasket, corresponds to the cross section of the seal tnyaemogo cable polymer base is made detachable resilient cylindrical shape from a polymer, elastic and strength properties which equal or exceed the elastic and strength properties of separable adaptive gaskets, and its length in the initial state is greater than the length of the adaptation pads package.

Besides:

- polymer elastic detachable adaptive gaskets are equipped with marking elements of the recommended cable diameter;

- the through cylindrical cavities of each of the paired elements of the polymer elastic detachable base are equipped with a maximum number of detachable adaptive gaskets and a plug that simulates the cable cross section of the minimum cross section and contains at least one pair of locking protrusions repeating the shape of the fixed deaf cavities of the paired elements in contact with them detachable adaptive laying.

To solve the problem and achieve the claimed technical result in a cable entry containing a housing with a flange and a sealing module located in its inner space in the form of a polymer elastic split base with a through cylindrical cavity and a set of adaptive gaskets, the body is made cylindrical with a through cylindrical hole one side of which includes an internal end ledge, and the other includes a threaded section with an internal thread interacting with the hollow a threaded nut equipped with an external thread, configured to form an internal movable end ledge for interaction with a polymer elastic detachable base of the sealing module, made according to the above technical solution and having a length sufficient for biting a hollow threaded nut in the threaded section of a through cylindrical hole.

Besides:

- the inner end ledge is made in the form of a shoulder;

- the inner end ledge is made in the form of a second hollow threaded nut located on the second threaded section of the housing from its opposite side and made similar to the first threaded section;

- the connection of the housing with the flange is made one-piece;

- the housing includes at least one threaded portion with an external thread, and the flange of the housing is made with an internal thread screwed onto the corresponding threaded portion of the housing;

- at least one threaded connection is configured to prevent spontaneous loosening of the connected parts;

- mutually contacting surfaces of the cable entry, including threaded connections, are coated with a sealing compound;

- the housing is equipped with a sealing gasket located under the housing flange.

The invention is illustrated by drawings, where:

- in FIG. Figure 1 shows a general view of a pair of cable entries with sealing modules in cross section for an example of sealing a single cable passing through a thick wall;

- in FIG. 2 is a view A of the cable entry of FIG. 1, - front view;

- in FIG. 3 is a general view of the sealing module of FIG. 1 and 2 with the plug removed in axonometric projection;

- in FIG. 4 - detail and assembly (disassembly) of the sealing module of FIG. 4 with a cap in axonometric projection;

- in FIG. 5 shows a possible embodiment of a cable entry sealing module with a plug in front view;

- in FIG. 6 - sealing module of FIG. 5 with the plug removed in a side view in section;

- in FIG. 7 - sealing module of FIG. 5 with the plug removed in a top view in section;

- in FIG. 8 shows a general view of one paired element of the detachable adaptation pad of FIG. 5-7 in axonometric projection;

- in FIG. 9 shows the plug of the sealing module of FIG. 5-7, simulating the cross section of a sealed, fixed, sealed cable and repeating the shape of the fixing deaf cavities of the paired elements of the detachable adaptation gasket in contact with it;

- in FIG. 10 is a view of the plug of FIG. 9 side;

- in FIG. 11 is a view of the plug of FIG. 9 on top.

It should be noted that the term “cable entry” should be understood not only as a device for guaranteed sealing of an electric cable passing through walls or introduced into connection cabinets, but also of other similar, as a rule, lengthy products and devices - wires, pipes, cables, lines and the like. In other words, when searching for information on sealing, for example pipes, or ordering appropriate devices for sealing pipes passing through the wall, etc. should stay on cable entries - this is the most common term for the required (universal) sealing device.

The cable entry comprises a housing 1 with a flange 2 and a sealing module 3 located in its inner space in the form of an elastic polymer detachable base 4 with a through cylindrical cavity 5 and with a set of adaptation gaskets 6, while the housing 1 is made cylindrical with a through cylindrical hole 7, one side which includes an internal (movable or fixed) end ledge 8, and the other includes a threaded section 9 with an internal thread interacting with a hollow threaded nut 10 equipped with an external thread 11 made with the possibility of forming an internal movable end ledge (same pos. 10) for interacting with an elastic polymer detachable base 4 of the sealing module 3, having a length sufficient for baiting (seeding) of the hollow threaded nut 10 in the threaded section 9 of the through cylindrical hole 7 and subsequent folding with a force sufficient to deform the first elastic split base 4 and then the adaptive gaskets 6.

