CN211440531U - Track plate spiral rib sleeve mounting machine - Google Patents

Abstract

The application provides a track plate spiral rib sleeve mounting machine which comprises a guide rail, a truss cross beam, a sleeve mounting assembly, a transverse moving guide rail and a transverse moving motor; the sleeve mounting assembly can move along a transverse moving guide rail on the truss beam; the sleeve mounting assembly comprises a lifting mechanism, a cross rod, a pressing cylinder and a sucker, and the lifting mechanism can drive the cross rod to lift; be provided with a plurality of cylinders that compress tightly on the horizontal pole, be connected with the sucking disc that can absorb spiral muscle sheathed tube on compressing tightly the telescopic link of cylinder. The truss cross beam is driven to move on the guide rail through the moving motor, the sleeve mounting assembly is driven to move on the transverse moving guide rail through the transverse moving motor, the sleeve mounting assembly can move above positioning columns in different rows on the die, and the sucking discs capable of sucking sleeves are driven by the lifting motor to move up and down, so that the sleeves are accurately placed on the positioning columns; after the sleeve pipe is placed on the positioning column, the pressing air cylinder is started to press the sleeve pipe on the positioning column, and therefore the problem that the failure rate of manually installing the spiral rib sleeve pipe is high is solved.

Description

Track plate spiral rib sleeve mounting machine

Technical Field

The application relates to the technical field of track slab production, in particular to a track slab spiral rib sleeve mounting machine.

Background

The track slab is a slab body in a structural form and is used for supporting and fixing a steel rail and distributing the load transmitted by the train through the steel rail to a novel under-rail component of a slab under-base. In order to reserve the positioning and mounting positions of other devices on the track slab, before the track slab is cast, a spiral rib sleeve is preset in a mold, and after the track slab is cast, the spiral rib sleeve is used for positioning and mounting other components. A plurality of sleeve installation positions are arranged on a mold of the track plate, and a positioning column is arranged on each installation position in advance in order to fix the sleeve positions.

Among the prior art, generally adopt artifical mode to carry out the installation of spiral muscle sheathed tube, during the installation, place the spiral muscle sleeve pipe on the reference column now, then use the rubber hammer to tap spiral muscle sheathed tube top, make the spiral muscle sleeve pipe can look after and fix on the reference column, prevent when concreting, lead to the sheathed tube position of spiral muscle to remove. However, if the force of the manual striking is large, on one hand, the spiral rib sleeve can be damaged, and on the other hand, the spiral rib sleeve is too tightly combined with the positioning column, so that the demolding difficulty is increased, or the spiral rib sleeve is damaged during demolding.

In order to avoid the problem, when the spiral rib sleeve is required to be installed, the installation tightness of the spiral rib sleeve and the positioning column is guaranteed, namely, the force for knocking the spiral rib sleeve is controlled, however, the spiral rib sleeve is installed in a manual mode, the knocking force is difficult to control, the installation efficiency is low, and the sleeve installation failure is easily caused.

SUMMERY OF THE UTILITY MODEL

The application provides a track board spiral muscle sleeve pipe mounting plate to among the solution prior art, the problem that artifical installation spiral muscle sleeve pipe failure rate is high.

The application provides a track plate spiral rib sleeve mounting machine which comprises guide rails arranged on two sides of a mold, and two truss beams arranged on the guide rails, wherein two ends of each truss beam are provided with a moving motor; the truss beam moves along the guide rail through the moving motor, the truss beam further comprises a sleeve mounting assembly, and a transverse moving guide rail and a transverse moving motor are further arranged on the truss beam;

the transverse moving motor can move on the transverse moving guide rail, two ends of the sleeve installation assembly are connected with one transverse moving motor, and the transverse moving motor connected with the two ends moves along the transverse moving guide rail on the truss beam;

the sleeve mounting assembly comprises a lifting mechanism, a cross rod, a pressing cylinder and a sucker; the number of the lifting mechanisms is two, the two lifting mechanisms are respectively connected to the two transverse moving motors, and the cross rod is connected between the two lifting mechanisms and can drive the cross rod to lift;

the horizontal pole is provided with a plurality of compress tightly the cylinder, is provided with on every telescopic link that compresses tightly the cylinder the sucking disc to absorb spiral muscle sleeve pipe.

