CN202188235U - Penetrating system for containing a plurality of cables, leads or pipelines - Google Patents

Abstract

The utility model relates to a penetrating system for containing a plurality of cables, leads or pipelines, comprising frames (1, 8, 35, 37 and 38) which internally contain one or a plurality of modules (2) and compression units (13, 15, 16, 20 and 34). Each module (2) internally contains the cables, the leads or the pipelines. Filling parts (26) are contained in the frames (1, 8, 35, 37 and 38) for filling possible spaces in the frames not containing any cables, leads or pipelines. Then, if the frames (1, 8, 35, 37 and 38) of the penetrating system are used for containing other cables, leads or pipelines, the filling parts (26) are removed.

Description

Be used to hold the system that runs through of a plurality of cables, lead or pipeline

Technical field

The utility model relates to a kind of system that runs through that is used for cable, pipeline or lead.This runs through system and comprises the framework with at least one opening portion, in this at least one opening portion, is placed with at least one compression unit and a plurality of module that is used to hold cable, pipeline or lead.

Background technique

Nowadays commonly utilize the module do not hold any cable, pipeline or lead to come fill frame, thus, be used for the opening of cable etc., the said module of not holding cable etc. has the blind hole that is the central core form usually.

In a lot of equipment, the quantity of waiting to be accommodated in cable in the framework etc. will increase along with the time.In this equipment, possibly in for a long time, not need a large amount of modules.Replace having when needed the opening of expansion electric control box etc. and the difficulty that bigger framework is installed, bigger framework is installed from the beginning.Some frameworks have two or more compartments, wherein, possibly be used from the beginning by not all compartment.In WO 2004/034538, show an example of this framework, and cover different compartments through plate in this example.This plate was destroyed before arbitrary module being placed in this compartment.

In the prior art, existence has the cable conversion equipment (cable transition) of framework etc., in this framework, is placed with a plurality of modules to hold cable, lead or pipeline.Module is processed by the elastic material such as rubber or plastics and is compressible thus.A plurality of modules are contained among one or more rows with certain compression unit usually abreast in framework.Compression unit is placed between framework and the module, thereby makes when this compression unit expands, and this compressible module will be compressed around cable, lead or pipeline.For the ease of describing, mainly in this manual use statement " cable ", but it should be by interpreted in its broadest sense, ie more, and it will be obvious to those skilled in the art that it also contains pipeline or lead usually.

The Sealing of the above-mentioned type or conversion equipment are used for the sealing of the multiple varying environment such as being used for casing, studio, terminal box and machine.Their use in the different industrial environment such as automobile, telecommunications, generating and distribution and sea-freight and coastal waters.Sealing or conversion equipment possibly have to be sealed in fluid, gas, fire, rodent, termite, dust, moisture etc., and can hold the cable or the lead that are used for electric, communication, computer etc., be used for different gas or liquid such as water, pressurized air, hydraulic fluid and culinary art gas pipeline, or be used for the lead that load keeps.

In one embodiment, the module of holding single cable etc. has a branch of strippable layer or thin slice on inside.These layers or thin slice are stripped from the external diameter that is suitable for being accommodated in the cable in the said part up to the internal diameter of this part.These layers are adhering to each other, and its intensity is enough to keep together, and simultaneously its shatter value be enough to make these layers can be from this group one deck connect one deck ground or a plurality of layers and be stripped from together.

Should by rights framework be sealed based on the environment in the concrete condition.

The model utility content

A purpose is the system that runs through of flexible configuration, and they are flexibly this runs through on the meaning that system can relatively easily be suitable for holding other cable, pipeline or lead.

Another purpose is to avoid having in framework, placing a large amount of modules of not holding any cable, pipeline or lead etc.

Above-mentioned purpose realizes through a kind of system that runs through that is used to hold a plurality of cables, lead or pipeline.This runs through system and comprises framework, and this framework has at least one opening portion, wherein, at least one opening portion of framework, is placed with compression unit and one or more module, and each module can be held cable, pipeline or lead.Each opening portion is all by four inner wall limits.Filling part is placed at least one opening portion of framework.Filling part is placed between compression unit and the one or more module, perhaps is placed between compression unit and the framework.

