CN209758333U - Universal guide rail machining conveying line - Google Patents

Abstract

The utility model discloses a general guide rail processing transfer chain, including conveyor assembly one and conveyor assembly two, connect through defeated material frame between conveyor assembly one, the conveyor assembly two, conveyor assembly one is including the material loading sideslip frame that links to each other in order, step-by-step sideslip mechanism, vertical frame, and conveyor assembly two is including the step-by-step sideslip mechanism that links to each other in order, vertical frame, defeated work or material rest, the utility model discloses have conveyor assembly one and conveyor assembly two, be responsible for the processing at guide rail both ends respectively. Because the feeding carrier roller, the transverse moving drag rod and the cross beam are all five. And the distance between the feeding carrier rollers, the distance between the transverse moving drag rods and the minimum distance between the cross beams are not less than the length of the workpiece to be processed, and the distance between the side close to the processing equipment is smaller than the distance between the side far away from the processing equipment. Therefore, the processing requirements of the guide rail with the standard size and the guide rail with the short size can be met simultaneously, the whole conveying process is rapid and efficient, the automation degree is higher, the processing efficiency is improved, and the equipment cost is reduced.

Description

Universal guide rail machining conveying line

Technical Field

The utility model relates to a general guide rail processing transfer chain belongs to elevator guide rail processing equipment technical field.

Background

A standard elevator guide rail is usually 5 meters long, and in the installation process, a plurality of standard guide rails are connected in series in sequence, but in the actual installation process, the actual length to be installed is usually not equal to a multiple of 5, and at this time, at least one non-standard guide rail, namely a short guide rail, is needed. Because elevator guide rail's both ends are equipped with negative falcon and positive falcon of mutually supporting respectively, consequently can't take the mode of on-the-spot cutting to acquire the short length guide rail, that is to say the short length guide rail also need carry out the tip processing in the mill.

In the prior art, a standard elevator guide rail is usually processed by adopting a standard production line, the standard production line cannot meet the processing requirement of a short guide rail, the processing of the short guide rail in the prior art cannot go up the production line, and the processing efficiency of the short guide rail is reduced.

SUMMERY OF THE UTILITY MODEL

for solving the not enough of prior art, the utility model aims to provide a general guide rail processing transfer chain.

in order to achieve the above object, the utility model adopts the following technical scheme:

A universal guide rail processing conveying line is characterized by comprising a first conveying assembly and a second conveying assembly, wherein the first conveying assembly and the second conveying assembly are connected through a conveying frame, the first conveying assembly comprises a feeding transverse moving frame, a stepping transverse moving mechanism and a longitudinal frame which are sequentially connected, the second conveying assembly comprises a stepping transverse moving mechanism, a longitudinal frame and a conveying frame which are sequentially connected, the feeding transverse moving frame comprises a plurality of feeding carrier rollers which are arranged in parallel, the stepping transverse moving mechanism comprises a connecting rod, a lifting device, a transverse moving pushing device, a plurality of transverse moving support rods and a plurality of lifting shafts which are arranged in parallel, the transverse moving support rods are perpendicular to the lifting shafts, and a plurality of workpiece buckles which are distributed at equal intervals are arranged on the upper surfaces of the transverse moving support rods;

The lifting shaft is provided with a first lifting shaft extension part and a second lifting shaft extension part, the lifting device is connected with the second lifting shaft extension part and a connecting rod, the connecting rod is connected with the second lifting shaft extension part, the transverse moving pushing device is connected with all transverse moving towing rods through transverse moving push rods, the transverse moving towing rods are connected with the first lifting shaft extension part, the upper surfaces of the transverse moving towing rods are provided with workpiece buckles distributed at equal intervals, the longitudinal frame comprises a plurality of parallelly arranged cross beams, the upper surfaces of the cross beams are provided with the workpiece buckles and the concave rollers, and the distance between the adjacent workpiece buckles and the concave rollers on the cross beams is equal to the distance between the adjacent workpiece buckles on the transverse moving towing rods.

preferably, preceding, universal guide rail processing transfer chain, its characterized in that vertically erect three rows of concave rollers, every row of processing equipment link of concave roller still is equipped with and presss from both sides tight feeding mechanism, it includes die clamping cylinder and pay-off deflector roll to press from both sides tight feeding mechanism, die clamping cylinder is connected to the pay-off deflector roll, die clamping cylinder is used for pressing from both sides tight work piece.

Preferably, the universal guide rail processing conveying line is characterized in that the number of the feeding carrier rollers, the transverse moving towing rods and the transverse beams is five.