Optionally, the device further comprises a feeding mechanism, wherein the feeding mechanism is arranged below the guide rail on one side of the mold;

the feeding mechanism comprises a feeding conveyer belt and a plurality of rows of feeding columns; the multiple rows of the feeding columns are arranged on the feeding conveying belt, and the number of the feeding columns in each row is the same as that of the positioning columns in each row in the mold so as to place the spiral rib sleeves.

Optionally, the lifting mechanism comprises a lifting motor, a transmission screw and a lifting rod;

the transmission screw is connected with the transverse moving motor through a screw nut, two ends of the transmission screw are connected with the lifting rods, and the lower ends of the two lifting rods are respectively connected with two ends of the transverse rod.

Optionally, the number of the pressing cylinders arranged on the cross bar is the same as that of the positioning columns arranged on each row of the mold.

Optionally, still include positioner, positioner's quantity is two, all sets up on mould transportation track to fix a position the mould both ends.

Optionally, the positioning device includes a positioning motor and a positioning block; the positioning block is connected with the positioning motor to clamp the two ends of the mold.

Optionally, the device further comprises a mould conveying line; the mould conveying line comprises a mould conveying vehicle and a conveying track; the mould transport vehicle is arranged on the transport track and can move along the transport track.

According to the technical scheme, the track plate spiral rib sleeve mounting machine comprises guide rails arranged on two sides of a mold, and two truss beams arranged on the guide rails, wherein two ends of each truss beam are provided with a moving motor; the truss beam moves along the guide rail through the moving motor, the truss beam further comprises a sleeve mounting assembly, and a transverse moving guide rail and a transverse moving motor are further arranged on the truss beam; the transverse moving motor can move on the transverse moving guide rail, two ends of the sleeve installation assembly are connected with one transverse moving motor, and the transverse moving motor connected with the two ends moves along the transverse moving guide rail on the truss beam; the sleeve mounting assembly comprises a lifting mechanism, a cross rod, a pressing cylinder and a sucker; the number of the lifting mechanisms is two, the two lifting mechanisms are respectively connected to the two transverse moving motors, and the cross rod is connected between the two lifting mechanisms and can drive the cross rod to lift; the horizontal pole is provided with a plurality of compress tightly the cylinder, is provided with on every telescopic link that compresses tightly the cylinder the sucking disc to absorb spiral muscle sleeve pipe.

In practical application, the truss beam is driven to move on the guide rail through the moving motor so that the sleeve mounting assembly moves above a sleeve mounting position on a mold, the sleeve mounting assembly is driven to move on the transverse moving guide rail through the transverse moving motor so that the sleeve mounting assembly can move above positioning columns on different rows on the mold, and the lifting motor drives a sucker capable of sucking sleeves to move up and down, so that the sleeves are accurately placed on the positioning columns, and the inclination condition in the placing process is avoided; after the sleeve is placed on the positioning column, the pressing cylinder is started to press the sleeve on the positioning column, pressing force of the pressing cylinder can be set as required, constant-force pressing of the sleeve is guaranteed, the sleeve is prevented from being installed on the positioning column too tightly or too loosely, the sleeve is installed in a die quickly, installation quality of the sleeve is guaranteed, and the problem that failure rate of manual installation of the spiral rib sleeve is high is solved

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of a track slab spiral rib casing mounting machine according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a sleeve mounting assembly of a track slab spiral rib sleeve mounting machine according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a lifting mechanism of a track plate spiral rib sleeve mounting machine according to an embodiment of the present disclosure;

fig. 4 is a schematic structural view of a pressing cylinder of a track plate spiral rib sleeve mounting machine according to an embodiment of the present application.

Illustration of the drawings:

the device comprises a guide rail 1, a truss beam 2, a moving motor 3, a sleeve 4, a lifting mechanism 41, a lifting motor 411, a transmission screw 412, a lifting rod 413, a cross rod 42, a pressing cylinder 43, a sucker 44, a transverse moving guide rail 5, a transverse moving motor 6, a feeding mechanism 7, a feeding conveyer belt 71, a feeding column 72, a positioning device 8, a positioning motor 81, a positioning block 82, a mold conveying line 9, a mold conveying vehicle 91 and a conveying rail 92.

