CN201525300U - Reverse positioning integral type bracket of electrified railway contact system - Google Patents

Abstract

The utility model discloses a reverse positioning integral type bracket of an electrified railway contact system, comprising a horizontal bracket; one end of the horizontal bracket is roasted and bent into an arc shape, the top end of the arc shape is welded with two U-shaped lugs, the lower surface of the end of the horizontal bracket is fixedly connected with a double-hole connecting plate, and the upper surface of the end of the horizontal bracket is fixedly connected with a catenary seat; the double-hole connecting plate is connected with one end of an inclined bracket; the inclined bracket and the horizontal bracket are arranged in the same direction to form an included angle; the inclined bracket is fixedly connected with a hinge-type positioning ring which is connected with one end of a horizontal positioning pipe; the other end of the horizontal positioning pipe is connected with the horizontal bracket; and the horizontal positioning pipe is fixedly connected with a positioner support which is fixedly connected with one end of an elastic limiting positioner, and the other end of the elastic limiting positioner is fixedly connected with a positioning line clamp. The reverse positioning integral type bracket is used for reverse positioning positions of the electrified railway contact system so as to fix and support contact lines and catenaries, stabilize the contact system and prevent the off-line accident from occurring.

Description

The reversely-positioning integral cantilever of electrification railway contact net

Technical field

The utility model belongs to the electrification railway contact net technical field, relates to a kind of bracket registration device, is specifically related to a kind of reversely-positioning integral cantilever of electrification railway contact net.

Background technology

Contact wire in the electrifing railway contacting net system cantilever structure and catenary produce sagging under the effect of deadweight, causing the pantograph contact steadily not influence is flowed, thereby employing bracket registration device supports contact wire and catenary makes it be in horizontality, guarantees that locomotive is flowed.The bracket registration device is divided into just locatees bracket device and push off mode bracket device, and wherein push off mode bracket device is used at contact suspensions such as push off mode place support catenary and contact wires, and plays the transfer charge effect.

At present, the bracket registration device that uses in each bar electrifing railway contacting net system cantilever structure of China is split type, connects by bushing double eye between horizontal bracket and the oblique wrist and arm.Horizontal location Guan Weizhi type, the one end hangs on the anchor ear type steady ring on the oblique wrist and arm by crotch, and the other end is connected with oblique wrist and arm by the registration arm support part.In the big area of dust storm, also need on the horizontal location pipe, line hanging hook be installed, be connected to by windproof backguy on the monaural ring of the Messenger Wire base lower end on the horizontal bracket.On the horizontal location pipe, by Long locating ring or positioning support fixedly steel location organ pipe (G1, G2 type) and aluminum alloy location organ pipe (L type) are installed.This split type bracket position fixing system, constructional delails is more, install and inconvenience, exchange poor performance, and structural stability is low, influences the balance of contact suspensions such as contact wire and catenary, is only applicable to the following electrified railway of 250km/h, can not adapt to the requirement of railway speed raising, especially can not adapt to the driving requirement of high speed passenger dedicated railway motor train unit.

Summary of the invention

The purpose of this utility model provides a kind of reversely-positioning integral cantilever device of electrification railway contact net, be one-piece construction, Stability Analysis of Structures, having solved existing bracket registration device influences the problem of contact suspension balances such as contact wire and catenary, adapt to the requirement of China railways speed raising, satisfy the driving requirement of high speed passenger dedicated railway motor train unit.

The technical scheme that the utility model adopted is, the reversely-positioning integral cantilever of electrification railway contact net, comprise horizontal bracket, one end Wei of horizontal bracket is curved to be arc, the termination of arc is welded with U type ears, horizontal bracket is connected with an end of horizontal location pipe by U type ears, the cantilever end of horizontal bracket is processed with a plurality of bolt hole A side by side, captive joint with Messenger Wire base with bolt assembly by bolt hole A, be provided with bolt hole C near other end place on the horizontal bracket, this bolt hole C is connected with strut insulator by bolt assembly, the bottom of horizontal bracket is welded with the diplopore connecting panel, the diplopore connecting panel is provided with circular bolt holes B and waist shape bolt hole, the line of centers of this waist through hole is that the center of circle with lower left circular bolt holes B is the camber line at center, the diplopore connecting panel fixes by an end of circular bolt holes B and waist shape bolt hole and bolt assembly and oblique wrist and arm, the free end of oblique wrist and arm and the equidirectional setting of the free end of horizontal bracket, shape in an angle between oblique wrist and arm and the horizontal bracket, the circular bolt holes B center that oblique wrist and arm can be provided with around diplopore connecting panel lower left rotates up and down, the free end of oblique wrist and arm is provided with circular bolt holes E, this manhole is connected with strut insulator by bolt assembly, be connected with the hinge-type steady ring at oblique wrist and arm near on the end of diplopore connecting panel, this hinge-type steady ring is connected with an end of horizontal location pipe, the horizontal location pipe is the bending structure, angle of bend is near 90 °, level attitude at the horizontal location pipe is connected with the steady arm bearing, one end of steady arm bearing and the spacing steady arm of elasticity is affixed, and the other end of the spacing steady arm of elasticity is by steady ear clamping contact wire.

Characteristics of the present utility model also are,

U type ears are wherein formed by oval end plate and U type ears connecting panel assembly welding, a pair of connecting panel on the U type ears is symmetrical arranged with respect to the axis of the cylindrical channel of horizontal bracket, and integrant U type ears, U type ears are positioned at horizontal bracket fwd one side and have square through-hole, the opposite side of U type ears has manhole, the square through-hole of U type ears and the coaxial setting of manhole.

The fixed end place of oblique wrist and arm wherein is provided with ears, have bolt hole D on the ears, achieve a fixed connection by the diplopore connecting panel on ears and bolt hole D and the horizontal bracket, the close free end of oblique wrist and arm is provided with circular bolt holes E, and this bolt hole E is connected with strut insulator by bolt assembly.

Messenger Wire base comprises downward opening C shape connecting panel, the two side of C shape connecting panel is processed with at least two bolt hole F respectively, the bolt hole F of C shape connecting panel two side is for corresponding one by one, at least be provided with two cover bolt assembly D in the bolt hole F of C shape connecting panel two side, C shape connecting panel top outer is welded with downward opening U-shaped plate A, form the Messenger Wire base body, be provided with opening U-shaped plate B up above the U-shaped plate A, be provided with flat gasket A between U-shaped plate A and the U-shaped plate B, U-shaped plate A, flat gasket A is connected by bolt assembly C with U-shaped plate B, the welded top of U-shaped plate B has wire clamp A, form the catenary carriage of catenary clamping device, wire clamp A end face is provided with arc-shaped recess, be connected with lining A in this arc-shaped recess, wire clamp A is connected with wire clamp B by the two bolt assembly B that are arranged side by side, the bottom surface of wire clamp B is provided with arc groove, this arc groove and arc-shaped recess are oppositely arranged, formation is in order to the cylindrical hole of clamping catenary, the axis normal of this cylindrical hole is in the axis of C shape connecting panel, be connected with lining B in the arc groove of wire clamp B, be provided with catenary between lining A and the lining B.

The bottom surface of wire clamp B is provided with arc groove, is connected with lining B in this arc groove, and the end face of wire clamp A is provided with arc-shaped recess, is connected with lining A in this arc-shaped recess.

The hinge-type steady ring comprises anchor ear I, the side of anchor ear I is connected by bearing pin A with the side of anchor ear II, bearing pin A two ends form umbrella-shaped structure by revolving anchor, prevent that anchor ear I and anchor ear II from coming off, thereby form the hinge-type structure, anchor ear I and anchor ear II have the semicircular structure part, the semicircular structure of anchor ear I and anchor ear II partly is oppositely arranged, form a cylindrical channel, the free end of anchor ear I has been arranged side by side two square through holes, the free end of anchor ear II has been arranged side by side two manholes, two manholes on two square through holes on the anchor ear I and the anchor ear II are for corresponding one by one, its center is respectively on same axis, the outside top of anchor ear I semicircular structure part is welded with ears type connecting panel, a pair of connecting panel on the ears type connecting panel is symmetrical arranged with respect to the axis of the cylindrical channel that two anchor ears form, and integrant ears type connecting panel, ears type connecting panel is positioned near the free-ended side of anchor ear I, have square through-hole, the opposite side of ears type connecting panel has manhole, the square through-hole of ears type connecting panel and the coaxial setting of manhole, the free-ended square through hole of anchor ear I is a square through-hole, anchor ear I, the structure of anchor ear II is respectively the integral body that three parts constitute, centre portion is a semicircular structure, one side of this intermediate structure part is connected with discrete two cylinders or a cylinder respectively, two cylinders are set to symmetrical structure, intermediate structure part and these two cylinders or smooth a connection of cylinder, its interface section is as a whole by being welded to connect into, the opposite side of intermediate structure part is connected with a cuboid wide with it, one side of this cuboid and semicircle smooth connection of intermediate structure part, cuboid and middle semicircular structure part bonded assembly middle part are provided with the projection of a half cone-shaped, this projection is the reinforced rib of die-forging forming, other three outer perimeter die-forging formings are the flanging with certain altitude, the effect that all has the rigidity that strengthens cuboid, have two square through-holes and two manholes on the cuboid of anchor ear I and anchor ear II respectively side by side, two manholes on two square through-holes on the anchor ear I and the anchor ear II are for corresponding one by one, and its center is respectively on same axis.

