CN215615469U - Angle steel cutting and collecting device - Google Patents

Abstract

The utility model discloses an angle steel cutting and collecting device, which comprises a shearing machine and a mounting table arranged on the discharging side of the shearing machine; the mounting table is provided with a mounting groove penetrating through the mounting table in the width direction, a bearing cylinder is arranged in the mounting groove along the length direction of the mounting groove, two ends of the bearing cylinder are supported on the mounting table in a rotatable mode, and a driving mechanism for driving the bearing cylinder to rotate is arranged on the mounting table; the bearing cylinder is provided with a bearing groove which is arranged along the length direction of the bearing cylinder, one side of the bearing groove close to the shearing machine is provided with an opening, the bearing cylinder can rotate so that the opening end of the bearing groove is opposite to the discharge hole of the shearing machine, and two side walls of the bearing groove are provided with electromagnets which are distributed along the length direction; a movable placing rack is arranged under the bearing cylinder and comprises a bottom plate, and at least two groups of symmetrically arranged limiting columns are arranged on two sides of the bottom plate. The angle steel shearing device has the advantages of rapid collection and stacking of sheared angle steel and convenience in carrying.

Description

Angle steel cutting and collecting device

Technical Field

The utility model belongs to the technical field of power transmission tower production, and particularly relates to an angle steel cutting and collecting device.

Background

The transmission tower is a tower-shaped building for power transmission, and has the structural characteristics that various tower types belong to a space truss structure, a rod piece mainly comprises single equilateral angle steel or combined angle steel, the materials generally comprise two types of Q235 and Q345, and long-strip angle steel needs to be cut into a plurality of sections of shorter angle steel according to the length in the processing process of the angle steel. The traditional cutting mode is that the angle steel is cut by a shearing machine, the cut angle steel can fall on the ground or other platforms in a right angle mode, and the stacking of the angle steel is messy; the sheared angle steel is generally required to be subjected to subsequent processing treatment, and the sheared angle steel needs to be manually collected and stacked for use in the subsequent processing treatment; this will undoubtedly increase the labor cost, consume time and labor, and reduce the overall working efficiency.

Based on this, the applicant considers to design an angle steel cutting and collecting device, can automatically and rapidly collect the angle steel after shearing to stack the angle steel opening down and in order, use when convenient follow-up processing.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the utility model provides an angle steel cutting and collecting device, which aims to solve the technical problems that in the prior art, sheared angle steel directly falls on the bottom surface, is stacked in a mess, is inconvenient to use in subsequent processing and is time-consuming and labor-consuming in manual collection and stacking.

In order to solve the technical problems, the utility model adopts the following technical scheme:

the utility model provides an angle steel cutting collection device, includes the cutter, and the key lies in: the mounting table is arranged on the discharging side of the shearing machine;

the mounting table is provided with a mounting groove penetrating through the mounting table in the width direction, a bearing cylinder is arranged in the mounting groove along the length direction of the mounting groove, two ends of the bearing cylinder are supported on the mounting table in a rotatable mode, and a driving mechanism for driving the bearing cylinder to rotate is arranged on the mounting table; the bearing cylinder is provided with a bearing groove which is arranged along the length direction of the bearing cylinder, one side of the bearing groove, which is close to the shearing machine, is provided with an opening, the bearing cylinder can rotate so that the opening end of the bearing groove is opposite to the discharge hole of the shearing machine, and two side walls of the bearing groove are provided with electromagnets which are distributed along the length direction of the bearing groove;

the bearing cylinder is characterized in that a movable placing rack is arranged under the bearing cylinder and comprises a bottom plate, and at least two groups of symmetrically arranged limiting columns are arranged on two sides of the bottom plate.

By adopting the scheme, before working, the opening of the bearing groove is ensured to be over against the shearing opening of the shearing machine; controlling the entry of the angle steel to ensure that the angle steel to be sheared is positioned above the bearing groove; after the shearing is finished, the sheared angle steel falls onto the electromagnet in the bearing groove, and the entering of the next section of angle steel to be sheared is continuously controlled, so that the sheared angle steel is pushed to fall into the bearing groove completely; at the moment, the electromagnet is electrified to adsorb the sheared angle steel, and the bearing cylinder is controlled to rotate 180 degrees by the driving mechanism, so that the opening of the sheared angle steel faces downwards; then the electromagnet is powered off, and the sheared angle steel falls onto a bottom plate below the electromagnet; the distance between two adjacent sets of spacing posts in both sides on the bottom plate and the width looks adaptation of angle steel further guarantee that the angle steel after next shearing can overlap in proper order on the angle steel of bottom plate to the realization is to the collection of angle steel after the shearing.

