CN211489900U - Profile corner carrying mechanism and sawing machine using same - Google Patents
Profile corner carrying mechanism and sawing machine using same Download PDFInfo
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- CN211489900U CN211489900U CN201922412211.7U CN201922412211U CN211489900U CN 211489900 U CN211489900 U CN 211489900U CN 201922412211 U CN201922412211 U CN 201922412211U CN 211489900 U CN211489900 U CN 211489900U
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Abstract
The utility model relates to a section bar corner transport mechanism and use sawing machine of this mechanism, including truss, electro-magnet mounting panel, electro-magnet, gallows, slip case, transverse driving subassembly, vertical driving subassembly, the gallows upper end is hoisted in the truss through the transverse guiding subassembly, and the transverse driving subassembly drives the gallows along the transverse guiding subassembly and transversely reciprocates to slide, and the case that slides is connected in the gallows through vertical guiding subassembly, and the vertical driving subassembly drives the slip case along the vertical reciprocal sliding of vertical guiding subassembly, the electro-magnet mounting panel passes through rotating assembly and is connected with the bottom of slipping the case, and the incasement that slides is equipped with the driving electro-magnet mounting panel and winds rotating assembly pivoted rotation driving subassembly, and the lower extreme in the electro-magnet mounting panel is installed to at. The hanger frame realizes the transverse reciprocating action through the transverse driving assembly and the transverse guiding assembly, the vertical reciprocating action of the sliding box is realized through the longitudinal driving assembly and the longitudinal guiding assembly, and the electromagnet is electrified to adsorb a section workpiece.
Description
Technical Field
The utility model belongs to the technical field of the sawing machine, in particular to section bar corner transport mechanism and use sawing machine of this mechanism.
Background
In the prior art, after the sawing machine completes multi-section angle sawing on the whole section of H section, the H section workpiece with the angle sawed at two ends or one end of the section becomes a multi-section H section workpiece with the angle sawed at two ends or one end, and the workpiece after completing sawing needs to perform sharp-angled sawing on two ends or one end, so that the sharp-angled sawing is flat. And two adjacent H section bar work pieces angle each other after whole section H section bar accomplishes to saw cut, its closed angle is not in same one side, the closed angle sawing machine in the later process of working procedure is vertical sawing machine, it is because the restriction of transfer chain mounting structure, the distance that the band saw strip saw cuts the blade forward is limited, can't saw cut the processing to the H section bar work piece that the closed angle is located relative one side, so need provide one kind can carry out the rotatory turning around in both ends after the H section bar work piece that the former process sent into in order is fixed a position, thereby have closed angle one side to lean on to the closed angle sawing machine with the H section bar work piece, thereby subsequent closed angle sawing after section bar work piece location and location of being convenient for.
SUMMERY OF THE UTILITY MODEL
The utility model aims to solve the technical problem that a profile turning carrying mechanism and use sawing machine of this mechanism is provided, its profile work piece that can send the transfer chain of preceding process to come is through the location back, and the profile work piece adsorbs and hoists the promotion back through the electro-magnet, with the rotatory turn around in profile work piece both ends, then transports to one process down along horizontal direction subassembly to descend after the electro-magnet demagnetization, place this profile work piece on this transfer chain of process.
The utility model discloses a realize like this, provide a section bar corner transport mechanism, including truss, electro-magnet mounting panel, electro-magnet, gallows, slip case, transverse driving subassembly, vertical driving subassembly, the gallows upper end is hoisted in the truss through the transverse guiding subassembly, and transverse driving subassembly drive gallows slides along the transverse guiding subassembly is horizontal reciprocal, and the case that slides is connected in the gallows through vertical guiding subassembly, and the vertical driving subassembly drive slip case slides along the vertical reciprocal of vertical guiding subassembly, the electro-magnet mounting panel passes through the rotating assembly to be connected with the bottom of slip case, and the incasement that slides is equipped with the drive electro-magnet mounting panel and winds the rotating driving subassembly of rotating assembly pivoted, and the lower extreme in the electro-magnet mounting panel is installed to at least a.