Features of the design of the inner end of the ledge 8 is that in one case it can be made in the form of a shoulder (step) on one side of the inner surface of the cylindrical hole 7 of the housing 1 (because of its obvious conditionally not shown), and in the other - in in the form of a second hollow threaded nut 10 ', located on the second threaded section 9' of the housing 1 from its opposite side and made similarly to the first threaded section 9. In the first case, the design of the housing 1 is complicated, is less technologically advanced th in the manufacture, in the second case - more technological.

The features of the design of the housing 1 with the flange 2 is that in one case their connection is made one-piece (a complex stepped part obtained by machining a single, for example, cast billet - it is also shown in Fig. 1, or a welded assembly unit), and in on the other hand, the case includes at least one threaded section with an external thread, and the flange of the case is made with an internal thread screwed onto the corresponding threaded section of the case (not conventionally shown due to its obviousness).

The presence of threaded joints requires the prevention of their spontaneous unscrewing (turning out, turning out); for this, the thread of the parts to be joined can be made resistant, small, coated at the junction with special glue, anaerobic sealant, paint, deformed, for example, with a core, fixed from turning by a weld point and etc .. In this case, the mutually contacting surfaces of the cable entry, including threaded connections, should or may be coated with some typical sealing compound, which, as as a rule, it facilitates the assembly and installation of the device (various polymer sealants, greases, etc.).

When placed on various base surfaces, the cable entry housing 1 can be equipped with a typical sealing gasket located under the flange 2 - flat, round, etc. (not shown conditionally because of its obviousness).

The cable entry sealing module 3 mentioned above includes an elastic polymer detachable base 4 with a through cylindrical cavity 5 and a set of elastic polymer detachable adaptive gaskets 6, while the through cylindrical cavity 5 of each of the paired elements of the detachable base 4 includes one (Fig. 1, 3 and 4), two (Fig. 6 and 7) or more fixing blind cavities 12, and each of the paired elements of the detachable adaptation gaskets 6 is made voluminous in the form of a thin-walled semi-cylindrical shell with one (Fig. 1, 3 and 4), two I (Fig. 6-8) or more with our own locking deaf cavities 13, repeating in the form of their protruding parts 14 the corresponding fixing deaf cavities 12 of each of the paired elements of the detachable base 4, or the corresponding fixing deaf cavities 13 of the adjacent paired element of the adjacent detachable adaptive strip 6 wherein the cross-section of the through cylindrical cavity 5 of the detachable base 4, including equipped with at least one detachable adaptive gasket 6, corresponds to the cross section of the seal cable, while the polymer elastic detachable base 4 is made of a cylindrical shape (two hollow half-cylinders) of polymer, the elastic and strength properties of which are equal to or exceed the elastic and strength properties of the detachable adaptive gaskets 6, and the length of the detachable base 4 in the initial state exceeds the length of the adaptation package gaskets 6.

Additionally, the through cylindrical cavities 5 of each of the paired elements of the polymer elastic detachable base 4 are provided with a maximum number of detachable adaptive gaskets 6 and a plug 15 that simulates a cable cross section of a minimum cross section and contains at least one pair of locking protrusions 16 that repeat the shape of the locking deaf cavities 13 of the paired elements of detachable adaptive gaskets 6 in contact with them, which, in turn, are equipped with their own element relevant only for them marking 17 mi recommended cable diameter (print, an inscription, a relief perforation) (see. fig. 7).

The main essential features of the cable entry sealing module 3 are that the technical solutions of the well-known sealing module according to the aforementioned patent of the Russian Federation No. 2551891, due to their parametric storage, have been substantially processed for suitably selected polymers, adapted to the special conditions of manufacture, storage, future installation or dismantling and operation. For this, the adaptive gaskets 6 and the plug 15 remain unchanged (the so-called product unification), and the polymer elastic detachable base 4 is made of a cylindrical shape made of polymer, the elastic and strength properties of which are equal (for example, made of the same polymer) or exceed elastic and strength properties of detachable adaptive gaskets 6, while its length in the initial state exceeds the length of the package of adaptive gaskets 6. This allows for axial force action on the ends of the detachable base 4 practically dub their length with a length adaptation gasket 6 and thus produce their controlled crimping - all within the elastic deformation of pressed parts, which is very important in the subsequent disassembly and assembly of the cable gland. The guarantee that parts 4 and 6 retain their elastic properties is that the impossibility of clamping them is insured by the presence of blind cavities 13 on the adapter gaskets 13, the so-called pockets that absorb the "excess" of deformed material.

