CN214410861U - Ultrahigh signal communication transmission band with sheath - Google Patents

Abstract

The utility model discloses an ultrahigh signal communication transmission band with sheath relates to mechanical equipment communication technical field, including protective sheath and phase line sleeve pipe, still including connection structure that can increase toughness, the protective structure that can play the guard action and the heat radiation structure that the heat of being convenient for gived off, the inside of protective sheath is provided with the protective layer, protection structure sets up the outside at the protective layer, the inside of protective sheath is provided with four phase line sleeve pipes, and phase line sheathed tube inside is provided with a plurality of electric wires, connection structure sets up and locates the inside of protective layer at the inside central point of protective sheath and be provided with the cavity, heat radiation structure sets up the inside at the cavity. The utility model discloses an utilize the better thermal conductivity of heat conduction piece self, can absorb the heat that the phase line sleeve pipe produced and shift, can shift the heat that the phase line sleeve pipe produced to radiating fin, then shift the heat in the inside of cavity through radiating fin.

Description

Ultrahigh signal communication transmission band with sheath

Technical Field

The utility model relates to a mechanical equipment communication technical field specifically is an ultrahigh signal communication transmission band with sheath.

Background

Communication is a process of transmitting a certain signal from one place to another place, and the communication technology of the communication technology is visible everywhere in daily life, so that the life of people becomes more convenient, while in the development of the communication technology, the use of a communication transmission band cannot be avoided, and the signal transmission is mainly completed through the communication transmission band, but the existing signal communication transmission band has certain defects.

Through retrieval, the Chinese patent No. CN108242283A, publication No. 2018, 7, month 3, discloses an ultrahigh signal communication transmission belt with a sheath, and the article proposes that "an insulating layer is coated on each signal line group, and the insulating layers of two adjacent rows of signal line groups are sintered and compositely connected; an outer sheath layer is compounded on the outer surface of the insulating layer and is made of PTFE material; an inner sheath layer is arranged between the inner surface of the insulating layer and each row of signal wire groups, the inner sheath layer is made of PTFE, and although the inner sheath layer is arranged, heat generated by the device is lack of corresponding treatment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an ultrahigh signal communication transmission band with sheath to solve the heat that proposes in the above-mentioned background art and scatter and disappear, lack protection and the lower problem of toughness.

In order to achieve the above object, the utility model provides a following technical scheme: an ultrahigh signal communication transmission belt with a sheath comprises a protective sleeve, a phase line sleeve, a connecting structure capable of increasing toughness, a protection structure capable of playing a protection role and a heat dissipation structure convenient for heat dissipation;

a protective layer is arranged inside the protective sleeve, and the protective structure is arranged on the outer side of the protective layer;

the inner part of the protective sleeve is provided with four phase line sleeves, a plurality of electric wires are arranged in the phase line sleeves, and the connecting structure is arranged at the central position in the protective sleeve;

a cavity is arranged in the protective layer, and the heat dissipation structure is arranged in the cavity;

the heat radiation structure further comprises a fixed fixture block, the fixed fixture block is arranged at one end, close to the phase line sleeve, inside the cavity, the one end of the fixed fixture block is provided with four heat conduction blocks, the heat radiation fins are arranged at one ends of the heat conduction blocks, the other ends of the heat conduction blocks penetrate through one end of the fixed fixture block and extend to the inside of the protective layer, and four fixed rods are arranged at equal angles inside the cavity.

Preferably, four fixed fixture blocks are arranged at equal angles at one end, close to the phase conductor bushing, in the cavity, and the phase conductor bushing is located in the protective layer.

Preferably, connection structure includes strengthening rib, fixed block, connecting rod, bracing piece and connecting block, the strengthening rib sets up in the inside intermediate position department of protective sheath, and the outside of strengthening rib installs the fixed block, fixed block intermediate position department all around installs the connecting block, and the one end of connecting block all installs the connecting rod, four bracing pieces are installed in the outside of strengthening rib, and the one end of bracing piece is connected with the protective layer is inside.

Preferably, one end of the connecting rod is connected with the outer side of the phase line sleeve, and the phase line sleeve is centrosymmetric with respect to the central point of the reinforcing rib.

Preferably, protection architecture includes crease-resistant layer, waterproof layer, anti-interference layer and fire-retardant layer, crease-resistant layer installs in the inside of protective sheath, and the internally mounted on crease-resistant layer has the waterproof layer, the internally mounted of waterproof layer has anti-interference layer, and the internally mounted on anti-interference layer has fire-retardant layer.