Detailed Description

Fig. 1 is a schematic overall structural diagram of a track slab spiral rib casing installation machine according to an embodiment of the present application.

Referring to fig. 4, a schematic structural diagram of a pressing cylinder of a track plate spiral rib sleeve mounting machine according to an embodiment of the present application is shown.

In order to solve the problem of high failure rate of manual installation of a spiral rib sleeve in the prior art, as shown in fig. 1 and 4, the installation machine for the spiral rib sleeve of the track slab provided by the embodiment of the application comprises guide rails 1 arranged on two sides of a mold, and two truss beams 2 arranged on the guide rails 1, wherein two ends of each truss beam 2 are respectively provided with a moving motor 3; the truss crossbeam 2 moves along the guide rail 1 through the moving motor 3, and further comprises a sleeve mounting assembly 4, and a transverse moving guide rail 5 and a transverse moving motor 6 are further arranged on the truss crossbeam 2; the traversing motor 6 can move on the traversing guide rail 5, two ends of the sleeve installation component 4 are connected with one traversing motor 6, and the traversing motor 6 connected with two ends moves along the traversing guide rail 5 on the truss beam 2; the sleeve mounting assembly 4 comprises a lifting mechanism 41, a cross bar 42, a pressing air cylinder 43 and a suction cup 44; the number of the lifting mechanisms 41 is two, the two lifting mechanisms are respectively connected to the two traverse motors 6, and the cross rod 42 is connected between the two lifting mechanisms 41 and can drive the cross rod 42 to lift; the cross bar 42 is provided with a plurality of pressing cylinders 43, and the telescopic rod of each pressing cylinder 43 is provided with the suction cup 44 to suck the spiral rib sleeve.

It should be noted that, the embodiment of the present application is used for mounting the spiral rib sleeve, but the present application is not limited to the spiral rib sleeve, and other types of sleeves can be implemented as well.

When carrying out the sleeve pipe installation to the mould, because the sleeve pipe on the track board is the regular distribution, generally divide into four rows, every row needs a plurality of sleeve pipes of installation, so correspond in the mould and be provided with four rows of reference columns, the track board spiral muscle sleeve pipe mounting plate that this application provided adopts the branch row mounting means, promptly, once accomplishes the sleeve pipe installation of a row, in order to transfer sleeve pipe installation component 4's position makes a plurality of sleeve pipes of absorption on the sleeve pipe installation component 4 correspond with the mounted position of a row dress on the mould. The guide rails 1 are supported and arranged on two sides of the grinding tool through the upright posts, and the two truss cross beams 2 are movably connected on the guide rails so that the sleeve mounting assembly 4 is connected between the two truss cross beams 2, the sleeve mounting assembly 4 can work from the upper part of a mold, and meanwhile, the guide rails 1 and the truss cross beams 2 are positioned above the mold, so that the transportation of the mold can be prevented from being interfered. In order to realize the movement of the truss crossbeam 2 on the guide rail 1, a moving motor 3 is arranged on the truss crossbeam 2, and the truss crossbeam 2 is driven to move on the guide rail 1 through the moving motor 3.

In order to continuously install sleeves on a plurality of columns of positioning columns, namely after one column of sleeves is installed, the sleeve installation assembly 4 continues to install the next column of sleeves of the mold, the traverse motion motor 6 is connected with the traverse motion guide rail 5 through a sliding block, in order to ensure the stability of operation, a plurality of columns of parallel traverse motion guide rails 5 can be arranged on the truss beam 2, the plurality of columns of traverse motion guide rails 5 can be arranged on one side of the truss beam 2 or can be respectively arranged on different sides of the truss beam 2, and the output end of the traverse motion guide rail 5 is matched with a rack arranged on the truss beam 2 so as to drive the sleeve installation assembly 4 to move on the truss beam 2. Through the moving motor 3 and the transverse moving motor 6, the sleeve sucked by the sleeve mounting component 4 can be accurately moved to the upper part of the positioning column, and the sleeve can be accurately placed on the positioning column, so that the inclined condition in the placing process is avoided.

