CN103754352B - Large working pulling force active trip - Google Patents

Abstract

The present invention is large, and working pulling force active trip comprises load joint, adaptor union, separating joint, load joint be connected with separating joint one end outer wall on be arranged with a pair first ears, each first ear is provided with at least one first through hole, adaptor union be connected with separating joint one end outer wall on be arranged with a pair second ears, each second ear is provided with at least one second through hole, separating joint both ends open, opening part is respectively equipped with first, two baffle rings, the endoporus of the first baffle ring has radially outward outstanding first notch corresponding with the first ear, the endoporus of the second baffle ring has radially outward outstanding second notch corresponding with the second ear, first baffle ring is arranged with at least one pair of third through-hole, load joint is corresponding with third through-hole through rotatable first through hole that makes after the first baffle ring, second baffle ring is arranged with at least one pair of fourth hole, adaptor union is corresponding with fourth hole through rotatable second through hole that makes after the second baffle ring.

Description

Large working pulling force active trip

Technical field

The present invention relates to the load assembly of large working pulling force in tether cable system, particularly relate to a kind of mechanism that can realize this load assembly quick separating.

Background technology

Tether cable load assembly is the important component part of mooring floating system, mainly comprise the adaptor union connecting wayside equipment or the hawser of website, the load joint of connection cable and be connected with aerostatics, be applied in mooring floating system, require that tether cable load assembly can bear the working pulling force of 30 tons, require realize quick separating at so large working pulling force lower connector and load joint simultaneously.

In prior art, 30 tons of working pulling forces can be born and can mechanism's kind of quick separating many, as the connector mechanism etc. that the locomotives such as train two save coupler mechanism between compartment, excavating machine switches for various functional device, all can realize quick separating under 30 tons and above working pulling force, but it is too heavy that shortcoming is their weight, and in mooring aerostatics, requiring tether cable load lightweight packages, this just makes above structure all can not be suitable for the quick separating of adaptor union and load joint in tether cable load assembly.

Traditional tether cable load assembly as shown in Figure 1, by sleeve 1 ', load joint 2 ' and adaptor union 3 ' are connected into integral structure, its shortcoming is that integral structure is once after assembling, realize separation all parts all to be removed, work capacity is large, for a long time consuming time, the requirement of quick separating cannot be met, and this tether cable component system volume is large, quality is large, and mooring aerostatics is more responsive for the weight control of tether cable component system, the overweight safety reducing whole system.

Summary of the invention

The technical problem to be solved in the present invention is to provide a kind of large working pulling force active trip, and its structure is simple, cost is low, lightweight, connect, be separated fast and convenient.

The large working pulling force active trip of the present invention, comprise load joint, adaptor union, connect the separating joint of load joint and adaptor union, described load joint be connected with separating joint one end outer wall on be arranged with a pair first ears, each described first ear is provided with at least one first through hole, described adaptor union be connected with separating joint one end outer wall on be arranged with a pair second ears, each described second ear is provided with at least one second through hole, described separating joint both ends open, described opening part is respectively equipped with first, second baffle ring, the endoporus of described first baffle ring is suitable for the load joint one end that is connected with separating joint and enters, and there is radially outward outstanding first notch corresponding with the first ear, the endoporus of described second baffle ring is suitable for the adaptor union one end that is connected with separating joint and enters, and there is radially outward outstanding second notch corresponding with the second ear, described first baffle ring is arranged with at least one pair of third through-hole, described load joint is corresponding with third through-hole through rotatable first through hole that makes after the first baffle ring, described second baffle ring is arranged with at least one pair of fourth hole, described adaptor union is corresponding with fourth hole through rotatable second through hole that makes after the second baffle ring.

The large working pulling force active trip of the present invention, be provided with baffle plate in wherein said separating joint and separating joint is divided into first, second two parts, the axial length of the Part I be wherein connected with load joint is greater than the axial length of the Part II be connected with adaptor union, third gear ring is also provided with in Part I, described third gear ring, between the first baffle ring and baffle plate, the wall of described Part I between third gear ring and baffle plate is provided with fifth hole.

The large working pulling force active trip of the present invention, wherein each described first ear is provided with two the first through holes, each described second ear is provided with two the second through holes, described first baffle ring is arranged with two pairs of third through-holes, described second baffle ring is arranged with two pairs of fourth holes.