The steady arm bearing, steady arm props up the connecting panel formation of seat body by two " L " plates that be arranged in parallel and affixed this two " L " plate, steady arm props up " L " shape that seat body is a left-hand thread, angle between its upper arm and the underarm is 116 °, the free end top that steady arm props up the seat body upper arm is connected with the hinge-type anchor ear, this hinge-type anchor ear is fixed on the horizontal location pipe, the other end of steady arm bearing upper arm is processed with two holes, this two hole sets gradually along the direction of steady arm bearing upper arm, be respectively arranged with bolt assembly G and bolt assembly H in two holes, steady arm bearing underarm has through hole, be provided with bolt assembly H in this through hole, between two bolt assembly H, be provided with limiting stopper, the screw rod of bolt assembly H is connected with an end of location shackle, the other end of location shackle and an end crimping of location organ pipe, the location shackle is processed with a through hole with an end of location organ pipe crimping, be provided with bolt assembly L in this hole, between bolt assembly L and bolt assembly G, be connected with equipressure line A, be provided with vertical spring pull bar in the shackle of location, the upper end of spring pull bar is connected with bolt assembly H; The other end of location organ pipe and an end crimping of steady arm sleeve, the other end of steady arm sleeve is the vertical cylindrical shell of axis, be connected with steady ear in the cylindrical shell, steady ear is used for the clamping contact wire, and with the free end of steady arm bearing in same direction, the vertical distance on the axis of contact wire center and horizontal location pipe and the steady arm bearing between the axis of hinge-type anchor ear is 500mm.

Be welded with the hinge-type anchor ear on the steady arm bearing, comprise anchor ear A, the side of anchor ear A is connected by bearing pin B with the side of anchor ear B, bearing pin B two ends form umbrella-shaped structure by revolving anchor, prevent that anchor ear A and anchor ear B from coming off, thereby form the hinge-type structure, anchor ear A and anchor ear B have the semicircular structure part, the semicircular structure of anchor ear A and anchor ear B partly is oppositely arranged, form a cylindrical channel, the free end of anchor ear A has been arranged side by side two manholes, the free end of anchor ear B has been arranged side by side two square through holes, two square through holes on two manholes on the anchor ear A and the anchor ear B are for corresponding one by one, its center is respectively on same axis, the exterior bottom of anchor ear B semicircular structure part is welded with steady arm and props up seat body, steady arm props up " L " shape plate of a pair of left-hand thread on the seat body, the axis of the cylindrical channel that forms with respect to two anchor ears is symmetrical arranged, and integrant steady arm bearing, the free-ended square through hole of anchor ear B is a square through-hole, anchor ear A and anchor ear B are respectively the integral body that three parts constitute, centre portion is a semicircular structure, one side of this intermediate structure part is connected with a cylinder and discrete two cylinders respectively, two cylinders are set to symmetrical structure, intermediate structure part and this cylinder or two smooth connections of cylinder, its interface section is as a whole by being welded to connect into, the opposite side of intermediate structure part is connected with a cuboid wide with it, one side of this cuboid and semicircle smooth connection of intermediate structure part, cuboid and middle semicircular structure part bonded assembly middle part are provided with the projection of a half cone-shaped, this projection is the reinforced rib of die-forging forming, other three outer perimeter die-forging formings are the flanging with certain altitude, the effect that all has the rigidity that strengthens cuboid, have two manholes and two square through-holes on the cuboid respectively side by side, two square through holes on two manholes on the anchor ear A and the anchor ear B are for corresponding one by one, and its center is respectively on same axis.

The structure of the spacing steady arm of elasticity is: comprise the location organ pipe, the location organ pipe is the aluminium-alloy pipe of arc, the arc radius of steady arm tube hub axis is 800mm, one end of location organ pipe is crimped with abutment sleeve, abutment sleeve and steady ear are affixed, the steady ear clamping has contact wire, the other end of location organ pipe is crimped with the location shackle, be provided with the spring pull bar in the shackle of location, the location shackle is provided with bolt hole G, the width between centers of the contact wire of bolt hole G and steady ear clamping is 1200mm, angle between the center of bolt hole G and the line of centres of contact wire and the horizontal surface is 12 °, and the vertical distance between the center of bolt hole G and the center of contact wire is 250mm.

The spacing steady arm of elasticity is provided with location shackle and springing, the structure of location shackle and springing: comprise location shackle body, shackle body middle part, location is provided with spring perch, spring perch is inverted U-shaped, the spring perch top is processed with a through hole, be cast with a projection on the right side in this hole, be used with the limiting stopper on the steady arm bearing, being used for the spacing of steady arm raises, from top to bottom be disposed with flat gasket C in the spring perch, spring and leakage tube, leaking tube is opening U-shaped tube up, the bottom of leaking tube has a hole, the lower end of spring is stretched into Lou in the tube, also vertically be provided with the spring pull bar in the inverted U-shaped hole of location shackle body, stretch out outside the shackle body of location the upper end of spring pull bar, and be processed with an open-work, this open-work is connected with the screw rod of bolt assembly H, between this saturating sky and spring perch top, be provided with a pin, be used for the locking elastic device, the lower end of spring pull bar is passed flat gasket C successively, spring and the hole of leaking tube bottom, stretch out and leak tube, the lower end of spring pull bar is by the flat gasket B that has been threaded, lock washer with double ears and nut, flat gasket B, lock washer with double ears and nut are positioned at the outside of leaking tube, on the shackle body of location, the both sides of spring perch are processed with bolt hole G is connected the bolt assembly L of usefulness with equipressure line installation through hole respectively, the outside of the spring perch left side wall of location shackle body is connected with a pipe link, the free end of this pipe link is an integral body with an end crimping of location organ pipe, the axis of crimping rear connecting rod and the angle between the horizontal surface are 10 °

The spacing steady arm of elasticity is provided with the self-locking mechanism of abutment sleeve and steady ear composition, comprise the abutment sleeve body, vertically be provided with cylindrical shell in abutment sleeve body left side, cylindrical shell left side wall middle part is provided with an adjustment hole, the outside of cylindrical shell right side wall is connected with a bevelled pipe link, the free end of this pipe link is an integral body with an end crimping of location organ pipe, the axis of pipe link and the angle between the horizontal surface are 25 °, pipe link is provided with bolt assembly I towards the top side wall of abutment sleeve cylindrical shell one end, in the cylindrical shell of abutment sleeve body left side, be connected with steady ear, this steady ear, comprise clamping plate A, clamping plate B, the middle part of clamping plate A and clamping plate B is a semicircular structure, be respectively arranged with a through hole and a bolt hole, fastening by interior wince hook bolt, be used for the clamping contact wire, the top of clamping plate B is cylinder, radially be provided with outside thread, be connected with the negative thread of wire clamp sleeve is adaptive, be used to support steady ear, the middle part of cylindrical middle part of clamping plate B and wire clamp sleeve has a through hole and two through holes, form relation one to one, be provided with bolt assembly J in these three holes, can prevent effectively that getting loose of wire clamp sleeve from causing getting loose of steady ear, the cylindrical top of clamping plate B is provided with bolt assembly I, and two bolt assembly I are used for affixed equipressure line B, between online chuck tube bottom and the abutment sleeve body cylindrical shell top, abutment sleeve body cylindrical shell bottom and two clamping plate A, between the B, be respectively arranged with plastic washer B and plastic washer A.