In order to place and press the sleeves on the positioning columns, the number of the lifting mechanisms 41 is two, the two lifting mechanisms are respectively connected with two ends of the cross rod 42 so as to drive the cross rod 42 to move up and down, so that the sleeves sucked on the suction cups 44 are placed at the installation positions, after the sleeves are placed in place, the suction cups 44 stop working, the sucked sleeves are loosened, then the pressing air cylinders 43 work, the telescopic rods extend out, and the sleeves are pressed on the installation positions of the die through the lower planes of the suction cups 44. It should be noted that a positioning column is reserved on the sleeve installation position of the mold, the sleeve can be fixed on the positioning column by pressing the sleeve, the top end of the sleeve is provided with a flat surface which can be sucked by a sucker, and the pressing force of the pressing cylinder 43 can be set as required, so that constant-force pressing of the sleeve is ensured, and the sleeve is prevented from being installed on the positioning column too tightly or too loosely.

In order to realize synchronous installation of a row of sleeves, the cross bar 42 is provided with a plurality of pressing air cylinders 43, the telescopic rod of each pressing air cylinder 43 is connected with a suction cup 44, and the distance between every two adjacent suction cups 44 is equal to the distance between the positioning columns on the mold.

In practical application, the truss beam 2 is driven by the moving motor 3 to move on the guide rail 1, so that the sleeve mounting assemblies 4 move above sleeve mounting positions on a mold, the sleeve mounting assemblies 4 are driven by the traversing motor 6 to move on the traversing guide rail 5, so that the sleeve mounting assemblies 4 can move above positioning columns on different rows on the mold, and the suckers 44 capable of sucking sleeves are driven by the lifting motor 411 to perform lifting motion, so that the sleeves are accurately placed on the positioning columns, and the inclination condition in the placing process is avoided; after the sleeve is placed on the positioning column, the pressing cylinder 43 is started to press the sleeve on the positioning column, the pressing force of the pressing cylinder 43 can be set according to needs, constant-force pressing of the sleeve is guaranteed, the sleeve is prevented from being installed on the positioning column too tightly or too loosely, the sleeve is installed in a die quickly, installation quality of the sleeve is guaranteed, and the problem that failure rate of manual installation of the spiral rib sleeve is high is solved.

Fig. 2 is a schematic structural diagram of a sleeve mounting assembly of a track plate spiral rib sleeve mounting machine according to an embodiment of the present application.

In order to realize continuous installation of the sleeve of the mold so as to improve the installation efficiency, as shown in fig. 1 and fig. 2, in some embodiments of the present application, the present application further includes a feeding mechanism 7, and the feeding mechanism 7 is disposed below the guide rail 1 on one side of the mold; the feeding mechanism 7 comprises a feeding conveyer belt 71 and a plurality of rows of feeding columns 72; the multiple rows of the feeding columns 72 are arranged on the feeding conveying belt 71, and the number of the feeding columns 72 in each row is the same as that of the positioning columns in each row in the mold so as to place the spiral rib sleeves.

The feeding mechanism 7 is arranged at one side of the mould and below the guide rail 1, so that a part of the truss beam 2 extends above the feeding mechanism 7, thereby enabling the sleeve mounting assembly 4 to move to suck the sleeve above the feeding mechanism 7. In order to complete the casing suction of the casing mounting assembly 4 at one time, the number of the feeding columns 72 in each row is the same as that of the positioning columns in each row on the mold and the distance between the positioning columns in each row, the casings are placed on the feeding columns 72, and the plane of the upper end tool suction of the casings is upward; the intermittent movement of the feeding conveyer belt 71 ensures that after the casing pipe installation assembly 4 sucks the casing pipe each time, the feeding conveyer belt 71 drives the plurality of rows of the feeding columns 72 to move for a certain distance to wait for the next casing pipe suction.

Fig. 3 is a schematic structural diagram of a lifting mechanism of a track plate spiral rib sleeve mounting machine according to an embodiment of the present application.