Preferably, an infrared sensor for judging the length of the shearing angle steel is arranged on the inner side of the bearing groove, a pressure sensor is arranged on the inner wall of one end, away from the shearing machine, of the bearing groove, and the horizontal distance between the infrared sensor and the pressure sensor is the same as the horizontal distance between the bearing groove and the shearing opening of the shearing machine; the shearing machine is provided with a control cabinet, and the infrared sensor, the pressure sensor, the electromagnet, the shearing machine and the driving mechanism are respectively and electrically connected to the control cabinet.

By adopting the scheme, the horizontal distance between the infrared sensor and the shearing opening of the shearing machine and the length of the angle steel to be sheared are the same, but the horizontal distance between the infrared sensor and the pressure sensor and the horizontal distance between the bearing groove and the shearing opening of the shearing machine are required to be ensured to be the same;

when the angle steel is fed through the shearing machine, after the angle steel is detected by the infrared sensor, the control cabinet controls the device for feeding to stop feeding; then the control cabinet controls the shearing machine to work, after shearing is finished, the sheared angle steel falls onto the electromagnet in the bearing groove, and the next section of angle steel to be sheared is continuously controlled to enter until the sheared angle steel is contacted with the pressure sensor, after the pressure sensor detects pressure, the control cabinet controls the feeding device to stop feeding, and because the horizontal distance between the infrared sensor and the pressure sensor is the same as the horizontal distance between the bearing groove and the shearing opening of the shearing machine, the sheared angle steel completely falls into the bearing groove at the moment; at the moment, the control cabinet controls the electromagnet to be electrified to adsorb the sheared angle steel, and controls the bearing cylinder to rotate 180 degrees through the driving mechanism, so that the opening of the sheared angle steel faces downwards; then the electromagnet is powered off, and the sheared angle steel falls onto a bottom plate below the electromagnet; the distance between two adjacent sets of spacing posts in both sides on the bottom plate and the width looks adaptation of angle steel further guarantee that the angle steel after next shearing can overlap in proper order on the angle steel of bottom plate to the realization is to the automation of the collection flow of angle steel after shearing.

Preferably, the number of the bearing grooves is two, and the two bearing grooves are symmetrically arranged along the circumferential direction of the bearing cylinder; the driving mechanism comprises a first toothed plate arranged on the mounting table in a sliding mode and a driving gear which is arranged on a rotating shaft at the end part of the bearing cylinder and meshed with the first toothed plate; and the first toothed plate is connected with an electric telescopic rod for driving the first toothed plate to reciprocate along the width direction of the mounting table, and the bearing cylinder rotates clockwise by 180 degrees and anticlockwise by 180 degrees alternately.

By adopting the scheme, when the bearing cylinder rotates 180 degrees and finishes the collection operation of the sheared angle steel, the other bearing groove on the bearing cylinder is just above the bearing cylinder, and the bearing, adsorption, overturning and other operations of the sheared angle steel can be continuously prepared, so that the continuity of the whole operation is ensured, and the working efficiency is improved.

Preferably, a movable cavity is arranged in the bearing cylinder, movable holes are formed in the two side walls of the bearing groove along the length direction of the bearing groove, and the movable holes are communicated with the movable cavity; each movable hole is movably provided with a support rod, and the top of the movable hole is provided with a support wheel; the movable cavity is internally provided with a jacking mechanism for driving all the support rods to move along the length direction of the corresponding movable hole; the jacking mechanism is electrically connected to the control cabinet.

By adopting the scheme, when the shearing machine feeds materials, the jacking mechanism controls the supporting wheels on all the supporting rods to protrude out of the movable hole, the angle steel to be sheared can be supported on the supporting wheels in advance, and meanwhile, the supporting wheels play a role in guiding; after the shearing is finished, the sheared angle steel continues to move, when the pressure sensor detects pressure, the control cabinet sends a signal to the jacking mechanism, the supporting wheels on the control supporting rods retract into the movable holes, the sheared angle steel falls onto the electromagnet, and at the moment, the control cabinet continues to control subsequent operation.