Furthermore, the transverse driving assembly comprises a driving motor, a fixed rack and a gear, the fixed rack is transversely connected to the lower side of the truss, a shell end of the driving motor is connected with the hanging frame, a power output end of the driving motor upwards penetrates through the hanging frame and is meshed with the fixed rack through the gear, and the driving gear transversely walks along the fixed rack through the driving motor to drive the hanging frame to transversely slide back and forth along the transverse guiding assembly.
Furthermore, the transverse guide assembly comprises a plurality of transverse sliding blocks and two linear guide rails which are parallel front and back, the two linear guide rails are transversely connected to the lower side of the truss, and the front side and the rear side of the upper end of the hanging bracket are respectively in guide connection with the two linear guide rails through the plurality of transverse sliding blocks.
Furthermore, the longitudinal driving assembly comprises a longitudinal oil cylinder, the cylinder body end of the longitudinal oil cylinder is connected with the sliding box, the piston rod end of the longitudinal oil cylinder is upwards connected with the hanging bracket, and the sliding box is driven to longitudinally slide in a reciprocating mode along the longitudinal guiding assembly through the reciprocating action of the piston rod end of the longitudinal oil cylinder.
Furthermore, the longitudinal guide assembly comprises a plurality of longitudinal guide rails and a plurality of longitudinal sliding blocks, the hanger comprises a front side plate and a rear side plate, the sliding box is located in the hanger between the front side plate and the rear side plate, the two sides of one side, opposite to the front side plate and the rear side plate, of the sliding box are fixedly connected with the longitudinal guide rails respectively, and the two sides of the front side and the two sides of the rear side of the sliding box are connected with the longitudinal guide rails correspondingly through the longitudinal sliding blocks in a guiding mode.
Furthermore, the rotating assembly comprises a shaft sleeve, a rotating shaft and a rotating gear, wherein the bottom of the sliding box is provided with a mounting plate, the middle part of the mounting plate is provided with a mounting hole, the rotating shaft is mounted in the mounting hole, the lower end of the rotating shaft is connected with the middle part of the electromagnet mounting plate, the upper end of the rotating shaft is connected in the shaft sleeve through a bearing, and the end of the upper end of the rotating shaft, which extends out of; the rotary driving assembly comprises a movable rack and a rotary oil cylinder, the rotary oil cylinder is connected with the mounting plate, the tooth surface of one end of the movable rack is meshed with the rotary gear, the end part of the other end of the movable rack is connected with the piston rod end of the rotary oil cylinder, and the movable rack is driven to be meshed and transmitted to the rotary gear through the piston rod end of the rotary oil cylinder.
Furthermore, a rack guide block is installed on one radial side of the rotary gear on the installation plate, a transverse notch is formed in the rack guide block, and the movable rack is connected in the transverse notch in a guiding mode.
Furthermore, a plurality of supporting upright posts are arranged on the periphery of the lower side of the truss.
The utility model discloses a realize like this, provide a sawing machine use as before on the sawing machine section bar corner transport mechanism.
Compared with the prior art, the section bar corner carrying mechanism and the sawing machine using the same have the advantages that the hanger frame realizes the transverse reciprocating action through the transverse driving assembly and the transverse guiding assembly, and realizes the up-and-down reciprocating action of the sliding box through the longitudinal driving assembly and the longitudinal guiding assembly, namely, the left-and-right position and the up-and-down position of the sliding box are controlled; the electromagnet is electrified to adsorb the section bar when the left side in the truss of the sliding box is low, then the sliding box is lifted upwards to a position through the longitudinal driving assembly and the longitudinal guiding assembly, the driving assembly is rotated to drive the electromagnet mounting plate to rotate around the rotating assembly, so that the section bar workpiece adsorbed on the electromagnet is rotated and turned around, then the sliding box is conveyed to the upper part of the right side in the truss through the transverse driving assembly and the transverse guiding assembly, the sliding box moves downwards through the longitudinal driving assembly and the longitudinal guiding assembly, the electromagnet is powered off when the sliding box is operated to the low position, and therefore the section bar to be processed after the rotation and turning around is placed on a conveying line of a next processing procedure to wait for subsequent processing.