In order to realize the lifting movement of the sleeve mounting assembly 4, as shown in fig. 3, in some embodiments of the present application, the lifting mechanism 41 includes a lifting motor 411, a transmission screw 412 and a lifting rod 413; the transmission screw 412 is connected to the traverse motor 6 through a screw nut, two ends of the transmission screw 412 are connected to the lifting rods 413, and the lower ends of the two lifting rods 413 are respectively connected to two ends of the cross rod 42.

The transmission screw 412 is screwed with a slider on the traverse motor 6, two ends of the transmission screw are respectively connected with two ends of the lifting rod 413, the lifting motor 411 is arranged at the upper end of the lifting rod 413, the output end of the lifting motor 411 is connected with the transmission screw 412, and the rotating motion of the lifting motor 411 is converted into the lifting motion of the lifting rod 413 through the matching of the lifting motor 411 and the transmission screw 412, so that the lifting motion of the sleeve installation component 4 is realized.

In some embodiments of the present application, the number of the pressing cylinders 43 provided on the cross bar 42 is the same as the number of the positioning columns provided on each row of the mold. So as to complete the sleeve installation of the positioning columns in one row at a time.

In order to ensure the accuracy of the mold reaching position and the mold does not move during the casing installation process, as shown in fig. 1, in some embodiments of the present application, the present application further includes two positioning devices 8, and the two positioning devices 8 are both disposed on the mold conveying track to position two ends of the mold. Further, the positioning device 8 comprises a positioning motor 81 and a positioning block 82; the positioning block 82 is connected with the positioning motor 81 to clamp two ends of the mold. Positioning motor 81 sets up subaerial, and connect locating piece 82 can by positioning motor 81 drives locating piece 82 carries out elevating movement, works as locating piece 82 rises the back, but the both ends of joint mould, works as locating piece 82 descends the back, positioner 8 can not influence the both ends normal removal of mould. It should be noted that a groove may be reserved on the foundation where the positioning block 82 is disposed, and when the positioning block 82 descends, the groove sinks into the reserved groove, and the positioning motor 81 may drive the positioning block 82 to move through a matching mechanism of a gear and a rack.

In some embodiments of the present application, as shown in fig. 1, a mold conveying line 9 is further included; the mold conveying line 9 includes a mold conveying vehicle 91 and a conveying rail 92; the mold carrier 91 is disposed on the transport rails 92 to be movable along the transport rails 92. In practice, the molds may be placed on the mold transport cart 91, maintained horizontally, and the mold transport cart 91 then transports the molds along the transport rails 92 to the sleeve installation station for sleeve installation.

According to the technical scheme, the track plate spiral rib sleeve mounting machine comprises guide rails 1 arranged on two sides of a mold, and two truss beams 2 arranged on the guide rails 1, wherein two ends of each truss beam 2 are provided with a moving motor 3; the truss crossbeam 2 moves along the guide rail 1 through the moving motor 3, and further comprises a sleeve mounting assembly 4, and a transverse moving guide rail 5 and a transverse moving motor 6 are further arranged on the truss crossbeam 2; the traversing motor 6 can move on the traversing guide rail 5, two ends of the sleeve installation component 4 are connected with one traversing motor 6, and the traversing motor 6 connected with two ends moves along the traversing guide rail 5 on the truss beam 2; the sleeve mounting assembly 4 comprises a lifting mechanism 41, a cross bar 42, a pressing air cylinder 43 and a suction cup 44; the number of the lifting mechanisms 41 is two, the two lifting mechanisms are respectively connected to the two traverse motors 6, and the cross rod 42 is connected between the two lifting mechanisms 41 and can drive the cross rod 42 to lift; the cross bar 42 is provided with a plurality of pressing cylinders 43, and the telescopic rod of each pressing cylinder 43 is provided with the suction cup 44 to suck the spiral rib sleeve.