Preferably, the jacking mechanism comprises supporting top plates symmetrically arranged at two sides in the movable cavity, and each supporting top plate is in sliding fit with a guide groove formed in the side wall of each end of the movable cavity; the top of each supporting top plate is connected with the supporting rod on the corresponding side, and the bottom of each supporting top plate is provided with a second toothed plate; a driving assembly for driving the two groups of supporting top plates to move simultaneously is arranged in the movable cavity; the driving assembly comprises a driving gear used for being connected with the output motor and driven gears respectively meshed with the two groups of second gear plates; one driven gear is directly meshed with the driving gear, the other driven gear is meshed with the driving gear through an intermediate gear, and the intermediate gear and the driving gear are the same in size.

By adopting the scheme, the driving gear rotates to drive one driven gear directly meshed with the driving gear to rotate and drive the other driven gear meshed with the driving gear through the intermediate gear to rotate; the middle gear and the driving gear are the same in size, the two driven gears are respectively meshed with the second gear plates on the corresponding supporting top plates, and the driven gears are matched with the corresponding second gear plates and enable the corresponding supporting top plates to slide along the guide grooves at the same time; meanwhile, all the supporting rods on the same side are arranged on the supporting top plates on the corresponding sides, and all the supporting rods on the same side can move along the movable holes by the movement of each supporting top plate.

Preferably, the mounting table is provided with two guide rails arranged along the width direction of the mounting table, the guide rails are distributed along the length direction of the mounting table, and the bottom of the bottom plate is provided with a sliding block in sliding fit with the guide rails.

By adopting the scheme, the stacking height of the angle steel is limited, so that the position of the bottom plate needs to be adjusted, the sheared angle steel can be sequentially stacked on the bottom plate, and large-batch collection is realized.

Preferably, the bottom of the bottom plate is provided with symmetrically arranged casters, a through groove is formed in the position, opposite to the casters, of the bottom of the mounting table, and the through groove is provided with an opening along one end of the mounting groove and is parallel to the guide rail.

By adopting the scheme, after the collection of the sheared angle steel is stacked by the bottom plate, an operator can directly push the bottom plate to slide out along the through groove, so that the operator can carry the steel quickly.

Preferably, a push-pull handle is arranged on one side of the bottom plate.

By adopting the scheme, the carrying operation of personnel is facilitated, and the practicability is high.

Compared with the prior art, the utility model has the beneficial technical effects that:

through the design to accepting the groove on accepting the drum, cooperation actuating mechanism carries out 180 degrees upsets to accepting the drum for angle steel after the shearing can drop to the bottom plate down, and piles up in proper order, has realized the quick collection and stack to angle steel after the shearing, makes things convenient for personnel to carry. Meanwhile, the automatic collection of the sheared angle steel is further realized by matching with a controller, so that the working efficiency is improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of fig. 1 at B.

Fig. 4 is a schematic sectional structure view of the receiving cylinder in fig. 1.

Fig. 5 is a schematic view of the overall structure of the present invention.

Labeled as:

1, shearing machine; 2, mounting a platform; 3, mounting a groove; 4, receiving the cylinder; 5, a bearing groove; 6, an electromagnet; 7, a bottom plate; 8, a limiting column; 9 an infrared sensor; 10 a pressure sensor; 11 a control cabinet; 12 driving a gear; 13 supporting frames; 14 a first toothed plate; 15, electrically driven telescopic rods; 16 a movable chamber; 17, a movable hole; 18 support rods; 19 supporting wheels; 20 supporting the top plate; 21 a guide groove; 22 a second toothed plate; 23 a drive gear; 24 a driven gear; 25 intermediate gears; 26 a guide rail; 27 a slide block; 28 casters; 29 through grooves; 30 push-pull handles; 31 for inspection of the window.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In the specific implementation:

as shown in fig. 1 to 5, an angle steel cutting and collecting device comprises a shearing machine 1, and further comprises a mounting table 2 arranged on the discharging side of the shearing machine 1; the mounting table 2 is provided with a mounting groove 3 penetrating through the mounting table in the width direction, a bearing cylinder 4 is arranged in the mounting groove 3 along the length direction of the mounting groove, two ends of the bearing cylinder 4 are supported on the mounting table 2 in a rotatable mode, and the mounting table 2 is provided with a driving mechanism for driving the bearing cylinder 4 to rotate; the bearing cylinder 4 is provided with a bearing groove 5 which is arranged along the length direction, one side of the bearing groove 5 close to the shearing machine 1 is opened, the bearing cylinder 4 can rotate to enable the opening end of the bearing groove 5 to be opposite to the discharge hole of the shearing machine 1, and two side walls of the bearing groove 5 are provided with electromagnets 6 which are distributed along the length direction; a movable placing rack is arranged under the bearing cylinder 4, the placing rack comprises a bottom plate 7, and at least two groups of symmetrically arranged limiting columns 8 are arranged on two sides of the bottom plate 7.

Therefore, before working, the opening of the bearing groove 5 is ensured to be over against the shearing opening of the shearing machine 1; controlling the entering of the angle steel to ensure that the angle steel to be sheared is positioned above the bearing groove 5; after the shearing is finished, the sheared angle steel falls onto the electromagnet 6 in the bearing groove 5, and the entering of the next section of angle steel to be sheared is continuously controlled, so that the sheared angle steel is pushed to fall into the bearing groove 5 completely; at the moment, the electromagnet 6 is electrified to adsorb the sheared angle steel, and the bearing cylinder 4 is controlled to rotate 180 degrees by the driving mechanism, so that the opening of the sheared angle steel faces downwards; then the electromagnet 6 is powered off, and the sheared angle steel falls onto a bottom plate 7 below the electromagnet; the distance between two adjacent sets of spacing post 8 in both sides on bottom plate 7 and the width looks adaptation of angle steel further guarantee that the angle steel after the next piece is cuted can overlap in proper order on the angle steel of bottom plate 7 to the realization is to the collection of angle steel after the shearing.

In the scheme, as shown in fig. 2 and 5, an infrared sensor 9 for judging the length of the shearing angle steel is arranged on the inner side of the receiving groove 5, and a pressure sensor 10 is arranged on the inner wall of one end of the receiving groove 5 far away from the shearing machine 1 (when in implementation, the pressure sensor 10 is preferably a film pressure sensor 10, and the whole end surface is covered, so that the use reliability is ensured); the horizontal distance between the infrared sensor 9 and the pressure sensor 10 is the same as the horizontal distance between the bearing groove 5 and the shearing opening of the shearing machine 1; the shearing machine 1 is provided with a control cabinet 11, and the infrared sensing and pressure sensor 10, the electromagnet 6, the shearing machine 1 and the driving mechanism are respectively and electrically connected to the control cabinet 11.

Meanwhile, as shown in fig. 2 and 4, a movable cavity 16 is arranged in the receiving cylinder 4, movable holes 17 formed in the two side walls of the receiving groove 5 along the length direction of the receiving groove are formed, and each movable hole 17 is communicated with the movable cavity 16; a support rod 18 is movably arranged in each movable hole 17, and the top of each movable hole is provided with a support wheel 19; a jacking mechanism for driving all the support rods 18 to move along the length direction of the corresponding movable holes 17 simultaneously is arranged in the movable cavity 16; the jacking mechanism is electrically connected to the control cabinet 11. The jacking mechanism comprises supporting top plates 20 which are symmetrically arranged at two sides in the movable cavity 16, and each supporting top plate 20 is in sliding fit with a guide groove 21 arranged on the side wall of two ends of the movable cavity 16; the top of each supporting top plate 20 is connected with the supporting rod 18 at the corresponding side, and the bottom of each supporting top plate is provided with a second toothed plate 22; a driving component for driving the two groups of supporting top plates 20 to move simultaneously is arranged in the movable cavity 16; the driving assembly comprises a driving gear 23 used for connecting an output motor and driven gears 24 respectively meshed with the two groups of second gear plates 22; one of the driven gears 24 is directly engaged with the driving gear 23, the other driven gear 24 is engaged with the driving gear 23 through an intermediate gear 25, and the intermediate gear 25 and the driving gear 23 are the same in size.

