CN115256067A - Material distribution mechanism for distributing aluminum profiles - Google Patents

Abstract

The invention provides a material distribution mechanism for distributing aluminum profiles, which belongs to the technical field of aluminum profile production equipment and comprises a disc track, wherein discharge side frames are arranged on two sides of a discharge center frame, two groups of four-section feeding lines are sleeved on the upper part of the feed center frame, article placing positions and article placing prohibition positions are arranged on the upper parts of the feeding lines at intervals, four groups of independent transmission motors are arranged in the middle of the disc track, and a main transmission shaft is sequentially sleeved with a feed transmission chain I, a discharge transmission chain I and a middle transmission chain from inside to outside. The aluminum profile conveying device is characterized in that the four groups of independent transmission mechanisms are arranged in a subsection mode and are matched with the disc track to be used for realizing multi-line simultaneous conveying and feeding, the conveying direction is adjustable, and the efficiency is improved; through roughness measurement appearance real-time detection track surface roughness to rely on the seat of polishing to the automatic operation of polishing of track, keep track smoothness, prevent to lead to the aluminium alloy to produce the dislocation because of the track card greatly causes the track card to shake because of track surface friction power.

Description

Material distribution mechanism for distributing aluminum profiles

Technical Field

The invention relates to the technical field of aluminum profile production equipment, in particular to a distributing mechanism for distributing aluminum profiles.

Background

The aluminium section is a kind of non-ferrous metal, and is a hollow metal tubular material made up by using pure aluminium or aluminium alloy through the processes of extrusion. One or more closed through holes with uniform wall thickness and cross section may be provided, delivered in a straight line or in a roll. The method is widely applied to the industries of automobiles, ships, aerospace, aviation, electrical appliances, agriculture, electromechanics, home furnishing and the like. In the production process of the aluminum profile, the aluminum profile needs to be conveyed. The existing aluminum profile has certain disadvantages in transportation of the conveying device.

Application number is CN 201821993625.2's patent provides an aluminum pipe conveyor for aluminum product processing, can store the aluminum pipe through the case that gathers materials, drive the stock guide through hydraulic lifting rod and descend to the discharge gate below, make the aluminum pipe transfer to the discharge gate along the stock guide inclined plane under the deadweight effect, carry out spacing prevention through the recess to the aluminum pipe and slide, this device makes the aluminum pipe can the automatic interval when carrying to arrange away through feed divider cooperation conveyer belt, avoid the mutual contact and the noise that produces between the aluminum pipe, be favorable to promoting operational environment.

Although this technical scheme can be convenient aluminium alloy transportation to a certain extent, still there is certain not enough: firstly, a single aluminum profile conveying line has low conveying efficiency; secondly, the transport line is fixed and cannot adapt to different production requirements; thirdly, the transportation rail needs to be polished and skidproof at irregular time, and the rail is prevented from being blocked due to large friction force.

In summary, it is necessary to improve the existing aluminum profile feeding mechanism.

Disclosure of Invention

In order to comprehensively solve the problems, particularly the defects in the prior art, the invention provides a material distribution mechanism for distributing aluminum profiles, which can comprehensively solve the problems. The invention can realize the simultaneous material conveying of multiple sections and the adjustable conveying direction, simultaneously detect the surface smoothness of the track, automatically polish and improve the efficiency.

In order to achieve the purpose, the invention adopts the following technical means:

the invention provides a material distribution mechanism for distributing aluminum profiles, which comprises a disc track, wherein a feeding center frame is arranged on one side of the upper part of the disc track, feeding side frames are arranged on two sides of the feeding center frame, a discharging center frame is arranged on the other side of the upper part of the disc track, discharging side frames are arranged on two sides of the discharging center frame, two groups of four-section feeding lines are sleeved on the upper part of the feeding center frame, article placing positions and article placing prohibiting positions are arranged on the upper parts of the feeding lines at intervals, terminals of the two groups of feeding lines are always kept at the article placing positions while the other group of feeding lines is at the article placing prohibiting positions during transmission, four groups of independent transmission motors are arranged in the middle position of the disc track, the output ends of the transmission motors are connected with a main transmission shaft, a feeding chain transmission chain I, a discharging transmission chain I and a middle transmission chain I are sequentially sleeved on the main transmission shaft from inside to outside, and the three groups of transmission chains are arranged in a T-shaped direction.

