CN211682740U - Automatic kiln machine of going out of 1x4 type double block formula sleeper forming die - Google Patents

Abstract

The utility model provides a 1x4 type double-block type sleeper forming die automatic in-out kiln machine, which comprises a track beam assembly, a cart assembly, a trolley assembly, a lifting appliance assembly and an operation platform assembly; the track beam assembly spans above the mold curing kiln, the cart assembly spans above the track beam assembly, the trolley assembly is arranged on the track above the cart assembly, the lifting appliance assembly is positioned below the trolley assembly, and the lifting appliance assembly and the trolley assembly are connected through a steel wire rope assembly; the trolley assembly is provided with a lifting motor, two steel wire rope drums and a first steel wire rope guide wheel; the lifting appliance assembly is provided with a second steel wire rope guide wheel, a lifting hook plate, a hydraulic station, an infrared induction switch and a hydraulic oil cylinder. The utility model discloses can accomplish the hoist and mount to the sleeper mould, degree of automation is high, fast, the location is accurate.

Description

Automatic kiln machine of going out of 1x4 type double block formula sleeper forming die

Technical Field

The utility model belongs to the required equipment of high-speed railway double-block type sleeper 1x4 type mould production water line especially relates to a kiln machine is gone out to automatic income of 1x4 type double-block type sleeper forming die.

Background

With the development of high-speed railway technology, various novel ballastless tracks of a ballast track bed are replaced by concrete or asphalt mixture and the like, and the aims of improving the stability and smoothness of the tracks and greatly reducing the maintenance workload are fulfilled. The ballastless track is applied to the mass laying of the newly-built high-speed railway trunk line, and a good technical and economic effect is achieved. At present, in the construction process of a ballastless high-speed railway, double-block concrete precast sleepers are mostly used, and the application of a 1x4 type double-block sleeper mould is wider. In the production process of the double-block concrete prefabricated sleeper, a mould poured with concrete needs to be placed into a curing kiln for steam curing. The mould will be put things in good order the multilayer in the curing kiln, and the position of putting things in good order in order to prevent the mould that collapses will be accurate, adopts manual operation overhead traveling crane to hoist now more, so requires highly to operating personnel's proficiency, and the operation degree of difficulty is great, still needs the workman to carry out the mould alignment operation in going down the curing kiln even, and there is the potential safety hazard in the process.

Disclosure of Invention

In view of this, the utility model aims at providing an automatic kiln machine of going out of 1x4 type double block formula sleeper forming die to in-out kiln to 1x4 type double block formula sleeper die carries out automatic hoist and mount.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

an automatic hoisting machine for a sleeper mold in and out of a kiln comprises five parts: the device comprises a track beam assembly, a cart assembly, a trolley assembly, a lifting appliance assembly and an operating platform assembly; wherein the track beam assembly spans above the mold curing kiln, and the length of the track beam assembly is determined according to the length of the curing kiln; the cart assembly spans above the track beam assembly, and the cart assembly is movably connected with the track beam assembly through pulleys; a trolley assembly is arranged on the cart assembly, and a pulley is movably connected between the trolley assembly and the cart assembly; the lifting appliance assembly is positioned below the trolley assembly and is connected with the trolley assembly through a steel wire rope assembly; the trolley assembly is provided with a lifting motor and two steel wire rope winding drums, and an output shaft of the lifting motor is connected with the steel wire rope winding drums through a transmission shaft; the trolley assembly is provided with a first steel wire rope guide wheel, the lifting appliance assembly is provided with a second steel wire rope guide wheel, the steel wire ropes are wound on a steel wire rope reel on the trolley assembly in order, and the steel wire ropes respectively pass through the first steel wire rope guide wheel arranged on the trolley assembly and the second steel wire rope guide wheel arranged at the upper end of the lifting appliance assembly, so that the lifting motor drives the lifting appliance assembly to move up and down through the steel wire ropes; the lifting appliance assembly is provided with a lifting hook plate, a hydraulic station, an infrared induction switch and a hydraulic oil cylinder; the hydraulic station is connected with a hydraulic oil cylinder, and the output shaft end of the hydraulic oil cylinder is connected with the hook plate; the lifting hook plate is provided with a long hole, and the lifting hook plate is connected to the lifting appliance frame body through a positioning screw penetrating through the long hole.