In a preferred implementation of the utility model, filling part has sealed department two of filling part relative upper edge at least, and filling part is processed by hard material, and sealed department is processed by the material softer than the remaining part of filling part.

In a preferred implementation of the utility model, sealed department is the sealing flange that is contained at least two relative recesses on the top that is arranged in framework.

In a preferred implementation of the utility model, sealed department is the packing ring around filling part, and this packing ring is pressed against under installment state on two relative inwalls of framework at least.

In a preferred implementation of the utility model, filling part has handle on a side.

In a preferred implementation of the utility model, the handle of filling part is set in place in the recess on the upside of filling part, and filling part comprises the framework between the recess that is arranged on outer wall and holds handle.

In a preferred implementation of the utility model; Filling part has from the jut of two opposite external side projections of filling part; This jut is arranged on the equal height and the certain distance setting that is spaced apart from each other, and jut is used for being contained in the groove on two relative inwalls of the wall portion that is positioned at framework.

In a preferred implementation of the utility model; Be positioned at the groove upward opening on the inwall; To hold the jut of filling part, groove respectively has vertical first one and second one of inclination, thus; As the crow flies to extending below, the rake of each groove is downward-sloping from vertical portion from the top edge of inwall in the vertical portion of each groove.

In a preferred implementation of the utility model, jut is the pin of cooperating with the groove of framework.

In a preferred implementation of the utility model, be placed with backing plate between the module in a row on the both sides at filling part and between the module in a row at least one side at compression unit.

In a preferred implementation of the utility model; Compression unit comprises and incorporate wedge portion, separation beam portion and the hyposphene portion of going up of framework; Should go up wedge portion, separation beam portion and hyposphene portion and have the inclined surface that adjoins each other; Thus when the screw bolt and nut by means of one or more cooperations make hyposphene portion towards on when being squeezed on the direction of wedge portion, separation beam portion away from be squeezed on the direction of wedge portion and hyposphene portion.

In a preferred implementation of the utility model; In the through hole of last wedge portion and hyposphene portion and the ellipse hole in the separation beam portion, accommodate at least one bolt respectively, the nut cooperation in the recess at least one bolt and the downside that is held in place hyposphene portion.

To those skilled in the art, after the detailed description that the mode of execution for the utility model below reading carries out, other purpose of the utility model and advantage will be conspicuous.

Description of drawings

To further describe the utility model below as an example and with reference to accompanying drawing.In the drawings,

Fig. 1 is the top perspective view of an example that accommodates the framework of compression unit, filling part and a plurality of modules;

Fig. 2 is the face upwarding stereogram of framework as shown in fig. 1;

Fig. 3 is the face upwarding stereogram of the framework of Fig. 1.This framework only has the module that is in the appropriate location;

Fig. 4 is and the corresponding stereogram of Fig. 3, and compression unit is in the suitable position equally;

Fig. 5 is the top perspective view of framework as shown in Figure 4;

Fig. 6 is the stereogram with the alternate embodiments of the corresponding compression unit of Fig. 4;

Fig. 7 is the top perspective view of the filling part of Fig. 1 and 2;

Fig. 8 is the top perspective view of another example of framework;

Fig. 9 is the side view of an example of compression unit;

Figure 10 is the planimetric map of another example that accommodates a plurality of modules and comprise the framework of alternative compression unit;

Figure 11 is the planimetric map of another example that accommodates the framework of a plurality of modules; And

Figure 12 is the planimetric map of another example that accommodates the framework of a plurality of modules.

Embodiment

As employed in this manual, statement " on ", D score and similarly statement be that the side shown in Fig. 1 is a upside thus for the framework that mode as shown in fig. 1 is placed.It will be understood by those skilled in the art that in use framework can be placed with arbitrary orientation.Illustrated embodiment is an example, and it will be understood by those skilled in the art that the utility model can use with a lot of dissimilar frameworks.