Furthermore, one side of the feeding transmission chain is sleeved on the first driven transmission shaft, the upper part of the first driven transmission shaft is sleeved with the second feeding transmission chain, the other side of the second feeding transmission chain is installed on the first feeding shaft, one side of the third feeding shaft is sleeved with the third feeding transmission chain, one side of the third feeding transmission chain is sleeved with the second feeding shaft, one side of the second feeding shaft is connected with the fourth feeding transmission chain, and one side of the fourth feeding transmission chain is sleeved with the third feeding shaft.

Furthermore, one side of the discharging transmission chain is sleeved on a driven transmission shaft II, the upper part of the driven transmission shaft II is sleeved with a discharging transmission chain II, the other side of the discharging transmission chain II is installed on the discharging shaft I, one side of the discharging shaft is sleeved with a discharging transmission chain III, one side of the discharging transmission chain III is sleeved with a discharging shaft II, one side of the discharging shaft II is connected with a discharging transmission chain IV, one side of the discharging transmission chain IV is sleeved with a discharging shaft III, and the upper part of the middle transmission chain is sleeved with a middle material shaft.

Further, disc track central point puts and is provided with the control cabinet, control cabinet upper portion is provided with central motor, central motor output is connected with the axis of rotation, the mount is installed on axis of rotation upper portion, four group's well material axles of mount upper portion symmetric connection.

Furthermore, an intermediate frame is arranged between the feeding side frame and the discharging side frame, two sides of the intermediate frame are fixedly connected with the feeding side frame and the discharging side frame through fixing bolts, two groups of sliding frames are arranged at the front end of the intermediate frame, small pulleys are arranged at the bottoms of the sliding frames, a roughness measuring instrument is arranged in the middle of the intermediate frame through a transverse frame, and a cleaning brush is arranged on the front side of the roughness measuring instrument;

in this example, the roughness measuring instrument is a sensing device based on displacement type differential inductance, is electromechanical integrated, and adopts a DSP chip for control and data processing.

Furthermore, a large pulley is installed at the bottom of the feeding center frame, a sliding shaft is arranged at the bottom of the feeding side frame, sliding rails are arranged on two sides inside the sliding shaft, and an automatic polishing seat is arranged on the outer side of the sliding shaft.

Furthermore, the automatic grinding seat comprises a grinding ring, a sliding frame, reset springs, an electromagnetic seat, a linkage frame and a linkage brush, wherein the grinding ring is installed on two sides of the sliding frame, the sliding frame is connected in a sliding rail in a nesting mode, the three groups of reset springs are installed at the bottom of the sliding frame, the bottom of each reset spring is connected with the electromagnetic seat, and one side of the grinding ring is connected with the linkage brush through the linkage frame.

Compared with the prior art, the invention has the beneficial effects that:

1. and transmitting the feeding materials simultaneously in multiple lines. The aluminum profile conveying device is characterized in that the aluminum profile conveying device comprises four groups of independent transmission mechanisms, wherein the four groups of independent transmission mechanisms are arranged on the disc track in a subsection mode, and are matched with the disc track to realize multi-line simultaneous conveying and feeding.

2. Automatic polishing is carried out, and the phenomenon that the rotating clamp is shaken into a disc track is prevented. The roughness measuring instrument detects the surface roughness of the disc track in real time, and the disc track is automatically polished by the polishing seat, so that the smoothness of the track is kept, and the problems that aluminum profiles are easy to misplace and the like due to clamping and shaking caused by large friction force of the surface of the track are prevented, and the next process is influenced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic view of a partial structure of the present invention;

FIG. 5 is a schematic view of an automated buffing pad configuration of the present invention;

FIG. 6 is a schematic view of an automated sanding block of the present invention;

FIG. 7 is a partial cross-sectional view of an automated sanding block of the present invention;

FIG. 8 is an enlarged view at A of FIG. 7 of the present invention;

FIG. 9 is a front view of an automated sanding block of the present invention;

FIG. 10 is a schematic diagram of a transmission line structure of the present invention;

fig. 11 is a schematic view of the transmission mechanism of the present invention.

In the figure:

1. a disc track; 2. a feeding center frame; 3. a feed side frame; 4. a discharging center frame; 5. a discharge side frame; 6. a large pulley; 7. a slide shaft; 8. an automatic polishing seat; 9. a middle frame; 10. a small pulley; 11. a roughness measuring instrument; 12. a feed line; 13. a central motor; 14. a drive motor; 15. a middle material shaft; 16. a first feeding shaft; 17. a second feeding shaft; 18. a feeding shaft III; 19. a first discharging shaft; 20. a discharging shaft II; 21. a discharging shaft III; 22. a console; 71. a slide rail; 81. grinding a ring; 82. a carriage; 83. a return spring; 84. an electromagnetic base; 85. a linkage frame; 86. a linkage brush; 91. a fixing bolt; 92. a carriage; 93. a transverse frame; 111. a cleaning brush; 121. a placement place; 122. a place where the placement is forbidden; 131. a rotating shaft; 132. a fixed mount; 141. a main drive shaft; 142. a middle transmission chain; 143. a feeding conveying chain I; 144. a driven transmission shaft I; 145. a feeding and conveying chain II; 146. a feeding conveying chain III; 147. a feeding conveying chain IV; 148. a first discharging transmission chain; 149. a driven transmission shaft II; 150. a discharging and conveying chain II; 151. a discharging and conveying chain III; 152. and a discharging and conveying chain IV.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

