CN209626546U - A kind of shield type tee bus connector silicon rubber protective sleeve - Google Patents

Abstract

The utility model discloses a kind of shield type tee bus connector silicon rubber protective sleeves; including bus tie; the outer surface of the bus tie is provided with silicon rubber protective sleeve ontology; the outer surface of the silicon rubber protective sleeve ontology is enclosed with corrosion-resistant coating; the corrosion-resistant coating includes silicon dioxide layer, graphite linings and polyvinyl chloride layer; the inner cavity of the silicon dioxide layer is enclosed with graphite linings; the outer surface of the corrosion-resistant coating is enclosed with external protection, and the inner cavity of the silicon rubber protective sleeve ontology is enclosed with PVC inner sheath.The mutual cooperation that the utility model passes through setting bus tie, silicon rubber protective sleeve ontology, corrosion-resistant coating, external protection and PVC inner sheath; the good advantage of anticorrosion effect is reached; solve the problems, such as that existing shield type tee bus connector silicon rubber protective sleeve anticorrosion effect is poor; it is convenient for people to use, improves the practicability of shield type tee bus connector silicon rubber protective sleeve.

Description

A kind of shield type tee bus connector silicon rubber protective sleeve

Technical field

The utility model relates to bus tie technical field, specially a kind of shield type tee bus connector is with silicon rubber Glue protective case.

Background technique

The electrical equipments such as the connection of voltage power distribution equipment at different levels and transformer and corresponding power distribution equipment in electric substation Connection, mostly using rectangle or the bare conductor or twisted wire of circular cross-section, this is referred to as bus, currently, can select in real work Bus tie realizes the connection between two electrical equipments, and the respective electric power transmission line of two equipment is inserted into bus tie In, by the conductive core inside bus tie by the electric connectivity of equipment, bus tie generally uses metal enclosed Shell is not damaged with conductive core in protective shell by external mechanical, and also therefore usually shell wants integral ground or shell is arranged Earthing or grounding means, guarantees the external safety of bus tie, and current existing shield type tee bus connector is protected with silicon rubber Sheath, anticorrosion effect are poor, it has not been convenient to which the use of people reduces shield type tee bus connector silicon rubber protective sleeve Practicability.

Utility model content

The purpose of this utility model is to provide a kind of shield type tee bus connector silicon rubber protective sleeves, have resistance to The good advantage of corrosive effect solves existing shield type tee bus connector silicon rubber protective sleeve anticorrosion effect difference Problem.

To achieve the above object, the utility model provides the following technical solutions: a kind of shield type tee bus connector use Silicon rubber protective sleeve, including bus tie, the outer surface of the bus tie is provided with silicon rubber protective sleeve ontology, described The outer surface of silicon rubber protective sleeve ontology is enclosed with corrosion-resistant coating, and the outer surface of the corrosion-resistant coating is enclosed with external protection, institute The inner cavity for stating silicon rubber protective sleeve ontology is enclosed with PVC inner sheath.

Preferably, the corrosion-resistant coating includes silicon dioxide layer, graphite linings and polyvinyl chloride layer, the silicon dioxide layer Inner cavity is enclosed with graphite linings, and the graphite linings are enclosed with polyvinyl chloride layer far from the side of silicon dioxide layer.

Preferably, the external protection includes nonwoven layer, XLPE insulating layer, waterproof layer and zinc-coated wire armor, institute The inner cavity for stating nonwoven layer is enclosed with XLPE insulating layer, and the XLPE insulating layer is enclosed with waterproof far from the side of nonwoven layer Layer, the waterproof layer are enclosed with zinc-coated wire armor far from the side of XLPE insulating layer.

Preferably, the PVC inner sheath includes conductor shield and electro-magnetic screen layer, the inner cavity packet of the conductor shield It is wrapped with electro-magnetic screen layer.

Preferably, the surface bonding of the inner cavity of the corrosion-resistant coating and silicon dioxide layer connects, the silicon dioxide layer The connection of the surface bonding of inner cavity and graphite linings, the inner cavity of the graphite linings and the surface bonding of polyvinyl chloride layer connect.

Compared with prior art, the beneficial effects of the utility model are as follows:

1, the utility model by setting bus tie, silicon rubber protective sleeve ontology, corrosion-resistant coating, external protection and The mutual cooperation of PVC inner sheath has reached the good advantage of anticorrosion effect, solves existing shield type tee bus connector It with the problem of silicon rubber protective sleeve anticorrosion effect difference, is convenient for people to use, improves shield type tee bus connector With the practicability of silicon rubber protective sleeve.