The utility model reversely-positioning integral cantilever device adopts the gusseted structure, is used for the fixed pedestal of contact suspensions such as catenary and contact wire, stablizes electrification railway contact net, balance contact wire and catenary.The utility model reversely-positioning integral cantilever device has the following advantages:

1. the contact net system outward appearance is beautiful, neat, simple, arc modeling is smooth, and configuration is reasonable, environmental protection is practical;

2.200-360 kilometer/hour product is general, interchangeability is good, has reduced the specification kind of product;

3. product such as bracket has adopted Q235A or Q345,16 manganese steel, the intensity height, and cost is low, material source is extensive, steady quality;

4. system height is little, stability good, anti-high wind, antiseismic, anti-disaster ability are strong;

5. Messenger Wire base has adopted fixing hole pin to be connected reliable, zero slip with horizontal bracket;

6. registration arm has adopted arc to be connected with horizontal bracket, and is beautiful, bulk strength is high;

7. weld after Messenger Wire base, hinge-type steady ring, steady arm bearing etc. have adopted the quality steel plate punch forming, beautiful, the dependable performance of outward appearance, margin of safety is big, good reliability, interchangeablity are good;

8. steady arm adopts arc, has formed good collocation with the reversely-positioning integral cantilever device, has represented advanced high speed contact system windproof trend and trend.Be characterized in:

1) circular arc of this steady arm is very big, and circuit is had the function that reduces vibrations under frequent shock conditions, because locator structure is good, and less to the pressure of contact wire, hard spot is few, safe reliability is very high simultaneously.

2) steady ear has adopted the safety mechanism of band self-locking, and it is very reliable that steady ear is connected with contact wire, under the violent vibration of typhoon, can well reliably be connected with contact wire, and its technical performance (vibrating and fatigue) is very high.

3) steady arm has very high tension and anti-bending strength, so under strong wind atmosphere, stability is good.

4) steady arm has adopted spring device, the characteristics of spring device are: the vibrational energy that at first can well absorb lead, and the minimizing steady arm is to the positive pressure of lead, reduced the hard spot at place, location, make the position fixing system stability good, most critical be that spring device can prevent that contact wire from coming off under system failure situation, reduce line accident and take place.

5) steady arm has adopted the hole pin to be connected (non-shackle mode connects) mode with the steady arm bearing, and is safe, can not come off in any case.

9. adopt the hinge-type steady ring to substitute steady ring, bushing double eye, bracket support two ends union piece, the commutative rate height, the specification kind is few, the industrialization degree height, construction is convenient, easy to maintenance.

Description of drawings

Fig. 1 is the structural representation of the utility model reversely-positioning integral cantilever device;

Fig. 2 is the structural representation of horizontal bracket in the utility model reversely-positioning integral cantilever;

Fig. 3 is the structural representation of oblique wrist and arm in the utility model reversely-positioning integral cantilever;

Fig. 4 is the structural representation of horizontal location pipe in the utility model reversely-positioning integral cantilever;

Fig. 5 is the structural representation of a kind of embodiment of Messenger Wire base in the utility model reversely-positioning integral cantilever;

Fig. 6 is the left view of Fig. 5;

Fig. 7 is the structural representation of hinge-type steady ring in the utility model reversely-positioning integral cantilever;

Fig. 8 is the mounting structure scheme drawing of the spacing steady arm of elasticity in the utility model reversely-positioning integral cantilever;

Fig. 9 is the structural representation of steady arm bearing in the utility model reversely-positioning integral cantilever;

Figure 10 is the spacing steady arm block construction of an elasticity scheme drawing in the utility model reversely-positioning integral cantilever;

Figure 11 is the location shackle of the spacing steady arm of elasticity in the utility model reversely-positioning integral cantilever and the structural representation of springing;

Figure 12 is the positioning ring of the spacing steady arm of elasticity in the utility model reversely-positioning integral cantilever and the structural representation of steady ear.

Among the figure, 1. horizontal bracket, 2. oblique wrist and arm, 3. hinge-type steady ring, 4. Messenger Wire base, 5. bolt assembly A, 6. horizontal location pipe, 7. steady arm bearing, 8. the spacing steady arm of elasticity, 9. equipressure line A, 10. bolt assembly G, 11. bolt assembly H, 12. limiting stopper, 13. location shackles, 14. bolt assembly L, 15. the steady arm sleeve, 16. contact wires, 17. steady ears, 18. bolt assembly I, 19. equipressure line B, 20. pins;

1-1. horizontal bracket pipe, 1-2. bolt hole A, 1-3. end plate, 1-4. diplopore connecting panel, 1-5. waist shape bolt hole, 1-6. bolt hole B, 1-7. bolt hole C;

2-2. ears, 2-3. bolt hole D, 2-4. bolt hole E;

6-2. monaural;

4-1.C the shape connecting panel, 4-2.U shape plate A, 4-3. flat gasket A, 4-4.U shape plate B, 4-5. wire clamp A, 4-6. lining A, 4-7. lining B, 4-8. wire clamp B, 4-9. bolt assembly B, 4-10. bolt assembly C, 4-11. bolt assembly D, 4-12. catenary, 4-13. bolt hole F;

3-1. ears type connecting panel, 3-2. anchor ear I, 3-3. bolt assembly E, 3-4. anchor ear II, 3-5. bearing pin A, 3-6. bolt assembly F;

7-1. anchor ear A, 7-2. bearing pin B, 7-3. anchor ear B, 7-4. bolt assembly J, the 7-5. steady arm props up seat body;

8-1. the location organ pipe, 8-2. spring pull bar, 8-3. projection, 8-4. lock washer with double ears;

13-1. location shackle body, 13-2. leaks tube, 13-3. flat gasket B, 13-4. nut, 13-5. spring perch, 13-6. flat gasket C, 13-7. spring, 13-8. bolt hole G;

15-1. the abutment sleeve body, 15-2. adjustment hole, 17-1. clamping plate A, six square bolts in the 17-2. plastic washer A, 17-3., 17-4. plastic washer B, 17-5. wire clamp sleeve, 17-6. bolt assembly K, 17-7. clamping plate B.

The specific embodiment

Below in conjunction with the drawings and specific embodiments the utility model is elaborated.

The structure of the utility model reversely-positioning integral cantilever is shown in Fig. 1,2,3,4.Comprise horizontal bracket 1, the right-hand member Wei of horizontal bracket 1 is curved to be arc, the arc radius at arc center is 1000mm, the arc right-hand member is welded with the U type ears 1-3 that is formed by oval end plate and U type ears connecting panel assembly welding, a pair of connecting panel on the U type ears 1-3 is symmetrical arranged with respect to the axis of the cylindrical channel of horizontal bracket, and integrant U type ears 1-3, U type ears 1-3 is positioned at horizontal bracket fwd one side, have square through-hole, the opposite side of U type ears 1-3 has manhole, the square through-hole of U type ears 1-3 and the coaxial setting of manhole, the square through hole of U type ears 1-3 is a square through-hole.The U type ears 1-3 of horizontal bracket 1 right-hand member is connected with an end of horizontal location pipe 6 by one group of bolt assembly.The cantilever end of horizontal bracket 1 is processed with the bolt hole A1-2 that at least 7 spacings are 100mm side by side, wherein have at least two through holes by bolt assembly D4-11 be arranged on horizontal bracket 1 on rotatable adjustable Messenger Wire base 4 captive joint, the position of this Messenger Wire base 4 can be prolonged about horizontal direction and to be adjusted each 200～300mm.The left end of horizontal bracket 1 is a free end, is provided with a circular bolt holes C1-7 above, and this manhole is connected with strut insulator by one group of bolt assembly.The lower surface of the right-hand member of horizontal bracket 1 is welded with diplopore connecting panel 1-4, this diplopore connecting panel 1-4 lower left is provided with a circular bolt holes B1-6, the upper right side is provided with a waist shape bolt hole 1-5, and the line of centers of this waist through hole 1-5 is that the center of circle with lower left circular bolt holes B1-6 is the camber line at center.This diplopore connecting panel 1-4 is connected by two bolt assembly A5 with the pair of bolts hole D2-3 that oblique wrist and arm 2 is welded with die forging ears 2-2 part, between oblique wrist and arm 2 and the horizontal bracket 1 shape in an angle, the circular bolt holes B1-6 center that oblique wrist and arm 2 can be provided with around diplopore connecting panel 1-4 lower left rotates up and down.The equidirectional setting of the free end of the free end of oblique wrist and arm 2 and horizontal bracket 1 is provided with a circular bolt holes E2-4 above, and this manhole is connected with strut insulator by one group of bolt assembly.Be connected with a hinge-type steady ring 3 at oblique wrist and arm 2 respectively near on the end of diplopore connecting panel 1-4, this hinge-type steady ring 3 is connected with the monaural 6-2 part of horizontal location pipe 6 one ends with bolt assembly F3-6 by ears type connecting panel 3-1.Horizontal location pipe 6 is the bending structure, angle of bend is 90 °, two ends are welded with a die forging monaural 6-2 part respectively, and the one end is connected with hinge-type steady ring 3 on the oblique wrist and arm 2 by one group of bolt assembly, and the other end passes through one group of bolt assembly and is connected with U type ears 1-3 on the horizontal bracket 1.Level attitude at horizontal location pipe 6 is connected with steady arm bearing 7, and steady arm bearing 7 is affixed with an end of the spacing steady arm 8 of elasticity, and the other end of the spacing steady arm 8 of elasticity is connected with steady ear 17, steady ear 17 clamping contact wires 16.