Preferably, the outer side of the protective layer is attached to the inner wall of the flame-retardant layer, and the outer side of the anti-wrinkle layer is attached to the inner wall of the protective layer.

Preferably, the inner wall of the protective layer is made of a heat insulating material, and the outer side of the protective layer is made of a material with better heat conductivity.

Compared with the prior art, the utility model provides a pair of super high signal communication transmission band with sheath has following beneficial effect:

1. the utility model provides a protective layer, the cavity, fixed fixture block, heat conduction piece and radiating fin, utilize the better heat conductivility of heat conduction piece self, can absorb the heat that the phase line sleeve pipe produced and shift, can shift the heat that the phase line sleeve pipe produced to radiating fin, then shift the heat in the inside of cavity through radiating fin, and because the inner wall of protective layer has better heat-proof effect, can prevent that the heat from transmitting to the phase line sleeve pipe through the air, because the outside of protective layer has better heat conduction effect, so make things convenient for the giving off of heat, the problem of device heat giving off has been solved through this;

2. the utility model provides a strengthening rib, fixed block, connecting rod, bracing piece and connecting block utilize the physical characteristic of strengthening rib self, can make this device have better toughness, and the strengthening rib is connected through bracing piece and phase line sleeve pipe, can make the phase line sleeve pipe keep stable, and under the crooked condition of this device, can not produce the influence to the phase line sleeve pipe yet, be connected through bracing piece and protective layer inner wall, make the inside of protective layer have better stability, solved the relatively poor problem of this device toughness through this;

3. the utility model provides an anti-wrinkle layer, the waterproof layer, anti-interference layer and fire-retardant layer, utilize the characteristic of anti-wrinkle layer itself, can make this device can not produce the fold after bending, utilize the waterproof layer to have better waterproof characteristic, can make this device have better water-proof effects, utilize the anti-interference layer to have better anti signal interference's effect, can make this device have better signal transmission's effect, utilize the fire-retardant characteristic that fire-retardant layer has, can make the phase line sleeve pipe when the accident appears, prevent the condition that the conflagration appears in this device, the problem of this device lacks the protection has been solved through this.

Drawings

Fig. 1 is a schematic front view of a cross-sectional structure of the present invention;

fig. 2 is a schematic side view of the cross-sectional structure of the present invention;

FIG. 3 is a schematic view of the material distribution structure of the present invention;

FIG. 4 is a schematic view of the connection structure of the present invention showing a partially enlarged structure;

fig. 5 is an enlarged schematic view of the position a of the present invention.

In the figure: 1. a protective sleeve; 2. a connecting structure; 201. reinforcing ribs; 202. a fixed block; 203. a connecting rod; 204. a support bar; 205. connecting blocks; 3. fixing the rod; 4. a protective structure; 401. an anti-wrinkle layer; 402. a waterproof layer; 403. an anti-interference layer; 404. a flame retardant layer; 5. electric wire; 6. a heat dissipating fin; 7. a phase wire bushing; 8. a heat conducting block; 9. a chamber; 10. a protective layer; 11. and fixing the clamping block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example 1: referring to fig. 1-5, an ultra-high signal transmission belt with a sheath comprises a protective sheath 1, a phase conductor sleeve 7, a connecting structure 2 capable of increasing toughness, a protective structure 4 capable of playing a protective role, and a heat dissipation structure convenient for heat dissipation;

a protective layer 10 is arranged inside the protective sleeve 1, and the protective structure 4 is arranged outside the protective layer 10;

four phase line sleeves 7 are arranged inside the protective sleeve 1, a plurality of electric wires 5 are arranged inside the phase line sleeves 7, and the connecting structure 2 is arranged at the central position inside the protective sleeve 1;

a cavity 9 is arranged inside the protective layer 10, and the heat dissipation structure is arranged inside the cavity 9;

referring to fig. 1-5, the ultrahigh signal communication transmission belt with the sheath further comprises a heat dissipation structure, the heat dissipation structure further comprises a fixed fixture block 11, the fixed fixture block 11 is arranged at one end, close to the phase line sleeve 7, inside the cavity 9, and one end of the fixed fixture block 11 is provided with four heat conduction blocks 8, one ends of the heat conduction blocks 8 are all provided with heat dissipation fins 6, the other ends of the heat conduction blocks 8 penetrate through one end of the fixed fixture block 11 and extend into the protective layer 10, and four fixing rods 3 are equiangularly arranged inside the cavity 9;