Preferably, the universal guide rail processing conveying line is characterized in that the end part of the connecting end of the feeding carrier roller of the transverse moving towing rod is provided with an end part caliper.

Preferably, the universal guide rail machining conveyor line is characterized in that the transverse moving pushing device is a hydraulic cylinder, and a piston rod of the hydraulic cylinder is connected with a transverse moving push rod.

Preferably, the universal guide rail machining conveyor line is characterized in that the lifting device is a hydraulic cylinder, and a piston rod of the hydraulic cylinder is connected to the second lifting shaft extending part through a pin shaft.

Preferably, the universal guide rail processing conveying line is characterized in that the second conveying assembly is further connected with a blanking cross sliding frame through a material conveying frame.

Preferably, the processing and conveying line for the universal guide rail is characterized in that a row of concave rollers, closest to the feeding cross sliding frame, of the conveying assembly I are further connected with a concave roller support, and the concave roller support is provided with a plurality of concave rollers.

Preferably, the universal guide rail machining conveyor line is characterized in that the lifting shaft extension part is connected to the lower surface of the transverse moving drag rod through a roller.

The utility model discloses the beneficial effect who reaches:

The utility model discloses have conveying assembly one and conveying assembly two, be responsible for the processing at guide rail both ends respectively. Because the feeding carrier roller, the transverse moving drag rod and the cross beam are all five. And the distance between the feeding carrier rollers, the distance between the transverse moving drag rods and the minimum distance between the cross beams are not less than the length of the workpiece to be processed, and the distance between the side close to the processing equipment is smaller than the distance between the side far away from the processing equipment. Therefore, the processing requirements of the guide rail with the standard size and the guide rail with the short size can be met simultaneously, the whole conveying process is rapid and efficient, the automation degree is higher, the processing efficiency is improved, and the equipment cost is reduced.

Drawings

FIG. 1 is a general plan view of the present invention;

FIG. 2 is a first configuration of the transfer assembly of the present invention (without the female roller support);

FIG. 3 is a structural diagram of a second embodiment of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 (pinch feed mechanism);

The meaning of the reference symbols in the figures: 1-feeding a transverse moving frame; 2-longitudinal frame; 3-step transverse moving mechanism; 4-blanking transverse moving frame; 5-conveying frame; 21-a cross beam; 22-clamping and feeding mechanism; 31-lifting shaft; 311-lifting shaft extension part one; 312-lifting shaft extension part two; 201-workpiece buckling; 202-concave roller; 301-end clamp; 32-connecting rod; 33-lifting means; 34-a traverse pushing device; 35-transversely moving the towing rod; 221-a feeding guide roller; 36-concave roller holder; 11-a feeding carrier roller; 331-traversing the push rod; 221-a clamping cylinder; 222-feed guide rollers.

Detailed Description

The present invention will be further described with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 to 3: the embodiment discloses a universal guide rail processing conveying line, which comprises a first conveying assembly and a second conveying assembly, wherein the first conveying assembly and the second conveying assembly are connected through a conveying frame 5, the first conveying assembly comprises a feeding transverse moving frame 1, a stepping transverse moving mechanism 3 and a longitudinal frame 2 which are sequentially connected, the second conveying assembly comprises a stepping transverse moving mechanism 3, a longitudinal frame 2 and a conveying frame 5 which are sequentially connected, the feeding transverse moving frame 1 comprises a plurality of feeding carrier rollers 11 which are arranged in parallel, the stepping transverse moving mechanism 3 comprises a connecting rod 32, a lifting device 33, a transverse moving pushing device 34, a plurality of transverse moving support rods 35 and a plurality of lifting shafts 31 which are arranged in parallel, the transverse moving support rods 35 are perpendicular to the lifting shafts 31, and the upper surfaces of the transverse moving support rods 35 are provided with a plurality of workpiece buckles 201 which are distributed at equal intervals; the cross-section of elevator guide rail is the T type, and work piece buckle 201 is used for supporting the old elevator guide rail of back-off.

The lifting shaft 31 is provided with a first lifting shaft extension part 311 and a second lifting shaft extension part 312, the lifting device 33 is connected with the second lifting shaft extension part 312 and the connecting rod 32, the connecting rod 32 is connected with the second lifting shaft extension part 312, the transverse pushing device 34 is connected with all transverse sliding pull rods 35 through transverse sliding push rods 331, the transverse sliding pull rods 35 are connected with the first lifting shaft extension part 311, the upper surfaces of the transverse sliding pull rods 35 are provided with workpiece buckles 201 which are distributed at equal intervals, the longitudinal frame 2 comprises a plurality of cross beams 21 which are arranged in parallel, the upper surfaces of the cross beams 21 are provided with workpiece buckles 201 and concave rollers 202, and the distance between the adjacent workpiece buckles 201 and the concave rollers 202 on the cross beams 21 is equal to the distance between the adjacent workpiece buckles 201 on the transverse.