the embodiment is as follows:

as shown in fig. 1 to 4 and 10, in an embodiment of the present invention, a material distribution mechanism for distributing an aluminum profile comprises a disc track 1, a feeding center frame 2 is disposed on one side of the upper portion of the disc track 1, feeding side frames 3 are disposed on two sides of the feeding center frame 2, a discharging center frame 4 is disposed on the other side of the upper portion of the disc track 1, discharging side frames 5 are disposed on two sides of the discharging center frame 4, two groups of four feeding lines 12 are sleeved on the upper portion of the feeding center frame 2, object placing positions 121 and object placing prohibiting positions 122 are disposed on the upper portion of the feeding lines 12 at intervals, one group of the two groups of the feeding lines 12 is always kept as an object placing position 121 while the other group is kept as an object placing prohibiting position 122 during transmission, four groups of independent transmission motors 14 are disposed at the middle position of the disc track 1, output ends of the transmission motors 14 are connected to a main transmission shaft 141, the main transmission shaft 141 is sequentially sleeved with a feeding transmission chain one 143, a discharging chain one 148 and a middle transmission chain 142 from inside to outside, and the three groups of the transmission chains are disposed in a T-shaped orientation.

As shown in fig. 10, in an embodiment of the present invention, specifically, one side of the first feeding transmission chain 143 is sleeved on the first driven transmission shaft 144, the upper portion of the first driven transmission shaft 144 is sleeved with the second feeding transmission chain 145, the other side of the second feeding transmission chain 145 is installed on the first feeding shaft 16, one side of the first feeding shaft 16 is sleeved with the third feeding transmission chain 146, one side of the third feeding transmission chain 146 is sleeved with the second feeding shaft 17, one side of the second feeding shaft 17 is connected with the fourth feeding transmission chain 147, and one side of the fourth feeding transmission chain 147 is sleeved with the third feeding shaft 18.

As shown in fig. 10 to 11, in an embodiment of the present invention, specifically, one side of the first discharging transmission chain 148 is sleeved on the second driven transmission shaft 149, the second discharging transmission chain 150 is sleeved on the upper portion of the second driven transmission shaft 149, the other side of the second discharging transmission chain 150 is installed on the first discharging shaft 19, one side of the first discharging shaft 19 is sleeved with the third discharging transmission chain 151, one side of the third discharging transmission chain 151 is sleeved with the second discharging shaft 20, one side of the second discharging shaft 20 is connected with the fourth discharging transmission chain 152, one side of the fourth discharging transmission chain 152 is sleeved with the third discharging shaft 21, and the upper portion of the middle transmission chain 142 is sleeved with the middle discharging shaft 15.

As shown in fig. 1 to 5, in an embodiment of the present invention, specifically, a console 22 is disposed at a central position of the disc track 1, a central motor 13 is disposed at an upper portion of the console 22, an output end of the central motor 13 is connected to a rotating shaft 131, a fixing frame 132 is mounted at an upper portion of the rotating shaft 131, and four sets of material shafts 15 are symmetrically connected to an upper portion of the fixing frame 132.

As shown in fig. 2 to 3, in an embodiment of the present invention, specifically, an intermediate frame 9 is disposed between the feeding side frame 3 and the discharging side frame 5, two sides of the intermediate frame 9 are fixedly connected to the feeding side frame 3 and the discharging side frame 5 through fixing bolts 91, two sets of carriages 92 are disposed at the front end of the intermediate frame 9, small pulleys 10 are mounted at the bottoms of the carriages 92, a roughness measuring instrument 11 is mounted at the middle position of the intermediate frame 9 through a cross frame 93, and a cleaning brush 111 is disposed at the front side of the roughness measuring instrument 11;

in this example, the roughness measuring instrument 11 is a sensing device based on a displacement type differential inductance, and is integrated mechanically and electrically, and a DSP chip is used for control and data processing.