The large working pulling force active trip of the present invention, what wherein said third through-hole was arranged on the first baffle ring is positioned at two the first notch positions in the middle, and what described fourth hole was arranged on the second baffle ring is positioned at two the second notch positions in the middle.

The large working pulling force active trip of the present invention, wherein said separating joint adopts 30 chromium manganese silicon materials to make.

The present invention's large working pulling force active trip difference from prior art is that the large working pulling force active trip of the present invention arranges load joint, adaptor union is each passed through first, second baffle ring enters in separating joint, rotate load joint, adaptor union makes first, in two ears first, two through holes are respectively with first, on second baffle ring the 3rd, fourth hole aligns, then coordinate pin to insert through hole to realize being connected and fixed, realize aerostatics when being separated with tether cable component system, only need take out the pin inserted in adaptor union and the second baffle ring, then rotary connector to the second ear corresponds to the second notch place, adaptor union can be taken out from separating joint, the aerostatics be connected with adaptor union is separated with tether cable component system, the present invention's large working pulling force active trip structure is simple, cost is low, lightweight, connect, be separated fast and convenient.

Below in conjunction with accompanying drawing, large working pulling force active trip of the present invention is described further.

Accompanying drawing explanation

Fig. 1 is tether cable load assembly assumption diagram in prior art;

Fig. 2 is the present invention's large working pulling force active trip three-dimensional exploded view;

Fig. 3 is the three-dimensional exploded view of separating joint and another angle of adaptor union in the large working pulling force active trip of the present invention;

Fig. 4 is the using state figure of the large working pulling force active trip of the present invention.

Detailed description of the invention

The large working pulling force active trip of present embodiment as shown in Figure 2,3, comprises the separating joint 3 of load joint 1, adaptor union 2, connection load joint and adaptor union.

Load joint 1, one end is connected with hawser, and the other end can be included in separating joint 3 and be connected with separating joint, its outer wall is arranged with a pair first ear 1a, and each first ear 1a is provided with two the first through hole 1b.

Connector 2, one end is connected with aerostatics, and the other end can be included in separating joint 3 and be connected with separating joint, its outer wall is arranged with a pair second ear 2a, and each second ear 2a is provided with two the second through hole 2b.

Separating joint 3, 30 chromium manganese silicon materials are adopted to make, it can meet 30 tons of large working pulling force requirement of strength, and it is lightweight, both ends open, opening part is respectively equipped with first, second baffle ring 4, 5, the endoporus of the first baffle ring 4 is suitable for load joint 1 one end that is connected with separating joint and enters, and there is the radially outward outstanding first notch 4a corresponding with the first ear 1a, the endoporus of the second baffle ring 5 is suitable for adaptor union 2 one end that is connected with separating joint and enters, and there is the radially outward outstanding second notch 5a corresponding with the second ear 2a, first baffle ring 4 is arranged with two couples of third through-hole 4b, what the two couples of third through-hole 4b were separately positioned on the first baffle ring is positioned at two the first notch 4a positions in the middle, second baffle ring 5 is arranged with two couples of fourth hole 5b, what the two couples of fourth hole 5b were separately positioned on the second baffle ring is positioned at two the second notch 5a positions in the middle, the inside of separating joint 3 is provided with baffle plate 6 and separating joint is divided into first, second two parts 3a, 3b, the axial length of the Part I 3a be wherein connected with load joint 1 is greater than the axial length of the Part II 3b be connected with adaptor union 2, third gear ring 7 is provided with in Part I 3a, between the first baffle ring 4 and baffle plate 6, load joint 1 enters the first baffle ring 4 and is placed between the first baffle ring 4 and third gear ring 7, space between third gear ring 7 and baffle plate 6 is for holding cable, and fifth hole 3c is set on the wall of Part I 3a between third gear ring 7 and baffle plate 6, draw for cable.

During use, by load joint 1 through the first baffle ring endoporus on separating joint Part I 3a, specifically that the first ear 1a is corresponding with the first notch 4a, make load joint 1 through the first baffle ring 4 endoporus, enter between the first baffle ring 4 and third gear ring 7, rotate load joint 1, the first ear 1a is placed in the first baffle ring 4 until the first through hole 1b in the first ear is corresponding with the third through-hole 4b on the first baffle ring, insert pin, together with being affixed to separating joint 3 by load joint 1; Same, by adaptor union 2 through the second baffle ring endoporus on separating joint Part II 3b, same that second ear 2a is corresponding with the second notch 5a, make adaptor union 2 through the second baffle ring 5 endoporus, enter between the second baffle ring 5 and baffle plate 6, rotary connector 2, second ear 2a is placed in the second baffle ring 5 until the second through hole 2b in the second ear is corresponding with the fourth hole 5b on the second baffle ring, insert pin, together with being affixed to separating joint 3 by adaptor union 2, as shown in Figure 4.