In the utility model reversely-positioning integral cantilever, horizontal bracket 1, oblique wrist and arm 2 adopts the carbon constructional quality steel pipe of φ 60, material is Q235A, Q345 or 20#, the 16Mn steel, horizontal location pipe 6 adopts the carbon constructional quality steel pipe of φ 48, material is Q235A, Q345 or 20#, the 16Mn steel, diplopore connecting panel 1-4 adopts the thick quality carbon structural steel of 9mm, material is Q235A or Q345, adopt the moulding of welding process assembly welding between diplopore connecting panel 1-4 and the horizontal bracket pipe 1-1, monaural 6-2, ears 2-2 material is Q235A or Q345, use die-forging forming, respectively with horizontal location pipe 6, oblique wrist and arm 2 adopts the moulding of welding process assembly welding, U type ears 1-3 material is Q235A or Q345, adopt punching press, die forging, adopt the moulding of welding process assembly welding between the welding fabrication, itself and horizontal bracket 1.

The structure of 4 one kinds of embodiment of rotatable adjustable Messenger Wire base in the utility model reversely-positioning integral cantilever is as Fig. 5, shown in Figure 6.Comprise downward opening C shape connecting panel 4-1, the two side of C shape connecting panel 4-1 is processed with at least two bolt hole F4-13 respectively, the bolt hole F4-13 of C shape connecting panel 4-1 two side is provided with two cover bolt assembly D4-11 at least for corresponding one by one in the bolt hole F4-13 of C shape connecting panel 4-1 two side.C shape connecting panel 4-1 top outer is welded with downward opening U-shaped plate A4-2, forms the Messenger Wire base body.Be provided with opening U-shaped plate B4-4 up above the U-shaped plate A4-2, be provided with flat gasket A4-3 between U-shaped plate A4-2 and the U-shaped plate B4-4, U-shaped plate A4-2, flat gasket A4-3 are connected by bolt assembly C4-10 with U-shaped plate B4-4.The welded top of U-shaped plate B4-4 has wire clamp A4-5, forms the catenary carriage of catenary clamping device.Wire clamp A4-5 end face is provided with arc-shaped recess, is connected with lining A4-6 in this arc-shaped recess.Wire clamp A4-5 is connected with wire clamp B4-8 by the two bolt assembly B4-9 that are arranged side by side, and the bottom surface of wire clamp B4-8 is provided with arc groove, and this arc groove and arc-shaped recess are oppositely arranged, and forms the cylindrical hole in order to the clamping catenary.The axis normal of this cylindrical hole is connected with lining B4-7 in the axis of C shape connecting panel 4-1 in the arc groove of wire clamp B4-8, be provided with catenary 4-12 between lining A4-6 and the lining B4-7.

The outer edge part of wire clamp A4-5 and wire clamp B4-8 is processed with the flanging of certain altitude respectively, to increase its rigidity and intensity.

The C shape connecting panel 4-1 of rotatable adjustable Messenger Wire base 4 in the utility model reversely-positioning integral cantilever is buckled in horizontal bracket 1 surface, by bolt assembly D4-11 this Messenger Wire base 4 is captiveed joint with horizontal bracket 1, the catenary 4-12 that need are fixing penetrates between lining A4-6 and the lining B4-7, and binding bolt assembly B4-9 is fastening with catenary 4-12.

The C shape connecting panel 4-1 of rotatable adjustable Messenger Wire base 4 in the utility model reversely-positioning integral cantilever, U-shaped plate A4-2, U-shaped plate B4-4, wire clamp A4-5, wire clamp B4-8 all adopt structural carbon steel Q235A or Q345 sheet metal component through punching press, die-forging forming.

In system's operational process, owing to blow or other reasons causes catenary 4-12 to swing, and when producing twisting with respect to this Messenger Wire base 4, under the effect of catenary 4-12 torsion, U-shaped plate B4-4 rotates a certain angle with respect to U-shaped plate A4-2, make lining A4-6 and lining B4-7 all the time along the axis direction setting of catenary 4-12, thereby effectively alleviated turning round firmly that 4 couples of catenary 4-12 of Messenger Wire base produce, avoided losing of catenary 4-12.

It is affixed that rotatable adjustable Messenger Wire base 4 adopts be rigidly connected plate 4-1 and horizontal bracket 1 in the utility model reversely-positioning integral cantilever, not only make being connected of Messenger Wire base 4 and horizontal bracket 1 more closely reliable, avoided the relative slippage between Messenger Wire base 4 and the horizontal bracket 1, and changed the strained condition of catenary 4-12, improved the stability of system.Simultaneously, can regulate the catenary 4-12 deviation that causes because of pillar stiffener installation deviation or pillar amount of deflection, reduce the installation control duration of contact system, increase work efficiency by bolt hole F4-13.And adopt relatively turnable two U-shaped plate A4-2, B4-4, and effectively alleviate turning round firmly of 4 couples of catenary 4-12 of Messenger Wire base of causing because of catenary 4-12 swing, avoid losing of catenary 4-12.

Rotatable adjustable Messenger Wire base 4 can effectively suppress and the vibration of the contact system of decaying in the utility model reversely-positioning integral cantilever, improves the stability of contact system, has superior Combination property.

The structure of hinge-type steady ring 3 in the utility model reversely-positioning integral cantilever, as shown in Figure 7.Comprise anchor ear I 3-2, the side of anchor ear I 3-2 is connected by bearing pin A3-5 with the side of anchor ear II 3-4, and bearing pin A3-5 two ends form umbrella-shaped structure by revolving anchor, prevent that anchor ear I3-2 and anchor ear II3-4 from coming off, thereby form the hinge-type structure.Anchor ear I 3-2 and anchor ear II 3-4 have the semicircular structure part, and the semicircular structure of anchor ear I 3-2 and anchor ear II 3-4 partly is oppositely arranged, and form a cylindrical channel.The free end of anchor ear I 3-2 has been arranged side by side two square through holes, the free end of anchor ear II 3-4 has been arranged side by side two manholes, two manholes on two square through holes on the anchor ear I 3-2 and the anchor ear II 3-4 are for corresponding one by one, and its center is respectively on same axis.The outside top of anchor ear I3-2 semicircular structure part is welded with ears type connecting panel 3-1, and a pair of connecting panel on the ears type connecting panel 3-1 is symmetrical arranged with respect to the axis of the cylindrical channel that two anchor ears form, and integrant ears type connecting panel.Ears type connecting panel 3-1 is positioned near the free-ended side of anchor ear I 3-2, has square through-hole, and the opposite side of ears type connecting panel 3-1 has manhole, the square through-hole of ears type connecting panel 3-1 and the coaxial setting of manhole.The free-ended square through hole of anchor ear I 3-2 is a square through-hole.

The anchor ear I 3-2 of hinge-type steady ring 3 in the utility model reversely-positioning integral cantilever, the structure of anchor ear II3-4 is respectively the integral body that three parts constitute, centre portion is a semicircular structure, one side of this intermediate structure part is connected with discrete two cylinders or a cylinder respectively, two cylinders are set to symmetrical structure, intermediate structure part and these two cylinders or smooth a connection of cylinder, its interface section is as a whole by being welded to connect into.The opposite side of intermediate structure part is connected with a cuboid wide with it, one side of this cuboid and semicircle smooth connection of intermediate structure part, cuboid and middle semicircular structure part bonded assembly middle part are provided with the projection of a half cone-shaped, this projection is the reinforced rib of die-forging forming, other three outer perimeter die-forging formings are the flanging with certain altitude, all have the effect of the rigidity that strengthens cuboid.Have two square through-holes and two manholes on the cuboid of anchor ear I 3-2 and anchor ear II 3-4 respectively side by side, two manholes on two square through-holes on the anchor ear I 3-2 and the anchor ear II 3-4 are for corresponding one by one, and its center is respectively on same axis.