four fixed fixture blocks 11 are arranged at equal angles at one end of the chamber 9 close to the phase conductor bushing 7, and the phase conductor bushing 7 is positioned in the protective layer 10;

the inner wall of the protective layer 10 is made of heat insulating materials, and the outer side of the protective layer 10 is made of materials with better heat conducting property;

specifically, as shown in fig. 1, fig. 2, and fig. 5, the heat generated by the phase line bushing 7 is absorbed and transferred by the heat conduction block 8, the heat generated by the phase line bushing 7 is transferred to the heat dissipation fins 6 by the heat conduction block 8 and dissipated inside the cavity 9, the inner wall of the protection layer 10 has a good heat insulation effect, the heat can be prevented from returning to the phase line bushing 7 from the inside of the cavity 9, the outer side of the protection layer 10 has a good heat conduction effect, and the dissipation of the heat can be accelerated.

Example 2: the connecting structure 2 comprises reinforcing ribs 201, fixing blocks 202, connecting rods 203, supporting rods 204 and connecting blocks 205, the reinforcing ribs 201 are arranged in the middle of the inside of the protective cover 1, the fixing blocks 202 are arranged on the outer sides of the reinforcing ribs 201, the connecting blocks 205 are arranged in the middle of the periphery of the fixing blocks 202, the connecting rods 203 are arranged at one ends of the connecting blocks 205, the four supporting rods 204 are arranged on the outer sides of the reinforcing ribs 201, and one ends of the supporting rods 204 are connected with the inside of the protective layer 10;

one end of the connecting rod 203 is connected with the outer side of the phase line bushing 7, and the phase line bushing 7 is centrosymmetric with respect to the central point of the reinforcing rib 201;

specifically, as shown in fig. 1, 2 and 4, the reinforcing rib 201 has good toughness, and the reinforcing rib 201 is connected with the inner wall of the protective layer 10 through the supporting rod 204 and connected with the connecting rod 203 and the phase line bushing 7 through the fixing block 202, so that the toughness of the device can be effectively enhanced when the device is bent.

Example 3: the protective structure 4 comprises an anti-wrinkle layer 401, a waterproof layer 402, an anti-interference layer 403 and a flame retardant layer 404, wherein the anti-wrinkle layer 401 is installed inside the protective sleeve 1, the waterproof layer 402 is installed inside the anti-wrinkle layer 401, the anti-interference layer 403 is installed inside the waterproof layer 402, and the flame retardant layer 404 is installed inside the anti-interference layer 403;

the outer side of the protective layer 10 is attached to the inner wall of the flame-retardant layer 404, and the outer side of the anti-wrinkle layer 401 is attached to the inner wall of the protective sleeve 1;

specifically, as shown in fig. 1, fig. 2 and fig. 3, since the waterproof layer 402 has a certain waterproof effect, the device is exposed to heavy rain or water erosion in the ground, the use effect of the device is not affected, and the anti-interference layer 403 has an anti-signal interference effect, so that the device can normally work even when the external environment has strong signal interference, and the flame retardant layer 404 has a good flame retardant effect, so that the generation of an internal fire source is prevented.

The working principle is as follows: when the device is used, the device is connected through a corresponding port, signals are transmitted under the action of the phase conductor sleeve 7, and if the device is wound or bent;

firstly, the reinforcing rib 201 has good toughness, the reinforcing rib 201 is connected with the inner wall of the protective layer 10 through the supporting rod 204 and is connected with the connecting rod 203 and the phase conductor sleeve 7 through the fixing block 202, so that the toughness of the device can be effectively enhanced in bending;

secondly, when the device is bent, the reinforcing rib 201 is bent, but in comparison, the bending degree of the phase conductor sleeve 7 is reduced, and the phase conductor sleeve 7 is protected to a certain extent;

then the device is used in a severe environment or when other signal sources are available;

firstly, the protective sleeve 1 has better protective characteristics, and the anti-wrinkle layer 401 also has an anti-wrinkle effect, so that the influence of deformation of the device is not too great;

secondly, as the waterproof layer 402 has a certain waterproof effect, the device has heavy rain in the open air or is corroded by water in the ground, and the using effect of the device cannot be influenced;