First mode of execution of the utility model comprises framework 1, is used in the opening portion 3 of framework 1, holding a plurality of compressible modules 2.Framework 1 has wall portion, and this wall portion is formed by the framework 4 between inwall 5 and outer wall 6, and this wall portion is around the opening portion 3 of framework 1.Flange 7 in the upper end of wall portion surrounding wall portion and flange 7 perpendicular to this wall portion.The shared continuous upside of flange 7 and wall portion formation framework 1.The opening portion 3 of framework 1 is limited the inwall 5 of wall portion, and this inwall is two relative longwells and two relative shortwalls.Therefore, the opening portion 3 of framework 1 will have the total shape like being seen rectangle in planimetric map.The definite shape that it will be understood by those skilled in the art that opening portion can change and in some embodiments opening portion have square shape.

Use framework in some embodiments, an example of this framework 8 has been shown in Fig. 8 with several opening portions.The framework 8 of Fig. 8 has three opening portions 9,10,11, and each opening portion 9,10,11 is all by four inner wall limits.In each opening portion, will accommodate one or more modules, a compression unit and possible filling part.It will be understood by those skilled in the art that the framework that can use opening portion with any amount.

The height of four wall portions of framework 1,8 is corresponding with the height of module 2.Each module 2 will be held cable, pipeline or a lead.In framework 1,8, has certain compression unit.In use compression unit will compress the module of being processed by flexible and compressible material 2, and module 2 will be pressed against on corresponding cable etc. thus.

Shown in module 2 form by two and half ones and on internal diameter, have a plurality of strippable layers 12.Layer 12 is stripped from so that the internal diameter of module 2 is suitable for waiting being contained in the external diameter of the cable in the module 2 etc.Module 2 is placed in the opening portion 3 of framework 1 of first mode of execution, inserts from an end of the opening portion 3 of framework 1.In other mode of execution, use the module of other type.

Shown in first mode of execution in, compression unit is formed by a plurality of different elements.Compression unit is placed on the other end with respect to module 2 of the opening portion 3 of framework 1.Therefore, module 2 and compression unit are placed on the opposite end of the opening portion 3 of framework.

Compression unit shown in Fig. 1-5 is formed by three parts, and these three parts have the inclined surface that contacts with each other.First portion is the wedge portion 13 of going up, and wedge portion 13 forms the integral part of framework 1 and is placed on an end of the opening portion of framework 1 on this.The last wedge portion 13 of integral type is placed on the top of wall portion.Last wedge portion has a plurality of inclined ridges 14.Two other parts of compression unit are separation beam portion 15 and hyposphene portion 16.Two bolts 18 pass two through holes in wedge portion 13 and the hyposphene portion 16 respectively, and through two slotted eyes in the separation beam portion 15 or ellipse hole.The through hole of last wedge portion 13 is opened the strengthening rib 17 on the upside that is arranged in framework 1.In the compression unit of first mode of execution, bolt 18 is placed in each of two through holes of compression unit.Bolt 18 is fallen from the top through opening, and bolt head is positioned on the upside of framework 1.Bolt 18 is cooperated with the nut 19 in the recess that is placed on hyposphene portion 16.Because with the ellipse hole of contacted inclined surface of the different piece of compression unit and separation beam portion 15, when tighting a bolt 18 the time, separation beam portion 15 will move with respect to other press part.Compression unit shown in Fig. 1-5 to be working with the identical mode of compression unit described in the WO 2009/102262, and with regard to other details of compression unit, we are with reference to said open file.Although as shown in, in compression unit, used two bolts 18, it will be understood by those skilled in the art that and in other mode of execution, have only a bolt that passes all parts of compression unit.

In the mode of execution of Fig. 6, show alternative separation beam portion 36.The separation beam portion 36 of this mode of execution is by elastic material, preferably rubber is processed.This separation beam portion 36 is manufactured into single parts and does not have the framework that is shown as to the hyposphene portion 16 of the mode of execution of Fig. 1-5 and separation beam portion 15.