Anchor ear I 3-2, the anchor ear II 3-4 of hinge-type steady ring 3 and ears type connecting panel 3-1 all adopt structural carbon steel Q235A or Q345 sheet metal component through punching press, die-forging forming in the utility model reversely-positioning integral cantilever.Adopt the prewired connection of hinge-type between anchor ear I 3-2 and the anchor ear II 3-4, place of bolt connects.Make the bonded assembly unfailing performance better on the one hand; On the other hand, make the high-altitude installation exercise more convenient, aloft work efficient is higher.Adopt square hole as bolt connecting hole, only just can operation with a spanner, be convenient to the construction and installation at scene.

To select thickness for use be 6 millimeters quality carbon structural steel to hinge-type steady ring 3 in the utility model reversely-positioning integral cantilever, the employing thermoforming process is made, make the property retention of sheet material constant, overcome the steel plate interior tissue distortion that the processing of cold forming process before causes and the defective of crackle, surface quality is good, stable performance, anti-blown sand polishing machine are good, easy for installation.And, improve intensity and performance rate by increasing reverse reinforced rib and drawing and forming height, aesthetic in appearance generous, three-dimension effect is strong.

The cylindrical channel anchor ear that hinge-type steady ring 3 forms two anchor ear I 3-2, II 3-4 in the utility model reversely-positioning integral cantilever is in the outside of oblique wrist and arm 2, and captive joint with oblique wrist and arm 2 by two cover bolt assembly E3-3, prevent that hinge-type steady ring 3 from producing slippage on oblique wrist and arm 2.Ears type connecting panel 3-1 is connected with horizontal location pipe monaural 6-2 by bolt assembly F3-6, constitutes the gusseted structure.Simultaneously, the bolt of bolt assembly E3-3, F3-6 has rectangular three-dimensional-structure at the lower end of bolt head Re Dun, around himself rotational, makes to connect to locate more reliably to make things convenient for when preventing the bolt installation.

In the utility model reversely-positioning integral cantilever hinge-type steady ring 3 have simple in structure, rotate flexible, easy to adjust, characteristics such as performance rate is high and aesthetic in appearance, can be applicable to the operating needs of the following common speed of a motor vehicle of speed per hour 250km/h, also can satisfy the operation speed per hour requirement of the above high speed passenger dedicated railway of speed per hour 250km/h, because of adopting monaural bolted connections and anchor ear, itself and horizontal location pipe 6, oblique wrist and arm 2 connect, Stability Analysis of Structures is reliable, main track, station track, can use inside and outside the tunnel, have extensive applicability.

The package assembly of the spacing steady arm of elasticity in the utility model reversely-positioning integral cantilever, as shown in Figure 8.Comprise steady arm bearing 7, steady arm props up the connecting panel formation of seat body 7-5 by two " L " plates that be arranged in parallel and affixed this two " L " plate, steady arm props up " L " shape that seat body 7-5 is a left-hand thread, angle between its upper arm and the underarm is 116 °, the free end top that steady arm props up seat body 7-5 upper arm is connected with the hinge-type anchor ear, this hinge-type anchor ear is fixed on the horizontal location pipe 6, the other end of steady arm bearing 7 upper arm is processed with two holes, this two hole sets gradually along the direction of steady arm bearing 7 upper arm, be respectively arranged with bolt assembly G10 and bolt assembly H11 in two holes, steady arm bearing 7 underarms have through hole, be provided with bolt assembly H11 in this through hole, between two bolt assembly H11, be provided with limiting stopper 12, the screw rod of bolt assembly H11 is connected with an end of location shackle 13, the other end of location shackle 13 and the end crimping of location organ pipe 8-1, location shackle 13 is processed with a through hole with an end of location organ pipe 8-1 crimping, be provided with bolt assembly L14 in this hole, between bolt assembly L14 and bolt assembly G10, be connected with equipressure line A9, be provided with vertical spring pull bar 8-2 in the shackle 13 of location, the upper end of spring pull bar 8-2 is connected with bolt assembly H11; The other end of location organ pipe 8-1 and an end crimping of steady arm sleeve 15, the other end of steady arm sleeve 15 is the vertical cylindrical shell of axis, be connected with steady ear 17 in the cylindrical shell, steady ear 17 is used for clamping contact wire 16, and with the free end of steady arm bearing 7 in same direction, the vertical distance on the axis of contact wire 16 centers and horizontal location pipe 6 and the steady arm bearing between the axis of hinge-type anchor ear is 500mm.

The structure of the steady arm bearing of the spacing steady arm of elasticity and hinge-type anchor ear in the utility model reversely-positioning integral cantilever, as shown in Figure 9.Comprise anchor ear A7-1, the side of anchor ear A7-1 is connected by bearing pin B7-2 with the side of anchor ear B7-3, and bearing pin B7-2 two ends form umbrella-shaped structure by revolving anchor, prevent that anchor ear A7-1 and anchor ear B7-3 from coming off, thereby form the hinge-type structure.Anchor ear A7-1 and anchor ear B7-3 have the semicircular structure part, and the semicircular structure of anchor ear A7-1 and anchor ear B7-3 partly is oppositely arranged, and form a cylindrical channel.The free end of anchor ear A7-1 has been arranged side by side two manholes, the free end of anchor ear B7-3 has been arranged side by side two square through holes, two square through holes on two manholes on the anchor ear A7-1 and the anchor ear B7-3 are for corresponding one by one, and its center is respectively on same axis.The exterior bottom of anchor ear B7-3 semicircular structure part is welded with steady arm and props up seat body 7-5, steady arm props up " L " shape plate of a pair of left-hand thread on the seat body 7-5, the axis of the cylindrical channel that forms with respect to two anchor ears is symmetrical arranged, and integrant steady arm bearing.The free-ended square through hole of anchor ear B7-3 is a square through-hole.

The steady arm bearing anchor ear A7-1 of the spacing steady arm of elasticity and anchor ear B7-3 are respectively the integral body that three parts constitute in the utility model reversely-positioning integral cantilever, centre portion is a semicircular structure, one side of this intermediate structure part is connected with a cylinder and discrete two cylinders respectively, two cylinders are set to symmetrical structure, intermediate structure part and this cylinder or two smooth connections of cylinder, its interface section is as a whole by being welded to connect into.The opposite side of intermediate structure part is connected with a cuboid wide with it, one side of this cuboid and semicircle smooth connection of intermediate structure part, cuboid and middle semicircular structure part bonded assembly middle part are provided with the projection of a half cone-shaped, this projection is the reinforced rib of die-forging forming, other three outer perimeter die-forging formings are the flanging with certain altitude, all have the effect of the rigidity that strengthens cuboid.Have two manholes and two square through-holes on the cuboid respectively side by side, two square through holes on two manholes on the anchor ear A7-1 and the anchor ear B7-3 are for corresponding one by one, and its center is respectively on same axis.

Steady arm props up seat body 7-5, anchor ear A7-1, anchor ear B7-3 all adopts quality carbon structural steel Q235A or Q345 through blanking, punching press, die forging, welding fabrication.The employing thermoforming process is made, and makes the property retention of sheet material constant, has overcome the steel plate interior tissue distortion that the processing of cold forming process before causes and the defective of crackle, and surface quality is good, stable performance, anti-blown sand polishing machine are good, easy for installation.And, improve intensity and performance rate by increasing reverse reinforced rib and drawing and forming height, aesthetic in appearance generous, three-dimension effect is strong.

Adopt the prewired connection of hinge-type between anchor ear A7-1 and the anchor ear B7-3, place of bolt connects.Make the bonded assembly unfailing performance better on the one hand; On the other hand, make the high-altitude installation exercise more convenient, aloft work efficient is higher.Adopt square hole as bolt connecting hole, only just can operation with a spanner, be convenient to the construction and installation at scene.