As shown in fig. 2 to 5, in one embodiment of the present invention, specifically, a large pulley 6 is installed at the bottom of the feeding center frame 2, a sliding shaft 7 is installed at the bottom of the feeding side frame 3, sliding rails 71 are installed at two sides inside the sliding shaft 7, and an automatic grinding seat 8 is installed outside the sliding shaft 7.

As shown in fig. 5 to 9, in an embodiment of the present invention, specifically, the automatic grinding seat 8 includes a grinding ring 81, a sliding frame 82, a return spring 83, an electromagnetic seat 84, a linkage frame 85, and a linkage brush 86, the grinding ring 81 is installed on two sides of the sliding frame 82, the sliding frame 82 is nested in the sliding rail 71, three sets of return springs 83 are installed at the bottom of the sliding frame 82, the electromagnetic seat 84 is connected to the bottom of the return springs 83, and one side of the grinding ring 81 is connected to the linkage brush 86 through the linkage frame 85.

Principle of operation

When the aluminum profile feeding line is used, aluminum profiles are placed on the placing positions 121 of the two groups of four sections of feeding lines 12 at the same time, the aluminum profiles are transmitted by the feeding lines 12 at intervals in time and through the middle feeding shaft 15, so that the aluminum profiles on the four sections are prevented from colliding, synchronous operation of the two groups of four sections of feeding lines 12 is realized, and the efficiency is improved.

When the feeding line 12 is in transmission operation, the four groups of independent transmission motors 14 respectively drive the main transmission shaft 141 to rotate, the main transmission shaft 141 drives the feeding transmission chain I143 to rotate for transmission, the feeding transmission chain I143 drives the driven transmission shaft I144 to rotate, the driven transmission shaft I144 drives the feeding transmission chain II 145 on the upper portion to rotate for transmission, the feeding transmission chain II 145 drives the feeding shaft I16 to rotate, the feeding shaft I16 drives the feeding transmission chain III 146 to rotate for transmission, and the feeding transmission chain III 146 drives the feeding shaft III 18 to rotate, so that the feeding center frame 2 is driven to inwards transmit the aluminum profiles on the upper portion to the middle feeding shaft 15.

Similarly, the transmission motor 14 drives the middle transmission chain 142 to rotate for transmission, the middle transmission chain 142 drives the middle material shaft 15 to rotate, and the middle material shaft 15 transmits the aluminum profile to the first discharging shaft 19; the transmission motor 14 drives the first discharging transmission chain 148 to rotate for transmission, the first discharging transmission chain 148 drives the second driven transmission shaft 149 to rotate, the second driven transmission shaft 149 drives the second discharging transmission chain 150 to rotate for transmission, the second discharging transmission chain 150 drives the first discharging shaft 19 to rotate, the first discharging shaft 19 drives the third discharging transmission chain 151 to drive for transmission, the third discharging transmission chain 151 drives the second discharging shaft 20 to rotate, the second discharging shaft 20 drives the fourth discharging transmission chain 152 to drive for transmission, and the fourth discharging transmission chain 152 drives the third discharging shaft 21 to rotate, so that the aluminum profile transmitted from the discharging shaft 15 is transmitted to the other side.

When the transmission direction needs to be changed, the central motor 13 is started, the central motor 13 drives the rotating shaft 131 to rotate, the rotating shaft 131 drives the fixing frame 132 to rotate, the fixing frame 132 drives the device to slowly rotate along the disk track 1 at a constant speed, and weight deviation generated when aluminum profiles with unequal weight are conveyed through four groups of independent transmission mechanisms and the external disk track 1 is prevented, so that the service life of the rotating shaft is shortened.