Because last wedge portion 13, separation beam portion 15,36 and hyposphene portion 16 have the inclined surface that adjoins each other; Therefore when make by means of the bolt 18 of one or more cooperations and nut 19 hyposphene portion 16 towards on when being squeezed on the direction of wedge portion 13, separation beam portion 15,36 away from be squeezed on the direction of wedge portion 13 and hyposphene portion 16.

In other mode of execution, can use the compression unit of other type.An example of alternative compression unit 20 has been shown in Fig. 9.Compression unit 20 is formed by four 21-24 of wedge portion basically.Can change the thickness of compression unit 20 by means of bolt configuration 25, this is because the 21-24 of wedge portion is relative to each other slided along the inclined surface of the 21-24 of wedge portion.The compression unit of Fig. 9 is corresponding to the compression unit of WO 96/11353.Other example of compression unit has been shown in WO 2004/034538 and WO03/104701, and these compression units can use with the utility model.

Zone Full at the opening portion 3 of framework 1 all is not used under the situation of module 2, and as shown in Fig. 1 and 2, filling part 26 is placed between compression unit and the module 2.Filling part 26 is positioned at butt the module 2 and the compression unit of the opening portion 3 of framework 1.Filling part 26 is processed to bear the compressive force of expection by hard relatively material.Shown filling part 26 has two short ends 27 and when being placed on framework 1 in the time, filling part 26 lack end 27 with two of butt framework 1 relative long inwalls 5.Filling part 26 has the handle 28 in the recess that is placed on the upside on upside.Handle 28 is used to operate filling part 26.In other mode of execution the shape of handle can with shown in shape different.The purpose of handle 28 is to be convenient to the operation of filling part 26 in loading and unloading.Filling part does not have handle but has flat and continuous upper surface in other mode of execution.

In the example shown, filling part 26 has like the framework seen from the below, and this framework is placed on outer wall and accommodates between the recess of handle 28.Sealing flange 29 is arranged on each short end 27 of filling part 26.When filling part 26 has been placed in the opening portion 3 of framework 1, sealing flange 29 will be held in place in the recess 30 on the top of framework 1.Recess 30 all is placed with at the top of an inwall 5 and locates against each other.Compare with this filling part, sealing flange 29 is processed by soft relatively material.It will be understood by those skilled in the art that sealing effect can obtain in a different manner.In one embodiment, packing ring is placed near the top of filling part.When filling part is installed, the packing ring of being processed by elastic material will be pressed against on the inboard of framework.At the opposite side of filling part 26, sealing flange 29 is with the top that is placed on module 2 and compression unit respectively.

On each short end 27 of filling part 26, be arranged to comparatively near the upside of filling part 26 and certain distance separately to each other in these two juts that are the form of pin 31.The groove 32 that pin 31 will be accommodated on the long inwall 5 that is arranged in framework.Each groove 32 equal upward opening on the inwall 5 and have the first vertical portion, this first vertical portion is transformed into second rake via curved part.The vertical portion of each groove 32 all from the top edge of the inwall 5 of framework 1 as the crow flies to extending below.For the pin that when compression unit works, makes filling part 26 31 moves along rake, the rake of each groove 32 all is directed away from compression unit.The rake of each groove 32 is downward-sloping slightly from vertical portion.Groove 32 accommodates the flange 29 of filling part 26 at recess 30 split sheds of framework in this recess 30.When by means of compression unit when module 2 promotes filling parts 26, sealing flange 29 will be pressed against on framework 5, module 2 and the compression unit, this be because the pin 31 of filling part 26 will be through framework 1 the rake of groove 32 be pressed downward.It will be understood by those skilled in the art that the jut of cooperating with groove can have other shape that is different from pin.They can for example be oval in shape, rectangular shape etc., and the groove of cooperation will have corresponding shape.The inclination of the rake of groove also can change.Be placed to comparatively near the upside of filling part although groove is shown as, it will be understood by those skilled in the art that groove can be placed on the arbitrary suitable position on the filling part.Through improving this placement, can influence the maximum sealing effect of filling part.Those skilled in the art also understand, groove can be placed on the filling part and jut is placed on the framework.