The steady arm bearing of the spacing steady arm of elasticity in the utility model reversely-positioning integral cantilever, the cylindrical channel anchor ear that two anchor ear A7-1, B7-3 are formed is in the outside of horizontal location pipe 6, and captive joint with horizontal location pipe 6 by two cover bolt assembly J7-4, prevent that steady arm bearing 7 from producing slippage on horizontal location pipe 6.Simultaneously, the bolt of bolt assembly J7-4 has rectangular three-dimensional-structure at the lower end of bolt head Re Dun, around himself rotational, makes to connect to locate more reliably to make things convenient for when preventing the bolt installation.

The structure of the steady arm parts of the spacing steady arm of elasticity in the utility model reversely-positioning integral cantilever, as shown in figure 10.Comprise location organ pipe 8-1, location organ pipe 8-1 is the aluminium-alloy pipe of arc, and the arc radius of location organ pipe 8-1 central axis is 800mm.The end of location organ pipe 8-1 is crimped with abutment sleeve 15, abutment sleeve 15 is affixed with steady ear 17, steady ear 17 clampings have contact wire 16, the other end of location organ pipe 8-1 is crimped with location shackle 13, be provided with spring pull bar 8-2 in the shackle 13 of location, location shackle 13 is provided with bolt hole G13-8, the width between centers of the contact wire 16 of bolt hole G13-8 and steady ear 17 clampings is 1200mm, the line of centres of the center of bolt hole G13-8 and contact wire 16 and the angle between the horizontal surface are 12 °, and the vertical distance between the center of the center of bolt hole G13-8 and contact wire 16 is 250mm.

The location shackle of the spacing steady arm of elasticity and the structure of springing in the utility model reversely-positioning integral cantilever, as shown in figure 11.Comprise location shackle body 13-1, shackle body 13-1 middle part, location is provided with spring perch 13-5, spring perch 13-5 is inverted U-shaped, spring perch 13-5 top is processed with a through hole, be cast with a projection on the right side in this hole, be used with the limiting stopper 12 on the steady arm bearing 7, being used for the spacing of steady arm raises, from top to bottom be disposed with flat gasket C13-6 in the spring perch 13-5, a spring 13-7 and a leakage tube 13-2, leaking tube 13-2 is opening U-shaped tube up, the bottom of leaking tube 13-2 has a hole, the lower end of spring 13-7 is stretched into Lou in the tube, also vertically be provided with spring pull bar 8-2 in the inverted U-shaped hole of location shackle body 13-1, stretch out outside the shackle body 13-1 of location the upper end of spring pull bar 8-2, and be processed with an open-work, this open-work is connected with the screw rod of bolt assembly H11, between this saturating sky and spring perch 13-5 top, be provided with a pin 20, be used for the locking elastic device, the lower end of spring pull bar 8-2 is passed flat gasket C13-6 successively, the hole of spring 13-7 and leakage tube 13-2 bottom, stretch out and leak tube 13-2, the lower end of spring pull bar 8-2 is by the flat gasket B13-3 that has been threaded, lock washer with double ears 8-4 and nut 13-4, flat gasket B13-3, lock washer with double ears 8-4 and nut 13-4 are positioned at the outside of leaking tube 13-2, on the shackle body 13-1 of location, the both sides of spring perch 13-5 are processed with bolt hole G13-8 is connected the bolt assembly L14 of usefulness with equipressure line installation through hole respectively, the outside of the spring perch 13-5 left side wall of location shackle body 13-1 is connected with a pipe link, the free end of this pipe link is an integral body with the end crimping of location organ pipe 8-1, and the axis of crimping rear connecting rod and the angle between the horizontal surface are 10 °.

The structure of the abutment sleeve of the spacing steady arm of elasticity and steady ear in the utility model reversely-positioning integral cantilever, as shown in figure 12.Comprise abutment sleeve body 15-1, vertically be provided with cylindrical shell in abutment sleeve body 15-1 left side, cylindrical shell left side wall middle part is provided with an adjustment hole 15-2, the outside of cylindrical shell right side wall is connected with a bevelled pipe link, the free end of this pipe link is an integral body with the end crimping of location organ pipe 8-1, the axis of pipe link and the angle between the horizontal surface are 25 °, and pipe link is provided with bolt assembly I18 towards the top side wall of abutment sleeve cylindrical shell one end.In the cylindrical shell of abutment sleeve body 15-1 left side, be connected with steady ear 17, this steady ear 17, comprise clamping plate A17-1, clamping plate B17-7, the middle part of two clamping plate A17-1, B17-7 is a semicircular structure, be respectively arranged with a through hole and a bolt hole, fastening by interior wince hook bolt 17-3, be used for clamping contact wire 16.The top of clamping plate B17-7 is cylinder, radially be provided with outside thread, with adaptive connection of negative thread of wire clamp sleeve 17-5, be used to support steady ear 17, the middle part of cylindrical middle part of clamping plate B17-7 and wire clamp sleeve 17-5 has a through hole and two through holes, form relation one to one, be provided with bolt assembly K17-6 in these three holes, can prevent effectively that getting loose of wire clamp sleeve 17-5 from causing getting loose of steady ear 17, the cylindrical top of clamping plate B17-7 is provided with bolt assembly I18, and two bolt assembly I18 are used for affixed equipressure line B19.Between online chuck tube 17-5 bottom and the abutment sleeve body 15-1 cylindrical shell top, between abutment sleeve body 15-1 cylindrical shell bottom and two clamping plate A17-1, the B17-7, be respectively arranged with plastic washer B17-4 and plastic washer A17-2, two plastic washer B17-4, A17-2 all adopt nylon material to make, has very high intensity, toughness, and self-lubricating property, can effectively prevent the wearing and tearing between steady ear 17 and the abutment sleeve 15.Between abutment sleeve 15 and steady ear 17, because the vertical size of adjustment hole 15-2 is less than the coiled hair diameter dimension of interior wince hook bolt 17-3, form the steady ear self-locking mechanism, can prevent effectively that steady ear from tightening getting loose of the interior wince hook bolt 17-3 of screw, avoided the generation of steady arm off-line phenomenon, what guaranteed motorcycle pantograph normally gets stream, makes the motorcycle safety high-speed cruising.

The abutment sleeve 15 of the spacing steady arm of elasticity and location shackle 13 all adopt the casting copper alloy casting in the utility model reversely-positioning integral cantilever, steady ear 17, comprise that clamping plate A17-1, B17-7 and wire clamp sleeve 17-5 all adopt forging copper alloy die-forging forming, location organ pipe 8-1 adopts aluminum alloy compacting pipe, extrusion molding, all have very high intensity, withstanding corrosion, humidity, surface quality are good, stable performance, anti-blown sand, abrasion resistance properties are good, easy for installation.Aesthetic in appearance generous, three-dimension effect is strong.

During site operation, the spacing steady arm of the utility model elasticity is fixed on the horizontal location pipe 6 of bracket registration device by the hinge-type anchor ear on the steady arm bearing 7, then, with steady ear 17 clamping contact wires 16, be used for fixing contact wire 16, extract pin 20 at last, discharge the springing of steady arm.

The spacing steady arm of elasticity is fixed on contact wire 16 by steady ear 17 position of requirement in the utility model reversely-positioning integral cantilever, and can bear the horizontal force of contact wire 16, the vibrational energy of good absorbing contact line 16, prevented that effectively contact wire 16 from producing excessive raising under the pantograph effect, the positive pressure of 8 pairs of contact wires 16 of steady arm and the hard spot at place, location have been reduced, make the position fixing system stability good, effectively controlled the horizontal-shift of contact wire 16, self-oscillation and jump, prevent the generation of off-line phenomenon, what guaranteed pantograph normally gets stream, makes locomotive safety running.

At the affixed strut insulator of free end of horizontal bracket 1 and oblique wrist and arm 2, then, this two insulator is individually fixed on the column respectively, makes the reversely-positioning integral cantilever device fix.Catenary 4-12 is placed between the wire clamp A4-5 and wire clamp wire clamp B4-8 of Messenger Wire base 4, binding bolt assembly B4-9 makes wire clamp A4-5 and wire clamp B4-8 that catenary 4-12 is given clamping, with catenary 4-12 fixed pedestal.Contact wire 16 is held between two clamping plate A17-1, the B17-7 of steady ear 17 of contact wire, and fixing.

The utility model reversely-positioning integral cantilever is used for push off mode place of electrifing railway contacting net system, and fixed pedestal contact wire and catenary can be stablized contact net system, prevent the generation of off-line accident.