Thus, when the shearing machine 1 feeds, the control cabinet 11 controls the operation of the jacking mechanism, namely the driving gear 23 is driven by the output motor to rotate (the output motor is not shown in the drawings in the specification), one driven gear 24 directly meshed with the driving gear is driven to rotate, and the other driven gear 24 meshed with the driving gear is driven to rotate by the intermediate gear 25; since the intermediate gear 25 and the driving gear 23 have the same size, the two driven gears 24 are respectively engaged with the second toothed plates 22 on the corresponding support top plates 20, and the driven gears 24 are engaged with the corresponding second toothed plates 22, so that the corresponding support top plates 20 can simultaneously slide along the guide grooves 21; meanwhile, all the supporting rods 18 on the same side are arranged on the supporting top plates 20 on the corresponding sides, and the movement of each supporting top plate 20 can enable all the supporting rods 18 on the same side to move along the movable holes 17, so that the supporting wheels 19 on all the supporting rods 18 protrude out of the movable holes 17;

at the moment, the angle steel to be sheared can be supported on the supporting wheel 19 in advance, and meanwhile, the supporting wheel 19 plays a guiding role; in practice, the support wheel 19 may also be a ball, that is, a ball is embedded on the top of the support rod 18. When the infrared sensor 9 detects the angle steel, the control cabinet 11 controls a device for feeding (the feeding device is not shown in the attached drawings of the specification, the feeding device is also electrically connected to the control cabinet 11, the feeding device can be a conveyer belt, a rotating roller and other structures, and the feeding device is used for pushing and conveying the angle steel to pass through the shearing opening of the shearing machine 1) to stop feeding; then the control cabinet 11 controls the shearing machine 1 to work, and after the shearing is finished; the control cabinet 11 continuously controls the feeding device to enable the sheared angle steel to continuously move along the length direction of the bearing groove 5; until the sheared angle steel is contacted with the pressure sensor 10, after the pressure sensor 10 detects the pressure, the control cabinet 11 controls the feeding device to stop feeding, and because the horizontal distance between the infrared sensor 9 and the pressure sensor 10 is the same as the horizontal distance between the bearing groove 5 and the shearing opening of the shearing machine 1, the sheared angle steel completely falls into the bearing groove 5 at this moment;

at this time, the control cabinet 11 controls the driving gear 23 to rotate reversely, and the supporting top plate 20 moves reversely until the supporting wheel 19 is completely positioned in the movable hole 17; the sheared angle steel falls onto the electromagnet 6 in the bearing groove 5, and meanwhile, the control cabinet 11 controls the electromagnet 6 to be electrified to adsorb the sheared angle steel; next, the control cabinet 11 controls the driving mechanism to rotate the receiving cylinder 4 by 180 degrees, so that the cut angle steel has an opening facing downwards; then the control cabinet 11 controls the electromagnet 6 to be powered off, and the sheared angle steel directly falls onto a placing plate below; the distance between two adjacent groups of limiting columns 8 on the two sides of the placing plate is matched with the width of the angle steel, so that the next sheared angle steel can be further ensured to be sequentially overlapped on the angle steel of the placing plate; when the cut angle steel falls to the placing plate, the driving mechanism can be continuously controlled after delaying for several seconds through the control cabinet 11, so that the bearing cylinder 4 rotates to be restored to the original position, and the previous operation is continuously repeated; finally, automation of the collection process of the sheared angle steel is realized.

To the design in above-mentioned movable chamber 16, in order to facilitate operations such as climbing mechanism's installation, maintenance, during the implementation, the both sides of accepting drum 4 all are equipped with access panel 31, make things convenient for operating personnel's installation, maintenance, improve the practicality.

In the scheme, as shown in fig. 1, 4 and 5, two receiving grooves 5 are arranged symmetrically along the circumferential direction of the receiving cylinder 4; the driving mechanism comprises a first toothed plate 14 which is arranged on the mounting table 2 in a sliding manner, and a driving gear 12 which is arranged on a rotating shaft at the end part of the bearing cylinder 4 and is meshed with the first toothed plate 14; the first toothed plate 14 is connected with an electric telescopic rod 15 which drives the first toothed plate to reciprocate along the width direction of the mounting table 2, and the bearing cylinder 4 rotates 180 degrees clockwise and 180 degrees anticlockwise alternately.

During implementation, the mounting table 2 is provided with the support frame 13, the first toothed plate 14 is slidably arranged on the support frame 13, the electric telescopic rod 15 is arranged on the support frame 13, and the telescopic end of the electric telescopic rod is fixedly connected with the first toothed plate 14. The quick installation of the whole structure is facilitated by the support frame 13.