The size of the filling part 26 between compression unit and module 2 can be based on the size of the quantity of the module 2 in the framework 1,8 and the module 2 in the framework 1,8 and is changed.

In the mode of execution of Figure 10, as shown in the WO 03/104701 that mentions in the above, compression unit 34 is placed on an end of the opening portion of framework 35.In this case, compression unit 34 is the plate that is contained in the groove of framework 35 basically, through this plate is gone to the position shown in Figure 10 compression is provided thus.A plurality of modules 2 also can be in filling part 26 be placed on framework 35.In Figure 10, for purposes of illustration, be tabular compression unit 34 and illustrate in the outside and the inboard of phase frame 35.

Used backing plate in some embodiments.In current application, often use backing plate.As those skilled in the art are well-known, by means of backing plate, module will be maintained in the framework.Not that this compression unit also will be maintained in the framework by means of backing plate under the situation of a body of framework at compression unit.Figure 11 shows an example of the framework 37 that wherein uses backing plate 33.In this embodiment, can be that compression unit is the shape of rotating plate with the mode of execution of Figure 10 is compared.

In mode of execution shown in Figure 12, compression unit 20 is placed between the row's module 2 and filling part 26 in the framework 38.The compression unit 20 that uses in the embodiment shown is corresponding to the compression unit shown in Fig. 9.

In use, one or more cables etc. are placed in the module 2, and each module 2 all is positioned at opening portion 3, the 9-11 of framework 1,8,35,37,38.For the internal diameter that makes module 2 is suitable for cable to be held etc., peel off the layer of suitable quantity from the inside of module 2.

Whole opening portions 3,9 to 11 at framework 1,8,35,37,38 all are not filled with under the situation of module 2 and compression unit, and filling part 26 is held in place between the opening portion 3 of framework 1,8,35,37,38, the module 2 and compression unit among the 9-11.Filling part 26 is placed on the framework 1 of first mode of execution from the top, and the pin 31 of filling part 26 is contained in the groove 32 on the inwall 5 of the wall portion that is arranged in framework 1 thus.When filling part 26 is placed in the opening portion 3 of framework 1, pin 31 will drop to the rake of groove 32.The bolt 18 of the compression unit through tightening first mode of execution, separation beam portion 15 will be pressed against on the filling part 26.Filling part 26 will be pressed against on the module 2 subsequently, and this is because the pin 31 of filling part 26 will move along the rake of the groove 32 on the inwall 5 of the wall portion of framework 1.Therefore, the module of being processed by compressible material 2 will be compressed on the movement direction of separation beam portion 15 and filling part 26.In the mode of execution of the compression unit 20,34 that uses other type, module 2 will be compressed in an identical manner equally.Because module 2 is compressed in one direction, they will expand on other direction, and module 2 will inwardly be pressed against on cable, pipeline or the lead that is held and outwards be pressed against on the inwall 5 and adjacent modules 2 of framework 1 thus.Cooperation between the rake of the pin 31 through filling part 26 and the groove 32 of framework 1, the sealing flange 29 of filling part 26 will be pressed against on framework 1, module 2 and/or the compression unit.

Although only be depicted as relevantly with the framework 1 of the mode of execution of Fig. 1-6 clearly with the groove of the pin of filling part 26 31 cooperations, other framework 8,35,37,38 has equally and is used for the corresponding groove of cooperating with the pin 31 of filling part 26.As implied above, it will be understood by those skilled in the art that in other mode of execution framework will have with the pin of the groove of filling part cooperation etc.

Using under the situation of backing plate 33, on the both sides of filling part 26 respectively arrange between the module 2 and at least one side of compression unit 20,34 on respectively arrange and place a backing plate 33 between the module 2.