Furthermore, the track beam assembly comprises an upright post, the upper end of the upright post is bolted with the cross beam, and the two cross beams are connected through a connecting beam; the upper surface of the beam is provided with a first steel rail; the cart assembly is provided with a first wheel which is in contact with the first steel rail; the inner side of one beam is provided with a sliding contact line, and the other beam is provided with a cart positioning component.

Furthermore, the cart assembly comprises two cart walking beams, and a cart walking motor is mounted on each cart walking beam; the cart walking beam is bolted and fixed through two connecting beams, and a second steel rail is welded on the connecting beams; the trolley assembly is provided with a second wheel which is in contact with the second steel rail; a trolley positioning component is arranged on one side face of one connecting beam, a tow chain fixing groove is arranged on the side face of the other connecting beam, a terminal box is arranged on the connecting beam close to one end of the tow chain fixing groove, and a sliding contact line shifting fork is arranged below the connecting beam.

Further, the trolley assembly comprises a trolley frame body and two trolley walking beams, and the trolley walking beams are fixedly connected with the trolley frame body through bolts; each trolley walking beam is provided with a trolley walking motor; a trolley induction switch frame is arranged on the side surface of one trolley walking beam, and a proximity switch is arranged on the induction switch frame and used for controlling the moving range of the trolley assembly; a drag chain frame is arranged on the side surface of the other trolley walking beam; a positioning sleeve is welded and fixed below the trolley frame body; a lifting motor is arranged above the trolley frame body; a fixed plate is installed above the trolley frame body, a steel wire rope winding drum is installed on the fixed plate, and a first steel wire rope guide wheel is installed at the upper end of the trolley frame body.

Furthermore, the lifting appliance assembly comprises a lifting appliance frame body, and lifting hook plates are arranged at two ends of the lifting appliance frame body; and a second steel wire rope guide wheel is arranged on the hanger body. The lifting appliance frame body is provided with two end faces, two end face guide assemblies are respectively arranged on each end face, and the lower ends of the end face guide assemblies are provided with infrared induction switches; a side guide assembly is arranged on the side surface of the hanger body; four positioning columns are installed above the lifting appliance frame body, and the positioning columns are clamped and sleeved in the positioning sleeves.

Further, a hydraulic station is installed on the inner side of the hanger body; the side surface of the hanger body is fixed with an oil cylinder seat through a bolt; the oil cylinder base is connected with a hydraulic oil cylinder; the hydraulic cylinder is divided into a cylinder body tail end and a telescopic shaft end, the cylinder body tail end of the hydraulic cylinder is connected with the cylinder seat through a hinged shaft, and the telescopic shaft end of the hydraulic cylinder is connected with the pin shaft seat through a pin shaft; the pin shaft seat and the hook plate are fixed together by bolts; the side surface of the hanger body is connected with a proximity switch.

Further, the operation panel assembly, including tie-beam and dolly support body downside bolt joint, tie-beam lower extreme and bottom plate welded fastening have the guardrail around the bottom plate, the control box is installed on the guardrail, gliding cat ladder about the side-mounting can.

Further, install the take-up reel on the hoist support body for accomodate the power cord that provides electric power for the hydraulic pressure station.

Compared with the prior art, the automatic kiln machine that goes out of 1x4 type double block formula sleeper forming die has following advantage:

(1) the utility model discloses an automatic kiln machine that goes out of 1x4 type double-block formula sleeper forming die, with rail beam assembly, cart assembly, dolly assembly, hoist assembly, operation panel assembly five parts are combined together, accomplish the hoist and mount to the sleeper mould, degree of automation is high, fast, the location is accurate;

(2) the utility model relates to a 1x4 type double-block sleeper forming die automatic in-out kiln machine, a lifting motor and a wire rope reel are arranged on a trolley assembly, an output shaft of the lifting motor is connected with the wire rope reel through a transmission shaft, and a lifting appliance assembly can be driven to lift by controlling the lifting motor;

(3) the utility model relates to a 1x4 type double block formula sleeper forming die automatic access kiln machine, is provided with hydraulic pressure station and hydraulic cylinder at the hoist assembly, and the hydraulic cylinder output shaft end is connected with the hook plate, the removal of accessible hydraulic cylinder drive hook plate, easy operation is convenient;