It is such structural and technological features of the sealing module 3 that can provide a solution to the problem and achieve the claimed technical result, and not only in the cable entry connected by a single inventive concept, but also in other known cable entries for single cable seals and similar products that will equipped with these sealing modules 3, while some of the details of such upgraded inputs will simply be superfluous.

If the elastic and strength properties of the detachable base 4 are lower than the elastic and strength properties of the detachable adaptive gaskets 6, then for their controlled crimping you will have to deal with the residual (plastic) deformation of the detachable base 4. This will not affect the operational capabilities of the mounted cable entry, however, if it is necessary to subsequently change the size of the element to be sealed, for example, a power cable, it may turn out that the present detachable base 4 after disassembling such a and cannot be reused - after disassembly, it will remain swollen and it will not be possible to reinsert it into the through cylindrical hole 7 of housing 1. Therefore, there is a sign of the difference in elastic and strength properties of the split base 4 and adaptation gaskets 6, along with the same polymer color from which they are made , is one of the determining when identifying contact sealing modules 3.

The main essential features of the claimed cable entry is that thanks to the sealing module 3 of an improved design, it is possible to summarize the previous experience in the manufacture, installation and operation of various single cable entries, the main disadvantage of which is difficulty in installation in cramped, inaccessible and uncomfortable conditions. For this, as mentioned above, the cable entry housing 1 is made cylindrical with a through cylindrical hole 7, one side of which includes an internal fixed (stationary) or movable (for example, in the form of a hollow threaded nut 10 ') end ledge 8, and the other side includes a threaded section 9 with an internal thread interacting with a hollow threaded nut 10 equipped with an external thread configured to form an internal movable end ledge for interaction with a polymer elastic detachable base 4 of the sealing module 3, which has the above-described structural and technological features, and which has a length sufficient when it is placed in the through cylindrical hole 7 of the housing 1 for baiting (seeding) of the hollow threaded nut 10 in its threaded section 9 and subsequent rolling with a force sufficient for deformation of the elastic split base 4 and through it, for deformation of the adaptive gaskets 6.

It is such structural and technological features of the cable entry that can provide a solution to the problem and achieve the claimed technical result.

This combination of essential features of the technical solution provides a simple and reliable design of the device, which alone provides blind mounting, in practically inaccessible places, where only outstretched hands can be inserted, where flange 2 can be fixed to the wall without using mechanical fasteners, for example, using anaerobic adhesives and similar means.

In more detail the possibilities of the cable entry and its sealing module can be considered in the following Examples.

Example 1

Initial data:

It is necessary to carry out a sealed electrically insulated input of the power cable into a room with thick walls on the street side, year-round subjected to various natural and, including, atmospheric influences (see Figs. 1 and 2).

It is decided to enter the cable with its deaf double-sided fixation in the wall, with the entrance to the room at a level close to the floor level. The fastening of the flanges 2 to the wall will be carried out using standard screw fasteners and, for example, polypropylene dowels.

Two complete cable entries are purchased, designed to pass the cable of the required diameter. The size of the cable entry with sealing module 3 can be selected as the minimum possible for a given diameter and type of cable (with the prospect of replacing a more powerful one), as the maximum possible (without the prospect of replacing a more powerful one), or, which is most common - medium (with a prospect replacements, both more powerful and less powerful).

A through hole is prepared in the wall 18. Considering that the wall is thick, ultra-deep drilling is performed using specialized tools and equipment. The diameter of the drilling corresponds to the diameter of the cylindrical body 1 of the cable entry, adjusted for the tolerance of its guaranteed passage. As a rule, these sizes are initially standardized. Also, according to the marking (with the flanges 2 of the housing 1 being applied), holes 19 are drilled on both sides of the wall for the fasteners of the flanges 2 and dowels are driven into them.

Input power cable is as follows.

The cable entry in the delivery state is disassembled. To do this, turn out both hollow threaded nuts 10 and 10 '. Having applied force, the sealing module 3 is squeezed out of the housing 1 and, without disassembling, put it aside. An additional layer of lubricant can be applied to the threaded sections 9 and 9 'of the housing 1 and the inner surface of its through cylindrical hole 7, if it seems that there is not enough lubricant. One of the nuts, namely 10 ', is again screwed into the housing 1 - from the side opposite to the location of the flange 2, until it stops. On the cylindrical body 1, under the flange 2, the sealing gasket is adjusted (or a layer of sealing compound is applied to the inner surface of the flange 2). The housing 1 is inserted into the hole 18 in the wall and rotated until the holes on the flange 2 coincide with the holes 19 for the fasteners. Screw fasteners are screwed into the dowels all the way. The screws are turned down with controlled force to evenly tighten the flange 2 against the wall to form an airtight joint.