Drawings
FIG. 1 is a front view of a preferred embodiment of the present invention;
FIG. 2 is a bottom view of FIG. 1;
FIG. 3 is a perspective view of FIG. 1;
FIG. 4 is a schematic cross-sectional view taken along line B-B in FIG. 2;
FIG. 5 is a left side view A-A of FIG. 1;
FIG. 6 is an enlarged partial schematic view of FIG. 3;
fig. 7 is a partially enlarged view of fig. 2.
Detailed Description
In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1 to 7, the preferred embodiment of the present invention includes a truss 1, an electromagnet mounting plate 2, an electromagnet 3, a hanger 4, a sliding box 5, a transverse driving assembly, and a longitudinal driving assembly.
The upper end of the hanger 4 is hoisted in the truss 1 through the transverse guiding assembly, the transverse driving assembly drives the hanger 4 to transversely reciprocate along the transverse guiding assembly, the sliding box 5 is connected in the hanger 4 through the longitudinal guiding assembly, the longitudinal driving assembly drives the sliding box to longitudinally reciprocate along the longitudinal guiding assembly, the electromagnet mounting plate 2 is connected with the bottom of the sliding box 5 through the rotating assembly, the driving electromagnet mounting plate 2 is arranged in the sliding box 5 and rotates around the rotating assembly, and at least one group of electromagnets 3 are arranged at the lower end of the electromagnet mounting plate 2.
The hanger 4 realizes the transverse reciprocating action through the transverse driving component and the transverse guiding component, and realizes the up-and-down reciprocating action of the sliding box through the longitudinal driving component and the longitudinal guiding component, namely, the left-and-right position and the up-and-down position of the sliding box 5 are controlled. The electromagnet 3 is electrified to adsorb sectional material workpieces when the sliding box 5 is at a low position on the left side in the truss 1, then the sliding box is lifted upwards to a proper position through the longitudinal driving assembly and the longitudinal guiding assembly, the driving assembly is rotated to drive the electromagnet mounting plate 3 to rotate around the rotating assembly rotating angle, so that the sectional material workpieces adsorbed on the electromagnet 3 are rotated and turned around, then the sliding box 5 is conveyed to the upper part of the right side in the truss 1 through the transverse driving assembly and the transverse guiding assembly, at the moment, the sliding box 5 moves downwards through the longitudinal driving assembly and the longitudinal guiding assembly, when the sliding box is operated to a low position, the electromagnet 3 is powered off, and therefore the sectional material to be processed after turning around is placed on a conveying line of a next processing procedure to.
The transverse driving assembly comprises a driving motor 61, a fixed rack 62 and a gear 63, wherein the fixed rack 62 is transversely connected to the lower side of the truss 1, the shell end of the driving motor 61 is connected with the hanging bracket 4, the power output end of the driving motor upwards penetrates through the hanging bracket 4 and is meshed with the fixed rack 62 through the gear 63, and the driving gear 63 transversely walks along the fixed rack 62 through the driving motor 61 to drive the hanging bracket 4 to transversely slide in a reciprocating mode along the transverse guiding assembly.
The transverse guiding assembly comprises a plurality of transverse sliding blocks 71 and two linear guide rails 72 which are parallel front and back, the two linear guide rails 72 are transversely connected to the lower side of the truss 1, and the front side and the rear side of the upper end of the hanging bracket 4 are respectively connected with the two linear guide rails 72 in a guiding mode through the plurality of transverse sliding blocks 71.
The longitudinal driving assembly comprises a longitudinal oil cylinder 81, the cylinder body end of the longitudinal oil cylinder 81 is connected with the sliding box 5, the piston rod end of the longitudinal oil cylinder 81 is upwards connected with the hanging bracket 4, and the sliding box 5 is driven to longitudinally slide in a reciprocating mode along the longitudinal guiding assembly through the reciprocating action of the piston rod end of the longitudinal oil cylinder 81.