When aerostatics needs to be separated with tether cable component system, take out the pin inserted in adaptor union second ear 2a and the second baffle ring 5, rotary connector 2, the second ear 2a is made to correspond to the second notch 5a place, adaptor union 2 is taken out from the second baffle ring 5 endoporus, adaptor union 2 is separated with separating joint 3, and then aerostatics is separated with tether cable component system.

Present embodiment arranges third through-hole and is positioned at the first baffle ring two the first notch positions in the middle, with two the first notch lines substantially in vertical state, fourth hole is positioned at the second baffle ring two the second notch positions in the middle, with two the second notch lines substantially in vertical state, this position is the maximum position of load intensity, but be not limited in this position in actual applications, as long as stagger with first, second notch, can stop that load joint, adaptor union are deviate from from first, second baffle ring; First, second through hole is set and is respectively two, three, fourth hole correspondence is respectively two right, consider its distribution space and ensure more stable connection effect, singly be not limited in quantity like this to arrange, first, second through hole also can be set and be one or other quantity, and arrange the 3rd accordingly, the quantity of fourth hole.

Above-described embodiment is only be described the preferred embodiment of the present invention; not scope of the present invention is limited; under not departing from the present invention and designing the prerequisite of spirit; the various distortion that those of ordinary skill in the art make technical scheme of the present invention and improvement, all should fall in protection domain that claims of the present invention determines.

Claims (4)

1. a large working pulling force active trip, it is characterized in that: comprise load joint (1), adaptor union (2), connect the separating joint (3) of load joint and adaptor union, described load joint (1) be connected with separating joint one end outer wall on be arranged with a pair first ears (1a), each described first ear (1a) is provided with at least one first through hole (1b), described adaptor union (2) be connected with separating joint one end outer wall on be arranged with a pair second ears (2a), each described second ear (2a) is provided with at least one second through hole (2b), described separating joint (3) both ends open, described opening part is respectively equipped with first, second baffle ring (4, 5), the endoporus of described first baffle ring (4) is suitable for load joint (1) one end that is connected with separating joint and enters, and there is radially outward outstanding first notch (4a) corresponding with the first ear (1a), the endoporus of described second baffle ring (5) is suitable for adaptor union (2) one end that is connected with separating joint and enters, and there is radially outward outstanding second notch (5a) corresponding with the second ear (2a), described first baffle ring (4) is arranged with at least one pair of third through-hole (4b), rotatable the first through hole (1b) that makes is corresponding with third through-hole (4b) afterwards through the first baffle ring (4) for described load joint (1), described second baffle ring (5) is arranged with at least one pair of fourth hole (5b), rotatable the second through hole (2b) that makes is corresponding with fourth hole (5b) afterwards through the second baffle ring (5) for described adaptor union (2), be provided with baffle plate (6) in described separating joint (3) and separating joint is divided into first, second two parts (3a, 3b), the axial length of the Part I (3a) be wherein connected with load joint (1) is greater than the axial length of the Part II (3b) be connected with adaptor union (2), third gear ring (7) is also provided with in Part I (3a), described third gear ring (7) is positioned between the first baffle ring (4) and baffle plate (6), described Part I (3a) wall be positioned between third gear ring (7) and baffle plate (6) is provided with fifth hole (3c).

2. large working pulling force active trip according to claim 1, it is characterized in that: each described first ear (1a) is provided with two the first through holes (1b), each described second ear (2a) is provided with two the second through holes (2b), described first baffle ring (4) is arranged with two pairs of third through-holes (4b), described second baffle ring (5) is arranged with two pairs of fourth holes (5b).

3. large working pulling force active trip according to claim 2, it is characterized in that: what described third through-hole (4b) was arranged on the first baffle ring is positioned at two the first notch (4a) positions in the middle, what described fourth hole (5b) was arranged on the second baffle ring is positioned at two the second notch (5a) positions in the middle.

4. large working pulling force active trip according to claim 3, is characterized in that: described separating joint adopts 30 chromium manganese silicon materials to make.