A similar operation is performed with another cable entry on the other side of the wall (or it is made with a threaded cable after it is threaded through the wall).

On the street, take off the de-energized power cable and put on it a hollow threaded nut 10 with the external (from the housing 1) location of the slots 20 (or other screwing devices) on a turn-key basis. The cable is passed through the wall and, accordingly, through both cases 1 using, if necessary, the simplest devices, for example, a straight, sufficiently rigid rod. A similar threaded nut 10 with an external (from the housing) location of the turnkey slots 20 is put on a threaded cable on the other side of the wall, which is pulled to the required length of its free end inside the room.

After that, on either side of the wall, the final installation of the cable entry is carried out. To do this, take the sealing module 3 assembly, separate its detachable parts of the base 4 and detachable adaptive gaskets 6 in half. Take out the plug 15 and the same number of paired adaptation gaskets 6 to obtain a nominal diameter corresponding to the diameter of the cable being sealed. Released parts (6 and 15) can be discarded for disposal or stored for future future use (replacing an existing cable with a less powerful one and with a smaller diameter). All open surfaces of the remaining parts 6 and the detachable parts of the base 4 of the sealing module 3 are lubricated - it is also a sealant. The "halves" of the sealing module 3 near the flange 2 are laid on both sides of the cable to be sealed until they form a hollow cylinder, which, sliding along the cable, is inserted into the hole 7 of the housing 1 until the end of the previously screwed hollow threaded nut 10 '(end face 8) . In this case, part of the turns of the internal thread 9 of the housing 1 should be released (open). After that, along the cable toward the housing 1, the second hollow threaded nut 10 is shifted and baited onto a free portion of the internal thread 9 of the housing 1. Take a socket wrench for the slots 20 of the hollow threaded nut 10 and screw it into the housing 1. As the nut 10 progresses, the polymer the elastic detachable base 4 (its "halves") begins to deform and select the existing gaps with a through cylindrical cavity 7 of the housing 1 and, after they are selected, transmit a deformation effect to the adaptation gaskets 6, which The latter, in turn, select all the available gaps, including the gap with the body of the not always cylindrical cable. Due to the presence of deaf cavities 12 of each of the paired elements of the split base 4 and the corresponding deaf cavities 13 of the adaptation gaskets 6, it is practically impossible to obtain plastic deformation of compressible polymer parts (4 and 6) - everything happens within elastic deformations due to a decrease in the volume of deaf cavities 12 and 13 This provides the necessary tightness and, at the same time, electrical insulation of the cable entry and ensures its subsequent disassembly without loss of function (purpose) and changes in technical characteristics.

In the same way carry out the final installation of the second cable entry. At the same time, it is recommended to pull the power cable so that it does not sag in the wall to exclude the possibility of contact with its metal fittings.

As you can see, the final installation of cable entries can be done without looking at them - to the touch. When assembling the sealing module 3, one cannot make a mistake with the set of adaptation gaskets 6 and their orientation in the through cylindrical cavity 5 of the polymer elastic detachable base 4. This is facilitated by blind cavities 12 and 13 with corresponding protruding parts 14 on the parts to be joined. All this provides the necessary build quality and the immutability of the inherent technical characteristics of the cable entry.

As can be seen, the mounted cable entry provides a sealed electrically insulated input of the power cable from the street side into the room and its use for its intended purpose.

Example 2

Initial data:

It is necessary to replace the existing power cable 21 of Example 1 with a more powerful cable 22 and with a larger diameter.

To do this, all the previously listed operations for the final installation are carried out in the reverse order - they partially dismantle the cable entry. Sealing modules 3 are removed from the housing 1 by translational movement of the cable 21 in one direction or another.

The cable 21 is removed from the wall, the hollow threaded nuts 10 are removed from it. All of the above installation operations begin to be carried out with the new power cable 22. From the sealing modules 3, the “extra” paired adaptation gaskets 6 are removed, up to their complete removal, leaving only polymer elastic detachable bases 4. Released parts 6 can also be thrown away for disposal or stored for possible future use.

The split base 4 with the remaining adaptation gaskets 6 or without them is lubricated, inserted into the housing 1, etc. etc. - similar to Example 1.