The longitudinal frame 2 is provided with three rows of concave rollers 202, defined here as perpendicular to the direction of the cross-members 21, that is to say that the concave rollers 202 in a row must be distributed on different cross-members 21 and collinear. Three rows are provided because the end of each elevator guide rail requires three stations (a 1, B1, C1 in that order) to be machined.

Specifically, the processing equipment connecting end of each row of concave rollers 202 is further provided with a clamping and feeding mechanism 22, as shown in fig. 4: the clamping and feeding mechanism 22 includes a clamping cylinder 221 and a feeding guide roller 222, the feeding guide roller 222 is connected to the clamping cylinder 221, and when the clamping cylinder 221 is operated, the workpiece is clamped by the feeding guide roller 222 and slides on the feeding guide roller 222 under the driving of a driving device (such as a cylinder or a hydraulic cylinder), so as to achieve processing and feeding.

The feeding carrier roller 11, the transverse moving tow bar 35 and the cross beam 21 of the embodiment are all five. The distance between the loading carrier rollers 11, the distance between the transverse moving support rods 35 and the distance between the cross beams 21 need to meet the processing requirements of workpieces, the minimum distance is not less than the length of the workpiece to be processed, and the distance close to the processing equipment side is less than the distance far away from the processing equipment side.

The connecting end of the feeding carrier roller 11 of the transverse moving towing rod 35 is also provided with an end clamp 301, and the end clamp 301 has a larger oblique angle relative to the workpiece buckle 201, so that the guide rail can conveniently enter the interior of the end clamp.

Specifically, the transverse moving pushing device 34 is a hydraulic cylinder, a piston rod of the hydraulic cylinder is connected to the transverse moving push rod 331, the lifting device 33 is a hydraulic cylinder, and a piston rod of the hydraulic cylinder is connected to the second lifting shaft extension part 312 through a pin shaft.

The second conveying component is also connected with a blanking cross sliding frame 4 through a material conveying frame 5. The blanking transverse moving frame 4 is used for placing the processed workpieces.

As shown in fig. 3: the row of concave rollers 202 of the first conveying assembly, which is closest to the feeding cross sliding frame 1, is also connected with a concave roller bracket 36, and the concave roller bracket 36 is provided with a plurality of concave rollers 202. The concave rollers 202 on the concave roller support 36 are used to support the machining of the workpiece at the AI station.

Lift axle extension one 311 is preferably attached to the lower surface of the traversing carriage 35 by rollers. The roller changes the sliding between the lifting shaft extension part 311 and the transverse moving drag rod 35 into rolling, and can reduce the driving power consumption and the equipment abrasion.

when the workpiece feeding device is used, a workpiece is firstly placed on the feeding transverse frame 1, the processing side of the workpiece faces the feeding transverse frame 1, and the feeding transverse frame 1 conveys the workpiece to the end, closest to the stepping transverse mechanism 3, of the feeding transverse frame 1. At this time, the lifting device 33 drives the lifting shaft 31 to rotate through the second lifting shaft extension part 312, the lifting shaft 31 rotates to enable the transverse moving towing rod 35 of the first lifting shaft extension part 311 to ascend, then the transverse moving towing rod 35 is driven to ascend, the end clamp 301 of the transverse moving towing rod 35 lifts the workpiece to be processed at the end of the feeding transverse moving frame 1, at this time, the transverse moving pushing device 34 operates to drive the stepping transverse moving mechanism 3 to move, then the lifting device 33 drives the transverse moving towing rod 35 to fall down, the workpiece to be processed is placed on the next row of workpiece buckles 201, at this time, if the row of workpiece buckles 201 are just positioned at the station where the processing equipment is positioned (if yes, the clamping and feeding mechanism 22 is arranged), the workpiece is clamped through the clamping and feeding mechanism 22 and is conveyed into the processing equipment for processing. The above operations are repeated, the lifting device 33 and the traverse pushing device 34 do not operate once, and the workpiece advances one step forward, and when the workpiece advances to the station where the tool and equipment are located, the workpiece is processed by being clamped by the clamping and feeding mechanism 22. After one end is machined, the workpiece is conveyed to the second conveying assembly through the material conveying frame 5, and the working process of the second conveying assembly is the same as that of the first conveying assembly, so that the details are not repeated.