(4) the utility model relates to an automatic kiln machine that goes out of 1x4 type double-block formula sleeper forming die, it has the slot hole to open on the hook plate, is fixed with set screw in the slot hole, and the cooperation of slot hole and set screw is used, and simple installation can guarantee that the hook plate can transversely move, can restrict the range that the hook plate transversely moved again;

(5) a kiln machine is gone out automatically to 1x4 type double block formula sleeper forming die, terminal surface direction subassembly lower extreme installation infrared ray inductive switch in the hoist assembly can sense the effective range that the mould got into hoist work in hoist assembly decline process, and the decline of signaling control hoist assembly stops.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a front view of an automatic feeding and discharging kiln machine for a 1x4 type double-block sleeper forming mold according to the present invention;

FIG. 2 is a top view of FIG. 1;

FIG. 3 is a cross-sectional view F-F of FIG. 1;

FIG. 4 is a partial view at I of FIG. 3;

FIG. 5 is a partial view at II of FIG. 1;

fig. 6 is a front view of a track beam assembly according to an embodiment of the present invention;

FIG. 7 is a top view of FIG. 6;

fig. 8 is a front view of a cart assembly according to an embodiment of the present invention;

FIG. 9 is a top view of FIG. 8;

FIG. 10 is a side view of FIG. 8;

FIG. 11 is a front view of a trolley assembly according to an embodiment of the present invention;

FIG. 12 is a side view of FIG. 11;

FIG. 13 is a top view of FIG. 11;

fig. 14 is a front view of a spreader assembly according to an embodiment of the present invention;

FIG. 15 is a top view of FIG. 14;

FIG. 16 is a side view of FIG. 14;

FIG. 17 is a cross-sectional view taken at G-G of FIG. 15;

fig. 18 is a front view of the console assembly according to the embodiment of the present invention;

FIG. 19 is a side view of FIG. 18;

fig. 20 is a top view of fig. 18.

Description of reference numerals:

01. a trolley drag chain 02, a steel wire rope component 1, a guide rail beam assembly 2, a trolley assembly 3, a trolley assembly 4, a sling assembly 5, an operation platform assembly 11, a vertical column 12, a beam 13, a first steel rail 14, a first connecting beam 15, a trolley positioning component 21, a trolley walking beam 22, a trolley walking motor 23, a second connecting beam 24, a drag chain fixing groove 25, a terminal box 26, a second steel rail 27, a trolley line shifting fork 28, a first wheel 29, a trolley positioning component 31, a trolley walking beam 32, a trolley walking motor 33, a first steel wire rope guide wheel 34, a lifting motor 35, a fixing plate 36, an induction switch frame 37, a trolley frame body 38, a positioning sleeve 39, a drag chain frame 310, a steel wire rope reel 311, a transmission shaft 312, a second wheel 41, a sling frame body 42, a second steel wire rope guide wheel, 43. the device comprises positioning columns, 44, a side face guide assembly, 45, a hook plate, 46, an end face guide assembly, 47, a hydraulic station, 48, an infrared sensing switch, 49, a hydraulic oil cylinder, 410, an oil cylinder seat, 411, a proximity switch, 412, a long hole, 413, a positioning screw, 414, a hinge shaft, 415, a pin shaft, 416, a pin shaft seat, 417, a take-up reel, 51, a third connecting beam, 52, an operation box, 53, a bottom plate, 54, a guardrail, 55 and a ladder stand.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

An automatic kiln machine that goes out of 1x4 type double block formula sleeper forming die is become by five parts: the track beam assembly, cart assembly, dolly assembly, hoist assembly, operation panel assembly.

As shown in fig. 1, 2, 10 and 12, the track beam assembly 1 spans above the mold curing kiln, and the length thereof is determined according to the length of the curing kiln; the cart assembly 2 spans above the track beam assembly 1; the bottom of the cart assembly is provided with a first wheel 28, and the cart assembly 2 moves transversely along a first steel rail 13 arranged on the track beam assembly under the rotation of the first wheel 28; the cart positioning component 15 on the track beam assembly 1 limits the cart assembly 2 within a certain moving range; the bottom of the trolley assembly 3 is provided with a second wheel 312, and the trolley assembly 3 moves longitudinally along the second rail 26 above the trolley assembly 2 under the rotation of the second wheel 312.