2, the utility model by setting waterproof layer, play the role of isolation to water, avoid the inner cavity of bus tie into Water causes damages to core, by setting electro-magnetic screen layer and conductor shield, bus tie is made in use can Extraneous power supply and electromagnetism are effectively avoided, the core use inside bus tie is impacted, by the way that graphite linings are arranged, is increased The high temperature resistant of silicon rubber protective sleeve ontology, resistance to oxidation, anticorrosive and thermal shock resistance.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the utility model silicon rubber protective sleeve body construction cross-sectional view；

Fig. 3 is the utility model corrosion-resistant coating structure sectional view；

Fig. 4 is the utility model external protection structure sectional view；

Fig. 5 is the utility model PVC inner sheath structure sectional view.

In figure: 1 bus tie, 2 silicon rubber protective sleeve ontologies, 3 corrosion-resistant coatings, 301 silicon dioxide layers, 302 graphite linings, 303 polyvinyl chloride layers, 4 external protections, 401 nonwoven layers, 402 XLPE insulating layers, 403 waterproof layers, 404 zinc-coated wire armourings Layer, 5 PVC inner sheaths, 501 conductor shields, 502 electro-magnetic screen layers.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-5, a kind of shield type tee bus connector silicon rubber protective sleeve, including bus tie 1 are please referred to, it is female The outer surface of wiring connector 1 is provided with silicon rubber protective sleeve ontology 2, and the outer surface of silicon rubber protective sleeve ontology 2 is enclosed with anti-corrosion Layer 3 is lost, corrosion-resistant coating 3 includes silicon dioxide layer 301, graphite linings 302 and polyvinyl chloride layer 303, the inner cavity of silicon dioxide layer 301 Graphite linings 302 are enclosed with, by the way that graphite linings 302 are arranged, increase the high temperature resistant, resistance to oxidation, anti-corruption of silicon rubber protective sleeve ontology 2 Erosion and thermal shock resistance, graphite linings 302 are enclosed with polyvinyl chloride layer 303, corrosion-resistant coating 3 far from the side of silicon dioxide layer 301 Inner cavity connect with the surface bonding of silicon dioxide layer 301, the surface bonding of the inner cavity of silicon dioxide layer 301 and graphite linings 302 Connection, the inner cavity of graphite linings 302 are connect with the surface bonding of polyvinyl chloride layer 303, and the outer surface of corrosion-resistant coating 3 is enclosed with outer guarantor Sheath 4, external protection 4 include nonwoven layer 401, XLPE insulating layer 402, waterproof layer 403 and zinc-coated wire armor 404, nothing The inner cavity of woven fabric layer 401 is enclosed with XLPE insulating layer 402, and XLPE insulating layer 402 is enclosed with anti-far from the side of nonwoven layer 401 Water layer 403 plays the role of isolation to water, the inner cavity of bus tie 1 is avoided to intake to core by the way that waterproof layer 403 is arranged It causes damages, waterproof layer 403 is enclosed with zinc-coated wire armor 404, silicon rubber protective sleeve far from the side of XLPE insulating layer 402 The inner cavity of ontology 2 is enclosed with PVC inner sheath 5, and PVC inner sheath 5 includes conductor shield 501 and electro-magnetic screen layer 502, conductor screen The inner cavity for covering layer 501 is enclosed with electro-magnetic screen layer 502, by setting electro-magnetic screen layer 502 and conductor shield 501, makes bus Connector 1 can effectively avoid extraneous power supply and electromagnetism in use, cause to the core use inside bus tie 1 It influences, passes through setting bus tie 1, silicon rubber protective sleeve ontology 2, corrosion-resistant coating 3, external protection 4 and PVC inner sheath 5 It cooperates, has reached the good advantage of anticorrosion effect, solved existing shield type tee bus connector and protected with silicon rubber The problem of sheath anticorrosion effect difference, is convenient for people to use, and improves shield type tee bus connector and is protected with silicon rubber The practicability of sheath.