Example 3

Initial data:

It is necessary to replace the existing power cable of Example 1 or Example 2 with a less powerful cable and with a smaller diameter.

Everything is done similarly to Examples 1 and 2, adjusted for the fact that the polymer elastic split bases 4 are equipped with the necessary number of old, previously removed pair of adaptive gaskets 6.

Similar actions with replacing cable entries or installing other sealed elements in their place, up to plugs 15, can be performed many times, although in practice this is not done so often.

Example 4

If desired, it is possible to use the above sealing module 3 on cylindrical cable glands of other manufacturers, for example, manufactured according to the patent of the Russian Federation No. 2251773. This may be necessary when replacing one sealable element (product) with another of a larger or smaller diameter.

To do this, from the known device remove the "excess" parts and select the polymer elastic detachable base 4 of the sealing module 3 of the corresponding diameter. All other actions are similar to the actions described in Examples 1-3.

The listed Examples are not the only illustration of the cable entry design and its sealing module 3 and their capabilities. However, in all cases, essential features of the described technical solutions in their various combinations should be used.

As a result of using a group of inventions connected by a single concept, a new single cable entry was created, equipped with its own sealing module, which together provide simple reliable sealing and fixing of cables, wires, pipes, cables, lines and the like to be sealed in the wall, wiring closet and the like structures, as well as their quick and multiple installation-dismantling, changing the size and replacing one with another, including in inaccessible places and uncomfortable assembly conditions.

Claims (11)

1. The sealing module of the cable entry, comprising a polymeric elastic detachable base with a through cylindrical cavity and with a set of polymer elastic detachable adaptive gaskets, while the through cylindrical cavity of each of the paired elements of the detachable base includes at least one fixing blind cavity, and each of the paired elements detachable adaptive gaskets are made voluminous in the form of a thin-walled semi-cylindrical shell with at least one own fixing blind cavity repeating in shape its protruding part the corresponding fixing blind cavity of each of the paired elements of the detachable base, or the corresponding fixing blind cavity of the adjacent paired element of the adjacent detachable adaptive pad, while the cross-section of the through cylindrical cavity of the detachable base, including equipped with at least one detachable adaptive gasket, corresponds to the cross section of the cable being sealed, characterized in that the polymer elastic split base non-cylindrical shape made of a polymer, the elastic and strength properties of which are equal to or greater than the elastic and strength properties of detachable adaptation gaskets, and its length in the initial state exceeds the length of the package of adaptation gaskets. 2. The sealing module according to claim 1, characterized in that the polymer elastic detachable adaptive gaskets are equipped with marking elements of the recommended cable diameter. 3. The sealing module according to claim 1, characterized in that the through cylindrical cavities of each of the paired elements of the polymer elastic detachable base are equipped with a maximum number of detachable adaptive gaskets and a plug that simulates a cable cross section of a minimum cross section and contains at least one pair of locking protrusions repeating in shape fixing deaf cavities of paired elements of detachable adaptation gaskets in contact with them. 4. A cable entry comprising a housing with a flange and a sealing module located in its inner space in the form of a polymeric elastic detachable base with a through cylindrical cavity and a set of adaptive gaskets, characterized in that the body is cylindrical with a through cylindrical hole, one side of which includes an inner end ledge, and the other includes a threaded section with an internal thread interacting with a hollow threaded nut equipped with an external thread, made with possible awn forming an inner shoulder of the movable socket for interaction with the polymer elastic base sealing detachable module, made in accordance with Nos. 1-3 and having a length sufficient for baiting a hollow threaded nut in a threaded portion of a through cylindrical hole. 5. The cable entry according to claim 4, characterized in that the inner end ledge is made in the form of a shoulder. 6. The cable entry according to claim 4, characterized in that the inner end ledge is made in the form of a second hollow threaded nut placed on the second threaded section of the housing from its opposite side, made similar to the first threaded section. 7. The cable entry according to claim 4, characterized in that the connection of the housing to the flange is made integral. 8. The cable entry according to claim 4, characterized in that the housing includes at least one threaded portion with an external thread, and the flange of the housing is made with an internal thread screwed onto the corresponding threaded portion of the housing. 9. Cable entry according to any one of paragraphs. 4-8, characterized in that at least one threaded connection is configured to prevent spontaneous unscrewing of the connected parts. 10. Cable entry according to paragraphs. 4-7, characterized in that its mutually contacting surfaces, including threaded joints, are coated with a sealing compound. 11. Cable entry according to claim 1, characterized in that the housing is equipped with a sealing gasket located under the housing flange.

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