As shown in fig. 3, 4 and 5, the spreader assembly 4 is connected by a steel cable assembly 02 mounted on the trolley assembly 3, and the lifting motor 34 drives the spreader assembly 4 to move up and down. One end of the trolley drag chain 01 is connected with the drag chain fixing groove 24, and the other end is connected and fixed with the drag chain frame 39.

As shown in fig. 6 and 7, the track beam assembly 1 includes a vertical column 11, the upper end of the vertical column 11 is bolted to two cross beams 12, and the two cross beams 12 are connected by a first connecting beam 14. Rails 13 are mounted on the upper surfaces of the cross beams 12, trolley lines are arranged on the inner sides of the two cross beams 12, and a cart positioning assembly 15 is mounted on one cross beam 12.

As shown in fig. 8, 9 and 10, the cart assembly 2 includes two cart traveling beams 21, and a cart traveling motor 22 is mounted on each cart traveling beam 21; the cart walking beam 21 is bolted and fixed through two second connecting beams 23, second steel rails 26 are welded on the second connecting beams 23, a cart positioning component is installed on the side surface of one second connecting beam 23, a tow chain fixing groove 24 is installed on the side surface of the other second connecting beam 23, and a terminal box 25 is installed on the second connecting beam 23 close to one end of the tow chain fixing groove 24; a trolley wire shifting fork 27 is arranged below the second connecting beam 23.

As shown in fig. 11, 12 and 13, the trolley assembly comprises a trolley frame body and two trolley walking beams; each trolley walking beam 31 is respectively provided with a trolley walking motor 32, and the trolley walking beam 31 is fixedly connected with a trolley frame body 37 through bolts; a trolley induction switch frame 36 is arranged on the side surface of one trolley walking beam 31, and a proximity switch is arranged on the induction switch frame 36 and used for sensing the walking position of the trolley assembly 3; a towline frame 39 is arranged on the side surface of the other trolley walking beam 31 and used for placing a trolley towline 01; a positioning sleeve 38 is welded and fixed below the trolley frame body 37; a lifting motor 34 is arranged above the trolley frame body 37; a fixing plate 35 is arranged above the trolley frame body 37, and a steel wire rope winding drum 310 is arranged on the fixing plate 35; the output shaft of the lifting motor 34 is connected with the steel wire rope winding drum 310 through a transmission shaft 311; the first steel wire rope guide wheel 33 is installed at the upper end of the trolley frame body 37, the steel wire ropes are wound on the steel wire rope winding drum 310 in order, and the steel wire ropes drive the lifting appliance assembly 4 to lift through the first steel wire rope guide wheel 33 installed on the trolley frame body 37.

As shown in fig. 14, 15 and 16, the spreader assembly 4 includes a spreader frame body 41, and hook plates 45 are installed at two ends of the spreader frame body 41; the hook plate 45 is provided with a long hole 412, and the hook plate 45 is connected to the hanger body 41 through the long hole 412 by a positioning screw 413; the hydraulic station 47 is installed inside the hanger body 41; four positioning columns 43 are installed above the hanger frame body 41, the four positioning columns 43 are used in cooperation with the positioning sleeve 38 welded below the trolley frame body 37, and a second steel wire rope guide wheel 42 is installed at the upper end of the hanger frame body 41. Two end face guide assemblies 46 are respectively arranged on two end faces of the lifting appliance frame body 41, and an infrared sensing switch 48 is arranged at the lower ends of the end face guide assemblies 46; side guide assemblies 44 are mounted on the sides of the spreader frame 41; the hoist frame 41 is provided with a take-up reel 417.

As shown in fig. 17, the cylinder base 410 is fixed on the inner side surface of the hanger body 41 by bolts, the pin shaft base 416 and the hook plate 45 are fixed together by bolts, and the cylinder base 410 is connected with the hydraulic cylinder 49; the hydraulic oil cylinder 49 is divided into a cylinder body tail end and a telescopic shaft end, the cylinder body tail end of the hydraulic oil cylinder 49 is connected with the cylinder seat 410 through a hinge shaft 414, and the telescopic shaft end of the hydraulic oil cylinder 49 is connected with a pin shaft seat 416 through a pin shaft 415; the pin shaft seat 416 is fixedly connected with the hook plate 45 through bolts; the inner side surface of the hanger body 41 is connected with a proximity switch 411.