Thus, when the receiving cylinder 4 rotates 180 degrees and finishes the collection operation of the sheared angle steel, the other receiving groove 5 on the receiving cylinder 4 is just above the receiving cylinder 4, the control cabinet 11 does not need the electric telescopic rod 15 for controlling, so that the receiving cylinder 4 is restored to the original position, the receiving, adsorption and overturning operation of the sheared angle steel can be continuously prepared, the continuity of the whole operation is ensured, and the working efficiency is improved. But when the drive mechanism again controls the take-up cylinder 4 to rotate, the second rotation of the take-up cylinder 4 is made opposite to the first rotation due to the cooperation of the first toothed plate 14 with the drive gear 12.

In this embodiment, as shown in fig. 1, 3 and 5, the mounting table 2 has two guide rails 26 extending in the width direction thereof, the guide rails 26 are distributed along the length direction of the mounting table 2, and the bottom of the bottom plate 7 is provided with a slider 27 slidably engaged with the guide rails 26. In this way, since the stacking height of the angle steel is limited, it is necessary to adjust the position of the bottom plate 7 so that the cut angle steel can be sequentially stacked on the bottom plate 7, thereby achieving mass collection. Meanwhile, as shown in fig. 1, 3 and 5, the bottom of the base plate 7 has symmetrically arranged casters 28, and one side of the base plate 7 is provided with a push-pull handle 30. The bottom of the mounting table 2 is provided with a through groove 29 at a position opposite to the caster 28, and the through groove 29 is opened along one end of the mounting groove 3 and is arranged parallel to the guide rail 26. Thus, after the bottom plate 7 finishes collecting and stacking the sheared angle steel, an operator can directly push the bottom plate 7 to slide out along the through groove 29 through the push-pull handle 30, and the operator can carry the angle steel quickly.

The working principle of the utility model is as follows:

when the shearing machine 1 feeds, the control cabinet 11 controls the jacking mechanism to work, so that the supporting wheels 19 protrude out of the movable holes 17, the angle steel to be sheared can be supported on the supporting wheels 19 in advance, and meanwhile, the supporting wheels 19 play a role in guiding; when the infrared sensor 9 detects the angle steel, the control cabinet 11 controls the device for feeding to stop feeding; then the control cabinet 11 controls the shearing machine 1 to work, and after the shearing is finished; the control cabinet 11 continuously controls the feeding device to enable the sheared angle steel to continuously move along the length direction of the bearing groove 5; until the sheared angle steel is contacted with the pressure sensor 10, after the pressure sensor 10 detects the pressure, the control cabinet 11 controls the feeding device to stop feeding, and because the horizontal distance between the infrared sensor 9 and the pressure sensor 10 is the same as the horizontal distance between the bearing groove 5 and the shearing opening of the shearing machine 1, the sheared angle steel completely falls into the bearing groove 5 at this moment;

at the moment, the control cabinet 11 controls the jacking mechanism to work, so that the supporting wheel 19 moves to be completely positioned in the movable hole 17, the sheared angle steel falls onto the electromagnet 6 in the receiving groove 5, and meanwhile, the control cabinet 11 controls the electromagnet 6 to be electrified to adsorb the sheared angle steel; next, the control cabinet 11 controls the driving mechanism to rotate the receiving cylinder 4 by 180 degrees, so that the cut angle steel has an opening facing downwards; then the control cabinet 11 controls the electromagnet 6 to be powered off, and the sheared angle steel directly falls onto a placing plate below; the distance between two adjacent groups of limiting columns 8 on the two sides of the placing plate is matched with the width of the angle steel, so that the next sheared angle steel can be further ensured to be sequentially overlapped on the angle steel of the placing plate;

when the receiving cylinder 4 rotates 180 degrees and the cut angle steel collection operation is completed, the other receiving groove 5 on the receiving cylinder 4 is just above the receiving cylinder 4, and the control cabinet 11 does not need to control the electric telescopic rod 15, so that the receiving cylinder 4 is restored to the original position; then, the initial operation control is repeated to prepare the material receiving operation for the second time, so that the continuity and the automation of the whole operation are realized, and the working efficiency is improved; finally, the sheared angle steel is rapidly collected and stacked, and the angle steel is convenient for people to rapidly carry.

The above is only a preferred embodiment of the present invention, and it should be noted that several modifications and improvements made by those skilled in the art without departing from the technical solution should also be considered as falling within the scope of the claimed invention.