Claims (10)

1. the reversely-positioning integral cantilever of electrification railway contact net, it is characterized in that, comprise horizontal bracket (1), one end Wei of horizontal bracket (1) is curved to be arc, the termination of arc is welded with U type ears (1-3), horizontal bracket (1) is connected with an end of horizontal location pipe (6) by U type ears (1-3), the cantilever end of horizontal bracket (1) is processed with a plurality of bolt hole A (1-2) side by side, captive joint with Messenger Wire base (4) with bolt assembly by bolt hole A (1-2), horizontal bracket (1) is gone up near other end place and is provided with bolt hole C (1-7), this bolt hole C (1-7) is connected with strut insulator by bolt assembly, the bottom of horizontal bracket (1) is welded with diplopore connecting panel (1-4), diplopore connecting panel (1-4) is provided with circular bolt holes B (1-6) and waist shape bolt hole (1-5), the line of centers of this waist through hole (1-5) is that the center of circle with lower left circular bolt holes B (1-6) is the camber line at center, diplopore connecting panel (1-4) fixes by an end of circular bolt holes B (1-6) and waist shape bolt hole (1-5) and bolt assembly and oblique wrist and arm (2), the equidirectional setting of free end of the free end of oblique wrist and arm (2) and horizontal bracket (1), shape in an angle between oblique wrist and arm (2) and the horizontal bracket (1), circular bolt holes B (1-6) center that oblique wrist and arm (2) can be provided with around diplopore connecting panel (1-4) lower left rotates up and down, the free end of oblique wrist and arm (2) is provided with circular bolt holes E (2-4), this manhole is connected with strut insulator by bolt assembly, be connected with hinge-type steady ring (3) at oblique wrist and arm (2) near on the end of diplopore connecting panel (1-4), this hinge-type steady ring (3) is connected with an end of horizontal location pipe (6), horizontal location pipe (6) is the bending structure, angle of bend is near 90 °, level attitude at horizontal location pipe (6) is connected with steady arm bearing (7), steady arm bearing (7) is affixed with an end of the spacing steady arm of elasticity (8), and the other end of the spacing steady arm of elasticity (8) is by steady ear clamping contact wire.

2. according to the described reversely-positioning integral cantilever of claim 1, it is characterized in that, described U type ears (1-3) are formed by oval end plate and U type ears connecting panel assembly welding, a pair of connecting panel on the U type ears (1-3) is symmetrical arranged with respect to the axis of the cylindrical channel of horizontal bracket, and integrant U type ears (1-3), U type ears (1-3) are positioned at horizontal bracket fwd one side and have square through-hole, the opposite side of U type ears (1-3) has manhole, the square through-hole of U type ears (1-3) and the coaxial setting of manhole.

3. according to the described reversely-positioning integral cantilever of claim 1, it is characterized in that, the fixed end place of described oblique wrist and arm (2) is provided with ears (2-2), have bolt hole D (2-3) on the ears (2-2), achieve a fixed connection by the diplopore connecting panel (1-4) on ears (2-2) and bolt hole D (2-3) and the horizontal bracket (1), the close free end of oblique wrist and arm (2) is provided with circular bolt holes E (2-4), and this bolt hole E (2-4) is connected with strut insulator by bolt assembly.

4. according to the described reversely-positioning integral cantilever of claim 1, it is characterized in that, described Messenger Wire base (4) comprises downward opening C shape connecting panel (4-1), the two side of C shape connecting panel (4-1) is processed with at least two bolt hole F (4-13) respectively, the bolt hole F (4-13) of C shape connecting panel (4-1) two side is for corresponding one by one, at least be provided with two cover bolt assembly D (4-11) in the bolt hole F (4-13) of C shape connecting panel (4-1) two side, C shape connecting panel (4-1) top outer is welded with downward opening U-shaped plate A (4-2), form the Messenger Wire base body, be provided with opening U-shaped plate B (4-4) up above the U-shaped plate A (4-2), be provided with flat gasket A (4-3) between U-shaped plate A (4-2) and the U-shaped plate B (4-4), U-shaped plate A (4-2), flat gasket A (4-3) is connected by bolt assembly C (4-10) with U-shaped plate B (4-4), the welded top of U-shaped plate B (4-4) has wire clamp A (4-5), form the catenary carriage of catenary clamping device, wire clamp A (4-5) end face is provided with arc-shaped recess, be connected with lining A (4-6) in this arc-shaped recess, wire clamp A (4-5) is connected with wire clamp B (4-8) by the two bolt assembly B (4-9) that are arranged side by side, the bottom surface of wire clamp B (4-8) is provided with arc groove, this arc groove and arc-shaped recess are oppositely arranged, formation is in order to the cylindrical hole of clamping catenary, the axis normal of this cylindrical hole is in the axis of C shape connecting panel (4-1), be connected with lining B (4-7) in the arc groove of wire clamp B (4-8), be provided with catenary (4-12) between lining A (4-6) and the lining B (4-7).

5. reversely-positioning integral cantilever according to claim 4, it is characterized in that, the bottom surface of described wire clamp B (4-8) is provided with arc groove, be connected with lining B (4-7) in this arc groove, the end face of described wire clamp A (4-5) is provided with arc-shaped recess, is connected with lining A (4-6) in this arc-shaped recess.

6. reversely-positioning integral cantilever according to claim 1, it is characterized in that, described hinge-type steady ring (3) comprises anchor ear I (3-2), the side of anchor ear I (3-2) is connected by bearing pin A (3-5) with the side of anchor ear II (3-4), bearing pin A (3-5) two ends form umbrella-shaped structure by revolving anchor, prevent that anchor ear I (3-2) and anchor ear II (3-4) from coming off, thereby form the hinge-type structure, anchor ear I (3-2) and anchor ear II (3-4) have the semicircular structure part, the semicircular structure of anchor ear I (3-2) and anchor ear II (3-4) partly is oppositely arranged, form a cylindrical channel, the free end of anchor ear I (3-2) has been arranged side by side two square through holes, the free end of anchor ear II (3-4) has been arranged side by side two manholes, two manholes on two square through holes on the anchor ear I (3-2) and the anchor ear II (3-4) are for corresponding one by one, its center is respectively on same axis, the outside top of anchor ear I (3-2) semicircular structure part is welded with ears type connecting panel (3-1), a pair of connecting panel on the ears type connecting panel (3-1) is symmetrical arranged with respect to the axis of the cylindrical channel that two anchor ears form, and integrant ears type connecting panel, ears type connecting panel (3-1) is positioned near the free-ended side of anchor ear I (3-2), have square through-hole, the opposite side of ears type connecting panel (3-1) has manhole, the square through-hole of ears type connecting panel (3-1) and the coaxial setting of manhole, the free-ended square through hole of anchor ear I (3-2) is a square through-hole, anchor ear I (3-2), the structure of anchor ear II (3-4) is respectively the integral body that three parts constitute, centre portion is a semicircular structure, one side of this intermediate structure part is connected with discrete two cylinders or a cylinder respectively, two cylinders are set to symmetrical structure, intermediate structure part and these two cylinders or smooth a connection of cylinder, its interface section is as a whole by being welded to connect into, the opposite side of intermediate structure part is connected with a cuboid wide with it, one side of this cuboid and semicircle smooth connection of intermediate structure part, cuboid and middle semicircular structure part bonded assembly middle part are provided with the projection of a half cone-shaped, this projection is the reinforced rib of die-forging forming, other three outer perimeter die-forging formings are the flanging with certain altitude, the effect that all has the rigidity that strengthens cuboid, have two square through-holes and two manholes on the cuboid of anchor ear I (3-2) and anchor ear II (3-4) respectively side by side, two manholes on two square through-holes on the anchor ear I (3-2) and the anchor ear II (3-4) are for corresponding one by one, and its center is respectively on same axis.