The utility model discloses have conveying assembly one and conveying assembly two, be responsible for the processing at guide rail both ends respectively. The number of the feeding carrier rollers 11, the transverse moving tow rods 35 and the cross beam 21 is five. And the distance between the loading carrier rollers 11, the distance between the transverse moving support rods 35 and the minimum distance between the cross beams 21 are not less than the length of the workpiece to be processed, and the distance between the side close to the processing equipment is smaller than the distance between the side far away from the processing equipment. Therefore, the machining requirements of the guide rail with the standard size and the guide rail with the short size can be met simultaneously, and the whole working process is rapid, efficient and high in automation degree.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be considered as the protection scope of the present invention.

Claims (9)

1. A universal guide rail processing and conveying line is characterized by comprising a first conveying assembly and a second conveying assembly, the first conveying component and the second conveying component are connected through a material conveying frame (5), the first conveying component comprises a feeding transverse moving frame (1), a stepping transverse moving mechanism (3) and a longitudinal frame (2) which are connected in sequence, the conveying component II comprises a stepping transverse moving mechanism (3), a longitudinal frame (2) and a material conveying frame (5) which are connected in sequence, the feeding cross sliding frame (1) comprises a plurality of feeding carrier rollers (11) which are arranged in parallel, the stepping transverse moving mechanism (3) comprises a connecting rod (32), a lifting device (33), a transverse moving pushing device (34), a plurality of transverse moving towing rods (35) and a plurality of lifting shafts (31) which are arranged in parallel, the transverse moving drag rod (35) is perpendicular to the lifting shaft (31), and a plurality of workpiece buckles (201) which are distributed at equal intervals are arranged on the upper surface of the transverse moving drag rod (35);

The lifting shaft (31) is provided with a first lifting shaft extension part (311) and a second lifting shaft extension part (312), the lifting device (33) is connected with the second lifting shaft extension part (312) and the connecting rod (32), the connecting rod (32) is connected with a second lifting shaft extension part (312), the transverse moving pushing device (34) is connected with all transverse moving towing rods (35) through a transverse moving push rod (331), the transverse moving drag rod (35) is connected with a first lifting shaft extension part (311), the upper surface of the transverse moving drag rod (35) is provided with workpiece buckles (201) which are distributed at equal intervals, the longitudinal frame (2) comprises a plurality of cross beams (21) which are arranged in parallel, the upper surfaces of the cross beams (21) are provided with workpiece buckles (201) and concave rollers (202), and the distance between the adjacent workpiece buckles (201) and the concave rollers (202) on the cross beams (21) is equal to the distance between the adjacent workpiece buckles (201) on the transverse moving towing rod (35).

2. The universal guide rail machining conveyor line according to claim 1, wherein the longitudinal frame (2) is provided with three rows of concave rollers (202), the machining equipment connecting end of each row of concave rollers (202) is further provided with a clamping and feeding mechanism (22), the clamping and feeding mechanism (22) comprises a clamping cylinder (221) and a feeding guide roller (222), the feeding guide roller (222) is connected with the clamping cylinder (221), and the clamping cylinder (221) is used for clamping a workpiece.

3. The universal guide rail machining conveyor line as claimed in claim 1, wherein the number of the loading carrier rollers (11), the transverse moving drag rods (35) and the cross beams (21) is five.

4. A universal guide rail machining conveyor line as claimed in claim 1, wherein the end of the loading idler (11) connected to the traversing tow bar (35) is further provided with an end clamp (301).

5. A universal rail processing conveyor line as claimed in claim 1 wherein said traverse pushing means (34) is a hydraulic cylinder having a piston rod connected to a traverse pusher (331).

6. The universal rail processing conveyor line according to claim 1 or 5, wherein the lifting device (33) is a hydraulic cylinder, and a piston rod of the hydraulic cylinder is connected to the second lifting shaft extension (312) through a pin.

7. The universal guide rail machining conveyor line according to claim 1, wherein the second conveying assembly is further connected with the blanking cross moving frame (4) through a conveying frame (5).

8. A universal guide rail machining conveyor line according to claim 2, characterized in that the row of concave rollers (202) closest to the loading cross frame (1) is further connected with a concave roller support (36), and the concave roller support (36) is provided with a plurality of concave rollers (202).

9. A universal rail machining conveyor line as claimed in claim 1 wherein the first lift shaft extension (311) is connected to the lower surface of the cross-travel drag bar (35) by rollers.