The longitudinal guide assembly comprises a plurality of longitudinal guide rails 91 and a plurality of longitudinal sliding blocks 92, the hanger 4 comprises a front side plate 41 and a rear side plate 42, the sliding box 5 is located between the front side plate 41 and the rear side plate 42 in the hanger 4, two sides of one side, opposite to the front side plate 41 and the rear side plate 42, of the sliding box are fixedly connected with the longitudinal guide rails 91 respectively, and two sides of the front side and two sides of the rear side of the sliding box 5 are connected with the longitudinal guide rails 91 correspondingly through the longitudinal sliding blocks 92 in a guiding mode.
The rotating assembly comprises a shaft sleeve 11, a rotating shaft 12 and a rotating gear 13, a mounting plate 51 with a mounting hole formed in the middle is arranged at the bottom of the sliding box 5, the rotating shaft 12 is mounted in the mounting hole, the lower end of the rotating shaft 12 is connected with the middle of the electromagnet mounting plate 2, the upper end of the rotating shaft is connected into the shaft sleeve 11 through a bearing 14, and the upper end of the rotating shaft extends out of the shaft sleeve 11 and is connected with the rotating gear 13. The rotation driving assembly comprises a movable rack 15 and a rotary oil cylinder 16, the rotary oil cylinder 16 is connected with the mounting plate 51, a tooth surface of one end of the movable rack 15 is meshed with the rotary gear 13, the end part of the other end of the movable rack is connected with a piston rod end of the rotary oil cylinder 16, and the movable rack 15 is driven to be meshed and transmitted to the rotary gear 13 through the piston rod end of the rotary oil cylinder 16.
The radial side of the rotating gear 13 on the mounting plate 51 is provided with a rack guide block 17, the rack guide block 17 is provided with a transverse notch 171, and the movable gear 15 is guided and connected in the transverse notch 171.
The periphery of the lower side of the truss 1 is provided with a plurality of supporting upright posts 18. Truss 1 erects in the top of sawing machine transfer chain through support post 18, and the sawing machine transfer chain includes two solitary former process transfer chain and next process transfer chain mutually, and the section bar work piece on the former process transfer chain carries the back through the location centre gripping, at the assigned position by section bar corner transport mechanism carry to the assigned position of next process transfer chain, then carry to the station of adding of next process through the centre gripping location.
The utility model discloses still disclose a sawing machine use as before on the sawing machine section bar corner transport mechanism. The section bar corner carrying mechanism is used for assisting in matching with a sawing machine for operation. The section bar corner carrying mechanism clamps the workpiece and drives the workpiece to rotate and turn around, so that the subsequent processing of the workpiece by a sawing machine is facilitated.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.
Claims (9)
1. A section bar corner carrying mechanism is characterized by comprising a truss (1), an electromagnet mounting plate (2), an electromagnet (3), a hanging bracket (4), a sliding box (5), a transverse driving assembly and a longitudinal driving assembly, wherein the upper end of the hanging bracket (4) is hung in the truss (1) through the transverse guiding assembly, the transverse driving assembly drives the hanging bracket (4) to transversely and reciprocally slide along the transverse guiding assembly, the sliding box (5) is connected in the hanging bracket (4) through the longitudinal guiding assembly, the longitudinal driving assembly drives the sliding box to longitudinally and reciprocally slide along the longitudinal guiding assembly, the electromagnet mounting plate (2) is connected with the bottom of the sliding box (5) through a rotating assembly, a driving electromagnet mounting plate (2) is arranged in the sliding box (5) and rotates around the rotating assembly, and at least one group of electromagnets (3) are mounted at the lower end of the electromagnet mounting plate (2).
2. The section corner carrying mechanism is characterized in that the transverse driving assembly comprises a driving motor (61), a fixed rack (62) and a gear (63), the fixed rack (62) is transversely connected to the lower side of the truss (1), the shell end of the driving motor (61) is connected with the lifting frame (4), the power output end of the driving motor upwards penetrates through the lifting frame (4) and is meshed and connected with the fixed rack (62) through the gear (63), and the driving gear (63) transversely runs along the fixed rack (62) through the driving motor (61) to drive the lifting frame (4) to transversely slide back and forth along the transverse guiding assembly.