7. reversely-positioning integral cantilever according to claim 1, it is characterized in that, described steady arm bearing (7), steady arm props up the connecting panel formation of seat body (7-5) by two " L " plates that be arranged in parallel and affixed this two " L " plate, steady arm props up seat body (7-5) and is " L " shape of left-hand thread, angle between its upper arm and the underarm is 116 °, the free end top that steady arm props up seat body (7-5) upper arm is connected with the hinge-type anchor ear, this hinge-type anchor ear is fixed on the horizontal location pipe (6), the other end of steady arm bearing (7) upper arm is processed with two holes, this two hole sets gradually along the direction of steady arm bearing (7) upper arm, be respectively arranged with bolt assembly G (10) and bolt assembly H (11) in two holes, steady arm bearing (7) underarm has through hole, be provided with bolt assembly H (11) in this through hole, between two bolt assembly H (11), be provided with limiting stopper (12), the screw rod of bolt assembly H (11) is connected with an end of location shackle (13), the other end of location shackle (13) and an end crimping of locating organ pipe (8-1), location shackle (13) is processed with a through hole with an end of location organ pipe (8-1) crimping, be provided with bolt assembly L (14) in this hole, between bolt assembly L (14) and bolt assembly G (10), be connected with equipressure line A (9), be provided with vertical spring pull bar (8-2) in the location shackle (13), the upper end of spring pull bar (8-2) is connected with bolt assembly H (11); The other end of location organ pipe (8-1) and an end crimping of steady arm sleeve (15), the other end of steady arm sleeve (15) is the vertical cylindrical shell of axis, be connected with steady ear (17) in the cylindrical shell, steady ear (17) is used for clamping contact wire (16), and with the free end of steady arm bearing (7) in same direction, the vertical distance on the axis of contact wire (16) center and horizontal location pipe (6) and the steady arm bearing between the axis of hinge-type anchor ear is 500mm.

8. reversely-positioning integral cantilever according to claim 7, it is characterized in that, be welded with the hinge-type anchor ear on the described steady arm bearing (7), comprise anchor ear A (7-1), the side of anchor ear A (7-1) is connected by bearing pin B (7-2) with the side of anchor ear B (7-3), bearing pin B (7-2) two ends form umbrella-shaped structure by revolving anchor, prevent that anchor ear A (7-1) and anchor ear B (7-3) from coming off, thereby form the hinge-type structure, anchor ear A (7-1) and anchor ear B (7-3) have the semicircular structure part, the semicircular structure of anchor ear A (7-1) and anchor ear B (7-3) partly is oppositely arranged, form a cylindrical channel, the free end of anchor ear A (7-1) has been arranged side by side two manholes, the free end of anchor ear B (7-3) has been arranged side by side two square through holes, two square through holes on two manholes on the anchor ear A (7-1) and the anchor ear B (7-3) are for corresponding one by one, its center is respectively on same axis, the exterior bottom of anchor ear B (7-3) semicircular structure part is welded with steady arm and props up seat body (7-5), steady arm props up " L " shape plate of a pair of left-hand thread on the seat body (7-5), the axis of the cylindrical channel that forms with respect to two anchor ears is symmetrical arranged, and integrant steady arm bearing, the free-ended square through hole of anchor ear B (7-3) is a square through-hole, anchor ear A (7-1) and anchor ear B (7-3) are respectively the integral body that three parts constitute, centre portion is a semicircular structure, one side of this intermediate structure part is connected with a cylinder and discrete two cylinders respectively, two cylinders are set to symmetrical structure, intermediate structure part and this cylinder or two smooth connections of cylinder, its interface section is as a whole by being welded to connect into, the opposite side of intermediate structure part is connected with a cuboid wide with it, one side of this cuboid and semicircle smooth connection of intermediate structure part, cuboid and middle semicircular structure part bonded assembly middle part are provided with the projection of a half cone-shaped, this projection is the reinforced rib of die-forging forming, other three outer perimeter die-forging formings are the flanging with certain altitude, the effect that all has the rigidity that strengthens cuboid, have two manholes and two square through-holes on the cuboid respectively side by side, two square through holes on two manholes on the anchor ear A (7-1) and the anchor ear B (7-3) are for corresponding one by one, and its center is respectively on same axis.

9. reversely-positioning integral cantilever according to claim 1, it is characterized in that, the structure of the spacing steady arm of described elasticity (8) is: comprise location organ pipe (8-1), location organ pipe (8-1) is the aluminium-alloy pipe of arc, the arc radius of location organ pipe (8-1) central axis is 800mm, one end of location organ pipe (8-1) is crimped with abutment sleeve (15), abutment sleeve (15) is affixed with steady ear (17), steady ear (17) clamping has contact wire (16), the other end of location organ pipe (8-1) is crimped with location shackle (13), be provided with spring pull bar (8-2) in the location shackle (13), location shackle (13) is provided with bolt hole G (13-8), bolt hole G (13-8) is 1200mm with the width between centers of the contact wire (16) of steady ear (17) clamping, the line of centres of the center of bolt hole G (13-8) and contact wire (16) and the angle between the horizontal surface are 12 °, and the vertical distance between the center of the center of bolt hole G (13-8) and contact wire (16) is 250mm.

10. according to the described reversely-positioning integral cantilever of claim 9, it is characterized in that, the spacing steady arm of described elasticity (8) is provided with location shackle (13) and springing, the structure of location shackle (13) and springing: comprise location shackle body (13-1), location shackle body (13-1) middle part is provided with spring perch (13-5), spring perch (13-5) is inverted U-shaped, spring perch (13-5) top is processed with a through hole, be cast with a projection on the right side in this hole, be used with the limiting stopper (12) on the steady arm bearing (7), being used for the spacing of steady arm raises, from top to bottom be disposed with flat gasket C (13-6) in the spring perch (13-5), spring (13-7) and leakage tube (13-2), leaking tube (13-2) is opening U-shaped tube up, the bottom of leaking tube (13-2) has a hole, the lower end of spring (13-7) is stretched into Lou in the tube, also vertically be provided with spring pull bar (8-2) in the inverted U-shaped hole of location shackle body (13-1), stretch out outside the location shackle body (13-1) upper end of spring pull bar (8-2), and be processed with an open-work, this open-work is connected with the screw rod of bolt assembly H (11), between this saturating sky and spring perch (13-5) top, be provided with a pin (20), be used for the locking elastic device, the lower end of spring pull bar (8-2) is passed flat gasket C (13-6) successively, the hole of spring (13-7) and leakage tube (13-2) bottom, stretch out and leak tube (13-2), the lower end of spring pull bar (8-2) is by the flat gasket B (13-3) that has been threaded, lock washer with double ears (8-4) and nut (13-4), flat gasket B (13-3), lock washer with double ears (8-4) and nut (13-4) are positioned at the outside of leaking tube (13-2), on the location shackle body (13-1), the both sides of spring perch (13-5) are processed with bolt hole G (13-8) is connected the bolt assembly L (14) of usefulness with equipressure line installation through hole respectively, the outside of spring perch (13-5) left side wall of location shackle body (13-1) is connected with a pipe link, the free end of this pipe link is an integral body with an end crimping of location organ pipe (8-1), the axis of crimping rear connecting rod and the angle between the horizontal surface are 10 °

The spacing steady arm of described elasticity (8) is provided with the self-locking mechanism of abutment sleeve 15 and steady ear 17 compositions, comprise abutment sleeve body (15-1), vertically be provided with cylindrical shell in abutment sleeve body (15-1) left side, cylindrical shell left side wall middle part is provided with an adjustment hole (15-2), the outside of cylindrical shell right side wall is connected with a bevelled pipe link, the free end of this pipe link is an integral body with an end crimping of location organ pipe (8-1), the axis of pipe link and the angle between the horizontal surface are 25 °, pipe link is provided with bolt assembly I (18) towards the top side wall of abutment sleeve cylindrical shell one end, in the cylindrical shell of abutment sleeve body (15-1) left side, be connected with steady ear (17), this steady ear (17), comprise clamping plate A (17-1), clamping plate B (17-7), the middle part of clamping plate A (17-1) and clamping plate B (17-7) is a semicircular structure, be respectively arranged with a through hole and a bolt hole, fastening by interior wince hook bolt (17-3), be used for clamping contact wire (16), the top of clamping plate B (17-7) is cylinder, radially be provided with outside thread, with adaptive connection of negative thread of wire clamp sleeve (17-5), be used to support steady ear (17), the middle part of cylindrical middle part of clamping plate B (17-7) and wire clamp sleeve (17-5) has a through hole and two through holes, form relation one to one, be provided with bolt assembly J (17-6) in these three holes, can prevent effectively that getting loose of wire clamp sleeve (17-5) from causing getting loose of steady ear (17), the cylindrical top of clamping plate B (17-7) is provided with bolt assembly I (18), two bolt assembly I (18) are used for affixed equipressure line B (19), between online chuck tube (17-5) bottom and abutment sleeve body (15-1) the cylindrical shell top, abutment sleeve body (15-1) cylindrical shell bottom and two clamping plate (A17-1, B17-7) between, be respectively arranged with plastic washer B (17-4) and plastic washer A (17-2).

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