The roughness measuring instrument 11 detects the surface roughness of the disc track 1 in real time as the device rotates along the disc track 1. When the automatic polishing machine is started, the cleaning brush 111 cleans the surface of the disc track 1 in real time to clean foreign matters such as surface dust, the roughness measuring instrument 11 detects the surface roughness of the disc track 1, when the roughness exceeds a warning value, the automatic polishing seat 8 starts to work, the electromagnetic seat 84 inside the automatic polishing seat 8 is electrified to generate magnetism to slide the sliding frame 82 downwards along the sliding rail 71, the polishing ring 81 and the cleaning disc track 1 start to be polished in surface contact, and the synchronous linkage brush 86 and the brush disc track 1 are in contact to timely clean the surface of the cleaning disc track 1 after polishing. When the roughness measuring instrument 11 detects that the surface roughness of the disc track 1 returns to a normal value, the electromagnetic seat 84 is powered off and demagnetized, and the grinding ring 81 returns to the original position under the action of the return spring 83.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience of description and simplicity of description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a feed mechanism for aluminium alloy divides material, includes disc track (1), disc track (1) upper portion one side is provided with feeding centre frame (2), feeding side bearer (3), its characterized in that are installed to feeding centre frame (2) both sides: disc track (1) upper portion opposite side is provided with ejection of compact center frame (4), ejection of compact side bearer (5) are installed to ejection of compact center frame (4) both sides, two sets of four sections feed line (12) have been cup jointed on feed center frame (2) upper portion, feed line (12) upper portion interval is provided with puts thing department (121) and forbids putting thing department (122), the terminal keeps a set of thing department (121) and another group is forbidding to put thing department (122) all the time when two sets of feed line (12) transmit, disc track (1) intermediate position is provided with four independent driving motor (14), driving motor (14) output is connected with final drive shaft (141), final drive shaft (141) have cup jointed feeding transmission chain (143), ejection of compact transmission chain (148) and well transmission chain (142) by inside to outside in proper order, and above three sets of transmission chain are T type position setting.

2. The material distribution mechanism for distributing the aluminum profiles according to claim 1, wherein one side of the first feeding transmission chain (143) is sleeved on the first driven transmission shaft (144), the second feeding transmission chain (145) is sleeved on the upper portion of the first driven transmission shaft (144), the other side of the second feeding transmission chain (145) is installed on the first feeding shaft (16), the third feeding transmission chain (146) is sleeved on one side of the first feeding shaft (16), the second feeding shaft (17) is sleeved on one side of the third feeding transmission chain (146), the fourth feeding transmission chain (147) is connected to one side of the second feeding shaft (17), and the third feeding shaft (18) is sleeved on one side of the fourth feeding transmission chain (147).

3. The material distribution mechanism for distributing the aluminum profiles according to claim 1, wherein one side of the first discharging transmission chain (148) is sleeved on the second driven transmission shaft (149), the second discharging transmission chain (150) is sleeved on the upper portion of the second driven transmission shaft (149), the other side of the second discharging transmission chain (150) is installed on the first discharging shaft (19), the third discharging transmission chain (151) is sleeved on one side of the first discharging shaft (19), the second discharging shaft (20) is sleeved on one side of the third discharging transmission chain (151), the fourth discharging transmission chain (152) is connected on one side of the second discharging shaft (20), the third discharging shaft (21) is sleeved on one side of the fourth discharging transmission chain (152), and the middle discharging shaft (15) is sleeved on the upper portion of the middle transmission chain (142).

4. The material distributing mechanism for distributing the aluminum profiles according to claim 1 is characterized in that a control console (22) is arranged at the center of the disc track (1), a central motor (13) is arranged at the upper part of the control console (22), the output end of the central motor (13) is connected with a rotating shaft (131), a fixing frame (132) is installed at the upper part of the rotating shaft (131), and four groups of material distributing shafts (15) are symmetrically connected to the upper part of the fixing frame (132).

5. The material distributing mechanism for distributing the aluminum profiles according to claim 1, wherein an intermediate frame (9) is arranged between the feeding side frame (3) and the discharging side frame (5), two sides of the intermediate frame (9) are fixedly connected with the feeding side frame (3) and the discharging side frame (5) through fixing bolts (91), two groups of sliding frames (92) are arranged at the front end of the intermediate frame (9), small pulleys (10) are installed at the bottoms of the sliding frames (92), a roughness measuring instrument (11) is installed at the middle position of the intermediate frame (9) through a cross frame (93), and a cleaning brush (111) is arranged on the front side of the roughness measuring instrument (11).

6. The material distributing mechanism for distributing the aluminum profiles according to claim 1 is characterized in that a large pulley (6) is installed at the bottom of the feeding center frame (2), a sliding shaft (7) is arranged at the bottom of the feeding side frame (3), sliding rails (71) are arranged on two sides inside the sliding shaft (7), and an automatic grinding seat (8) is arranged on the outer side of the sliding shaft (7).

7. The aluminum profile separating mechanism is characterized in that the automatic grinding seat (8) comprises a grinding ring (81), a sliding frame (82), return springs (83), an electromagnetic seat (84), a linkage frame (85) and linkage brushes (86), the grinding ring (81) is installed on two sides of the sliding frame (82), the sliding frame (82) is connected in the sliding rail (71) in a nested mode, three sets of return springs (83) are installed at the bottom of the sliding frame (82), the electromagnetic seat (84) is connected to the bottom of the return springs (83), and the linkage brushes (86) are connected to one side of the grinding ring (81) through the linkage frame (85).

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