In use, being connected by the mutual cooperation of setting XLPE insulating layer 402 and zinc-coated wire armor 404 to bus Device 1 plays the role of protection, by the way that waterproof layer 403 is arranged, plays the role of isolation to water, avoids the interior of bus tie 1 Chamber water inlet causes damages to core, by setting electro-magnetic screen layer 502 and conductor shield 501, is using bus tie 1 Extraneous power supply and electromagnetism can be effectively avoided in the process, and the core use inside bus tie 1 is impacted, setting is passed through Graphite linings 302 increase the high temperature resistant, resistance to oxidation, anticorrosive and thermal shock resistance of silicon rubber protective sleeve ontology 2, pass through setting Silicon dioxide layer 301 and polyvinyl chloride layer 303 reinforce the corrosion resistance of silicon rubber protective sleeve ontology 2, to silicon rubber protective sleeve Ontology 2 is protected, and improves 2 corrosion resistance of silicon rubber protective sleeve ontology, to reach the good advantage of anticorrosion effect.

The standardized element used in this specification arrived can commercially, all portions in present specification Part can carry out customized, connection relationship in present specification between each layer and specific according to the record of the description and the appended drawings Structure is all made of the prior art, such as by mechanical means, by adhesive, by such as thermal weld of various welding methods, surpass Sonic soldering connects, specific narration is no longer made in flux, welding and mechanical welding herein.

In summary: the shield type tee bus connector silicon rubber protective sleeve, by the way that bus tie 1, silicon is arranged The mutual cooperation of rubber protecting jacket ontology 2, corrosion-resistant coating 3, external protection 4 and PVC inner sheath 5 solves existing shield type The problem of tee bus connector silicon rubber protective sleeve anticorrosion effect difference.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or equipment for including a series of elements not only includes those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or equipment institute it is intrinsic Element.

Specific case used herein is expounded the principles of the present invention and embodiment, above example Illustrate the method and its core concept for being merely used to help understand the utility model.The above is only the preferred implementations of the utility model Mode, it is noted that due to the finiteness of literal expression, and objectively there is unlimited specific structure, for the art Those of ordinary skill for, without departing from the principle of this utility model, can also make it is several improve, retouching or become Change, above-mentioned technical characteristic can also be combined in the right way；These improve retouching, variation or combination, or without changing Other occasions are directly applied to by the conception and technical scheme of utility model, are regarded as the protection model of the utility model It encloses.

Claims (5)

1. a kind of shield type tee bus connector silicon rubber protective sleeve, including bus tie (1), it is characterised in that: institute The outer surface for stating bus tie (1) is provided with silicon rubber protective sleeve ontology (2), outside the silicon rubber protective sleeve ontology (2) It is coated with corrosion-resistant coating (3), the outer surface of the corrosion-resistant coating (3) is enclosed with external protection (4), the silicon rubber protection The inner cavity of set ontology (2) is enclosed with PVC inner sheath (5).

2. a kind of shield type tee bus connector silicon rubber protective sleeve according to claim 1, it is characterised in that: institute Stating corrosion-resistant coating (3) includes silicon dioxide layer (301), graphite linings (302) and polyvinyl chloride layer (303), the silicon dioxide layer (301) inner cavity is enclosed with graphite linings (302), and the graphite linings (302) are enclosed with poly- far from the side of silicon dioxide layer (301) Pvdc layer (303).

3. a kind of shield type tee bus connector silicon rubber protective sleeve according to claim 1, it is characterised in that: institute Stating external protection (4) includes nonwoven layer (401), XLPE insulating layer (402), waterproof layer (403) and zinc-coated wire armor (404), the inner cavity of the nonwoven layer (401) is enclosed with XLPE insulating layer (402), and the XLPE insulating layer (402) is far from nothing The side of woven fabric layer (401) is enclosed with waterproof layer (403), and the waterproof layer (403) is wrapped far from the side of XLPE insulating layer (402) It is wrapped with zinc-coated wire armor (404).

4. a kind of shield type tee bus connector silicon rubber protective sleeve according to claim 1, it is characterised in that: institute Stating PVC inner sheath (5) includes conductor shield (501) and electro-magnetic screen layer (502), the inner cavity of the conductor shield (501) It is enclosed with electro-magnetic screen layer (502).

5. a kind of shield type tee bus connector silicon rubber protective sleeve according to claim 1, it is characterised in that: institute The inner cavity for stating corrosion-resistant coating (3) is connect with the surface bonding of silicon dioxide layer (301), the inner cavity of the silicon dioxide layer (301) It is connect with the surface bonding of graphite linings (302), the inner cavity of the graphite linings (302) and the surface bonding of polyvinyl chloride layer (303) Connection.