In practical application, the truss beam 2 is driven by the moving motor 3 to move on the guide rail 1, so that the sleeve mounting assemblies 4 move above sleeve mounting positions on a mold, the sleeve mounting assemblies 4 are driven by the traversing motor 6 to move on the traversing guide rail 5, so that the sleeve mounting assemblies 4 can move above positioning columns on different rows on the mold, and the suckers 44 capable of sucking sleeves are driven by the lifting motor 411 to perform lifting motion, so that the sleeves are accurately placed on the positioning columns, and the inclination condition in the placing process is avoided; after the sleeve is placed on the positioning column, the pressing cylinder 43 is started to press the sleeve on the positioning column, the pressing force of the pressing cylinder 43 can be set according to needs, constant-force pressing of the sleeve is guaranteed, the sleeve is prevented from being installed on the positioning column too tightly or too loosely, the sleeve is installed in a die quickly, installation quality of the sleeve is guaranteed, and the problem that failure rate of manual installation of the spiral rib sleeve is high is solved.

The embodiments provided in the present application are only a few examples of the general concept of the present application, and do not limit the scope of the present application. Any other embodiments extended according to the scheme of the present application without inventive efforts will be within the scope of protection of the present application for a person skilled in the art.

Claims (7)

1. A track plate spiral rib sleeve mounting machine comprises guide rails (1) arranged on two sides of a mold, and two truss beams (2) arranged on the guide rails (1), wherein two ends of each truss beam (2) are respectively provided with a moving motor (3); the truss crossbeam (2) moves along the guide rail (1) through the moving motor (3), and is characterized by further comprising a sleeve mounting assembly (4), wherein the truss crossbeam (2) is also provided with a transverse moving guide rail (5) and a transverse moving motor (6);

the transverse moving motor (6) can move on the transverse moving guide rail (5), two ends of the sleeve installation assembly (4) are connected with the transverse moving motor (6), and the transverse moving motor (6) connected with the two ends moves along the transverse moving guide rail (5) on the truss beam (2);

the sleeve mounting assembly (4) comprises a lifting mechanism (41), a cross rod (42), a pressing air cylinder (43) and a sucker (44); the number of the lifting mechanisms (41) is two, the two lifting mechanisms are respectively connected to the two traverse motors (6), and the cross rod (42) is connected between the two lifting mechanisms (41) and can drive the cross rod (42) to lift;

the cross rod (42) is provided with a plurality of pressing cylinders (43), and the telescopic rod of each pressing cylinder (43) is provided with the sucker (44) so as to suck the spiral rib sleeve.

2. The track plate spiral rib sleeve mounting machine according to claim 1, further comprising a feeding mechanism (7), wherein the feeding mechanism (7) is arranged below the guide rail (1) on one side of the mold;

the feeding mechanism (7) comprises a feeding conveyer belt (71) and a plurality of rows of feeding columns (72); the multiple rows of the feeding columns (72) are arranged on the feeding conveying belt (71), and the number of the feeding columns (72) in each row is the same as that of the positioning columns in each row in the mold so as to place the spiral rib sleeves.

3. The track plate spiral rib sleeve mounting machine according to claim 1, wherein the lifting mechanism (41) comprises a lifting motor (411), a transmission screw (412) and a lifting rod (413);

the transmission screw (412) is connected with the traversing motor (6) through a screw nut, two ends of the transmission screw (412) are connected with the lifting rods (413), and the lower ends of the two lifting rods (413) are respectively connected with two ends of the cross rod (42).

4. The track plate spiral rib sleeve mounting machine according to claim 1, wherein the number of the hold-down cylinders (43) arranged on the cross bar (42) is the same as the number of the positioning columns arranged on each row of the mold.

5. The track plate spiral rib sleeve mounting machine according to claim 1, further comprising two positioning devices (8), wherein the two positioning devices (8) are arranged on the mold conveying track to position two ends of the mold.

6. The track plate spiral rib sleeve mounting machine according to claim 5, wherein the positioning device (8) comprises a positioning motor (81) and a positioning block (82);

the positioning block (82) is connected with the positioning motor (81) to clamp the two ends of the mold.

7. The track plate spiral bar sleeve mounting machine according to claim 1, further comprising a die conveyor line (9);

the mould conveying line (9) comprises a mould conveying vehicle (91) and a conveying track (92); the mould transport carriage (91) is arranged on the transport track (92) and can move along the transport track (92).

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