Claims (8)

1. The utility model provides an angle steel cutting collection device, includes the cutter, its characterized in that: the mounting table is arranged on the discharging side of the shearing machine;

the mounting table is provided with a mounting groove penetrating through the mounting table in the width direction, a bearing cylinder is arranged in the mounting groove along the length direction of the mounting groove, two ends of the bearing cylinder are supported on the mounting table in a rotatable mode, and a driving mechanism for driving the bearing cylinder to rotate is arranged on the mounting table; the bearing cylinder is provided with a bearing groove which is arranged along the length direction of the bearing cylinder, one side of the bearing groove, which is close to the shearing machine, is provided with an opening, the bearing cylinder can rotate so that the opening end of the bearing groove is opposite to the discharge hole of the shearing machine, and two side walls of the bearing groove are provided with electromagnets which are distributed along the length direction of the bearing groove;

the bearing cylinder is characterized in that a movable placing rack is arranged under the bearing cylinder and comprises a bottom plate, and at least two groups of symmetrically arranged limiting columns are arranged on two sides of the bottom plate.

2. The angle steel cutting and collecting device according to claim 1, wherein: an infrared sensor for judging the length of the shearing angle steel is arranged on the inner side of the bearing groove, a pressure sensor is arranged on the inner wall of one end, away from the shearing machine, of the bearing groove, and the horizontal distance between the infrared sensor and the pressure sensor is the same as the horizontal distance between the bearing groove and the shearing opening of the shearing machine; the shearing machine is provided with a control cabinet, and the infrared sensor, the pressure sensor, the electromagnet, the shearing machine and the driving mechanism are respectively and electrically connected to the control cabinet.

3. The angle steel cutting and collecting device according to claim 2, wherein: the number of the bearing grooves is two, and the two bearing grooves are symmetrically arranged along the circumferential direction of the bearing cylinder; the driving mechanism comprises a first toothed plate arranged on the mounting table in a sliding mode and a driving gear which is arranged on a rotating shaft at the end part of the bearing cylinder and meshed with the first toothed plate; and the first toothed plate is connected with an electric telescopic rod for driving the first toothed plate to reciprocate along the width direction of the mounting table, and the bearing cylinder rotates clockwise by 180 degrees and anticlockwise by 180 degrees alternately.

4. The angle steel cutting and collecting device according to claim 2 or 3, wherein: the bearing cylinder is internally provided with a movable cavity, two side walls of the bearing groove are provided with movable holes along the length direction of the bearing groove, and each movable hole is communicated with the movable cavity; each movable hole is movably provided with a support rod, and the top of the movable hole is provided with a support wheel; the movable cavity is internally provided with a jacking mechanism for driving all the support rods to move along the length direction of the corresponding movable hole; the jacking mechanism is electrically connected to the control cabinet.

5. The angle steel cutting and collecting device according to claim 4, wherein: the jacking mechanism comprises supporting top plates which are symmetrically arranged on two sides in the movable cavity, and each supporting top plate is in sliding fit with a guide groove formed in the side wall of each end of the movable cavity; the top of each supporting top plate is connected with the supporting rod on the corresponding side, and the bottom of each supporting top plate is provided with a second toothed plate; a driving assembly for driving the two groups of supporting top plates to move simultaneously is arranged in the movable cavity; the driving assembly comprises a driving gear used for being connected with the output motor and driven gears respectively meshed with the two groups of second gear plates; one driven gear is directly meshed with the driving gear, the other driven gear is meshed with the driving gear through an intermediate gear, and the intermediate gear and the driving gear are the same in size.

6. The angle steel cutting and collecting device according to claim 2 or 3, wherein: the mounting table is provided with two guide rails arranged along the width direction of the mounting table, the guide rails are distributed along the length direction of the mounting table, and the bottom of the bottom plate is provided with a sliding block in sliding fit with the guide rails.

7. The angle steel cutting and collecting device according to claim 6, wherein: the bottom of the bottom plate is provided with symmetrically arranged trundles, through grooves are formed in the positions, right opposite to the trundles, of the bottom of the mounting table, and the through grooves extend along one ends of the mounting grooves and are arranged in parallel with the guide rails.

8. The angle steel cutting and collecting device according to claim 7, wherein: one side of the bottom plate is provided with a push-pull handle.

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