As shown in fig. 18, 19 and 20, the third connecting beam 51 is bolted to the lower side of the carriage body 37, the lower end of the third connecting beam 51 is welded to the bottom plate 53, the guard rail 54 is welded around the bottom plate 53, the operation box 52 is mounted on the guard rail 54, and the ladder 55 which can slide up and down is mounted on the side surface.

Use the utility model relates to a concrete in-process that 1x4 type double block formula sleeper forming die hoisted sleeper forming die when going out to go into the kiln machine automatically: the steel wire ropes are wound on the steel wire rope winding drum 310 in order and pass through a first steel wire rope guide wheel 33 arranged at the upper end of the trolley frame body 37 and a second steel wire rope guide wheel 42 arranged at the upper end of the hanger frame body 41 respectively; starting a lifting motor 34 arranged on the trolley frame body 37, wherein an output shaft of the lifting motor 34 rotates to drive a steel wire rope reel 310 to rotate, and the lifting appliance assembly 4 is driven to lift through a steel wire rope; starting a hydraulic station 47 on the inner side of the hanger frame body 41, under the action of the hydraulic station 47, the hydraulic oil cylinder 49 makes telescopic motion, and as the telescopic end of the hydraulic oil cylinder 49 is connected with the pin shaft seat 416 through the pin shaft 415, the telescopic motion of the hydraulic oil cylinder 49 drives the hook plate 45 fixed on the pin shaft seat 416 to move together; because the hook plate 45 is provided with the long hole 412, under the fixing action of the positioning screw 413, the hook plate 45 slides left and right relative to the hanger body 41 in the long hole 412 formed in the hook plate 45.

In the lifting process of the lifting appliance assembly 4, the lifting hook of the lifting hook plate 45 needs to be hooked in a corresponding lifting ring of a sleeper forming die; the tie forming die position is sensed by an infrared sensing switch 48 mounted on the lower end of the end guide assembly 46 and a proximity switch 411 mounted on the hanger frame 41. When the lifting appliance assembly 4 descends, the infrared inductive switch 48 sends a signal to control the lifting appliance assembly 4 to stop descending when sensing that the sleeper forming mold enters the effective working range of the lifting appliance. Then the hydraulic pressure station is opened, and the pneumatic cylinder drives hook plate 45 and takes place the ascending motion of horizontal direction, and after proximity switch 411 sensed the sleeper forming die, the lifting hook on hook plate 45 moved to just in time the position of catching on the rings on the sleeper forming die this moment, accomplished lifting by crane to sleeper forming die.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (12)

1. The utility model provides an automatic kiln machine that goes out of 1x4 type double block formula sleeper forming die, its characterized in that: comprises a track beam assembly (1), a cart assembly (2), a trolley assembly (3), a lifting appliance assembly (4) and an operating platform assembly (5); the track beam assembly (1) spans above the mold curing kiln, the cart assembly (2) spans above the track beam assembly (1), and the cart assembly (2) is movably connected with the track beam assembly (1) through pulleys; a trolley assembly (3) is arranged on the cart assembly (2), and the trolley assembly (3) is movably connected with the cart assembly (2) through a pulley; the lifting appliance assembly (4) is positioned below the trolley assembly (3), and the lifting appliance assembly (4) is connected with the trolley assembly (3) through a steel wire rope assembly (02); the trolley assembly (3) is provided with a lifting motor (34) and two steel wire rope drums (310), and an output shaft of the lifting motor (34) is connected with the steel wire rope drums (310) through a transmission shaft (311); the trolley assembly (3) is provided with a first steel wire rope guide wheel (33), the lifting appliance assembly (4) is provided with a second steel wire rope guide wheel (42), and the first steel wire rope guide wheel (33) and the second steel wire rope guide wheel (42) are connected in a winding mode through a steel wire rope; the lifting appliance assembly (4) is provided with a lifting hook plate (45), a hydraulic station (47), an infrared sensing switch (48) and a hydraulic oil cylinder (49); the hydraulic station (47) is connected with a hydraulic oil cylinder (49), and the output shaft end of the hydraulic oil cylinder (49) is connected with the hook plate (45).

2. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the track beam assembly (1) is provided with a first steel rail (13), the cart assembly (2) is provided with a first wheel (28), and the first wheel (28) is in contact with the first steel rail (13); the cart assembly is provided with a second steel rail (26), the cart assembly (3) is provided with a second wheel (312), and the second wheel (312) is in contact with the second steel rail (26).

3. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the track beam assembly (1) comprises an upright post (11), the upper end of the upright post (11) is bolted with two cross beams (12), and the two cross beams (12) are connected through a first connecting beam (14); a first steel rail (13) is arranged on the upper surface of the beam (12); sliding contact lines are arranged on the inner sides of the two cross beams (12); a cart positioning component (15) is arranged on the cross beam (12).

4. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the cart assembly (2) comprises two cart walking beams (21), and a cart walking motor (22) is mounted on each cart walking beam (21); the cart walking beam (21) is bolted and fixed through two second connecting beams (23); a plurality of first wheels (28) are arranged below the cart walking beam (21); a second steel rail (26) is welded on the second connecting beam (23); a trolley positioning component is arranged on the side surface of one second connecting beam (23), and a drag chain fixing groove (24) is arranged on the side surface of the other second connecting beam (23); a terminal box (25) is arranged on the second connecting beam (23) close to one end of the tow chain fixing groove (24); a trolley line shifting fork (27) is arranged below the second connecting beam (23).

5. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the trolley assembly (3) comprises a trolley frame body (37) and two trolley walking beams (31); the trolley walking beam (31) is fixedly connected with the trolley frame body (37) through bolts; a positioning sleeve (38) is welded and fixed below the trolley frame body (37); each trolley walking beam (31) is provided with a trolley walking motor (32); a plurality of second wheels (312) are arranged below each trolley walking beam (31); an inductive switch frame (36) is arranged on the side surface of one trolley walking beam (31), and a drag chain frame (39) is arranged on the side surface of the other trolley walking beam (31); a lifting motor (34) is arranged above the trolley frame body (37); fixed plate (35) are installed to dolly support body (37) top, install wire rope reel (310) on fixed plate (35), first wire rope leading wheel (33) are installed to dolly support body (37) upper end.

6. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the lifting appliance assembly (4) comprises a lifting appliance frame body (41), and lifting hook plates (45) are arranged at two ends of the lifting appliance frame body (41); a second steel wire rope guide wheel (42) is installed at the upper end of the hanger body (41); the lifting appliance frame body (41) is provided with two end faces, each end face is provided with two end face guide assemblies (46), and the lower ends of the end face guide assemblies (46) are provided with infrared sensing switches (48); a side guide assembly (44) is arranged on the side surface of the hanger frame body (41); a proximity switch (411) is arranged on the side surface of the hanger body (41).

7. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper forming according to claim 6, wherein: a hydraulic station (47) is arranged on the inner side of the hanger body (41); the side surface of the hanger frame body (41) is provided with an oil cylinder seat (410); the oil cylinder base (410) is connected with a hydraulic oil cylinder (49); the hydraulic oil cylinder (49) is divided into a cylinder body tail end and a telescopic shaft end, the cylinder body tail end of the hydraulic oil cylinder (49) is connected with the cylinder seat (410) through a hinge shaft (414), the telescopic shaft end of the hydraulic oil cylinder (49) is connected with a pin shaft seat (416) through a pin shaft (415), and the pin shaft seat (416) is fixedly connected with the hook plate (45) through a bolt.

8. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the hook plate (45) is provided with a long hole (412), and the hook plate (45) is connected to the hanger body (41) through a positioning screw (413) penetrating through the long hole (412).

9. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper forming according to claim 6, wherein: four positioning columns (43) are installed above the lifting appliance frame body (41), and the positioning columns (43) are clamped and sleeved in the positioning sleeves (38).

10. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper molding according to claim 1, wherein: the operating platform assembly (5) comprises a third connecting beam (51), an operating box (52), a bottom plate (53), a guardrail (54) and a ladder stand (55); the third connecting beam (51) is bolted with the lower side of the trolley frame body (37); the lower end of the third connecting beam (51) is welded and fixed with the bottom plate (53); a guardrail (54) is welded around the bottom plate (53), and the operation box (52) is installed on the guardrail (54); a ladder stand (55) capable of sliding up and down is arranged on the side surface of the guardrail (54).

11. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper forming according to claim 5, wherein: the inductive switch frame (36) is provided with a proximity switch.

12. The automatic mold feeding and discharging machine for the 1x4 type dual-block sleeper forming according to claim 6, wherein: the lifting appliance frame body (41) is provided with a take-up reel (417).

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