3. The section corner carrying mechanism according to claim 1 or 2, characterized in that the transverse guiding assembly comprises a plurality of transverse sliding blocks (71) and two front-back parallel linear guide rails (72), the two linear guide rails (72) are transversely connected to the lower side of the truss (1), and the front side and the back side of the upper end of the hanger (4) are respectively connected with the two linear guide rails (72) in a guiding manner through the plurality of transverse sliding blocks (71).
4. The section bar corner carrying mechanism according to claim 1, wherein the longitudinal driving assembly comprises a longitudinal oil cylinder (81), a cylinder body end of the longitudinal oil cylinder (81) is connected with the sliding box (5), a piston rod end of the longitudinal oil cylinder is upwards connected with the hanging bracket (4), and the sliding box (5) is driven to slide back and forth along the longitudinal guiding assembly longitudinally through the reciprocating action of the piston rod end of the longitudinal oil cylinder (81).
5. The section bar corner carrying mechanism according to claim 1 or 4, wherein the longitudinal guide assembly comprises a plurality of longitudinal guide rails (91) and a plurality of longitudinal sliding blocks (92), the hanger (4) comprises a front side plate (41) and a rear side plate (42), the sliding box (5) is positioned between the front side plate (41) and the rear side plate (42) in the hanger (4), the longitudinal guide rails (91) are fixedly connected to two opposite sides of the front side plate (41) and the rear side plate (42), and the two front sides and the two rear sides of the sliding box (5) are respectively connected with the longitudinal guide rails (91) through the plurality of longitudinal sliding blocks (92).
6. The section bar corner carrying mechanism according to claim 1, wherein the rotating assembly comprises a shaft sleeve (11), a rotating shaft (12) and a rotating gear (13), a mounting plate (51) with a mounting hole formed in the middle is arranged at the bottom of the sliding box (5), the rotating shaft (12) is mounted in the mounting hole, the lower end of the rotating shaft (12) is connected with the middle of the electromagnet mounting plate (2), the upper end of the rotating shaft is connected into the shaft sleeve (11) through a bearing (14), and the rotating gear (13) is connected to one end of the upper end of the rotating shaft, which extends out of the; the rotary driving assembly comprises a movable rack (15) and a rotary oil cylinder (16), the rotary oil cylinder (16) is connected with the mounting plate (51), the tooth surface of one end of the movable rack (15) is meshed with the rotary gear (13), the end part of the other end of the movable rack is connected with the piston rod end of the rotary oil cylinder (16), and the movable rack (15) is driven to be meshed with the rotary gear (13) through the piston rod end of the rotary oil cylinder (16).
7. The mechanism for carrying the profile corner is characterized in that a rack guide block (17) is arranged on one radial side of the rotary gear (13) on the mounting plate (51), a transverse notch (171) is formed in the rack guide block (17), and the movable rack (15) is connected into the transverse notch (171) in a guiding mode.
8. The corner handling mechanism according to claim 1, characterised in that the truss (1) is provided with a number of support uprights (18) around its lower periphery.
9. Sawing machine, characterized in that a profile corner handling mechanism according to any of claims 1 to 8 is used on the sawing machine.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201922412211.7U CN211489900U (en) | 2019-12-28 | 2019-12-28 | Profile corner carrying mechanism and sawing machine using same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201922412211.7U CN211489900U (en) | 2019-12-28 | 2019-12-28 | Profile corner carrying mechanism and sawing machine using same |
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CN211489900U true CN211489900U (en) | 2020-09-15 |
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CN201922412211.7U Active CN211489900U (en) | 2019-12-28 | 2019-12-28 | Profile corner carrying mechanism and sawing machine using same |
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CN (1) | CN211489900U (en) |
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2019
- 2019-12-28 CN CN201922412211.7U patent/CN211489900U/en active Active
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