thirdly, the anti-interference layer 403 has the effect of resisting signal interference, so that the device can normally work even if strong signal interference exists outside, and the flame-retardant layer 404 has a good flame-retardant effect, so that an internal fire source is prevented;

under the condition of long-time work of the device, the temperature inside the phase conductor sleeve 7 can be increased, and under the temperature increase of the phase conductor sleeve 7 per se;

firstly, absorbing and transferring heat generated by a phase line sleeve 7 through a heat conducting block 8;

second step, heat conduction piece 8 transfers the heat of the production of phase line sleeve pipe 7 to radiating fin 6 and gives off in the inside of cavity 9, and the inner wall of protective layer 10 has better thermal-insulated effect, can prevent that the heat from returning to phase line sleeve pipe 7 from the inside of cavity 9, and the outside of protective layer 10 has better heat conduction effect, can accelerate thermal giving off.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an ultrahigh signal communication transmission band with sheath, includes protective sheath (1) and phase line sleeve (7), its characterized in that: the heat dissipation structure also comprises a connecting structure (2) capable of increasing toughness, a protection structure (4) capable of playing a protection role and a heat dissipation structure convenient for heat dissipation;

a protective layer (10) is arranged inside the protective sleeve (1), and the protective structure (4) is arranged on the outer side of the protective layer (10);

four phase line bushings (7) are arranged inside the protective sleeve (1), a plurality of electric wires (5) are arranged inside the phase line bushings (7), and the connecting structure (2) is arranged in the central position inside the protective sleeve (1);

a cavity (9) is arranged in the protective layer (10), and the heat dissipation structure is arranged in the cavity (9);

the heat dissipation structure further comprises a fixed fixture block (11), the fixed fixture block (11) is arranged at one end, close to the phase line sleeve (7), of the cavity (9), the one end of the fixed fixture block (11) is provided with four heat conduction blocks (8), heat dissipation fins (6) are installed at one ends of the heat conduction blocks (8), the other ends of the heat conduction blocks (8) penetrate through one ends of the fixed fixture block (11) and extend to the inside of the protective layer (10), and four fixing rods (3) are arranged at equal angles in the cavity (9).

2. The ultra-high signal communication transmission belt with a sheath according to claim 1, wherein: one end of the interior of the cavity (9), which is close to the phase conductor bushing (7), is provided with four fixed fixture blocks (11) at equal angles, and the phase conductor bushing (7) is located inside the protective layer (10).

3. The ultra-high signal communication transmission belt with a sheath according to claim 1, wherein: connection structure (2) include strengthening rib (201), fixed block (202), connecting rod (203), bracing piece (204) and connecting block (205), strengthening rib (201) set up in the inside intermediate position department of protective sheath (1), and fixed block (202) are installed in the outside of strengthening rib (201), fixed block (202) intermediate position department all around installs connecting block (205), and connecting rod (203) are all installed to the one end of connecting block (205), four bracing pieces (204) are installed in the outside of strengthening rib (201), and the one end of bracing piece (204) is connected with protective layer (10) inside.

4. The ultra-high signal communication transmission belt with a sheath according to claim 3, wherein: one end of the connecting rod (203) is connected with the outer side of the phase line bushing (7), and the phase line bushing (7) is symmetrical about the center point of the reinforcing rib (201).

5. The ultra-high signal communication transmission belt with a sheath according to claim 1, wherein: protection architecture (4) are including anti-wrinkle layer (401), waterproof layer (402), anti-interference layer (403) and fire-retardant layer (404), install in the inside of protective sheath (1) anti-wrinkle layer (401), and the internally mounted of anti-wrinkle layer (401) has waterproof layer (402), the internally mounted of waterproof layer (402) has anti-interference layer (403), and the internally mounted of anti-interference layer (403) has fire-retardant layer (404).

6. The ultra-high signal communication transmission belt with a sheath according to claim 5, wherein: the outer side of the protective layer (10) is attached to the inner wall of the flame-retardant layer (404), and the outer side of the anti-wrinkle layer (401) is attached to the inner wall of the protective sleeve (1).

7. The ultra-high signal communication transmission belt with a sheath according to claim 1, wherein: the inner wall of the protective layer (10) is made of heat insulation materials, and the outer side of the protective layer (10) is made of materials with good heat conduction performance.

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