Under the situation that the number of cable to be held etc. increases in stages of some back, filling part 26 will be removed and substituted by a plurality of module 2.In some instances, filling part 26 will be substituted by the littler new filling part of size.

Framework shown in it will be understood by those skilled in the art that, compression unit and possible backing plate can make up with many different modes.

Claims (12)

1. system that runs through that is used to hold a plurality of cables, lead or pipeline; The said system that runs through comprises framework (1,8,35,37,38); Said framework (1,8,35,37,38) has at least one opening portion (3,9-11); Wherein, In said at least one opening portion of said framework (1,8,35,37,38) (3,9-11), be placed with compression unit (13,15,16,20,34) and one or more module (2); Said cable, lead or tubing containment are in said one or more modules (2), and each opening portion (3,9-11) all by four inner wall limits, is characterized in that; In said at least one opening portion (3) of said framework (1), also be placed with filling part (26), said filling part (26) is placed between said compression unit and the said one or more module (2) or between said compression unit and said framework.

2. the system that runs through as claimed in claim 1; It is characterized in that; Said filling part (26) has sealed department in two relative upper edge of said filling part (26) at least; Said filling part (26) is processed by hard material, and said sealed department is processed by the soft material of remaining part than said filling part (26).

3. the system that runs through as claimed in claim 2 is characterized in that, said sealed department is the sealing flange (29) that is contained at least two the relative recesses (30) on the top that is arranged in said framework (1).

4. the system that runs through as claimed in claim 2 is characterized in that, said sealed department is the packing ring around said filling part (26), and said packing ring is pressed against under installment state on two relative inwalls (5) of said framework (1,8,35,37,38) at least.

5. like each the described system that runs through in the aforementioned claim, it is characterized in that said filling part (26) has handle (28) on a side.

6. the system that runs through as claimed in claim 5; It is characterized in that; The said handle of said filling part (26) is set in place in the recess on the upside of said filling part (26), and said filling part (26) comprises and is arranged on outer wall and holds the framework between the said recess of said handle.

7. the system that runs through as claimed in claim 1; It is characterized in that; Said filling part (26) has from the jut of two opposite external side projections of said filling part (26); Said jut is arranged on the equal height and the certain distance setting that is spaced apart from each other, and said jut is used for being contained in the groove (32) on two relative inwalls (5) of the wall portion that is positioned at said framework (1).

8. the system that runs through as claimed in claim 7; It is characterized in that, be positioned at said groove (32) upward opening on the said inwall (5), to hold the said jut of said filling part (26); Said groove (32) respectively has vertical first one and second one of inclination; Thus, the said vertical portion of each said groove (32) as the crow flies to extending below, the said rake of each said groove (32) is downward-sloping from said vertical portion from the top edge of said inwall (5).

9. like claim 7 or the 8 described systems that run through, it is characterized in that said jut is the pin (31) of cooperating with the said groove (32) of said framework (1).

10. the system that runs through as claimed in claim 1; It is characterized in that, between the said module (2) in a row on the both sides that are positioned at said filling part (26) and be positioned between the said module (2) in a row at least one side of said compression unit and be placed with backing plate (33).

11. the system that runs through as claimed in claim 1; It is characterized in that; Said compression unit comprises and incorporate wedge portion (13), separation beam portion (15,36) and the hyposphene portion (16) of going up of said framework (1); Said wedge portion (13), said separation beam portion (15,36) and the said hyposphene portion (16) of going up has the inclined surface that adjoins each other; Make said hyposphene portion (16) when being squeezed on the direction of wedge portion (13) on said when bolt (18) and nut (19) by means of one or more cooperations thus, said separation beam portion (15,36) is squeezed on the direction away from wedge portion (13) on said and said hyposphene portion (16).

12. the system that runs through as claimed in claim 11; It is characterized in that; Accommodate at least one bolt (18) respectively in the ellipse hole on said in the through hole of wedge portion (13) and said hyposphene portion (16) and the said separation beam portion (15,36), nut (19) cooperation in said at least one bolt (18) and the recess that is held in place on the downside of said hyposphene portion (16).

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